DCL-10-081, DCPP Data Format for Hourly Master Data

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DCPP Data Format for Hourly Master Data
ML102581112
Person / Time
Site: Diablo Canyon  Pacific Gas & Electric icon.png
Issue date: 08/02/2010
From:
Pacific Gas & Electric Co
To:
Office of Nuclear Reactor Regulation
References
DCL-10-081
Download: ML102581112 (408)


Text

DCPP Data Format for Hourly Master Data Record format = Fixed Block, Record Length = 92 Data Period = 12/16/80 to Present Variable (Possible Values) Fortran Column Invalid Format Indicato r

ID (11) 12 1-2 Year (1973 - Present) 12 3-4 Month (01- 12) 12 5-6 Day (01-31) 12 7-8 Hour (0 1-24) Pacific Daylight Time 12 9 - 10 Blank 4X 11-14 Wind Speed - 10m (MPH) F4.1 15- 18 99.9 Peak Wind Speed - 10 m (MPH) 12 19 - 20 99 Wind Direction - 1Oin (DEG) 13 21 - 23 999 Sigma A - 0Om (DEG) F4.1 24-27 99.9 Not Used 28 - 35 Wind Speed - 76m (MPH) F4.1 36 - 39 99.9 Peak Wind Speed - 76 m (MPH) 12 40-41 99 Wind Direction - 76m (DEG) 13 42 - 44 999 Sigma A - 76m (DEG) F4.1 45 - 48 99.9 Not Used 49 - 56 Dew Point - 0Om ('F) F4.1 57-60 99.9 Temperature - 10Om (°F) F5.1 61 -65 999.9 Temperature Gradient 10 - 46m (0 F) F5.2 66 - 70 99.99 Temperature Gradient 10 - 76m (°F) F5.2 71 - 75 99.99 Precipitation (inches) F4.2 76 - 79 9.99 Visibility (to 1.5 miles) F4.2 80 - 83 9.99 Not Used 84 - 92

DIABLO CANYON LAND STEWARDSHIP PROGRAM WILDLANDS FUEL MANAGEMENT PLAN Pacific Gas and Electric Company Technical Project Services 3400 Crow Canyon Road, San Ramon, California 94583 Environmental Services 650 North 0 Street, Fresno, California Preparedby:

Michael E. Fry and Sally Krenn Senior Biologists And Dan Stocks PG&E - Diablo Canyon Fire Captain Preparedfor:

Diablo Canyon Land Stewardship Diablo Canyon Power Plant January 2007

ACKNOWLEDGMENTS Fuel inventory assessments and management recommendations were provided by consulting forester Ted Waddell, Diablo Canyon Fire Marshall Carmen Johnson, Diablo Canyon Fire Captain Dan Stocks and PG&E biologists Michael Fry, Mark Dedon and Sally Krenn.

Additional expert advice on fuel typing and fire behavior modeling was received from Scott Stephens and Mark Finney of the US Forest Service, and Ben Parker and Ben Stuart of the California Department of Forestry and Fire Protection. Sue Morrow and Jim Burcheri assisted with field data collection. Special thanks to Chet Voss, General Services Supervisor responsible for Land Stewardship activities during the development of this program, for his continued enthusiasm and responsible attitude toward stewardship of Diablo Canyon Lands.

Finally, to Diablo Canyon Fire Marshall, Carmen Johnson (retired) who perceived the need for this program, who annually obtained funding from various sources to carry out fuels management activities, and who encouraged the participation of the Stewardship Committee in wildlands fuel management, we are especially indebted.

EXECUTIVE

SUMMARY

This document presents a plan for control and management of wildland fuels within the Diablo Creek watershed. This plan is the latest step in a continuing program of vegetation management that began in the watershed during the late 1980's. The purpose of this program is to reduce risk of facility and transmission line damage from wild fire. Fuel types vary across the landscape creating what is referred to as a fuels mosaic. The goal of this plan is to lessen and maintain the fuel loads to a Model 1 and 5 (Anderson 1982) with a live/dead fuel load of less than 3.5 tons per acre. The effectiveness of these treatments will be assessed and documented annually in a written report to the Diablo Canyon Land Stewardship Committee Wildland Fuels Management Plan 2

TABLE OF CONTENTS IN T RO D U C T ION ........................................................................................................... 4 OVERVIEW OF FIRE HAZARD AND NEED FOR MANAGEMENT ..................... 4 CURRENT FUELS MANAGEMENT PRACTICES ..................................................... 6 PRIM ARY TR EA TM EN TS .......................................................................................... 6 H an d C learin g ................................................................................................... ..... 6 M echanical T reatm ents ........................................................................................... 6 C ru sh and B u m ........................................................................................................ 6 SECONDARY TREATMENTS .................................................................................... 7 L iv estock G razin g .................................................................................................... 7 C hem ical H erb icides ................................................................................................ 8 A DECISION MODEL FOR FUELS MANAGEMENT ............................................... 8 VEGETATION AND FUELS INVENTORY ................................................ 10 G rasslan d ...................................................................................... 10 C oastal S crub ................................................................................. 10 C h ap arral ...................................................................................... 11 USE OF THE FARSITE MODEL .................................................................................. 12 R ate of F ire Spread .................................................................................................. 13 Flam e L ength and Intensity ..................................................................................... 13 SELECTING TREATMENT METHODS .................................................................... 13 TASK AND COST

SUMMARY

....................................................................................... 14 LITERATURE CITED ............................................................................ .16 LIST OF FIGURES Figure 1: Aerial of Wildlands Fuel Management Area (WFMA) ............................... 5 Figure 2: Wildlands Fuel Mangement Compartments ........................................... 9 Wildland Fuels Management Plan 3

INTRODUCTION The purpose of this document is to present a plan for wildlands fuel management within the Wildlands Fuel Management Area (WFMA) (Figure 1), that part of the Diablo Canyon Lands containing the power plant site, switch yards and both incoming and outgoing transmission lines.

Under this plan, PG&E will act to manage the risk of a catastrophic fire within the Diablo Creek watershed, where transmission and switching facilities are particularly vulnerable to fire. Such a fire has the potential to take the power plant off line for an undetermined period of time. This wildlands fuel management plan is based upon knowledge acquired during a continuous program of active fuels management and related research that began within the Diablo Creek watershed in 1989. This program has been using a fire behavior model, called FARSITE, to aid fuels management decision making. FARSITE has aided us in recommending the following actions:

  • Further evaluation of the effectiveness and costs of various techniques of fuel management
  • Inventory of fuel types and slope conditions within the watershed, and This work is reviewed annually and the results are summarized below.

OVERVIEW OF FIRE HAZARD AND NEED FOR MANAGEMENT The major factors that influence fire behavior are fuel load, fuel moisture, climate conditions, and to a lesser extent the presence of oils, tars, resins, and other volatile chemical compounds found in plant tissues. WFMA's chaparral and coastal scrub vegetation are characterized by drought-tolerant and highly combustible plant species. These vegetation types and others that occur in the watershed (e.g., live oak woodland and annual grassland) are fire adapted. In the absence of periodic fires or other disturbance, high fuel loads develop creating the opportunity for a catastrophic wildfire event. Fire danger rises and falls seasonally with changes in temperature, humidity, and fuel moisture. The most critical period is late summer and fall.

Without a continuing program of fuels management, a fire, especially one driven by dry offshore winds (a.k.a., Santa Ana winds), could seriously impact transmission lines, switching equipment, perimeter buildings, and other areas on the plant site.

The goal of the current fuels management program is not to eliminate the possibility of a wildland fire, but to significantly reduce the probability that a fire originating on or spreading to WFMA lands will result in serious damage. To achieve this goal we will continue to affect the distribution and interspersion of fuel types (vegetation) in ways that influence fire behavior in a positive way. This means:

  • Slowing the rate at which fire can spread
  • Lowering flame height potential, and
  • Reducing potential for extreme heat around electric facilities.

Wildland Fuels Management Plan 4

I Figure 1 - Wildlands Fuel Management Area Wildland Fuels Management Plan 5

CURRENT FUELS MANAGEMENT PRACTICES Fuel management methods currently used or proposed for use in the WFMA include hand clearing, mechanical treatments, chemical treatments, prescribed burning, and managed livestock grazing. Effective fuel management is not a one-time event, but is a continuous process. Future planning efforts will be directed at selecting strategically important sites for control of fuel build up, and the least costly techniques for affecting that control.

PRIMARY TREATMENTS These treatments are applied to heavy stands of mature woody vegetation, and are capable of reducing the stand to ground level or near ground level. Primary fuel treatments include 1) hand clearing, 2) mechanical mower/mulchers, and 3) control burning.

Hand Clearing Hand clearing began in 1991 on the north side of the watershed. This work is being performed by convict crews under the supervision of the California Department of Forestry and Fire Protection. Work performed by the crews is part of a state-funded program and, therefore, PG&E costs are considerably below what would be paid under a conventional services contract.

However, restrictions apply to the use of convict labor, and this state-funded program could be eliminated at any time. Replacing convict labor with a commercial contractor would result in significantly higher costs. Hand clearing has been used primarily to clear mature chaparral on slopes too steep for mechanical mowers. The crews cut the vegetation to ground level and then pile it into windrows. The piles are allowed to air dry over the summer and are then safely burned during the winter.

Mechanical Treatments Mechanical treatments of two types have been used within the management area where slope conditions and access have allowed. High blading has been used prior to burning to reduce fuel moisture. This involves use of a caterpillar style tractor with adjustable blade to crush and break down the heavy brush, which is then allowed several months to dry before the stand is burned (see Crush and Bum below). The second type involves a mower/mulcher, a large track mounted device used to clear vegetation from the shoulders of tower access roads throughout the watershed, and to clear stands of mature coastal scrub north of Diablo Creek. These machines can clear approximately 1.5 acres of mature brush per day, but can not operate on much of the steep slopes that encompass much of the WFMA.

Crush and Burn The technique of using a tractor to crush a stand of brush, then allowing the stand to dry for several months prior to burning has been used in WFMA on five occasions since 1988. A total of 61 acres have been treated in this manner. The method is effective, but is not without risk.

Even well planned controlled bums can escape if weather conditions suddenly change. In addition, there is the risk that smoke may foul transmission line insulators. Where and when Wildland Fuels Management Plan 6

these risks can be adequately managed, burning will remain a viable and cost-effective method.

SECONDARY TREATMENTS Following the primary treatment, secondary treatments are used to control resprouting vegetation. The shrub species within the WFMA evolved under the influence of frequent fires.

Many fire-adapted species sprout back vigorously from their root crowns following fire or mechanical disturbance. Others produce seeds that require heat or mechanical scarification to germinate. Thus, a profusion of sprouts and young seedlings usually follows a primary treatment. Left alone for as few as six years following primary treatment, coastal scrub stands can regrow themselves to a mature stage characterized by high fuel loading. The secondary treatments used in the WFMA to maintain vegetation below this stage have included chemical herbicides and livestock grazing.

Livestock Grazing Goats are primarily browse feeders (leaves and twigs of woody plants) and consume smaller amounts of grass and forbs. Goats have been extensively used in other parts of the West and Southwest to control brush. In California they are most often used after burning or mechanical treatments to control resprouting brush. The use of goats as a secondary fuel management treatment began in the WFMA in 1992, when 300 goats were confined on 15 acres of chaparral and an additional 5 acres of mature coastal scrub for a period of six weeks. They were handled using a high intensity short duration rotational grazing system that employed portable electric fencing and 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> supervision by trained herdsmen. In 1993, 800 goats were used to browse six areas totaling approximately 51 acres. In 1994, approximately 1,000 goats were used to browse an area totaling 140 acres.

Goat grazing, under the system described above, was arranged through a contract with a commercial vegetation management service. Over time, the costs of the service became less competitive when compared with other available techniques. A solution was found in 1996 when a new contract for vegetation management was written that, for the first time, brought about a year-long program of goat grazing. The current program involves a smaller herd size of goat and sheep (currently about 500 animals) but a longer grazing period. It also involves the commercial sale of goat and sheep meat by the contractor, whose diversified goat enterprise enables him to offer fuels management services to PG&E at a significantly lower price.

To further reduce the labor costs and to more effectively reduce the fire loading within the WFM compartments, we will implement permanent fencing for the livestock. Fencing will be completed within the next five years with the higher risk areas being completed first. This will eliminate the use of temporary electric fencing and will allow the livestock to be grazing in the WFM area all year long.

In addition to goat grazing, the WFMA is grazed by two separate herds of cattle, one consigned to the area north of Diablo Creek and the other to the south. Once heavy brush has been treated with one of the primary techniques, annual grasses quickly invade and become established along with resprouting woody species. There is considerable dietary overlap between goats and cattle, Wildland Fuels Management Plan 7

with cattle preferring grass and forbs but also eating small quantities of browse, and goats requiring significant quantities of woody browse but also eating grass and forbs throughout the year. Livestock make a positive and cost effective contribution to fuels management within the watershed, and properly managed, are compatible with other resource objectives of the Land Stewardship Program.

Field Evaluation of Grazing Effects. On June 24, 1998, at the request of the Diablo Canyon Land Stewardship Committee, an annual monitoring program using a GIS platform was used by TPS and ES biologists to determine the effectiveness of livestock impact in each compartment of the WFMA. The WFMA was divided into 27 compartments (Figure 2) and in the fall of each year biologists identify each fuel type in the field to estimate the fuel load for each compartment.

These data are taken to the Diablo Fire Captain for review. In the areas where livestock grazing is not reducing vegetation sufficiently, other treatment methods such as chemical herbicides are reviewed and then implemented, in these areas.

Chemical Herbicides Herbicides have been applied in the watershed to prevent build up of fuels using foliar-applied directed low volume spray. Both hand spraying from backpacks and vehicle-mounted sprayers have been used. In 1991 and 1992, three herbicide applications involving a total of approximately 11 acres of resprouting coastal scrub were conducted. The treatment area, located within the 500 kv transmission line right-of-way south of Diablo Creek and approximately opposite the switch yard, has received livestock grazing (goats, sheep and cattle) on an annual basis since the herbicide applications were made. In 2005 and 2005, 40 acres of land on the north-facing slopes were sprayed with Roundup. The combined effect of the two treatments has resulted in a seemingly stable cover of low shrubs and grass (Figure 3 - panoramic photo).

When properly handled and applied, herbicides pose little risk to the operators or the environment and will generally control a site longer than other methods. There is a risk of accidents associated with the transport and handling of toxic chemicals. However, this risk is probably no greater than the risk of fuel (diesel or gasoline) spills associated with mechanical treatments.

A DECISION MODEL FOR FUELS MANAGEMENT The fuels inventory, weather variables, and other relevant data are used with the FARSITE model to identify where fuel conditions in the watershed might result in facility damage or a power outage should a fire occur. These areas are then targeted for treatment. The choice of treatment depends on several factors including ease of access, slope conditions, environmental and other risk factors, and cost. Best Management Practices (BMPs) identified in the Diablo Canyon Land Stewardship Program document and information on treatment techniques and costs found in the Fuel Management White Paper; Appendix A will be used to guide the selection of treatments.

Areas not identified by FARSITE as requiring treatment will continue to be managed using livestock grazing, selective application of herbicides and some mechanical techniques to contain fuel volume within safe limits and to maintain transmission facilities (towers and access roads) in conformance with PG&E and CPUC maintenance standards. This approach is consistent with PG&E's policies regarding use of Integrated Vegetation Management for protection and maintenance of Company facilities throughout the service territory (PG&E 1998).

Wildland Fuels Management Plan 8

Figure 2 - Wildands Fuel Management Categories Wildland Fuels Management Plan 9

VEGETATION AND FUELS INVENTORY Grassland Grasslands intermix with coastal scrub and chaparral vegetation types throughout the WFMA.

These grasslands consist for the most part of introduced annual species. Dominant species include annual ryegrass (Lolium multiflorum), ripgut brome (Bromus diandrus), soft chess (Bromus mollis), wild barley (Hordeum spp.) and wild oat (A venafatua). Important forbs include purple falsebrome (Brachipodium distachion), filaree (Erodiumspp.), cheeseweed (Malviaparviflora) and burclover (Medicagosp.) (PG&E, 1992).

Native perennial species are also present in the annual grassland. These species include purple needlegrass (Nassellapulchra),melic grass (Melica californica), giant wildrye (Leymus condensatus) and California brome grass (Bromus carinatus).

These grasslands are currently grazed yearlong by livestock. By the arrival each year of the critical fire season (late summer - fall) livestock have grazed the standing crop of available forage to a short residual layer of straw thatch covering the surface of the soil, significantly reducing fuel volume in this type. Of the 13 fuel models described by Anderson (1982), three apply to the grassland vegetation type. Fuel Model One, Short Grass, having approximately three-quarters of a ton per acre fuel loading in the one hour fuel class, and no 10 or 100 hour0.00116 days <br />0.0278 hours <br />1.653439e-4 weeks <br />3.805e-5 months <br /> fuels has been chosen as the root model to represent this fuel type in areas were grazing pressure is light or slope conditions require that greater amounts of residual. dry matter be retained to protect the soil surface from erosion. Throughout most of the watershed, grasslands will be considered a non-fuel during the most critical period of the year because of the effects of livestock grazing. Non-fuel grassland areas are represented in the fuels inventory with the symbol, zero.

Coastal Scrub The coastal scrub type, also referred to as soft chaparral, is distributed on the more moist north-and east-facing slopes, and is characterized by an assemblage of evergreen shrubs including coyote bush (Baccharispilularisvar. consanguinea), California sagebrush (Artemesia californica), coffeeberry (Rhamnus californica), sticky monkey flower (Mimulus aurantiacus),

redberry (Rhamnus crocea) and fushia-flowered gooseberry (Ribes speciosum) (PG&E, 1992).

Following fire or mechanical clearing, mature stands of coastal scrub can reform within four to six years.

Within the WFMA, coastal scrub is found primarily south of Diablo Creek where it is distributed in stands of various sizes, many of which have been treated using various techniques since 1989.

Of the 13 fuel models described by Anderson (1982), four apply to shrub vegetation types. Fuel Model Five has been chosen as the root model to represent areas of coastal scrub recently subjected to treatment. These areas are characterized by plants of shorter stature and with a greater percentage of live plant material. Density of plants (number of stems per square meter) may be greater than in older stands due to resprouting following treatment. Total fuel load in the

< 3-inch class (dead and alive) is estimated at about 3.5 tons per acre. We expect fire to be of lower intensity in this type and to be carried primarily by surface fuels (litter), plus dry grasses and forbs found in the shrub understory. These stands are currently being managed through use Wildland Fuels Management Plan 10

of controlled grazing (goats and cattle). In the future they will also receive selective herbicide applications to control those species not effectively maintained by livestock (e.g., coffeeberry).

Elsewhere, very mature stands of coastal scrub occur that represent a more-significant fuel type.

Fuel Model Four will be used as the root model to represent these stands. Type-four stands contain coffeeberry plants up to 15 feet in height and a dense continuous overstory canopy. The understory contains little if any herbaceous vegetation due to limited light penetration.

However, the ground beneath this canopy is covered by a thick accumulation of leaf litter and other dead fuels. Total fuel load in the 3-inch class (live and dead) is estimated at 13.0 tons per acre. These stands are candidates for primary treatment using controlled burning, mechanical mowing, or some combination of these techniques. Location relative to facilities needing protection and the results of fire behavior modeling will be used to prioritize and schedule treatments in this fuel type.

Chaparral Within the Diablo Creek watershed, hard chaparral is distributed primarily on the dryer south-and west-facing slopes north of Diablo Creek. These brush fields sometimes occur as pure stands of wild lilac (Ceanothus thyrsiflorus), forming a densely closed canopy with individual plants that vary from six to more than ten feet in height. A variant of this type, central maritime chaparral, is characterized by several species of manzanita (Arctostaphylos spp.) and favors rocky soils found primarily on ridge tops and high ravines. Fire may be essential to effective reproduction of certain key species in this shrub type.

Over the last ten years, a substantial amount of the mature chaparral vegetation north of Diablo Creek has been treated using hand clearing. Some small pockets of mature brush remain (e.g., in protected drainage channels). As with the mature coastal scrub vegetation, these very mature stands of chaparral are characterized by high fuel loads. Fuel Model Four will be used as the root model to represent these stands. Total fuel load in the 3-inch class (live and dead) is estimated at 13.0 tons per acre.

Hand clearing in this type, followed by grazing has shifted species composition toward mixed stands of low shrubs (black sage (Salvia spp.), and coyote bush) with a significant annual grass/tall herb component. Grasses and tall herbs tend to dominate in the early post-treatment period. Low shrubs may become more numerous and contribute more to total percent cover in this fuel type over time. Blue blossom ceanothus resprouts, but not at an alarming rate at a following hand clearing and so is effectively reduced by this treatment (though presumably a fire would cause germination of seed still present in the soil). Areas previously hand cleared will be represented by either Fuel Model 2 or Fuel Model One, depending on the relative amounts of shrub and grass cover. Selective herbicide application is recommended as biologists have observed that the goat resistant black sage allows the young ceonothus to sprout under its canopy (i.e. herbicides).

Wildland Fuels Management Plan I1I

USE OF THE FARSITE MODEL FARSITE (Fire Area Simulator) is a model for spatially and temporally simulating the spread and behavior of fires under conditions of mixed terrain, fuels, and weather. FARSITE was developed to provide management support of prescribed natural fires. The model can be useful in both planning and operational phases.

A Geographic Information System (GIS) is a required tool for preparing the spatial data that FARSITE needs. Using a GIS, the fuels and terrain data are formatted into overlaying grids that represent the study area. FARSITE uses this grid data to drive the simulations and produce output files that can be transferred back to the GIS for presentation or further analyses.

The Diablo Canyon Land Stewardship Committee began development of a GIS to represent the Diablo Lands in 1991. This data base contains many layers of natural resource information including an elevation model, vegetation mosaic, and fuels inventory for the Diablo Creek watershed. The fuels inventory was developed from a digital ortho-rectified aerial photograph taken in September 1995 and an updated aerial was flown in October 2006, and will be integrated with the existing vegetation map of the watershed using the GIS. Fuel models, based on Anderson (1982), were assigned to each vegetation polygon within the management area, and these were further adjusted using the expert opinion of Dr. Scott L. Stephens, University of California, Berkeley, and on-site field sampling to determine weight of fuels within specified size classes.

Weather is an important driver of wildfire. FARSIITE uses several weather parameters contained in two separate files to drive the simulation of fire propagation. The "Weather Stream" input file contains site elevation and daily values of precipitation, minimum and maximum temperatures, the hour of minimum and median temperature, and the minimum and maximum relative humidity. The "Wind Stream" input file contains hourly wind speed, wind direction, and cloud cover values.

Weather data input files have been prepared from data recorded at the primary meteorological station at the power plant facility (about one half mile west of the study area) and from a nearby ridge line site (about four miles east of the study area). These data can be used to predict fire behavior in the Diablo Creek watershed.

Rate of Fire Spread The rate at which a fire spreads through the landscape is influenced by factors such as the pattern of fuels, topography, the time and place of ignition, and weather. Vegetation can be managed to create a mosaic of fuel types with differing fuel volumes. The strategic purpose behind this type of fuel management is to buy critical time. By slowing the rate of spread, fire crews and equipment may have the opportunity to achieve containment before serious damage has occurred. When computer simulations indicate a dangerously rapid rate of fire spread (to be determined in consultation with the California Department of Forestry and Fire. Protection), the involved area(s) will be targeted for treatment.

Wildland Fuels Management Plan 12

Flame Length and Intensity Flame heights are correlated with the height of vegetation and fuel moisture. Managing vegetation for low flame height potential lessens the chance that a fire will result in heat damage to overhead conductors. The electrical resistance of air decreases with increasing temperature.

Outages have occurred when the air surrounding overhead conductors has become super heated by wildfire. The range of conductor height within the Diablo Creek watershed is 45 to 70 feet from ground level. It may one day be possible to calculate the heat produced by a simulated wildfire passing below transmission lines, but at present we lack this capability. For now, whenever our simulations show flame heights approaching the height of conductors, the location(s) involved will be targeted for treatment.

SELECTING TREATMENT METHODS The two general categories of treatments previously described (i.e., secondary and primary) involve fundamentally different techniques. Combined grazing by goats and cattle, under the current contract and license agreements, is a very cost competitive technique for maintaining vegetation in a low fuel volume condition. Use of herbicides compliments this technique by targeting only those woody plant species not effectively controlled by livestock. Areas currently managed in this way will continue to be so managed, with the expectation that annual FARSITE simulations, based on frequently updated fuels inventory data, will show these managed areas as, "fire safe." Key to the continued success of this effort is proper planning and communication involving the Land Stewardship Committee, the operators directly responsible for the management of livestock herds, pest control advisors responsible for scheduling herbicide applications, others performing work within the watershed, and any additional interested stakeholders. A one to two day workshop will be held annually for the purpose of identifying treatment goals, determining and scheduling treatment methods, and documenting these decisions using the most recent watershed map with fuels inventory. Attendees of the workshop will include representatives from each of the groups identified above.

Some areas remain within the watershed where primary treatment of mature brush is indicated.

These sites will be assessed independently to determine treatment techniques and priorities.

Issues of vehicle access and slope conditions affect the suitability of some sites for treatment using heavy machinery. Prescribed fire can only be used where the proximity of overhead lines or other facilities poses manageable risks. The size of the area requiring treatment is also a consideration in choosing a treatment method, as some techniques are not cost effective when applied on too small an area. When primary treatments are indicated, these will be presented and discussed at the annual fuels management workshop with the goal of 'allowing all watershed activities to be coordinated to the greatest extent possible in order to reduce conflicts.

Wildland Fuels Management Plan 13

TASK

SUMMARY

Presented below, is a breakdown of task activities associated with a wildlands fuels management program in the Diablo Creek Watershed:

Activities Schedule Define Fuels Area

  • Establish new boundaries for WFM plan Completed Update Fuels Inventory - conducted every 5 years
  • Obtain new aerial ortho-rectified photo Completed
  • Establish current fuel mosaic from aerial photo Completed

" Incorporate new imagery into mobile GIS platform Completed (separate layers for different photo dates)

" Field verify and assign fuel models to each fuel polygon Completed

  • Run Farsite Model using fuels inventory (update related March 2007 data layers- weather, DEM, etc.)

" Identify high risk locations in the watershed March 2007

  • Compare 2003 and 2006 fuel mosaics (GIS group) March 2007 Develop Treatment Prescription plan
  • Prioritize Primary Treatments and Treatment Locations March 2007

+ Select cost effective treatment for highest priority locations based on fuels and security risks

  • Obtain all necessary permits and approvals
  • Prepare and execute any necessary services contracts March 2007
  • Costs of implementation:

Li CDF inmate crews Di Contract brush removal

  • Prioritize Secondary Treatments and Treatment Locations March 2007
  • Meet with livestock operators and security. Develop and document a coordinated 12 month plan for grazing of goats and cattle in the watershed
  • Identify and map any recommended herbicide application sites Implement Approved Plan
  • Obtain all necessary permits and approvals Wildland Fuels Management Plan 14

Fuels Management Plan - cont.:

  • Prepare and execute any necessary services contracts
  • goat contract
  • herbicide applications

" CDF inmate crews

" Mechanical brush removal Evaluate Treatment Results (self audit)

" Arrange field inspection of treatment areas

" Involve CDF expertise in evaluation effort

" Document conclusions reached during field inspection

" Present results of inspections

  • Critique overall process; include recommendations Prepare and Submit Annual Report
  • Review steps taken to develop and execute work plan

" Identify the established scope of the work plan

" Present results of self audit

  • Critique overall process; include recommendations Wildland Fuels Management Plan 15

LITERATURE CITED Anderson, H.E. 1982. Aids to determining fuel models for estimating fire behavior. USDA For.

Serv. Gen. Tech. Rep. INT-122.

Fry, M.E. 1995. Wildlands Fuel Management on Diablo Canyon Lands. A White Paper prepared by the Wildland Fuel Management Subcommittee of the Diablo Canyon Land Stewardship Program.

PG&E. 1989. A Program of Utility Integrated Vegetation Management. Prepared by the Technical and Ecological Services Department, 3400 Crow Canyon Rd., San Ramon, California.

Wildland Fuels Management Plan 16

DIABLO CANYON WILDLANDS FUEL MANAGEMENT PROGRAM SECONDARY TREATMENT MONITORING Goat Grazing (African Boer goat male)

Diablo Canyon Land Stewardship Program Diablo Canyon Power Plant March 1999

Cover photo - Diablo Canyon's goat grazing program began with use of animals bred especially for brush management work. Though effective, these Spanish goats offered little other economic return to their owners and therefore resulted in higher contract costs. The current program involves use of Boer goats, a breed originally from Africa and available in the United States through growers in Texas. Much prized for their meat, these animals are able to return additional revenue to the goat contractor resulting in lower vegetation management costs to PG&E. The photo was taken by the author on the Robinson Ranch located in the south Texas hill country near Uvaldi. Below - One of the new crop of Diablo Canyon goats. Photo Taken March 1999 on the North Ranch near Disney Point.

4, ,

MONITORING PROGRAM FOR GOAT MANAGEMENT AREAS DIABLO CREEK WATERSHED WILDLANDS FUEL MANAGEMENT PROGRAM INTRODUCTION In early 1997, a new contract was sought for the biological control (goat grazing) component of Diablo Canyon's wildlands fuel management program. A competitive bidding process was used, a contractor was selected, and a contract was awarded for a period of five years. In March of 1999, a new five-year comprehensive plan for fuels management within the Diablo Creek watershed was written. That plan recommended the continued use of goats as one element of an integrated vegetation management approach to controlling and managing fuels within the watershed. The plan also recommended that a monitoring program be established to evaluate all aspects of the program, including goat grazing. It is the purpose of this document to provide guidelines for the monitoring of goat grazing within the watershed according to the goals set forth at the February 27, 1997 pre-bid meeting.

PROGRAM GOALS FOR GOAT GRAZING The fuels management goals ascribed to goat grazing in the watershed are:

" Maintain acceptable fuel volume (fuel types 2 and 5) in heavy fuel cover types (chaparral and coastal scrub) following primary treatment.

" Aid efforts at converting brush to grass (fuel types 0 and 1) and maintaining this cover in critical concern areas only.

  • Avoid all undesirable environmental effects (e.g., accelerated erosion, impacts to Diablo Creek and its associated riparian zone, impacts to protected non-target plant species).

Figure 1 shows the management area within the watershed and 9 areas where sampling to monitor goat grazing effects will occur. Area 2 and the southern half of Area 1, lie largely outside the watershed boundary but will continue to be grazed as part of this program. Areas 3 through 9 and the northern half of Area I are considered key components of the watershed fuels mosaic, a strategic pattern of vegetation designed to reduce the risk of a fire-caused outage at Diablo Canyon power plant.

All of Area 5 and approximately the western half of Area 6 are being converted from brush to grass using a combination of hand clearing, burning, selective herbicide applications and grazing.

The goal is to sustain only fuel types I and 2 in these areas. The remaining areas are being managed for fuel volume reduction, with the goal of sustaining each area in either fuel type 2 or 5.

Examples of these fuel types are presented in figures 2 and 3. Each of these areas will be grazed each year. The season, frequency, and intensity of grazing will be determined annually by the grazing contractor in consultation with the Diablo Canyon Land Stewardship Committee and other stakeholders. Selective application of herbicides will also be used in these areas as needed to control specific plants (e.g., coffeeberry and black sage) not effectively controlled by grazing.

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Goat Grazing Area Road 290TotalAcres - ""

Permannent Photo Figure 1.

Monitoring Station 0 1000 2000 3000 4000 5000 Secondary Treatment Areas oII II oo 0 ýFtet

Annual monitoring will be used to assess the extent to which the goals of the program are being achieved.

MONITORING PROGRAM Each of the management units identified in Figure 1 will be sampled during the first week in March and again during the first week in September of each year. A monitoring data form has been developed for this purpose (attachment 1). Data collected during sampling will quantify height and percent cover of trMet woody plants, and an estimate of percent herbaceous vegetation throughout the unit. This will be accomplished by sampling along measured transects. Color photographs will also be taken during each sampling effort. Other observations (e.g., undesirable environmental effects - see figure 4) can also be recorded on the survey form.

Transect Sampling Each management unit will be sampled using 100 meters of line intercept transect. Placement of the transect(s) should be based on the judgment of the survey team. As no statistical comparisons between units are required, randomly locating transects and use of replicate sampling is not warranted. The 100 meter transect may be divided into sub-parts in order to best deal with local conditions and achieve representative coverage. The goal of the sampling is to characterize the average condition of the unit with respect to target species composition, height of woody vegetation, and prevailing fuel type. Each unit will be evaluated and managed independently.

Target woody plant species for the unit should be identified on the field data form prior to start of sampling. During data recording each species will be represented using a letter code provided on the data sheet. Intercept distances occupied by each of the target species will be recorded on the data sheet along with the appropriate species code. Several height measurements should be taken for each target species to arrive at a representative average for the unit. This average value is then recorded on the data sheet in the space provided.

Photo Documentation, One or two representative photographs of each unit should be taken during each sampling period (March and September). Photographs should be taken with color 35mm print film (ASA 200 is recommended). After the film has been developed attach a print copy to the data form and return both to the project file. Additional photos will be taken from the permanent photo monitoring stations identified in Figure 1. All permanent photo station pictures are to be shot from a consistent direction and angle using the custom camera mounting device developed for this purpose.

Figure 2. Illustration of fuel types occurring within Diablo Creek watershed. Fuel types 0 and 1 are grassland fuels with little or no woody plant component. Fuel type 2 is a low density, short stature shrub type, with a significant herbaceous component.

Figure 3. Illustration of fuel types occurring within Diablo Creek watershed. Fuel types 1 and 2 are as described in Figure 2. Fuel type 4 is a dense, tall stature shrub type reaching 10 to 15 feet in height. Fuel type 4 contains virtually no herbaceous understory vegetation. Fuel type 5 is a moderately dense, short stature shrub type consisting of re-sprouting vegetation. Fuel type 5 may contain small to moderate amounts of herbaceous vegetation.

Figure 4. Examples of undesirable environmental effects to be avoided within the watershed.

Some undesirable effects of vegetation management:

A. Girdling of live oak trees B. Erosion caused by heavy equipment off roads C. Erosion caused by excessive grazing and heavy rainfall

ATTACHMENT Monitoring Data Form Secondary Treatment

  • DIABLO CANYON WILDLANDS FUEL MANAGEMENT PROGRAM Treatment Area SECONDARY TREATMENT MONITORING SURVEY DATE: ...... _Prescribed Fuel Type':

SURVEY CREW: Observed Fuel Type:

AR/AE#

WORK PERFORMED: Describe work performed at this site. If transect data was collected, record below. If photos were taken, attach developed prints to form. Mark each photo with date and location. Record additional observations using space available on the front of this form or attach additional sheets as needed.

Target Species: A- coyote bush; B- black sage; C- coffee berry;, D- Calift Sage; E= poison oak, F- toyon; G- ceanothus; H= herb; I= other 1 Refer to watershed photo key and fuels inventory map to identify fuel types

DRAFT North Ranch Managed Access:

Comprehensive Baseline Inventory PreparedBy Pacific Gas and Electric Company Diablo Canyon Power Plant July 2006 Document No. 001.3.06.13

List of Contributors:

Garcia and Associates - Tom Olson, Stephanie Martin, David Kelly, Rob Gilman, Pierre Fidenci, Tristan Berlund, Kathleen Whitney, and Christopher Rogers with EcoAnalysts, Inc.

Botanical Consultants - John Stebbins, Russel Kokx Tenera Environmental - Scott Kimura, Jim Strampe, Dan Dugan, Barbie Dugan, and Sue Benech Applied EarthWorks, Inc. - Jay Lloyd, Neil Rhodes, Mark Linder, and Barry Price LSA, Associates- Frank Haselton, Zac Henderson, and Sarah Spann PG&E - Mike Fry, Glenn Caruso, Bill Page, and Sally Krenn

Table of Contents 1.0 Background .......................................................................................................... 1 2.0 Introduction ........................................................................................................ 1 3.0 Terrestrial Botanical Resources ......................................................................... 5 3.1 Plant Comm unities .......................................................................................... 5 3.1.1 Sensitive and Unique Upland Habitats ................................................... 7 3.2 Special Status Plants .................................................................................... 11 3.2.1 Study Sites ........................................................................................... 11 3.2.2 Species Accounts .................................................................................. 11 3.2.3 Survey M ethods .................................................................................... 16 3.2.4 Survey Results ....................................................................................... 16 3.3 Noxious W eeds ............................................................................................ 16 3.3.1 Study Sites ........................................................................................... 17 3.3.2 Species Accounts .................................................................................. 17 3.3.3 Survey M ethods .................................................................................... 25 3.3.4 Survey Results ....................................................................................... 25 3.4 Discussion .... . ......................................................................................... 25 4.0 Terrestrial W ildlife ............................................................................................ 28 4.1 Invertebrates ................................................................................................. 28 4.1.1 Study Sites ............................................................................................ 28 4.1.3 Survey M ethods .................................................................................... 30 4.1.4 Survey Results ....................................................................................... 30 4.2 Am phibians and Reptiles ............................................................................. 31 4.2.1 Study Sites ........................................................................................... 31 4.2.2 Species Accounts .................................................................................. 32 4.2.3 Survey M ethods .................................................................................... 37 4.2.4 Survey Results ....................................................................................... 38 4.3 Birds ............................................................................................................. 40 4.3.1 Study Sites ........................................................................................... 40 4.3.2 Sensitive Species Accounts .................................................................. 40 4.3.3 Survey M ethods ..................................................................................... 43 4.3.4 Survey Results .................................................................................... 47 4.4 M am m als ...................................................................................................... 54 4.4.1 Study Sites ........................................................................................... 54 4.4.2 Sensitive Species Accounts .................................................................. 55 4.4.3 Survey M ethods ..................................................................................... 56 4.4.4 Survey Results ....................................................................................... 59 4.5 Discussion ..................................................................................................... 60 5.0 M arine Resources ............................................................................................... 63 5.1 Intertidal Com munity .................................................................................. 63 5.1.1 Study Site .............................................................................................. 63 5.1.2 Species Accounts .................................................................................. 63 5.1.3 Survey M ethods ..................................................................................... 68 5.1.4 Survey Results ....................................................................................... 75

5.1.5 Discussion ............................................................................................ 85 5.2 M arine M am m als ......................................................................................... 88 5.2.1 Study Sites ........................................................................................... 88 5.2.2 Species A ccounts .................................................................................. 89 5.2.3 Survey M ethods ..................................................................................... 89 5.2.4 Survey Results ....................................................................................... 90 5.2.5 Discussion ............................................................................................ 91 5.3 N esting Sea Birds .......................................................................................... 95 5.3.1 Study Sites ........................................................................................... 96 5.3.2 N esting Sea Bird Species Accounts ...................................................... 96 5.3.3 Survey M ethods ...................................................................................... 100 5.3.4 Survey Results ........................................................................................ 101 5.3.5 Discussion ............................................................................................... 105 6.0 Cultural Resources .............................................................................................. 108 6.1 Physical and Cultural Setting .......................................................................... 108 6.1.1 Physical Environm ent ............................................................................. 108 6.1.2 Prehistory ................................................................................................ 109 6.1.3 Ethnography ............................................................................................ 111 6.1.4 H istory ..................................................................................................... 112 6.2 M ethods ........................................................................................................... 115 6.2.1 Background Research M ethods .............................................................. 115 6.2.2 Field M ethods ......................................................................................... 116 6.3 Study Results .................................................................................................. 116 6.3.1 The Japanese Community in San Luis Obispo County .......................... 116 6.3.2 Japanese Farm ing on Spooner Ranch ..................................................... 118 6.3.3 Inventory of Archaeological Resources .................................................. 119 6.4 Discussion ....................................................................................................... 122 7.0 Sustainable Agriculture ....................................................................................... 122 7.1 Historical Context ........................................................................................... 123 7.2 Land Stewardship and Best M anagem ent Practices ....................................... 124 7.3.1 Grazing M anagem ent ..................... ........................................................ 127 7.3.2 M anagem ent Infrastructure ..................................................................... 128 7.3.3 Livestock ................................................................................................. 128 7.4 Annual Monitoring (Stock flow, photostations, and RDM) ........................... 130 7.5 Resource. M anagem ent Initiatives on the N orth Ranch .................................. 130 7.5.1 Public Outreach ..................................................................................... 130 7.5.2 Cultural Resource Protection .................................................................. 133 7.5.3 N ative Grass Restoration ........................................................................ 133 7.6 Discussion ....................................................................................................... 134 8.0 Geology and Soils ............................................................................................... 136 8.1 Coastal Bluff Caves ........................................................................................ 139 8.1.1 M ethods ......................................................................................................... 139 8.1.2 Results ........................................................................................................... 142 8.2 Coastal Bluff Erosion and Surficial Geologic Features .................................. 142

8.3 Stew ardship BM Ps Related to Soils ............................................................... 146 8 .4 D iscu ssio n ....................................................................................................... 14 9 9 .0 R eferen ces ........................................................................................................... 14 9 List of Figures:

Figure 2.0-1. North Ranch Study Area (NRSA) ......................................................... 4 Figure 3.1-1. Plant communities of the Pecho Ranch (taken from Diablo Canyon Land Stewardship Program, Pecho Ranch Grazing Capacity Report, PG&E 1992) ............ 6 Figure 3.1-2. Existing roads and landmarks on the NRSA ........................................ 10 Figure 3.3-1. Known noxious weed populations within the NRSA ......................... 18 Figure 4.2-1. Amphibian and reptile survey locations in the NRSA (northern section).

........................................................................................................................................ 33 Figure 4.2-2. Amphibian and reptile survey locations in the NRSA (southern section).

........................................................................................................................................ 34 Figure 4.3-1. Peregrine falcon eyrie location ........................................................... 49 Figure 4.4-1. Small mammal trapping sites in the NRSA ....................................... 58 Figure 4.5-1. Results of sensitive wildlife surveys performed within the NRSA in 2005

- 220 0 6 . .......................................................................................................................... 61 Figure 5.1-1. Shoreline habitats along the NRSA coast. Note that the upper photographs show the remaining rocks of a collapsed headland .............................. 64 Figure 5.1-2. Locations of the RWMP horizontal band transect (HBT), vertical band transect (VBT), and black abalone stations ............................................................... 73 Figure 5.1-3. Tenera biologists sampling intertidal quadrats .................................. 74 Figure 5.1-4. Prickleback fish (Stichaeidae) sampled in the intertidal vertical band tran sect stu dy ................................................................................................................. 76 Figure 5.1-5. Habitat mapping results for the shore surrounding and including Point Buchon. The relative abundances of species associated with each habitat type are presented in T able 5.1-5 .......................................................................................... . . 77 Figure 5.1-6. Mean abundance of intertidal algae sampled in the HBT upper and lower transects in the NRSA (1976-2005). Species are the top 15 most abundant species across transects and surveys ....................................................................................... 83 Figure 5.1-7. Mean abundance of intertidal invertebrates sampled in the HBT upper and lower transects in the NRSA (1976-2005) .......................................................... 84 Figure 5.1-8. Mean abundance per survey of intertidal fish sampled in Station VBT NC-1V (1999-2005) ........... ................................. 86 Figure 5.1-9. Changes in the abundance of black abalone in 2 x 10 meter transect plots in the NR SA (1989-2005) ......................................................................................... 86 Figure 5.2-1. Harbor seal and sea otter haulout locations and number of hauled out animals observed in four survey days within the NRSA, spring-summer 2005 ........ 92 Figure 5.2-2. Maximum number of harbor seals observed hauled out along the NRSA coast (1973-2005) ........................................................................ 93

Figure 5.3-1. Known locations of sensitive marine birds within the NRSA as determined by surveys performed in 2005 ............................................................... 98 Figure 5.3-2. Sections of coast (ranch paddocks) used to summarize coastal distribution data on nesting seabirds within the NRSA .................... * ....... 103 Figure 5.3-3. Number of nesting seabirds observed by sections of coast in two surveys completed in spring-summer of 2005 along the NRSA ............................................... 104 Figure 7.1-1. Historic pump house built in the 1940s, located on Coon Creek within the N R S A ............................ ............. .................................................... 12 5 Figure 7.1-2. Old field succession along Coon Creek following end of crop agriculture in th e late 19 70 s ........................................................................................................... 12 6 Figure 7.3-1. Current paddock configuration and location of watering points on the N R S A ........................................................................................................................... 12 9 Figure 7.3-2. Goats used in wildland fuels management near the DCPP are temporarily pastured on the North Ranch during kidding season to reduce losses from predators.

Guard dogs protect the flock (center left) .................................................................... 131 Figure 7.4-1. Location of RDM sample sites and photo monitoring stations within the N R S A ........................................................................................................................... 13 2 Figure 7.5-1. Location of 4 of 5 perennial grass study plots established on the NRSA in 20 0 5 .............................................................................................................................. 13 5 Figure 8.0-1. Topographic features of the NRSA ....................................................... 137 Figure 8.0-2. Soils of the N R SA ................................................................................ 138 Figure 8.1-1. 2005 map of coastal bluff caves throughout the NRSA ........................ 140 Figure 8.1-2. Mobile GIS platform coverage of coastal bluff caves mapped in 2005.141 Figure 8.1-3. Sea caves and arch rocks along the northern portion of the NRSA (north of W in dy P oint) ............................................................................................................ 14 3 Figure 8.1-4. Soft sediment shore cliff along the southern section of the NRSA, south of B arn R o ad ................................................................................................................ 14 4 Figure 8.2-1. Surficial geologic features of the NRSA ................. :............................. 145 Figure 8.3-1. Best Management Practices (BMPs) established in 1993 to guide protection of soils ...................................................... .... 147 Figure 8.3-2. View of Big Wash taken from mobile GIS platform (2003 imagery) showing gully formation, also colluvial deposits on the terrace west of Pecho Valley R o a d ............................................................................................................................. 14 8

List of Tables:

Table 1.0-1. Summary of natural resources and land use references identified (collectively) as the Preliminary Environmental Baseline (PEB) ................................ 2 Table 3.2-1. Sensitive plant species potentially occurring and found in the NRSA ..... 12 Table 3.3-1. Noxious weed species potentially occurring or known to occur in the N R SA .* ........................................................................................................................... 26 Table 4.3-1. Observation coordinates, Coon Creek riparian bird surveys, 2005 ......... 45 Table 4.3-2. Survey dates for willow flycatcher (Empidonax trailli extimus) and least Bell's vireo (Vireo belliipusillus)along Coon Creek, 2005 ..................................... 45 Table 4.3-3. Dates, times and weather conditions of surveys for California horned lark, western grasshopper sparrow, and western burrowing owl in upland habitats, 2006.... 46 Table 4.3-4. Grasshopper sparrow observations during the April 18, May 5, and June 2, 2006 upland bird surveys, NRSA ............................................................. 51 Table 4.4-1. Small mammal trapping results at five sites within the NRSA ............. 62 Table 5.1-1. Intertidal habitat classification description .......................................... 69 Table 5.1-2. Relative abundance descriptions .......................................................... 70 Table 5.1-3. Intertidal species of scientific and resource management interest present in th e NR SA ....................................................................................................................... 71 Table 5.1-4. HBT, VBT, and black abalone sampling along the NRSA coast (1976-2 00 5) . ............................................................................................................................. 76 Table 5.1-5. Species and relative abundances associated with the habitats portrayed in Fig u re 5 .1-5 .................................................................................................................... 78 Table 5.1-6. Plant taxa sampled in the HBT stations on the NRSA coast (1976-2005).

.... ................................................................................................................................... 80 Table 5.1-7. Invertebrate taxa sampled in the HBT stations on the NRSA coast (1976-2 00 5 ) .............................................................................................................................. 81 Table 5.3-1. Nest and breeding bird count data for the NRSA coast .......................... 104 Table 5.3-2. Comparison of nest and breeding bird data for the NRSA coast, Tenera 2005 survey vs. Sow ls et al. 1980 ................................................................................ 107 List of Appendices:

Appendix A: DTF Comment Log Appendix B: Plant Species List for the North Ranch Survey Area Appendix C: List of Bird Species Observed on the North Ranch Survey Area Appendix D: Riparian Bird Species Observations and Status Summary Results (May-July 2005).

Appendix E: Minerals Management Service (MMS): Shoreline Classification GIS

1.0 Background In December of 2004, Pacific Gas & Electric Company (PG&E) received from the California Coastal Commission (CCC) a Coastal Development Permit (CDP) for construction of a spent fuel storage facilty at Diablo Canyon Power Plant (DCPP). Under Special Condition 3 of this permit, PG&E is required to prepare a managed access plan for public use of Diablo Canyon lands north of the power plant, referred to herein as the North Ranch Study Area (NRSA).

The CDP also called for the formation of a task force (DTF) composed of resource management professionals to review existing baseline data and recommend additional data or studies necessary to ensure the comprehensiveness of the baseline inventory. The purpose of the inventory was to inform the process of developing a managed public access plan as well as a plan for monitoring access effects.

PG&E, at the direction of the CCC, prepared and submitted a Preliminary Environmental Baseline (PEB) for the NRSA in March of 2005. The PEB was assembled from a broad assortment of existing PG&E report documents containing information on the natural and cultural resources of the NRSA and the adjacent coastline. Electronic copies of these documents were arranged by subject categories and placed on two compact discs (CDs).

In addition each set of CDs contained an annotated bibliography of the entire collection of documents. These electronic files (including 34 separate documents spanning the period 1975 through 2005) were distributed to the Coastal Commission staff and each of the DTF members. Table 1.0-1 identifies the general make-up of the PEB.

During a June 2005 DTF meeting, written comments on the PEB submitted earlier to PG&E by DTF members were summarized and presented for discussion. Gaps or other weaknesses identified in the PEB were largely addressed by supplemental field studies arranged for by PG&E and in progress at that time. PG&E agreed to implement some changes in the scope of studies to respond to specific issues raised by the DTF. An additional study on cultural resources requested by the DTF was agreed to as well. A summary of comments received on the PEB and actions taken by PG&E in response to these comments is presented in Appendix A.

2.0 Introduction This report documents the results of focused natural and cultural resource surveys conducted by PG&E in 2005 and 2006. The goal of the surveys was to update and strengthen the PEB data for use in development of the access and access monitoring plans, particularly in the following areas:

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 1 July 27, 2006

Table 1.0-1. Summary of natural resources and land use references identified (collectively) as the Preliminary Environmental Baseline (PEB).

Resource , -CD Foldefr No. of , Time Resources Included Category IDDocuments Span Covered ____ ___

Marine Mammals Folder 1 8 1991-1995 Sea otter, harbor seal, gray whale Marine Intertidal Folder 2 2 1995-2002 Beetles, marine algae, kelp, invertebrate animals, intertidal fishes Managed Grazing Folder 3 6 1978-2005 Coastal prairie Freshwater Ecology Folder 4 3 1990-2003 Steelhead trout, riparian zone flora, Coon Creek, Tom's pond Terrestrial Ecology Folder 52 1992-1993 Comprehensive inventory of sensitive species (plant and animal; including invertebrates)

Geology and Folder 6 3 1990-1991 Big Wash and Coon Creek Erosion Comprehensive Folder 7 5 1975-2001 Broad coverage representing (addressing multiple all biological resource resource categories) categories Cultural Studies Confidential; not 5 1988-1992 (not included for reasons of currently confidentiality) available Total: 34 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 2 July 27, 2006

  • sensitive terrestrial habitats,
  • sensitive terrestrial wildlife and plants,
  • noxious weeds,
  • sensitive marine birds and mammals,
  • intertidal habitats and their associated sensitive marine invertebrates and plants,
  • cultural resources,
  • sustainable agricultural, and
  • geology and soils.

The additional survey results, when combined with the PEB data (incorporated here by reference), constitute the final Comprehensive Baseline Inventory (CBI).

The 500-acre NRSA is located in coastal San Luis Obispo County and is bordered by Montana de Oro State Park on the north, Crowbar Peak on the south, Pecho Valley Road (a private road) on the east, and the Pacific Ocean on the west (Figure 2.0-1). These lands are the property of PG&E, and are part of a more extensive (12,000 acre) security buffer surrounding the DCPP.

PG&E contracted with several consulting firms and individual environmental scientists to collect the additional baseline data. Surveys were conducted for sensitive species with known or potential occurrence in the NRSA. These studies were conducted from March 2005 through June of 2006. Certain'studies, including botanical surveys and nesting bird surveys, were initiated prior to the receipt of all DTF comments on the PEB because they were considered necessary and time-critical.

The objectives of the surveys included: 1) gathering information to complement and update earlier studies, 2) building a baseline suitable for public access planning, particularly to assist in avoiding sensitive natural and cultural resources; and 3) collecting data needed to develop a monitoring program to assess the impacts of managed public access on natural and cultural resources. The bulk of this work was performed from March through December of 2005. Additional studies, primarily nesting upland bird surveys, were completed in June 2006.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 3 July 27, 2006

Figure 2.0-1. North Ranch Study Area (NRSA).

iI I,

. - I I Ii i ýI I I I Pacific Gas & Electric Co.

.Diablo Canyon Power Plant "p*:! ,,-,North Ranch Managed Access Study

.N I Location Figure 2.0-1 4,

.7j DRAFT I,;

I North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 4 July 27, 2006

3.0 Terrestrial Botanical Resources 3.1 Plant Communities The NRSA contains five general plant communities (vegetation habitat types): coastal bluff scrub, Central Coast willow riparian scrub, freshwater marsh, coastal sage scrub, and non-native annual grassland.' These five habitat types are fairly distinct throughout the NRSA, but locally may exhibit some gradual intergradation across transitional boundaries. The habitat descriptions presented below for all five habitats are based on the outlines provided in Sawyer and Keeler-Wolf (1995).

A comprehensive map showing the vegetation community types found throughout the Pecho Ranch is presented in Figure 3.1-1, taken from PEB document, PG&E (1992).

Non-native Annual Grassland Non-native grassland occupies the majority (approximately) 85% of the NRSA. This habitat has been extensively altered by past agricultural activities (cultivation, irrigation and grazing). Historical data (see Section 7.1) shows that most of the marine terrace lands between the main ranch road and the coastal bluffs were at one time used for cultivated crop agriculture. These operations involved extensive tilling and irrigation practices, and may have contributed to the introduction of many of the non-native plant species that now characterize the grassland community type.

The end of row crop agriculture in the 1980's, and the subsequent shift from traditional year-round continuous grazing to the present high intensity-short duration (HISD) rotational grazing (see Section 7.3.1) likely has enhanced conditions for native grass and forb species in this area.

This community type is characterized by introduced species of annual grasses and forbs including ripgut (Bromus daindrus), bur clover (Medicago hispidus), bicolor lupine (Lupinus bicolor), rygrass (Lolium multiflorum), soft chess (Bromus hordeaceus),

fiddleneck (Amsinckia intermedia), red brome (Bromus madritensis rubens), wild oats (Avena spp.), and wild radish (Raphanus sativus). Native grasses that occur broadly but in low numbers relative to annual species include purple needle grass (Nesella pulchra),

California brome (Bromus carinatus), and wild rye (Elymus glaucus).

CoastalSage Scrub Habitat This common and often highly variable habitat type is most prevelant east of the NRSA on the lower slopes of the Irish Hills. Within the NRSA it occurs North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06,13 5 July 27, 2006

Figure 3.1-1. Plant communities of the Pecho Ranch (taken from Diablo Canyon Land Stewardship Program, Pecho Ranch Grazing Capacity Report, PG&E 1992).1 DIABLO CANYON LANDS Figan1 Plant Cornmunii~c 3 01 the Pecho Ranch LEGEND 4044 IM:-;1-M~rch 5. 199

'The figure shows vegetation community types throughout the Pecho Ranch. The NRSA generally coincides with the broad swath of grassland vegetation and grass with sparse coastal scrub shown immediately adjacent to the coastal bluffs.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 6 July 27, 2006

in a narrow strip along the western shoulder of the Pecho Valley Road and in small patches elsewhere (e.g., Windy Point, Big Wash, and a raised area of land at the east end of Disney Point). Coastal sage scrub is dominated by California sagebrush (Artemisia californica), buckwheat (Eriogonum parvifolium), goldenbush (Isocoma menziesii),

poison oak (Toxicondendron diversilobum), deer weed (Lotus scoparius), black sage (Salvia mellifera), coyote bush (Bacharis pilularis), bush money flower (Mimulus aurantiacus), and numerous herbaceous forbs and grasses common in the adjacent grasslands.

Within the Central Coast region, the absence of grazing and fire as a regular disturbance regime may allow coastal sage scrub to dominate areas of coastal terrace, preventing the greater development of grassland cover. This habitat continues to be influenced by agricultural practices in the NRSA, whereas adjacent upland areas on steeper slopes, where frequency and intensity of disturbance is low, are frequently covered by a dense, closed canopy assemblage of coastal sage scrub and other woody vegetation types (e.g.,

central maritime chaparral, Bishop pine forest, and oak woodland).

3.1.1 Sensitive and Unique Upland Habitats Two of the five habitats are considered sensitive in California (Holland 1986; CDFG Natural Diversity Data Base 2006) and support unique plant and animal resources.

Central CoastBluff Scrub The coastal bluff scrub community type in the NRSA is a prostrate to low height scrub with scattered to somewhat continuous matted perennial shrubs, herbaceous perennials, and annuals. Most plants exhibit typical xerophytic or halophytic adaptations (e.g.,

succulence) to the prevalent winds with their high salt content (sea salt aerosols). The soils throughout are fairly shallow and often rocky. This habitat intergrades on its eastern (inland) boundary with non-native grasslands (exhibiting varying degrees of disturbance, from livestock) and coastal sage scrub.

The distribution of this habitat type in the NRSA is generally localized in a very narrow band along the immediate bluffs, offshore stacks, and headlands. Over this extent, its distribution is nearly continuous, with only occasional small breaks. Anthropogenic disturbance factors associated with agriculture have likely contributed to a reduction in the total area of this community type over the past 170 years (i.e., from the period following secularization of the California missions by Mexico in 1834). Other natural purturbations such as animal impact, bluff erosion, and ecological competition also affect the distribution of this type which is uniquely adapted to the harsh conditions found at the bluff edge.

The dominant perennial species characteristic of this habitat include seacliff buckwheat (Eriogonumparvifolium), seaside wooly sunflower (Eriophyllum staechadifolium), coast milk vetch (Astragalus nuttallii var. nuttallii), California saltbush (Atriplex californica),

seaside daisy (Erigeronglaucus), goldenbush (Isocoma menziesii), and coastal goldfields North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 7 July 27, 2006

(Lasthenia macrantha ssp. macrantha). Other native perennial species found more sporadically include big-tooth goldenbush (Hazardiasquarrosa),alkali heath (Frankenia salina), and live-forever (Dudleya lanceolata).

The dominant native annual species present during the 2005 field season included California goldfields (Lasthenia californica) and agoseris (Agoseris heterophylla).

Several non-native annual species also occur interspersed throughout this habitat, especially in areas with higher levels of disturbance (e.g., near roads, trails, formerly farmed sites, sites more heavily affected by animal impact). The dominant annual non-native species observed in the 2005 field season included ripgut brome (Bromus diandrus), sow thistle (Sonchus asper), fiddleneck (Amsinckia intermedia), sweet clover (Melilotus indicus), wild radish (Raphanussativus), and soft chess (Bromus hordeaceus).

Ecologically, the Central Coast region can be thought of as transitional in many respects between the broadly dissimilar ecologies of southern and northern California. So, it is not surprising that within the NRSA, coastal bluff scrub habitat exhibits some characteristics of both northern coastal bluff scrub and southern coastal bluff scrub, both of which are currently classified by the California Department of Fish and Game (CDFG) as sensitive habitats (Holland 1986; CDFG Natural Diversity Data Base 2006). However, there are also dissimilarities, having largely to do with the absence of certain key indicator species, which make our coastal bluff scrub habitat difficult to place within any of the contemporary treatments of California's natural community types (Sawyer and Keeler-Wolf 1995, Barbour and Major 1988, and Holland 1986). Therefore, we based the mapping of this habitat on the following consistently applied field estimated criteria:

Within the NRSA, the criteriafor mapping of coastal bluff scrub was targetedat a perennialcover canopy composed of at leastfour of the above perennialindicator species, and a combined canopy cover of 30% or greater.

These descriptive criteria recognize that past agricultural land use and current animal impact from livestock, burrowing animals, concentrated seabird roosting, and natural bluff erosion has reduced and fragmented the coastal bluff scrub in some locations while other locations remain largely pristine.

In mapping the distribution of coastal bluff scrub within the NRSA we began by using high-resolution digital (1-square-foot-pixel) aerial imagery and ArcPad TM GIS software to describe continuous polygons of this habitat type throughout the project area. Once completed, this coverage was used in the field with a GPS receiver to guide ground truthing of 100% of the mapped area. Editing of the shape-file was done both in the field and later in the office from notes taken in the field. On completion of the map work PG&E asked Dr. David Keil (Biological Sciences Department, Cal Poly, San Luis Obispo) to visit the NRSA with us and review both the map criteria and the interpretive work on the ground. It was Dr. Keil's opinion that the criteria and methods used were appropriate and that the results obtained were technically sound.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 8 July 27, 2006

Central Coast Willow Riparian Scrub This sensitive plant community is the predominant riparian zone vegetation type along Coon Creek, located in the extreme northern part of the NRSA (see Figure 3.1-2). Within the NRSA this habitat extends up to 50 meters on either side of the creek.

The dominant plant species associated with this habitat include two willows (Salix lasiolepis and S. lasiandra),creek dogwood (Cornus stolonifera), creeping honeysuckle (Lonicera involucrata), poison oak (Toxicodendron diversilobum), elderberry (Sambucus mexicana), sedges (Carex spp. and Cyperus spp.), rushes (Juncus spp.), willow herb (Epilobium brachycarpum), monkey flower (Mimulus guttatus), hedge nettle (Stachys bullata), poison hemlock (Conium maculatum), wild blackberry (Rubus ursinus), wild cucumber (Marah fabaceus), vervain (Verbena lasiostachys), harding grass (Phalaris tuberosa), and many other annual grasses and forbs.

FreshwaterMarsh Freshwater habitats, particularly ones characterized by emergent wetland vegetation, are uncommon on the Diablo lands and contribute significantly to the properties overall biodiversity. They are considered locally unique and important. This community type is represented in the NRSA by one man-made pond located near Windy Point. Tom's Pond derives its water from a spring found immediately south of the empoundment (Figure 3.1-2). Vegetation at the pond consists of both freshwater emergent forms and wet meadow/riparian species including arroyo willows (Salix lasiolepis), narrow-leaved cattails (Typha angustifolia), bulrush (Scirpus californicus), sour dock (Rumex crispus),

rush (Juncus capitatus), water parsnip (Berula erecta), brass buttons (Cotula coronopifolia), salt grass (Distichlis spicata), water cress (Rorripa nasturtium-aquaticum), water milfoil (Myriophyllum aquaticum), spiny cocklebur (Xanthium spinosum), and white pond lily (Nymphaea odorata).

Livestock currently have access to the pond area for feeding and for water a few days out of the year.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 9 July 27, 2006

Figure 3.1-2. Existing roads and landmarks on the NRSA.

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Diablo Canyon Power Plant North Ranch Managed Access Study 1 Existing Roads and Landmarks Figure 3.1-2 DRAFT Bo`Vý77y 00ma W5C

. (2.W .OM 0 1500 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 10 July 27, 2006

3.2 Special Status Plants 3.2.1 Study Sites Floristic botanical surveys were conducted for sensitive plant species over the entire NRSA. Based on pre-field research it was determined that the special status plants most likely to occur in the NRSA would be found in the coastal bluff scrub plant community.

Therefore, surveys were more concentrated in these areas. For more on survey methods see Section 3.2.3.

3.2.2 Species Accounts A total of 16 special status (sensitive) plant species were determined to potentially occur in the project area, these are summarized in Table 3.2-1.

Arroyo De La Cruz Manzanita (Arctostaphyloscruzensis)

This manzanita is an evergreen shrub, with bright green leaves, and is found only in sandy soils of the central California coast. There are twenty major known locations in northwest San Luis Obispo County and the Morro Bay region. The species is threatened from altered fire regimes and urbanization along the coastline. Common associates are Ceanothus maritimus, Salvia mellifera, Rhamnus crocea, R. californica, and Toxicodendron diversilobum.

The California Native Plant Society (CNPS) recently updated the species to List lB.2, a rare endemic in California (CNPS 2006). A. cruzensis was found in the Irish Hills on PG&E property just south of Coon Creek in 1993 according to the California Natural Diversity Database (CNDDB) (CDFG 2005a). The species was not observed during the field surveys in the NRSA in 2005, and the specific habitat is not present there.

Morro Manzanita (Arctostaphylos morroensis)

An evergreen shrub having dark shiny-green leaves, with gray-tomentose twigs containing long white bristles. The plant was once fairly common in the Morro Bay area.

The shrub is currently known from nine locations covering 350 acres in this historic range (CDFG 2005a). The species is a CNPS List 1 B. 1, seriously endangered endemic of California (CNPS 2006). It is threatened by urbanization and alteration of fire regimes, and possibly by competition from non-native plants. Regional planning efforts are ongoing to enhance the habitat. It was not present in the NRSA in 2005.

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Table 3.2-1. Sensitive plant species potentially occurring and found in the NRSA.

Species ",Common F/S/CNPS Habitat Results-Name;,,' ,.______

Arctostaphylos Arroyo de la Cruz SC/-/13B Sandy coastal Not found, habitat poor cruzensis manzanita bluffs Arctostaphylos Morro manzanita T/-/lB Sand dunes Not found, habitat morroensis absent Arctostaphylos Pecho manzanita SC/-/IB Coastal scrub - Not found, occurs pechoensis shale nearby, habitat poor Arctostaphylos Wells' manzanita -/-IB Sandstone Not found, habitat Wellsii chaparral lacking A triplex coulteri Coulter's saltbush -I-/IB Coastal bluffs, Not found, habitat clay soils present Astragalus Nuttall's milk- -/-/4 Coastal bluffs, Found both seasons on nuttallii nuttallii vetch clay soils coastal bluffs and points Calochortus San Luis mariposa Chap. grassland, Not found, habitat obispoensis lily serpentine lacking Calystegia Cambria morning -I-l B Chaparral, Not found, habitat subacaulis glory woodland lacking episcopalism Carex obispoensis San Luis sedge -I-/1B Serpentine springs Not found, habitat absent Castilleja Obispo indian -/-/I B Coastal grassland Not found, habitat densiflora paintbrush present obispoensis Chorizanthe Brewer's -I-/1B Coastal scrub, Not found, habitat breweri spineflower serpentine marginal Cirsium Compact -I-/1B Coastal prairie Not found, habitat occidentale cobwebby thistle scrub, chaparral present compactum Eridictyon Indian knob -/-/1B Chaparral, Not found, occurs altissimum mountain balm sandstone nearby, habitat lacking Lasthenia Gold fields -/-/1B Coastal bluffs Found, occurs on macrantha bluffs; sensitive habitat macrantha ** type Layiajonesii Jones' layia -I-/1B Chaparral, Not found, habitat grassland, serp. marginal Suaeda californica California suaeda E/-/I B Coastal salt marsh Not found, habitat absent INotes: Canitornia Native Plant Society CIN'Pr) ranks are: IA = plant presumeo extinct in Calitornia, baseo on 2000 inventory; I1 =

plants rare and endangered in California and elsewhere; 4 = plants of limited distribution in California. California Department of Fish and Game (S or CDFG) ranks are: E = endangered; T = threatened; R = rare. U.S. Fish and Wildlife Service (F or USFWS) ranks are: E = endangered; T = Threatened; PE = proposed for endangered status; PT = proposed for threatened status; SC = Species of Concern

  • Based upon spring (2005 and 2006) and summer (2005) field surveys performed at approximately 21 day intervals in the NRSA.

Taxa that are known to occur in unique or specialized habitats (e.g. vernal pools) that are not present on the property were not specifically targeted although all species observed were inventoried (see Appendix B).

    • This taxon may be a new species or subspecies (Pers. Communication, D. Keil, Cal Poly, SLO). Investigation presently ongoing with R. Chan (UCBerkeley).

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Pecho Manzanita (Arctostaphylospechoensis)

This evergreen shrub is known from only one location in the Pecho Hills area of San Luis Obispo County, and is threatened by urbanization (CNPS 2006). This manzanita has conspicuous clasping leaves that turn reddish with age. The plant is found in shale outcrops, in the closed cone coniferous forest (Pinus bishopii) and in maritime chaparral habitats with underlying shale substrates. The plant is CNPS List lB.2 (CNPS 2006), and has been located atop the northern ridgeline of the Pecho Ranch in a substantial population (CDFG 2005a). Neither the plant nor its preferred habitat was present in the NRSA in 2005.

Wells' Manzanita (Arctostaphylos wellsii)

This is an "uncommon" manzanita possessing tomentose twigs that are densely bristled, and narrowly elliptic leaves with a red tinge (Hickman 2003). The inflorescence is considerably showier than most urn-shaped manzanitas and the flowers are bright red-pink and irregular. This manzanita occurs on sandstone outcrops and chaparral hillsides.

The plant is a CNPS List lB.1 species (CNPS 2006), with populations concentrated in undeveloped hills of southeastern San Luis Obispo County (CDFG 2005a). It was not present in the NRSA in 2005.

Coulter's Saltbush (Atriplex coultert)

This perennial herb has more than thirty known locations south of San Luis Obispo County, including six known populations on Santa Catalina Island (CNPS 2006). The plant contains many prostrate to slightly ascending branches, and is identified by very distinctive small bracts that are fused to the pistillate inflorescence. This saltbush occurs within alkaline/clay soils in open coastal bluff scrub, but has likely never been authoritatively documented within San Luis Obispo County. Atriplex coulteri is a CNPS List 1B.2 species, but still occurs locally in high numbers in southern coastal scrub (CNPS 2006, CDFG 2005a). In 1993 A. coulteri was reported at one location within coastal scrub habitat on the NRSA near Crowbar Peak. No specimens were taken and preserved at that time. Thorough field surveys in 2005 found no individuals of this species anywhere in the NRSA. The possibility exists that one of the two other species of saltbush that occur commonly in the NRSA today was mistaken during the earlier study for A. coulteri.

Nuttall's Milk Vetch (Astragalusnuttaiiivar. nuttallit)

This is a perennial herb with historic known locations from as far north as Alameda and San Francisco counties, now likely extirpated in those areas due to urbanization (CNPS 2006). This milk vetch or "locoweed" is found throughout most of the rocky/sandy coastal bluffs of the central and southern coast to Santa Barbara County. The plant is easily identified by its densely tangled bipinnate leaves, and large, bladdery, papery fruits which when mature contain 14-38 seeds (Hickman 2003). The plant is a list 4.2 B, fairly rare with limited distribution in California (CNPS 2006). This taxon occurres extensively in coastal bluff scrub habitat of the NRSA.

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San Luis Mariposa Lily (Calochortusobispoensis)

This a localized endemic species of San Luis Obispo County, found only within dry serpentine chaparral (Hickman 2003). This bulbiferous herb contains yellow to deep orange petals that are coarsely hairy inside. There is one extant location in northern San Luis Obispo County, with the majority of locations in central to southern San Luis Obispo County (CDFG 2005a). The lily is a CNPS List lB.2 and is threatened by grazing, development, road construction, recreation, and potentially by mining (CNPS 2006). Neither the plant nor its preferred habitat were present in the NRSA in 2005.

San Luis Obispo County Morning-Glory (Calystegia subacaulis ssp. episcopalism)

This plant is a rhizomatous herb known to occur only in dry open scrub/woodland borders, along the San Luis Obispo County coast (CNPS 2006). This decumbent, mat-forming morning-glory is identified from the related C. subcaulis, by a lack of hairs on the stems. It blooms from April to July with large showy white flowers (Hickman 2003).

This taxon is rated lB.2, endemic to San Luis Obispo County (CNPS 2006). It was not present in the NRSA in 2005.

San Luis Sedge (Carex obispoensis)

This cespitose, rhizomatous herb is found within springs, streamsides, and serpentine seeps within San Luis Obispo County (CNPS 2006). The plant is identified by wide white margins on the pistillate flowers and also by the perigynia (sac-like structures surrounding the ovary and achene) which is necessary for positive identification of most sedge species. This sedge is rated as CNPS List lB.2, and was reported by Hickman (2006) to occur only in San Luis Obispo County. Nevertheless, three locations have been reported in Monterey County (CDFG 2005a). It was not present in the NRSA in 2005.

Obispo Indian Paintbrush (Castilleja densiflora ssp. obispoensis)

This annual herb has white to pale yellow bracts that almost appear to be petals. The plant is endemic to San Luis Obispo County, occurring within grassland seeps, mostly on serpentine soils (CNPS 2006). The plant is rated lB.2 by CNPS (2006), and is threatened by development and grazing in some areas. It was not present in the NRSA in 2005.

Brewer's Spineflower (Chorizanthe breweri)

This annual herb is known from twenty occurrences along the central and southern coast of San Luis Obispo County where it is associated with coastal scrub and chaparral plant communities. The plant is identified by thin decumbent, reddish stems with white to red perianths (calyx and corolla) (Hickman 2003). The plant may also occur in serpentine-gravelly/rocky substrate (CNPS 2006). This spineflower is a CNPS List lB.3, not very endangered in California, and is endemic to San Luis Obispo County (CNPS 2006). It likely integrades with C. staticoides. It was not present in the NRSA in 2005.

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Compact Cobwebby Thistle (Cirsium occidentalevar. compactum)

This perennial herb has densely white hairs along stems and phyllaries, with dark rose-purple flowers blooming from April to June (Hickman 2003). The plant is often associated with Astragalus nuttallii var. nuttallii,within coastal bluff habitats of San Luis Obispo County. This species formerly occurred within the San Francisco Bay area, but has since been extirpated due to development (Hickman 2003). The species is rated CNPS List 1B.2, and is threatened by grazing, development, and continued insect predation (CNPS 2006). This distinct compact thistle is decreasing in population abundance and distribution within its range. It was not present in the NRSA in 2005.

Indian Knob Mountain Balm (Eriodictyonaltissimum)

This rare state-endangered evergreen shrub species is identifiable by sticky glabrous stems and large lavender flowers that have densely hairy corollas (Hickman 2003). The plant is currently known by six occurrences in the Irish Hills and at Indian Knob in San Luis Obispo County. The plant grows on sandstone ridges with intermixed chaparral (Hickman 2003). The plant is rated CNPS List 1B. 1, with populations threatened by urbanization, energy development, off road vehicles, alteration of fire regimes, and non-native invasive species (CNPS 2006). It was not present in the NRSA in 2005.

Perennial Goldfields (Lastheniamacranthassp. macrantha)

This perennial herb is most commonly found within the immediate north coast dunes, coastal scrub, and grasslands, from Mendocino County to Marin County (CNPS 2006).

There are fewer occurrences farther south (one in San Mateo and one in San Luis Obispo County near Cambria). The plant has simple or branched, hairy stems with yellow disk and ray flowers (Hickman 2003). Subspecies reportedly integrade within overlapping ranges. The plant is listed CNPS lB.2 (CNPS 2006). A plant generally matching the description of L. m. ssp. macrantha was found in several locations within the sensitive coastal bluff scrub habitat of the NRSA in 2005. Specimens sent to Dr. David Keil at Cal Poly, San Luis Obispo, for identification were later referred to Dr. R. Chan at the University of California, Berkeley, who is a recognized authority on this genus. It is possible that this plant may prove to be a new species not previously known or described.

Jones' Layia (Layiajonesii)

This plant is an annual herb endemic to San Luis Obispo County, found on clay or serpentine slopes (Hickman 2003). The basal margins of this plant's phyllaries bulge out and are interlocked by cottony hairs. The ray flowers are conspicuously yellow with white tips, making it easily identifiable during the blooming periods of March-May. L.

jonesii is a CNPS List 1B.2. Current distribution information is lacking and more data is necessary to discern the actual rarity status (CNPS 2006). It was not present in the NRSA in 2005.

California Sea-Blite (Suaeda californica)

This short evergreen shrub has many gray to greenish-red stems with horned or wing-margined flowers of various dull membranous colors (Hickman 2003). It was formerly North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 15 July 27, 2006

known from the San Francisco Bay area, where it was extirpated by development and now it is extant only in the vicinity of Morro Bay and near Cayucos Point (CNPS 2006).

The plant is threatened by recreation, erosion, and alteration of marsh habitat. It is often confused with S. esteroa and S. taxifolia in southern California, but it does not occur there. The plant is listed as CNPS List 1B.1. It was not present in the NRSA in 2005.

3.2.3 Survey Methods Pre-field research was performed to provide data on the special status plant species that could potentially occur in the project area. This work was performed consistent with the guidelines of the CNPS, the CDFG, and the U.S. Fish and Wildlife Service (USFWS).

The investigation consisted of the following:

1. A review of the available botanical literature and related technical reports to compile a list of the above plant species known to potentially occur in the NRSA.
2. A review of the herbaria records, appropriate maps and files of the Califorbia Natural Diversity Data Base (CNDDB) and USFWS records to obtain any relevant information concerning the above species and their habitats.
3. Consultation with local botanists and academics who are familiar with the flora of San Luis Obispo County.
4. Sequential field surveys to identify species, verify habitats, and to document resources were performed in 2005 (March-October) and 2006 (February-May).

The two person surveys were timed to coincide with the flowering periods of the "target plants" in the NRSA at approximately biweekly intervals. The surveys were performed at approximately 50 meter intervals over the project area. All data gathered in this manner were immediately recorded using global positioning system receivers (GPS), topographic maps, and field survey forms.

3.2.4 Survey Results Two special status plant species were identified in the project area, Nuttall's milk vetch (Astragalus nuttallii) and coastal gold fields (Lastheniamacrantha ssp. macrantha). The later species has been referred to a taxonomic authority at the University of California, Berkeley as a possible new species or subspecies (see species account, Section 3.2.2).

These species are present at numerous locations throughout the coastal bluff scrub habitat (see Figure 3.1-1 for habitat distribution), and are almost exclusively associated with it.

Occasionally, individuals were also found in transitional areas between bluff scrub and grassland habitats.

3.3 Noxious Weeds Noxious weeds are of increasing concern to wildland managers and to local, state and federal agencies. These species compete with ecologically significant native species and cause serious problems for many types of agricultural operations. Sources consulted during pre-field research included the California Department of Food and Agriculture North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 16 July 27, 2006

(CDFA) noxious weed list for San Luis Obispo County, and the California Invasive Plant Council list of noxious weeds in California wildlands (CalIPC 2006).

3.3.1 Study Sites Weed surveys were conducted over the entire 500-acre NRSA, with greater attention given to disturbed areas and other high-suitability weed habitats including roadsides, fencelines, excavated areas, corrals, stock watering sites, and other areas of surface disturbance or compaction. Distribution of mapped weed populations is shown in Figure 3.3-1.

3.3.2 Species Accounts Spiny Cocklebur (Xanthium spinosum)

This exceedingly aggressive plant is tall and stout stemmed, with large auxiliary spines covering both stems and leaves. The flowers are translucent and difficult to discern, with male flowers on top of female flowers hidden in the axils (Hickman 2003). The genus is made up of two species, which are known to occur worldwide. The transport of this species throughout California by boats has created an explosion in its populations, which thrive upon disturbed or wetter areas such as reservoir shorelines. The spiny cocklebur is not listed as a noxious weed by the California Invasive Plant Council (Cal-IPC), but is described as having the ability to "rapidly out-compete other native wetland plant species" (Cal-IPC 2006). Cocklebur is toxic to mammals, and its burs lower the value of wool (University of California-Integrated Pest Management). It was present in the NRSA in 2005 near Tom's Pond.

Puncture Vine (Tribulus terrestris)

This invasive weed is a warm season, mat-forming annual weed that contains an extensive root system. This species thrives in open dry or disturbed areas. Puncture vine has much divided leaves and bright yellow flowers within the leaf axils that only open on sunny mornings during blooming periods. Puncture vine presently has not been assigned a noxious weed rating, but is toxic to livestock in its vegetative state and causes mechanical equipment damage due to the spiny fruit it produces. A small population of this species was found in 2005, along a secondary ranch road in the northern portion of the NRSA (PF 6 paddock). These plants were removed by hand under supervision by the Diablo Land Stewardship Committee (LSC).

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 17 July 27, 2006

Figure 3.3-1. Known noxious weed populations within the NRSA.

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,I StdA-ZI I z- I C IES I- III00Q, I-ft I E' 'I D I01Y72 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 18 July 27, 2006

English Ivy (Hederahelix)

This introduced species is an "A" rated weed (Cal-IPC 2006), with creeping woody stems (vine-like), simple evergreen leaves and dark black berry-fruits. The plant is a cultivated ornamental in regions of California with mild winters (Hickman 2003), but has spread aggressively throughout riparian and other mesic areas, especially on the coast. The juices from berries are known to cause dermatitis, and the berries and leaves are toxic when eaten (Hickman 2003). This species was not found in the NRSA in 2005.

Castor Bean (Ricinus communis)

This European native has established itself throughout the coastal foothills in the Central Coast, down into southern California (Hickman 2003). This very distinctive large bush or small tree has large palmate leaves, plumose red flowers, and spiny fruit (Hickman 2003). R. communis has naturalized below 1,000 feet in the southern San Joaquin Valley, central to southern coast, Trinity County, and the San Francisco Bay area. It is rated "C" (Cal-IPC 2006), and was not seen in 2005 in the NRSA.

Greater Periwinkle (Vinca major)

V. major is found throughout low elevation California and is commonly used as an ornamental in landscaping. Cal-IPC rates this species as "B"; however, the species is rapidly spreading into riparian areas (Cal-IPC 2006). The species is readily identifiable by its sprawling nature in waterways and cool wooded areas, and its bright lavender-white flowers that bloom for months. This species was found in 2005 at one location within the Coon Creek riparian area.

Bluegum (Eucalyptus spp.)

There are at least nine different Eucalyptus species known to occur throughout California, all of which are non-native. Although abundant within Montana de Oro State Park, just north of the project area, no eucalyptus were documented within the NRSA in 2005. Eucalyptus species vary in growth form from shrubs to large trees, and are characterized by shedding bark, large plumose flowers, and lanceolate leaves (Hickman 2003). E. camaldulensis is rated "B" by Cal-IPC (2006) noxious weed inventory. Most species create a monoculture over time where introduced, probably due to their allelopathic properties and ability to form a closed canopy, significantly reducing the amount of light reaching the understory.

Jubata Grass (Cortaderiacubata)

This dioecious grass species is an "A" rated perennial weed with densely clumped bases and erect stems (Hickman 2003). The species is documented from many coastal areas, and is spreading into interior areas following disturbance (Cal-IPC 2006). C. jubata is similar in habit to C. selloana (below), in that both have large spikelets and sheathing leaves. Both species are capable of sprouting vegetatively from pieces of broken tissue, increasing the ease with which they are spread or transferred from one site to another.

This species was not found in the NRSA in 2005.

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Pampas Grass (Cortaderiaselloana)

C. selloana is an "A" rated noxious weed species from coastal California (Cal-IPC 2006).

This aggressive grass invades coastal dunes, coastal bluffs, coastline road cuts, and continues to spread throughout California in the milder inland climate areas. This species was found in the NRSA in 2005 near Coon Creek and was referred for treatment to a certified pest control operator. Active management of this weed will continue under direction of the LSC.

Purple Starthistle (Centaurea calcitrapa)

This weed is a "B" rated pest and forms a dense seed mat for up to three years in infested areas (Cal-IPC 2006). This annual to perennial weed looks similar to C. solstitialis in that the main phyllaries are spiny, yet C. calcitrapahas identifiable resin dotted leaves and bright purple flowers and purplish spiny fringed bases (Hickman 2003). The species was not found on the NRSA in 2005, but is known from populations to the north near Baywood.

Italian Thistle (Carduuspycnocepahlus)

This plant is Cal-IPC "B" rated with impacts that are considered to be "locally variable" depending upon the immediate land use (Cal-IPC 2006). The large spine-winged stems and phyllaries impact wildlife movement when the weed is allowed to form large stands.

This annual thistle is equipped to spread a large amount of seed via wind. C.

pycnocephalus was found and mapped at several locations in the NRSA in 2005, and was referred for treatment to a certified pest control operator.

Artichoke Thistle (Cynara cardunculus)

This "B" rated noxious weed is known to be an aggressive invader of central and southern California open space areas. This thick-stalked and spiny perennial thistle, actively overtakes grasslands where introduced (Cal-IPC 2006) and is capable of forming large monotypic stands. Identified by blue-purplish flowers, this weed can reach population densities of 22,000 plants per acre. The plant is considered to be spreading in riparian areas, as well as disturbed or abandoned agricultural fields along the coast. This species was not located in the NRSA in 2005.

Salt Cedar (Tamarix spp.)

This green-stemmed tree, with five white to reddish petals and small overlapping leaves, stands out in native canopy dominated landscapes. There are five described "species",

which may hybridize in areas of overlap (Hickman 2003). The species is continually removed in desert washes of California and Arizona, where extensive Tamarix populations have a major impact on the amount of water for municipal or wildlife use. A single plant was found in the NRSA, growing on the face of the coastal bluff in 2005.

Subsequent site visits failed to relocate the plant, which was likely removed by wave action.

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Tocalote (Centaureamelitensis)

This species, also known as "Malta starthistle," is similar in appearance to purple starthistle or yellow starthistle, except the flowers are yellow with purplish appendages to the phyllaries (Hickman 2003). This annual species forms dense seed banks which can remain viable for many years. C. melitensis may be increasing along the California coast (Cal-IPC 2006). One population was found along a secondary ranch road east of Disney Point in 2005 and was referred for treatment to a certified pest control operator.

White Horsenettle (Solanum elaeagnifollum)

This "B" rated weed is an escaped agricultural species known by numerous common names such as silverleaf nightshade, white weed, and desert nightshade, depending on locality (Cal-IPC 2006). A deep-rooted perennial, it has gray-green seed leaves and bright purplish fused flowers with dull yellow fruiting berries. The species was not found in the NRSA in 2005.

European Beachgrass (Ammophilla arenaria)

This "A" rated (Cal-IPC 2006) perennial grass species has clumped stems and large, slender spikelets, which rapidly form monocultures in dunes and bluffs throughout coastal areas of California (Hickman 2003). The species was introduced in California for use in dune stabilization and soon formed dense rhizomatous monocultures. A. arenaria seeds are spread via wind and sea; vegetative spread also occurs below ground via the rhizomatous root structure. It was not found in the NRSA in 2005.

Medusahead (Taeniatherum caput-medusae)

This is an "A" rated (Cal-IPC 2006) annual grass found throughout cismontane California. Medusahead is reported to be the most threatening annual invasive grass of California, Oregon, and Idaho rangelands. The plant has poor forage properties for livestock and wildlife, and tends to out-compete native grass species for soil moisture in the fall months. This weed was not found on the NRSA in 2005, but it is spreading in the general region north near Morro Bay.

Hoary Cress (Cardariaspp.)

There are three known Cardariaspecies in California (Hickman 2003). All species are perennials, strongly rhizomatous, and produce white flowers. Depending on which species, hoary cress is rated either "B" or "C" (Cal-IPC 2006). The fruits (silicles) are conspicuously heart-shaped and help to distinguish the species. All species require high moisture to become established and tend to create monotypic stands. This weed was not found within the NRSA in 2005.

Spanish Broom (Spartiumjunceum)

This "A" rated (Cal-IPC 2006) noxious weed is common along roadsides and disturbed areas throughout coastal California. S. juceum is a small to large shrub with simple leaves that appear palmate, with bright yellow flowers characteristic of the pea family.

The weed is a serious threat to many plant communities for its ability to alter soil North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 21 July 27, 2006

nitrogen levels while forming dense inaccessible and unpalatable stands. S. juceurm is found in association with disturbed areas such as roadsides, managed rights-of-way, and abandoned fields of the Central Coast. It was found at several locations in the northern portion of the NRSA in 2005 and referred for treatment to a certified pest control operator.

Cape or German Ivy (Delaireaodorata)

The species is an "A" rated noxious weed that infests riparian areas and other moist habitats in California (Cal-IPC 2006). The large twining vines and palmate dark-green leaves clearly identify this species. Cape ivy quickly overtakes canopies blocking sunlight, killing trees and under story shrubs, while leaching toxic alkaloids into water systems (Cal-IPC 2006). This species was not found in the NRSA in 2005.

Giant Reed (Arundo donax)

This species is an "A" rated noxious weed resembling large bamboo with long sheathing leaves (Cal-IPC 2006). It rapidly forms dense monotypic stands in disturbed or artificial wetland areas, and colonizes downstream areas via vegetative fragments. The monotypic stands greatly decrease water temperature, negatively affect nesting habitat for riparian birds, and increase damage during fire. No populations of giant reed were found in the NRSA in 2005; however, "fragments" of this plant were observed on the beach at the mouth of Coon Creek, apparently transported from elsewhere.

Poison Hemlock (Conium maculatum)

This "B" rated invasive species is able to establish itself in large monotypic stands in areas where water saturation is high throughout the growing season (Cal-IPC 2006). The species is identifiable by its large hollow stems with purple surface blotches and large white umbel flowers (Hickman 2003). The species is highly toxic to animals and humans. Several populations were mapped along Pecho Valley Road and throughout the riparian zone of Coon Creek in 2005.

Wild Fennel (Foeniculum vulgare)

This "A" rated perennial weed contains a large taproot and highly dissected licorice scented leaves and stems (Cal-IPC 2006). The flowers of this species are in umbels and are distinctively white tipped (Hickman 2003). The plant establishes in many types of disturbed habitats and then eventually excludes other vegetation, while increasing fuel loads in the late summer due to its volatile -oil content. Fennel was located and mapped in areas adjacent to the active channel of Coon Creek in 2005.

Tree of Heaven (Ailanthus altissima)

This aggressive "B" rated noxious weed was likely introduced to the United States as an ornamental tree from Asia during the 1800's (Cal-IPC 2006). The species is a large tree with pinnately compound leaves, and inconspicuous flowers that resemble the larger leaves. The species spreads rapidly by vegetative reproduction in disturbed open space North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 22 July 27, 2006

areas, and is highly toxic to humans and wildlife. Ailanthus was not found in the NRSA in 2005.

Yellow Starthistle (Centaureasolstitialis)

Yellow starthistle is a warm season annual or biennial weed. Seedlings are dull green.

The seed leaves are oblong, round at the tip, with smooth edges. The bright yellow flowers have long stiff spines at their base. This "A" rated noxious weed is very difficult to eradicate (Cal-IPC 2006). Yellow starthistle was not found in the NRSA in 2005.

Wooly Distaff Thistle (Carthamuslanatus)

This thistle is an "A" rated noxious weed (Cal-IPC 2006). The Cal-IPC inventory has also placed an alert on this species, in order to decrease spread via early detection and eradication. This annual thistle is composed of "wooly" stems and leaves, yellow flowers, and possesses some of the largest spines in the genus (Hickman 2003). The plant forms dense basal rosettes and vegetative stands in disturbed pasture areas. In 2005 12 to 15 small occurrences of this species were identified between Disney Point and Pecho Valley Road, straddling a secondary ranch road. The area containing these plants was mapped as one large polygon feature in the GIS to facilitate future monitoring for control of this species. All plants found here in 2005 were removed by hand and properly disposed of.

Russian Thistle (Salsola tragus)

Russian thistle, a common annual broadleaved weed in the goosefoot family, is found in saline coastal and inland valley areas throughout California. It also occurs throughout the western states, more often in drier areas. The early growth of the plant resembles pine species; however the plant quickly grows into a "tumbleweed." The familiar tumbleweed eventually dehisces (breaks away) at ground level allowing the spherical-shaped plant to be carried along the ground by wind, dispersing seeds as it goes. This "C" rated noxious weed (Cal-IPC 2006) was not found in the NRSA in 2005.

Bull Thistle (Cirsium vulgare)

This "B" rated noxious weed is located throughout California, from the coast to at least 8,000 feet in the Sierra Nevada Mountains (Cal-IPC 2006). The thistle has a dark purple flower, tightly enclosed by spiny phyllaries, and contains winged/spiny appendages throughout the leaves and stems. The species is widely dispersed via humans and livestock, and is able to form monotypic stands. Three populations of this plant were identified and mapped in the NRSA.

Skeleton Weed (Chondrillajuncea)

This species is a highly aggressive biennial "A" rated weed, with milky sap (Cal-IPC 2006). The multi-branched stems, many small yellow-ligulate flowers, and stand-replacing habit, characterize this species (Hickman 2003). This species was not found during 2005 surveys of the NRSA.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 23 July 27, 2006

Purple Veldt Grass (Ehrhartacalycina)

This perennial "A" rated noxious weed is often used for erosion control projects despite its known invasiveness (Cal-IPC 2006). It has large purplish stems and a large showy panicle inflorescence. This grass is considered a "serious threat" to native plants, due to its ability to replace and convert entire stands of native vegetation rapidly. This grass can build a significant reserve of seed in the soil and is highly palatable to livestock. It is common in the Baywood and Montana de Oro areas, north of the NRSA. This species was found in the NRSA in 2005 at one location near the State Park gate. Efforts to eradicate this population by manual techniques have thus far, not been successful.

Barbed Goatgrass (Aegilops triuncialis)

This highly invasive "A" rated weed is another "alert" species (Cal-IPC 2006). The weed is an annual with generally erect stems that are bent at the base, with thick/stiff glumes that give the grass the appearance of spiny appendages (Hickman 2003). The grass is reportedly able to take over entire pastures in less than twenty years. The grass was not found in the NRSA.

Ice Plant (Carpobrotusedulis)

This "B" rated noxious weed has been introduced to coastal areas throughout California (Cal-IPC 2006). Ice plant is a succulent with reddish-green leaves and showy white to pink flowers. This species, sometimes called "sea-fig" forms dense fibrous root systems along coastal dunes, beaches, and bluffs. State Parks along the coast have attempted to eradicate this species; however plant populations seem to be increasing (Cal-IPC 2006).

This plant was found and mapped in the NRSA at several locations in 2005.

Perennial Pepperweed (Lepidium latifolium)

This plant is a highly invasive "A" rated alert species, inhabiting and expanding in saline soils throughout the United States (Cal-IPC 2006). This perennial contains grayish-glabrous stems, and small white petals. L. latifolium is known to act as a "salt pump", by concentrating salt and encouraging monospecific stands that prevent the growth of native annuals (Cal-IPC 2006). This weed was not located in the NRSA in 2005.

French Broom (Genista monspessulana)

French broom is a large shrub that forms dense stands where it becomes established.

This "A" rated, high alert weed is widespread in disturbed coastal areas of California (Cal-IPC 2006, Hickman 2003). The plant has silky-hairy leaves, and large yellow pea shaped flowers (Hickman 2003). G. monospessulana is able to thrive in infertile soil conditions, quickly replacing rare-endemic natives. This species was not located in the NRSA in 2005.

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Russian Knapweed (Acroptilon repens)

Russian knapweed is a widely distributed perennial "B" rated noxious weed (Cal-IPC 2006). The seedlings are ovate and covered with bran-like scales underneath. The mature, thistle-shaped plants are 1 to 3 feet (30 - 90 cm) tall, erect and have many.

branches. Leafy branches have rosy-pink to lavender colored terminal flower heads.

This weed reproduces through seeds and from deep, dark underground rootstocks.

Rooting from rhizomes, knapweed forms dense patches that infest orchards, vineyards, and roadsides. It is reported to be toxic to sheep, cattle, and horses and is a. It was not found in the NRSA in 2005.

3.3.3 Survey Methods The same survey methods described in Section 3.2.3 for sensitive species were also used for noxious weed species.

3.3.4 Survey Results Information presented in Table 3.3-1 summarizes the results of noxious weed surveys performed in 2005. For those species found in the NRSA, information is presented on location, and control actions (if any) taken to date. Table 3.3-1 identifies forteen noxious weed species present in the NRSA during the 2005 survey period. Immediate control methods were employed on some species. The Diablo Canyon LSC directs efforts to control noxious weed populations on the Diablo Lands.

3.4 Discussion The datapresented in Tables 3.2-1 and 3.3-1 update and expand information on sensitive species contained in the preliminary baseline, and provide new noxious weed information not previously available for the Diablo Lands. Two sensitive plants and forteen noxious weed species were identified and mapped in the NRSA during the 2005 survey period.

Both of the sensitive plant species were associated with coastal bluff scrub habitat; itself designated sensitive in California. A complete and accurate mapping of coastal bluff scrub and Central Coast willow riparian scrub habitats was performed and included in the mobile GIS platform to aid trail planning and future monitoring.

These efforts respond directly to comments received from the DTF following its review of the preliminary baseline. PG&E believes that the botanical resources portion of the baseline inventory is suitably complete and that it will adequately inform the process of planning a trail route and monitoring program.

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Table 3.3-1. Noxious weed species potentially occurring or known to occur in the NRSA.*

4Name

.. and Status Presence Specific Location 7, Actions Takenif Any Spiny cocklebur - Present Tom's Pond About 200 plants. Hand (Xanthium spinosum) removed in 2005 Puncture vine C Present Ranch Access Rd., 26 plants. Hand removed.

(Tribulus terrestris) south of corral in PF- 6 paddock English ivy Not Present Not Found No action taken (Hederahelix)

Castor bean C Not Present Not Found No action taken (Ricinis communis)

Periwinkle B Present Coon Creek No action taken (Vinca major)

Bluegum B Not Present Not Found No action taken (Eucalyptus)

Jubata grass A Not Present Not Found No action taken (Cortaderiajubata)

Pampassgrass A Present Main rd. near Coon Creek 1 clump chemically treated (Cortaderiaselloana) 2005 Purple starthistle B Not Present Not Found No action taken (Centaureacalcitrapa)

Italian thistle B Present Several locations along N. No action taken (Carduuspycnocephalus) Ranch roads Artichoke thistle B Not Present Not Found No action taken (Cynara cardunculus)

Saltcedar C Present I plant, lower bluff No action taken (plant (Tamarix spp.) removed by wave action)

Tocalote B Present One location associated Chemically treated in 2005 (Centaureamelitensis) with wooly distaff thistle, east of Disney Pt.

White horsenettle B Not present Not Found No action taken (Solanum elaeagnifollum)

European beachgrass A Not Present Not Found No action taken (Ammophilla arenaria)

Medusahead C Not Present Not Found No action taken (Taeniatherum caput-medusae)

Hoary cress B Not Present Not Found No action taken (Cardariaspp)

Spanish broom A Present Several locations near Some chemical controls (Spartium junceum) roads, north end in 05, more needed Cape ivy A Not Present Not Found No action taken (Delaireaodorata)

Giant reed A Not Present Not Found No action taken (Arundo donax)

Poison hemlock B Present Wet areas, Coon Creek & No action recommended (Conium maculatum) access road

-Wild fennel Present Disturbed sites near Coon No action recommended.

(Foeniculum vulgare) Creek North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 26 July 27, 2006

Tree of heaven - Not Present Not Found No action taken (Ailanthus spp)

Yellow starthistle B Not Present Not Found No action taken (Centaurea solstitialis)

Wooly distaff thistle A Present 200 + plants 8-05 Mech. removal 8-05 (Carthamuslanatus) east of Disney Point Revisited 7-06 Russian thistle C Not Present Not Found No action taken (Salsole tragus)

Bull thistle B Present Several locations near No action taken (Cirsium vulgare) roads, Coon Creek Skeleton weed A Not Present Not Found No action taken (Chondrillajuncea)

Veldt grass A Present One location near north Hand Removal 6-05, (Ehrhartacalycina) gate entrance 8-05, 4-06; still present 7-06 Barbed goatgrass - Not Present Not Found No action taken (Aegilops triuncialis)

Ice plant B Present Several locations along No action taken (Carpobrotusedulis) bluffs Perennial pepperweed B Not Present Not Found No action taken (Lepidium latifolium)

French broom C Not Present Not Found No action taken (Genista monspessulana)

Russian knapweed B Not Present Not Found No action taken (Acroptilon repens)

  • Based upon spring and summer 2005 survey results. Status rating based upon California Invasive Plant Council (Cal-IPC) and San Luis Obispo County CDFA rated Weed Lists.

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4.0 Terrestrial Wildlife This section includes information on special-status invertebrates, amphibians and reptiles, upland and riparian birds, and mammals. This information consists of a combination of new species data not contained in the PEB, and updates to information developed when these lands were first comprehensively surveyed in the early 1990s (Biosystems Analysis, Inc. 1995). Detailed information on previously known sensitive species occurrences within the NRSA is located in Vol. 2: Folder 5 of the PEB (BioSystems Analysis Inc.

1995). Surveys were again conducted for these species by Garcia and Associates in 2005. Further focused surveys for sensitive grassland nesting bird species were performed during the spring breeding season 2006.

4.1 Invertebrates 4.1.1 Study Sites A site assessment survey was conducted throughout the NRSA in early 2005 to determine the potential for occurrence of special status invertebrate species based on presence of suitable habitat conditions.

These surveys focused on the federally endangered Morro shoulderband snail (Helminthoglypta walkeriana), overwintering sites for the monarch butterfly (Danaus plexippus) and the California Species of Special Concern Morro blue butterfly (Icaricia icaroides morroensis). In addition, surveys were conducted for the Smith's blue butterfly (Euphilotes enoptes smithi) (Federally Endangered), San Emigdio blue butterfly (Plebulina emigdioensis) and unsilvered fritillary (Speyeria adiaste clemencei)

(California Species of Special Concern).

4.1.2 Species Accounts Morro Shoulderband Snail (Helminthoglypta walkeriana)

This species was listed as endangered under the ESA on 15 December 1994 (50 FR 64613-64623). Six species of shoulderband snails in two subgenera occur in the San Luis Obispo vicinity (Pilsbry 1939; Roth and Sadeghian 2003). The Morro shoulderband snail is reported from the Los Osos Valley to the coast, south to Montafia de Oro, and north along Morro Bay to Toro Creek. Although little is known about the habitat requirements of Morro shoulderband snail (Hill 1974, Roth 1985, Roth and Tupen 2004),

this species appears to be restricted to relict dune soils that support coastal scrub, particularly in association with mock heather (Ericameriaericoides), dune buckwheat (Eriogonum parvifolium), California sagebrush (Artemisia californica), black sage (Salvia mellifera), and dune lupine (Lupinus chamissonis) (Roth 1985). However, Adams et al. (2000) and Reeves et al. (2000) concluded that Morro shoulderbands inhabit prostrate vegetation with sufficient typical dune scrub leaf litter duff substrate to maintain moisture refugia for the snails.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 28 July 27, 2006

Typically, the Morro shoulderband snail utilizes habitats where these shrubs provide dense cover and there is substantial leaf litter. Morro shoulderband snails live in the leaf litter of the coastal scrub, typically where the branches of the shrubs come into contact with the soil. During or after rain or heavy fog events, the snails emerge at night and during the early morning and disperse to new habitats, wandering at random until they encounter new suitable habitat. Morro shoulderband snail may also use ice plant (Carpobrotus sp.) as cover; however, ice plant is a non-native invasive weed that excludes native plants and can alter desirable habitats.

Morro Bay Blue (Plebejus icarioidesmoroensis)

Considered a Species of Special Concern by CDFG, this species is not listed under state or federal endangered species acts. The Morro Bay blue is reported from the Morro Bay coast in San Luis Obispo County south through coastal dune and relict dune habitats dominated by coastal dune scrub in western Santa Barbara County. It may have occurred in Los Angeles County at one time (Emmel and Emmel 1973). The highest density populations occur at the Oso Flaco Dunes, about 40 miles south of the NRSA. This univoltine subspecies of blue butterfly uses the dune lupine (Lupinus chamissonis) as a host plant for the larvae, but visits a variety of flowers for nectar. The flight period is June to August. One of the larger blues, this subspecies has drab gray buff upper wings, with light blue markings.

Monarch Butterfly (Danausplexippus)

The monarch butterfly is not listed under the Federal or California endangered species acts. However, CDFG and local municipalities occasionally require protection of monarch overwintering sites. Most monarch butterflies west of the Rocky Mountains overwinter along the southern coast of California. Overwintering sites are typically stands of Monterey cypress (Cupressus macrocarpa), Monterey pine (Pinus radiata),

Torrey pines (Pinus torreyana), or gum trees (Eucalyptus spp.), that provide suitable microclimate conditions (such as humidity and temperature) as well as some shelter from weather (Frey and Schaffner 2004, Leong et al. 2004). Monarchs typically form overwintering aggregations in November, and mate and disperse in February and March.

Smith's Blue (Euphilotes enoptes smithi)

A typical blue, this subspecies was federally listed as endangered on 1 June 1976 (FR 41:22044). Smith's blue occurs in the fog belt of coastal Monterey County, as far south as Point Gorda, inhabiting coastal scrub and grassland on dunes and serpentine soils, particularly adjacent to cliffs, steep slopes and road cuts (Arnold 1977, 1983, New 1993).

Individuals tend to stay on or near host plants, which are various species of buckwheat (Eriogonum sp.), with the males actively searching for the females (Arnold 1977, 1983, New 1993). The adults are active for approximately a week during the flowering period of the buckwheat, from mid-June to early August (Arnold 1977, 1983). This species is univoltine (Arnold 1977) and is not known from San Luis Obispo County, although habitat that could potentially support it does occur in that county.

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San Emigdio Blue (Plebeius emigdionis)

The San Emigdio blue is a California Species of Special Concern. An inland species from the Mojave Desert and the San Joaquin Valley, the San Emigdio blue is not known from San Luis Obispo County (Emmel 1998). This species occurs in desert washes and arroyos in Chenopod scrub habitat, with its host plant shadscale (Atriplex confertifolia),

where it has at least three generations per year (Grinnell 1905, Emmel and Emmel 1973, Garth and Tilden 1986).

Clemence's Unsilvered Fritillary (Speyeria adiaste clemencei)

Clemence's unsilvered fritillary is a California Species of Special Concern. Clemence's unsilvered fritillary is the most widespread subspecies of unsilvered fritillary, ranging through the Coast Range from Monterey County to San Luis Obispo County (Emmel and Emmel 1973). This subspecies is found in clearings in oak woodlands and chaparral in hills and mountains, where the host plants (Viola sp.) occur (Emmel and Emmel 1973, Garth and Tilden 1986).

4.1.3 Survey Methods The Morro shoulderband snail surveys were conducted in accordance with USFWS guidelines by invertebrate ecologist D. Christopher Rogers, under Section 10(A) l(a) permit PRT-796284. On May 13, 2005, Dr. Rogers notified the Ventura Field Office of USFWS that surveys would be conducted at the NRSA. The surveys were conducted on May 16 and 17, July 12. and 13, August 10, and September 9 and 23, 2005 during or after rains or summer fog events. Dr. Rogers walked the entire site and recorded all pertinent vegetation and existing conditions pertaining to the target invertebrate taxa.

Butterfly surveys (for those species identified above) were conducted concurrent with Morro shoulderband snail surveys. Surveys focused in and around suitable habitat for each of the target butterfly taxa. Butterflies were first visually examined without capture to determine whether they were the federally endangered Smith's blue. Those identified as non-Smith's blue butterflies were either captured with a sweep net, or visually examined without capture for further identification.

4.1.4 Survey Results The only special status invertebrate species observed during the surveys Was the monarch butterfly, which was observed on two occasions (May 17 and July 13) at the northern end of the NRSA between Coon Creek and the care-takers house. Similar results and observations were made in the BioSystems (1995) report (see PEB, Vol. 2: Folder 5).

Potential overwintering sites for monarch butterflies occur associated with a grove of Monterey pine surrounding the caretaker's house at the north end of the NRSA. Other suitable groves may occur outside the NRSA in the Irish Hills (see Figure 3.1-2).

No habitat was present for the San Emigdio blue or the unsilvered fritillary. Common butterfly taxa that were observed include: buckeye (Junonia coenia), painted lady North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 30 July 27, 2006

(Vanessa cardui), California sister (Adelpha bredowii californica), alfalfa butterfly or orange sulphur (Colias eurtheme), common white (Pontiaprotodice), and cabbage white (Artogeia rapae).

No potential habitat for the Morro shoulderband snail was found in the NRSA. The substrates observed were entirely clay with a large proportion of shale, while typical habitat for the Morro shoulderband snail is flandrian and preflandrian type I and type II dunes. The Morro shoulderband snail has been reported from Point Buchon at the northern end of the NRSA. This is the southernmost recorded locality for the snail; however, no dune habitat occurs there. Instead, the site has a large rock outcropping. The habitat is more typical of the closely allied Chorro shoulderband snail (Helminthoglypta morroensis). In 2005 the site supported some mostly dead California sage and coyote brush, all overgrown with dense vetch (Vicia sp.), Italian rye grass (Lolium multiflorum),

slender wild oats (Avena barbata),and bindweed (Convolvulus arvensis).

Only two terrestrial mollusk species were encountered during the surveys. The non-native invasive slug (Deroceras reticulates) was found in holes in the road cut (Pecho Valley Road) near the south end, and along Coon Creek as well as near the caretaker's house at the north end of the NRSA. The native Big Sur shoulderband snail (Helminthoglyptaumbilicata)was observed in leaf litter along Coon Creek.

Potential habitat for the Smith's blue butterfly and Morro blue butterfly occurs along the deeply incised channel that runs transversely across the middle of the site (Big Wash),

and on the slope just north of the stock tank at that location; both sites are west of the main road. As noted above, Smith's blue is not known from San Luis Obispo County.

Neither species was observed, but the lupine blue (Icaricialupini) and the western pygmy blue (Brephidium exile) were abundant. The lupine blue butterflies were extremely common among the buckwheat and lupines, and the pygmy blue butterflies were observed scattered throughout the NRSA.

4.2 Amphibians and Reptiles 4.2.1 Study Sites The NRSA includes few freshwater aquatic habitats for amphibian surveys. The two main water bodies are Coon Creek and Tom's Pond. Coon Creek is a perennial small-sized creek located at the northern part of the NRSA (see Figure 4.2-1). The reach of Coon Creek within the NRSA is approximately 1,500 feet in length. Common riparian species along the creek include arroyo willow (Salix lasiolepis) and yellow willow (Salix lasiandra). Tom's Pond is a deep, 0.15-acre perennial pond with dense emergent-vegetation along the shoreline.

The NRSA includes small localized areas of sandy or very friable soil that could be used by fossorial reptiles. The most suitable sandy area is located at the mouth of Coon Creek; potential silvery legless lizard habitat. Colluvial deposits west of the Pecho Valley Road North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 31 July 27, 2006

at Big Wash provide friable soil conditions; potential habitat for coast homed lizard (Figures 4.2-1 and 4.2-2).

4.2.2 Species Accounts California Red-Legged Frog (Rana draytonii)

The California red-legged frog is a federally-listed threatened species, and a California Species of Special Concern (CDFG 2005b). Historically, California red-legged frog populations were found from Shasta County to Baja California, Mexico, along both the Coast Ranges and the west slope of the Sierra Nevada at elevations generally below 1,500 meters (Jennings and Hayes 1994). The current range is greatly reduced, with a few highly restricted populations in the Sierra Nevada and most remaining populations occurring along the coast from Marin County to Ventura County.

California red-legged frogs occur primarily in perennial ponds or pools and perennial or intermittent streams where water persists long enough for breeding and development of young. Habitats with the highest densities of frogs contain dense emergent or shoreline riparian v6getation closely associated with shallow to deep (>0.5 m) still or slow-moving water (Jennings and Hayes 1994). The types of riparian and emergent vegetation that seem to be most structurally suitable are willows (Salix spp.), cattails (Typha spp.), and bulrushes (Scirpus spp.). Another key habitat indicator for California red-legged frogs is the absence or near-absence of introduced predators such as bullfrogs (Rana catesbeiana) and predatory fish, particularly centrarchid fishes (i.e., fish in the Centrarchidae family, such as sunfish and bass), which may feed on the larvae more frequently than naturally co-evolved predatory species (Jennings and Hayes 1994). Emergent vegetation, undercut banks, and semi-submerged rootballs afford shelter from these predators (USFWS 1997).

California red-legged frogs lay their eggs from late November to late April in ponds or in backwater pools of creeks, attaching them to emergent vegetation such as cattails and bulrushes. Larvae remain in these aquatic habitats until metamorphosis occurs.

Increased siltation during the breeding season can cause asphyxiation of eggs and small larvae. The California red-legged frog may disperse upstream, downstream, or upslope of their breeding habitat to forage and seek sheltering habitat. They may take shelter in small mammal burrows and other refugia 100 feet or more from the water any time of the year (Jennings and Hayes 1994). During wet periods, California red-legged frogs can move long distances between aquatic habitats, traversing upland habitats or ephemeral drainages up to a mile from the nearest known frog populations. Seeps and springs in North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 32 July 27, 2006

Figure 4.2-1. Amphibian and reptile survey locations in the NRSA (northern section).

Figure 4:2-1, Arnrhiblan and reptile survey site tdlorfis In the North Ranch Study IArea (NRSA (NorthervSection) 0 755. 51Q San Luis Obispo County, California Lcor~t 'o

-- ----- JKlO-nsr A

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Figure 4.2-2. Amphibian and reptile survey locations in the NRSA (southern section).

Figure 4.2.2. Amphibian and reptile~surveysite locations in the North Ranch Study Area (NRSA)

(Southern Section)

San Luis Obispo County. California o 0O I

o' 0

IF-or A

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 34 July 27, 2006

open grasslands can function as foraging habitat or refugia for wandering frogs (Jennings and Hayes 1994).

Multiple factors may be responsible for the decline of California red-legged frog populations. While habitat destruction from urbanization is a primary cause, other factors such as increased exposure to ultraviolet (UV-B) radiation, wind-borne agrochemicals, diseases, and introduced species (e.g., bullfrog, sunfish, mosquitofish) could contribute to their decline (Davidson et al. 2001).

California Legless Lizards (Anniellapulchra spp.)

The silvery legless lizard (A. pulchrapulchra), a subspecies of California legless lizard, is a California Species of Special Concern (CDFG 2005b). Its range extends from Contra Costa County, California to Baja California. Populations of silvery legless lizards are known to occur in the coastal dunes of San Luis Obispo County north and south of the NRSA (Hunt 1983). Legless lizards are fossorial reptiles that live in burrows constructed in loose soil with a high percentage of sand. They inhabit areas with sparse vegetation, such as beaches, chaparral, or pine-oak woodland. They are mostly diurnal with peak activity during morning and evening. Legless lizards feed primarily on larval insects, adult beetles, termites, and spiders. They appear to breed between early spring and July.

Main threats to the legless lizard include habitat alteration and destruction.

There are two subspecies of California legless lizard, including the black legless lizard (Anniella pulchra nigra) and the silvery legless lizard. Although the CNDDB (CDFG 2005a) has records of black legless lizard in the vicinity of the NRSA, it is likely that those sightings were of silvery legless lizards. Black legless lizards are not known to occur south of Carmel (Hunt 2005, Collins 2005).

Coast Horned Lizards (Phrynosomacoronatum spp.)

The coast horned lizard occurs along the Pacific coast of California, and southward across the peninsula of Baja California in Mexico. Coast horned lizards occupy a variety of habitats including chaparral, oak woodland, and coniferous forest from sea level to 2,000 meters. The coast horned lizard is usually active between April and October.

During periods of inactivity they find refuge in small mammal burrows or burrow themselves into loose soils under surface objects. Their prey consists mostly of beetles and ants. Habitat destruction and the introduction of aggressive exotic ants have resulted in the decline of the coast horned lizard.

There are two subspecies of coast horned lizard, including San Diego horned lizard (Phrynosoma coronatum blainviliii) and the California horned lizard (Phrynosoma coronatum frontale). Both species are California Species of Special Concern. The subspecies with potential to occur on the NRSA is the California horned lizard.

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Two-Striped Garter Snake (Thamnophis hammondii)

The two-striped garter snake is a California Species of Special Concern (CDFG 2005b).

It occurs through the south coast and peninsular ranges west of the San Joaquin Valley and desert from Monterey County, California south to Baja California, Mexico. The two-striped garter snake inhabits streams, rivers, and ponds. This garter snake is a highly aquatic species. Neonates are usually observed between August and November.

Juveniles and adults prey on fish and larvae of amphibian species. The two-striped garter snake has disappeared from approximately 40 percent of its range in California. Threats to the two-striped garter snake include habitat modification and loss of the prey food base.

Western Pond Turtles (Emys marmorataspp.)

The western pond turtle is a California Species of Special Concern (CDFG 2005b).

There are two subspecies, the northwestern pond turtle (Emys marmorata marmorata) and the southwestern pond turtle (Emys marmoratapallida); both are Federal species of concern (CDFG 2005b). The subspecies with potential to occur in the NRSA is the southwestern pond turtle.

The western pond turtle occurs from sea level to approximately 1,800 meters from British Columbia south to northwestern Baja California, principally west of the Sierra-Cascade Crest. Pond turtle habitat includes slow-moving or stagnant aquatic habitat that forms pools at least one meter deep and one meter in diameter. Pond turtles are uncommon in high gradient streams (Holland 1991). An important habitat feature for turtles is suitable aquatic basking sites, such as mats of emergent or aquatic vegetation, exposed logs, rocks, or mud banks. Hatchlings and juveniles require shallow water habitat with relatively dense submergent or short emergent vegetation in which to forage. Populations also require adjacent suitable upland habitat for overwintering and nesting. Suitable oviposition (egg-laying) sites appear to share the following features: exposed, south-facing slopes, open scrub or open grassland vegetation, and dense soils, which apparently provide the high temperature and low water potential required for successful egg development (Holland 1991, Rathbun et al. 1992). Slopes up to 60 degrees have been used for nesting, but most nests have been found on slopes of less than 25 degrees.

Mating typically occurs in April or May. Females migrate from the aquatic site to an upland location as far as 500 meters from the aquatic site, however most nesting occurs within 200 meters of the aquatic site (Holland 1991, Rathbun et al. 1992). Movements away from water can be common (Holland 1991). Furthermore, movements within a stream course are highly variable and can exceed 2.5 km (Holland 1991). Females may lay more than one clutch in a year (Rathbun et al. 1992), and most egg-laying occurs during May and June. Incubation lasts about 100 days and hatchlings usually overwinter in the nest. Most hatchlings move to aquatic habitats in the spring, where they feed on zooplankton. Growth in hatchling and juvenile turtles can be rapid, however reproductive maturity normally does not occur.until turtles are between seven and 11 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 36 July 27, 2006

years old (Holland 1991). This species is long-lived, with a large proportion of adults in a healthy population being 20 or more years old.

The western pond turtle has experienced population declines throughout most of its geographical range (Holland 1991, Jennings and Hayes 1994, Germano and Bury 2000).

This species has suffered from habitat destruction or fragmentation and other human population growth impacts.

4.2.3 Survey Methods Several information sources on California red-legged frog, silvery legless lizard, coast horned lizards, two-striped garter snake, and western pond turtle were reviewed, including the CNDDB (CDFG 2005a), A Field Guide to Western Reptiles and Amphibians (Stebbins 2003), and other studies on California amphibians (Jennings and Hayes 1994, Hayes and Jennings 1986). Additionally, museum collection databases from the California Academy of Sciences were consulted for voucher specimens collected in San Luis Obispo County. These surveys were conducted by Consulting herpetologist, Pierre Fidenci, with assistance from PG&E senior biologist Sally Krenn California Red-Legged Frog Protocol Surveys Protocol surveys for California red-legged frog (Rana draytonii) were conducted along Coon Creek and at Tom's Pond. The survey methodology for this project followed protocol guidelines established by the USFWS (1997). Two daytime and two nighttime surveys were performed along Coon Creek from the bridge to the mouth of the creek, and at Tom's Pond (see Figures 4.2-1 and 4.2-2).

Daytime surveys were conducted using binoculars to scan for frogs, and by slowly walking in the water or on adjacent banks to search for larvae and adults. The entire shore of the creek was visually scanned via pedestrian surveys.

Night surveys were conducted using binoculars and a 6-volt light. A combination of visual (eyeshine detection) and auditory methods were used to detect frogs. In cases where no view was available, the vegetation was parted to uncover hidden pools.

Extreme care was used while walking to avoid disturbing sediment, vegetation, and potential amphibian larvae. Daytime surveys were conducted on July 25 and 27, 2005 between 12:45 and 18:35. Nighttime surveys were conducted on July 25 and 27, 2005 between 20:30 and 22:50.

Weather conditions (air temperature and wind speed), and water temperature at 5-cm depth were recorded. Fish presence was also recorded because of their potential indirect or direct impacts on California red-legged frog populations.

To reduce the spread of disease agents and parasites between study sites, the field crew followed the Code of Practice, as prepared by the Declining Amphibian Populations Task Force (DAPTF 1998). After surveying each site, field equipment, such as boots, was North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 37 July 27, 2006

rinsed with sterilized water and then scrubbed with 70 percent ethanol solution and rinsed clean with sterilized water.

Legless Lizard and Coast Horned Lizard Surveys Legless lizard and coast homed lizard surveys were conducted on July 26 and September 27, 2005 at the mouth of Coon Creek and Big Wash (see Figure 4.2-1 and 4.2-2).

Surveys for those species consisted of daytime visual searches in areas with sandy soils, carefully sifting through the soil and shrub leaf litter by hand and checking under shrubs and fallen objects. Weather conditions (air temperature at ground level and wind speed) were recorded.

Two-Striped Garter Snake Surveys Two-striped garter snake surveys were conducted concurrently with the daytime surveys for California red-legged frog. Surveys occurred on July 25 and 27, 2005 along Coon Creek from the bridge over Pecho Crek to the mouth, and at Tom's Pond in the NRSA (see Figure 4.2-1 and 4.2-2). Surveys consisted of slowly walking along the creek while searching for basking or foraging garter snakes. The dry banks of the creek were also searched for garter snakes, including common species.

Western Pond Turtle Surveys Western pond turtle surveys were conducted at Tom's Pond concurrently with the daytime surveys for California red-legged frog. Surveys occurred on July 25 and 27, 2005. The survey technique consisted of scanning for basking turtles and then slowly walking along the shoreline while visually searching for turtles in water. Scanning with binoculars occurred at least 10 meters distant from any basking sites.

4.2.4 Survey Results California Red-Legged Frog No previous occurrences of California red-legged frogs have been documented in the project vicinity (CDFG 2005a, BioSystems 1995), and no California red-legged frogs were observed during the protocol survey visits in 2005. Weather conditions were favorable for conducting California red-legged frog protocol surveys. During daytime surveys, air temperatures ranged from 18'C to 21 0 C; water temperatures at 5-cm depth ranged from 14.5°C to 26°C, with winds from 0 to 15 mph. During nighttime surveys, air temperatures ranged from 17°C to 18'C; water temperatures at 5-cm depth ranged from 14'C to 25'C, with winds from 0 to 15 mph. No rain occurred during or between the surveys.

In general, Coon Creak provides low potential for California red-legged frog presence.

The creek within the NRSA is small (4-6 m wide, 0.1 to 1.2 m deep) and lacks natural suitable pools that could be used by California red-legged frogs for breeding, foraging, and refuge. The mouth of Coon Creek is probably the most suitable section since it has a large natural pool of about 0.5 meter depth. The recent creation of pools for steelhead has significantly increased the habitat suitability for the California red-legged frog.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 38 July 27, 2006

Those pools are relatively large and deep providing suitable habitat for California red-legged frog. Due to the original characteristics of Coon Creek, it is unlikely that the California red-legged frog was previously found along its lower section where the NRSA occurs. Thus, although some of the NRSA currently contains good habitat for this species, red-legged frogs would likely need to colonize from other occupied habitats.

Tom's Pond provides potential habitat for the California red-legged frog. However, the presence of predatory fish such as mosquito fish (Gambusia affinis) reduces the opportunity for successful breeding. This artificial pond is isolated from any nearby suitable aquatic habitats. Further, no California red-legged frog populations are found within 1.6 km (one mile), which reduces the chance of successful natural colonization of Tom's Pond. Therefore, it is very unlikely that the California red-legged frog will occur there in the future.

Silvery Legless Lizard and California Horned Lizard No silvery legless lizards or California horned lizards were observed during surveys.

Populations of legless lizards occur in the coastal dunes of San Luis Obispo north and south of the NRSA (Hunt 1983). Tolman (BioSystems 1995) reported legless lizards at the mouth of Coon Creek in the late eighties. Since then however, no reliable confirmation of this occurrence has been made.

Weather conditions were favorable for conducting silvery legless lizard and California horned lizard surveys. Air temperatures at the ground level ranged from 22°C to 27°C, with winds from 0 to 15 mph. No rain occurred during or between the surveys.

Two-Striped Garter Snake No two-striped garter snakes were observed during surveys along Coon Creek or at Tom's Pond. Weather conditions were favorable for conducting two-striped garter snake surveys. Coon Creek provides suitable habitat, including potential prey items such as treefrogs. Two-striped garter snakes could occur in Coon Creek and at Tom's Pond due to habitat suitability, but were not detected during the surveys because of low density.

Furthermore, two-striped garter snakes could be present in the upper section of Coon Creek (upstream of the bridge) where surveys were not conducted.

Western Pond Turtle No southwestern pond turtles were observed during surveys along Coon Creek or at Tom's Pond. Coon Creek generally does not provide potential habitat for southwestern pond turtles. The creek lacks large pools and sunny basking sites. Tom's Pond offers good suitable aquatic habitat including wind-protected shorelines. Emergent roots and dry cattails provide potential basking sites for all life stages. Upland habitat is mostly characterized by grassland, in which potential nesting sites are located in open, flat and sunny areas that would allow eggs to incubate successfully. However, it is very likely that southwestern pond turtles are absent from the NRSA. No southwestern pond turtle populations are known to occur within five kilometers of the NRSA. The steep terrain North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 39 July 27, 2006

and lack of nearby populations make natural colonization of Tom's Pond by this species in the future unlikely.

Common Herpetofauna Species Several common amphibian and aquatic reptile species were detected during the surveys.

Pacific treefrog (Hyla = Pseudacris regilla), 'western fence lizard (Sceloporus occidentalis), western rattlesnake (Crotalus viridis), racer (Coluber constrictor), and gopher snake (Pituophis catenifer) were observed along Coon Creek. The Pacific treefrog and western toad (Bufo boreas) were observed at Tom's Pond. The western fence lizard was observed along Big Wash.

4.3 Birds 4.3.1 Study Sites Riparian bird surveys, emphasizing least Bell's vireo (LBVI) (Vireo bellii pusillus) and willow flycatcher (WIFL) (Empidonax trailliiextimus), were conducted between April 22 and July 28, 2005 on the reach of Coon Creek located within the NRSA to assess its suitability as breeding habitat for special-status bird species. Specifically, the reach of Coon Creek surveyed extended from the Pecho Valley Road bridge to the mouth of Coon Creek. Stands of cattails along Coon Creek, especially at the mouth, were searched for tricolored blackbirds (Agelaius tricolor) during each survey. This species was also searched for at Tom's Pond during surveys for amphibians and aquatic reptiles. The western snowy plover (Charadriusalexandrinus nivosus), a Federal threatened species, was also surveyed in the section of sandy beach habitat at the mouth of Coon Creek.

Surveys were also conducted for a variety of sensitive raptors (birds of prey) throughout the NRSA.

Incidental observations of the western grasshopper sparrow (Ammodramus savannarum perpallidus) and California horned lark (Eremophila alpestris actia) in 2005 suggested breeding populations of both species in upland habitats of the NRSA. Areas of suitable nesting habitat occur over approximately 85% of the NRSA in grassland areas. As a follow-up to the 2005 observations of horned lark and grasshopper sparrow, upland bird surveys were conducted in the spring and summer of 2006 to ascertain breeding status of these species. One survey each was conducted in April, May, and June. Surveys for upland birds took place throughout the upland habitats in the NRSA with an emphasis on grassland areas. During the upland bird surveys, the biologists also searched for possible nest sites of western burrowing owl (Athene cuniculariahypugea).

4.3.2 Sensitive Species Accounts Cooper's Hawk (Accipitercoopert)

The Cooper's hawk (COHA) is a California Species of Special Concern (CDFG 2005b).

The species is widespread in suitable habitats of the United States and Central America, including deciduous woodlands and riparian areas. The COHA was once considered a common nesting species throughout California (Grinnell and Miller 1944) but North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 40 July 27, 2006

extirpations and declines in California breeding populations were noted in the 1950s and 1960s (Remsen 1978). In San Luis Obispo County, the COHA is uncommon during migration periods and winter, but is considered rare during the nesting season (Edell 1996).

Peregrine Falcon (Falcoperegrinus)

The peregrine falcon is a state listed endangered bird and was delisted by the USFWS in 1999. The range of this species includes the coast of southern and central California.

Typically peregrine falcons nest on ledges of large cliff faces. In some areas, there is substantial site tenacity; peregrines often re-use the same nest site for many years.

Nesting and wintering habitats are varied, but are known to include wetlands, woodlands, forested habitats, cities, agricultural areas and coastal habitats. Pergrines have successfully nested on an off-shore rock near the DCPP for many years, as documented in the PEB.

Western Burrowing Owl (Athene cuniculariahypugea)

The western burrowing owl is a California and federal Species of Special Concern. This species is found year-round in open grasslands, deserts, agricultural areas, and scrublands with low growing vegetation. Suitable habitat may also include trees and shrubs if canopy cover is less than 30 percent. Burrowing owls typically nest in old burrows of ground squirrels and other fossorial mammals; they may also dig their own burrows in soft soils or nest in man-made structures such as small culverts, abandoned pipes, or debris piles.

The burrowing owl predominately eats insects and small mammals. Conversion of suitable habitat to intensive agricultural uses and eradication of ground squirrel colonies, a source of nesting burrows, have been the primary reasons for the decline of the western burrowing owl (Anderson and England 1987). Burrowing owls have been reported in grassland areas north and south of the DCPP, but nesting by this species has not been confirmed (personal communication, LSC). This species was documented just south of the NRSA (near Crowbar Peak) and in the Pea Field paddocks at the northern end of the NRSA during comprehensive surveys of sensitive species and habitats performed by PG'&E in the early 1990s (BioSystems Analysis 1995).

Willow Flycatcher (Empidonaxtrailliissp.)

All subspecies of willow flycatcher (WIFL) were granted state endangered status in California in 1991. The southwestern willow flycatcher (SWFL) received Federal endangered status in 1995 (Finch and Stoleson 2000). The WIFL was formerly a common summer resident throughout California in suitable habitat, primarily riparian willow thickets (Grinnell and Miller 1944). Loss and degradation of riparian habitat is cited as the principal reason for declines in all California subspecies, but brood parasitism by the brown-headed cowbird (Molothrus ater) may also play a role. The species has been virtually eliminated as a breeder from most of its former range in California with only small, scattered populations remaining in the Sierra Nevada and along the Kern, North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 41 July 27, 2006

Santa Margarita, San Luis Rey, and Santa Ynez rivers in southern California (Remsen 1978). The Santa Ynez River in Santa Barbara County is the northern limit for known coastal populations of SWFL. The survey area is thus north of the known breeding range for this species by approximately 65 miles.

California Horned Lark (Eremophilaalpestrisactia)

The California homed lark (HOLA), is a resident species of the coastal ranges and San Joaquin Valley south to Baja California, Mexico. Breeding Bird Survey (BBS) data indicate widespread population declines in HOLA throughout their range, beginning in the 1960s. The HOLA is a California Species of Special Concern, and, therefore, it is important to document observations of confirmed or probable breeding individuals or populations where they occur. The HOLA prefers open, habitats, especially sparsely vegetated grassland, prairies, deserts and agricultural land. This species was documented within the NRSA during comprehensive surveys of sensitive species and habitats performed by PG&E in the early 1990s (BioSystems Analysis 1995).

Least Bell's Vireo (Vireo belliipusillus)

The least Bell's vireo (LBVI) is a federal and state endangered species (CDFG 2005b, USFWS 2000). LBVI is a summer resident of cottonwood-willow forest, oak woodland, shrubby thickets, and dry, desert washes with willow thickets at the edges. Formerly, LBVI was known to breed from interior northern California south through the Sacramento and San Joaquin valleys and Sierra Nevada foothills and in the coastal ranges from Santa Clara County south into Baja California. The bird also nested historically in the Owens and Death valleys in Inyo County and at scattered oases and canyons throughout the Mojave Desert (Grinnell and Miller 1944). Habitat loss and degradation coupled with impacts of brood parasitism by the brown-headed cowbird have resulted in contraction of the former range of the LBVI and decreases in local population size (Brown 1993, Goldwasser et al. 1980). Currently, the breeding range of the LBVI is limited to. Baja California, Mexico and southern California, where large populations remain in Riverside and San Diego counties. Smaller populations occur in Santa Barbara, Ventura, and San Diego counties. Coon Creek is generally north of the current (but not historic) breeding range for LBVI.

Yellow Warbler (Dendroicapetechia brewsteri)

The Pacific coast subspecies of yellow warbler (YWAR) is a California Species of Special Concern (CDFG 2005b). The YWAR has an extensive breeding range in the United States; in California, it is chiefly associated with willow riparian habitat (Lowther et al. 1999). The YWAR was historically a common to locally abundant summer resident in riparian areas throughout California (Grinnell and Miller 1944). Loss of riparian habitat has resulted in population declines and extirpations in coastal southern California populations. Susceptibility to brood parasitism by brown-headed cowbirds may also be a factor in population declines in the southwest (Remsen 1978). This species was not documented within the NRSA during comprehensive surveys of sensitive species and North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 42 July 27, 2006

habitat performed by PG&E in the early 1990s, but was found south of the NRSA near the mouth of Diablo Creek (BioSystems Analysis 1995).

Western Grasshopper Sparrow (Ammodramus savannarumperpallidus)

Although populations of grasshopper sparrow (GRSP) appear to be stable throughout most of their historical range, the western subspecies, A. s. perpallidus, is considered locally rare by USFWS (Victor 2005) and is currently a CDFG Species of Special Concern (CDFG 2005b). It is also on the Audubon Society's Blue List, Partners in Flight's Watch List and is a USFWS Migratory Non-game Birds of Management Concern. As such, it is important to document observations of confirmed or probable breeding individuals/populations where they occur in California. The western GRSP occurs in native and non-native grasslands and prefers moderately open grasslands with bunch grasses and areas of bare ground (Vickery 1996).

Tricolored Blackbird (Agelaius tricolor)

The tricolored blackbird is a CDFG Species of Special Concern. Local populations fluctuate from year to year; however, overall this species has been declining. The decrease in population numbers may be due in part to conversion of marshlands which provide nesting habitat. Tricolored blackbirds nest in dense marsh habitat usually comprised of cattails and bulrushes. They are gregarious, colonial nesters with the number of pairs in a breeding location ranging from about 50 to thousands (Small 1994).

Foraging normally occurs in nearby agricultural fields. In San Luis Obispo County, this species has an irregular distribution and rate of occurrence (Edell 1996). Similar to occurrence statewide, the number of tricolored blackbirds in the county can vary substantially among years. This species was documented within the NRSA at Coon Creek and at Tom's Pond during comprehensive surveys of sensitive species and habitats performed by PG&E in the early 1990s (BioSystems Analysis 1995).

4.3.3 Survey Methods RiparianSurvey The riparian vegetation of Coon Creek west of the Coon Creek Bridge was assessed to evaluate habitat "quality" for LBVI and SWFL. Dominant vegetation, canopy height, and percent species cover were recorded. The depth and width of the creek were estimated and recorded for the survey period. Existing impacts to riparian birds including predator presence (sightings, tracks or scat) and human disturbance were recorded during each survey.

Surveys for the two listed riparian bird species (LBVI and WIFL ), followed agency approved survey protocols (USFWS 2001, Sogge et al. 1997). During the protocol surveys, other sensitive-status riparian species were also surveyed, including Cooper's hawk and yellow warbler, both California Species of Special Concern (CDFG 2005).

Additional description of the methodology is included below.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 43 July 27, 2006

The survey transect included approximately one kilometer of Coon Creek between the road crossing and the mouth of the creek. Sampling was conducted for presence and any breeding attempts for the WIFL and LBVI. In addition, beach habitat at the mouth of Coon Creek was surveyed for western snowy plover, a federal threatened species.

Observations were made at a series of points along Coon Creek (Table 4.3-1).

Protocol surveys using taped playback calls and songs were used to obtain presence data for LBVI and WIFL along lower Coon Creek. A general census of the overall bird community was also conducted with emphasis on determining the abundance and breeding status of birds within or adjacent to the survey transect. Breeding territories (based on the presence of territorial males, pairs, or known nests) were mapped during each survey to clarify breeding status of territorial birds; a list of all birds observed can be found in Appendix C.

Eight surveys were conducted for LBVI between April 23 and July 28, 2005. Surveys were spaced at least 10 days apart as directed by the approved protocol. Six surveys were conducted for WIFL between May 17 and July 28, 2005. One survey for WIFL was conducted during Period 1 (May 15 to 31), one during Period 2 (June 1 to 21), and three during Period 3 (June 22 to July 17) as recommended for project-related surveys (Sogge 2000).

Survey efforts for the two species were combined whenever possible (Table 4.3-2).

Surveys were performed between 0530 and 0930. Taped songs and calls were used every 40 meters along the survey transect. Taped vocalizations were played for approximately 20 seconds with 3-minute listening periods between taped broadcasts to allow for birds to approach and respond.

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Table 4.3-1. Observation coordinates, Coon Creek riparian bird surveys, 2005.

Point Northi~ng Easting 0 10 S 0692129 3903511 1 10S 0692034 3903515 2 10S 0692083 3903556 3 10 S 0692014 3903547 6 10S 0692074 3903537 7 10S 0692060 3903559 8 10S 0692038 3903579 9 10S 0691976 3903596 10 10S 0691935 3903593 11 10 S 0691919 3903623 11.1 10 S 0691894 3903658 12 10 S 0691870 3903710 12.1 10S 0691873 3903754 13 10 S 0691861 3903774 14 10 S 0691835 3903826 15 10S 0691733 3903803 16 10S 0691710 3903775 17 10S 0691653 3903793 18 10 S 0691661 3903796 19 20 10 S 0691556 3903826 Table 4.3-2. Survey dates for willow flycatcher (Empidonax traillii extimus) and least Bell's vireo (Vireo belliipusillus) along Coon Creek, 2005.

Visit # Date Survey Performed 2 1 22-Apr-05 site visit 2 23-Apr-05 LBVI (1) 3 3-May-05 LBVI (2) 4 17-May-05 LBVI (3) WIFL (1) 5 7-Jun-05 LBVI (4) WIFL (2) PEFA 6 25-Jun-05 LBVI (5), WIFL (3), PEFA 7 5-Jul-05 LBVI (6), WIFL (4) 8 16-Jul-05 LBVI (7), WIFL (5), SNPL (1) 9 28-Jul-05 LBVI (8), WIFL (6), SNPL (2)

SNPL = western snowy plover LBVI = least Bell's vireo WIFL = willow flycatcher PEFA = peregrine Falcon Site visit # for a particular species in parenthesis North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 45 July 27, 2006

Breeding territories were mapped based on the presence of singing males, territorial pairs, or nests for each survey period. Behavioral observations for each species in the survey area were summarized and final status determinations made based on cumulative observations (Appendix D). Individuals were confirmed as breeders based on the discovery of an active nest, adults carrying food to a nest location, or the presence of "locals" (recently fledged juveniles) within a known territory.

UplandSurvey Surveys of upland habitats focused on California homed lark (HOLA), western grasshopper sparrow (GRSP), and western burrowing owl; and were conducted on three occasions during 2006. Dates, times, and weather conditions for each survey are included in Table 4.3-3.

Table 4.3-3. Dates, times and weather conditions of surveys for California horned lark, western grasshopper sparrow, and western burrowing owl in upland habitats, 2006.

I Visit# Date/Time Weather Conditions I 18-Apr-06 Mostly clear, moderate breeze, temperature - 60TF 2 5-May-06 Mostly clear, slight breeze, temperature - 70'F 3 2-June-06 Partly cloudy, slight breeze, temperature - 65'F Due to the large size of the upland habitat areas (aproximately 85% of the NRSA),

specific survey routes varied with each survey conducted. This was done to: (1) provide survey coverage to all upland habitats during the three surveys; (2) allow biologists to detect birds by sight and sound from north and south of the upland areas (to account for ocean and wind noise); and (3) to assess special-status bird occurrence along potential routes of public access (secondary ranch roads).

On April 18, 2006 (Survey 1), the survey started near the caretaker's house, proceeded west to the bluff road, then south along that road past Tom's Pond to Red Barn Road.

Survey 2 on May 5, 2006 started at the southern boundary of the NRSA near Seal Rock, proceeded east to Pecho Valley Road, then north along the road to the vicinity of the caretaker's house. Survey 3 on June 2, 2006 once again started near the caretaker's house, continued south along Pecho Valley Road, then west to the vicinity of Point Buchon, and returned via ranch roads to the caretaker's house.

Weather conditions were good for detecting birds during all three surveys (see Table 4.3-3). Mostly clear skies with no marine layer resulted in good visibility. Wind was limited to low to moderate breezes, which provided good conditions for hearing bird vocalizations.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 46 July 27, 2006

All surveys were performed by two biologists from a vehicle, making periodic stops along the survey routes. Stops were approximately 1/8 to 1/4-mile apart. At each stop, the biologists exited the vehicle and surveyed for birds by sight and sound for 10 minutes.

All birds detected by direct observation or vocalization were noted. The list of bird species observed is included in Appendix C. Each observation of the three target special-status species was to be recorded via GPS technology. Of these three species, only grasshopper sparrows were observed during the surveys. No HOLAs or burrowing owls were observed. Other data collected with each GRSP observation included date, time, general location, dominant plant species in the vicinity, vegetation height and density, relative degree and aspect of slope, and distance to the nearest ranch road.

4.3.4 Survey Results RiparianSurvey The only Special Status Species observed during riparian surveys were willow flycatchers (probably E. t. brewsteri) and yellow warblers. Yellow warblers nested within the survey area in 2005; all willow flycatcher observations involved transient individuals.

A total of 66 species of birds were observed in or adjacent to riparian habitat along the Coon Creek survey transect between April 23 and July 28, 2005. Nineteen species were confirmed breeders in riparian habitat within the survey area based on detection of nests, adults carrying food into nesting territories, or the presence of "locals" (recently fledged juveniles) in established territories. Confirmed riparian-breeding species in 2005 included 14 resident and five neotropical migrant species. Six additional species nested in habitats adjacent to Coon Creek. All of these, except killdeer (Charadriusvociferous) also occurred in riparian habitat. A pair of killdeer nested on the beach north of the creek mouth. At least 12 pairs of red-winged blackbirds nested in bulrushes (Scirpus sp.) at the mouth of Coon Creek. Four species, California quail (Callipepla califbrnica), California thrasher (Toxostoma redivivunm), orange-crowned warbler (Vermivora celata), and Nuttall's white-crowned sparrow (Zonotrichia leucophrys nuttallii) nested in adjacent scrub habitat.

Eight species of birds were probable breeders in riparian habitat of Coon Creek based on the continued presence of a territorial (singing or performing other territorial displays) male, observation of a pair within a known territory, or Observation of fledged (independent) young within or near a known territory. These species are downy woodpecker (Picoides pubescens), Nuttall's woodpecker (Picoides nuttallii), Pacific-slope flycatcher (Empidonax difficilis), black phoebe (Sayornis nigricans), chestnut-backed chickadee (Poecile rufescens), bushtit (Psaltriparus minimus), black-headed grosbeak (Pheucticus melanocephalus) and house finch (Carpodacus mexicanus). One species, the black-headed grosbeak, is a neotropical migrant species. This brings the total of breeding bird species on the survey transect of Coon Creek and adjacent scrub habitat in 2005 to 33 species.

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Neotropical migrant birds observed in April and May included two willow flycatchers.

There was no evidence that either southwestern willow flycatcher or least Bell's vireo attempted nesting on Coon Creek in 2005. Habitat was not optimal for either species (but this is never conclusive, as individual birds can make unusual habitat choices). Because Coon Creek is generally north of the current breeding range for either species, it is unlikely that either species will occur as a breeder. However, Coon Creek is currently supporting willow flycatchers and several other neotropical migrant species of birds during the migratory period, and conservation of areas and habitats used by birds during their annual migration is an important aspect of species conservation.

Despite the proximity to developed areas (park facilities and campsites), only one non-native bird species, the European starling (Sturnus vulgaris), was observed in the survey area or adjacent coastal bluff, beaches or chaparral. There was no evidence that this species was breeding in or near the western reach of Coon Creek. The single observation involved a number of individuals perched on the fence at the northern limit of the property.

American crow (Corvus brachyrhynchos) and western scrub-jay are both native "human commensal" species of birds with documented deleterious effects on other breeding bird species. There was no evidence that American crow was breeding near the western reach of Coon Creek. One or two pairs of western scrub-jay did nest in the survey area in 2005.

Western Snowy Plover The Pacific Coast population of western snowy plover (SNPL) was granted Federal threatened status in 1993. This population breeds primarily on coastal beaches from southern Washington to southern Baja California, Mexico. Among the comments PG&E received on the PEB, was a specific request from the DTF that this species be surveyed at the mouth of Coon Creek. Sandy beach habitat at the mouth of Coon Creek was checked for evidence of habitat use or nesting by SNPL. No SNPL were observed at the mouth of Coon Creek or on the stretch of sandy beach to the north on Montana de Oro property during these surveys.

On July 16 the beach at the mouth of Coon Creek was assessed for suitability as nesting habitat for western snowy plover. North of Coon Creek, the beach is shallow and therefore regularly inundated by high tides and unsuitable for nesting SNPL. There is habitat at the creek mouth that is above the high tide mark and a pair of killdeer (a related species with similar habitat affinities but greater tolerance of human presence) did nest there in 2005. Although it is possible that SNPL could use this area, it is unlikely because the area of potential nesting habitat is less than two hectares and although the substrate is primarily sand (65 percent) there is also extensive coverage by coarse gravel/cobble (0.5 to 5.0 cm diameter, average size approximately 1.5 cm in diameter).

The beach area also has extensive wrack debris at low tide, consisting of bull kelp (Nereocystis luetkeana) and red algae.

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The mouth of Coon Creek would be a difficult area for newly-fledged SNPL as the wave action is stronger here than in typical SNPL nesting areas (often at the mouth of rivers) and there is no access (except by flight) to adjacent beaches with more extensive foraging area. Furthermore, it is apparent that humans can (and do) occasionally trespass to access this beach; the survey crew discovered a lean-to structure built of giant reed (Arundo donax) sticks and empty beer bottles were present on the site.

Cooper's Hawk There were no observations of COHA in the NRSA during surveys conducted between April 21 and July 31, 2005. This species is considered to be rare in San Luis Obispo County during the nesting season and uncommon during winter and migration periods (Edell 1996). It is known to breed in the county. Despite the lack of sightings during the 2005 riparian surveys, there is potential for Cooper's hawks to nest on a rare to uncommon basis along Coon Creek in the NRSA. This species was documented within the NRSA and adjacent areas during the comprehensive surveys performed in the early 1990s (BioSystems Analysis 1995).

Peregrine Falcon A new peregrine nest territory was discovered by marine biology consultants performing field work for PG&E during the early stages of survey work in 2005. PG&E responded by creating a 350 meter buffer around the nest site and restricting access to help prevent unnecessary disturbance until the young falcons had fledged in early July. One or possibly two young are believed to have successfully fledged from the nest site in 2005.

Figure 4.3-1. Peregrine falcon eyrie location.

Photo by Jim Strampe, Tenera Environmental, San Luis Obispo, California.

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Two official attempts (June 7 and 25, 2005) were made to observe this eyrie, located between Disney Point and Point Buchon. Observations of adult birds were made during both visits. During the first visit, one adult displayed territorial behavior and actively defended an area '/2-mile from the eyrie. On the following visit neither adult exhibited territorial behavior, nor were any nestlings or juveniles observed.

Unofficial observations were made by both the invertebrate and marine biologists on multiple occasions. Two adult birds were observed and possibly one juvenile in May of 2005.

Willow Flycatcher Two WIFLs were detected on Coon Creek during the spring migration period on April 23, 2005. The timing of these observations suggests that the birds were transient E. t.

brewsteri, as the SWFL does not typically arrive in southern California until late May (Lehman 1994). There were no further detections of WIFL during protocol surveys, and no past records of this species occur from the NRSA or elsewhere on the Diablo lands.

Least Bell's Vireo There were no observations of this species in the NRSA during surveys conducted between April 22 and July 28, 2005. Coon Creek is north of the current range of least Bell's vireo, but it is within historic range. The riparian habitat has elements of suitable nesting habitat for this species, but it is not considered to optimal habitat. The riparian zone contains dense vegetation below 10 feet in height as well as taller trees; however the extent of such habitat is limited. The riparian zone is relative narrow. It is unlikely that least Bell's vireos nest along the Coon Creek riparian zone or elsewhere in the NRSA.

Yellow Warbler Yellow warblers were detected during surveys on April 23, May 3, May 17, June 7 and 25, and July 5 and 16. There were as many as six singing males (May 23) and up to eight individuals detected per survey during the migration period (April to May). There was one confirmed breeding record in the survey area in 2005; on June 5, a fledgling was observed with adults. An additional three pairs of yellow warblers were probable breeders on Coon Creek based on continued presence of territorial males and occasional observations of females during the survey period.

UplandSurvey Fifty-one bird species were observed during the upland bird surveys in 2006 (Appendix C). A number of species were observed at the margins with other habitats, such as riparian and near-shore.

Of the three target special-status upland species, only the grasshopper sparrow was detected during planned surveys. Twelve GRSP were observed during the survey (Table 4.3-5). The 12 sightings included two pairs and eight individual birds. The distribution of sightings among the three survey dates (five in April, four in May, three in June)

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supported the incidental sightings and preliminary conclusion from 2005 surveys that a breeding population occurs in the NRSA.

Western Grasshopper Sparrow During the initial site visit (April 22, 2005) and on two other dates (June 7 and 25) when peregrine falcon nest monitoring was conducted in grassland sections of the NRSA, GRSP were observed in coastal grassland habitat. Intensive surveys were not conducted for this species in 2005 on the coastal bluff and therefore no population size estimates or documentation of confirmed breeding for GRSP is available. However, singing males were detected on the three dates listed above. The observations were made at several localities along the coastal bluff of the NRSA, suggesting that there is a breeding population of GRSP in the area.

During three upland bird surveys in 2006, 12 GRSP were observed. Pairs were observed on two dates (April 18 and May 5). The other eight GRSP sightings were of individual birds. The observations were at different locations within the upland portion of the NRSA. Several were along a secondary ranch road near the corrals at the south end of the NRSA, while others were sighted from the bluff road beginning in the vicinity of Tom's Pond and then north to Disney Point. Based on qualitative vegetation analyses at the sighting locations, it appears that GRSP are using areas with relatively moderate ground cover. Although the vegetative cover was not dense, it was moderately tall with vegetation heights generally six to 18 inches. The species composition was dominated by annual grasses, but most observation sites also contained lesser amounts of shrub cover as well. Much of the upland portion of the NRSA contains this combination of grass and shrub cover up to 18 inches in height, and as such, is potential nesting habitat for this species.

Table 4.3-4. Grasshopper sparrow observations during the April 18, May 5, and June 2, 2006 upland bird surveys, NRSA.

Individuals in

Date ~Observation~ General Location 18-Anr-06 w *
  • w 1 individual To be added 18-Apr-06 I individual To be added 18-Apr-06 Pair Bluff Road south of Tom's Pond 18-Apr-06 I individual Near Disney Point 5-May-06 Pair To be added 5-May-06 I individual To be added 5-May-06 I individual To be added 2-Jun-06 1 individual Along Corral Trail 2-Jun-06 1 individual Along Corral Trail 2-Jun-06 I individual Along Corral Trail Most of the GRSP observations were along the bluff road and at the southern end of the NRSA, near the livestock corrals. All were in vegetation that provided at least moderate North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 51 July 27, 2006

ground coverage. The vegetation type was primarily grassland, some areas with a lesser shrub component. Common plant species were wild oats (Avena fatua), brome grasses (Bromus spp.), Italian ryegrass (Lolium multiflorum), black mustard (Brassica nigra),

wild radish (Raphanus sativa), sticky monkeyflower (Mimulus aurantiacus),and coyote brush (Baccharispilularis). Vegetation height was generally six to eight inches, but at some observation locations the vegetation was as low as four inches and as high as 18 inches.

Western Burrowing Owl No burrowing owls or burrows with evidence of use by this species were observed during bird surveys conducted in 2005. The same was true for upland bird surveys conducted in 2006. During night spotlight surveys for badgers in 2005, PG&E biologists detected three burrowing owls, a single bird was observed on September 26, and two were observed on October 3. Three individuals were also observed within the NRSA during winter surveys in 1993 (BioSystems 1995). Despite the lack of sightings during planned surveys in 2005 and 2006, this species is known to utilize the site (as well as areas south of the DCPP), especially from fall through late winter, though no breeding has yet been confirmed on the Diablo lands.

California Horned Lark During the initial site visit (April 22, 2005) and on two other dates (June 7 and 25) when peregrine falcon nest monitoring was conducted in grassland sections of the NRSA, HOLA were observed in coastal grassland habitat of the NRSA. Surveys were not conducted on the coastal bluff and therefore no population size estimates or documentation of confirmed breeding for HOLA is available. However, singing males were detected on three different dates and at several localities along the coastal bluff of the NRSA, suggesting that there is a breeding population of HOLA on the property.

There were no sightings of HOLAs during more intensive surveys conducted in 2006.

Vegetative cover in 2006 appeared to be higher than in 2005, possibly due to the extended rainy season that proceeded the nesting season. Many of the areas surveyed contained grasses that were 12 to 18 inches or more in height. HOLA prefer to nest in very short vegetation. This species could potentially nest in and near the NRSA, selecting specific nest locations based on the amount of vegetative cover present. The amount of cover, in turn, is often a factor of the amount of precipitation received and the intensity of cattle grazing. Grazing pressure on the NRSA is closely controlled to sustain rangeland health. In 2006, it appears that grass and forb cover was higher than optimal for this species, but was suitable for another upland special-status species - GRSP (see below).

HOLA were among the special status species documented within the NRSA and adjacent areas during the comprehensive surveys performed by PG&E in the early 1990s (BioSystems Analysis 1995).

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HabitatSurvey Coon Creek Riparian Habitat The riparian vegetation of lower Coon Creek within the NRSA was evaluated during surveys between April 22 and July 28, 2005 to assess potential as breeding habitat for WIFL and LBVI. This habitat ranges from 90 to 200 meters in width. The canopy trees are entirely willow (Salix sp.). The understory is well-developed, except in areas disturbed by a 2004 steelhead habitat restoration project. East of the survey transect, the creek ascends into a narrow canyon in the Irish Hills; this section of Coon Creek flows through oak woodland (Quercus agrifolia) bordered by coastal scrub and chaparral.

Within the NRSA the creek flows year-round and no changes in the width or depth were detected between April 22 and July 28, 2005 (an above average water year). Along the survey transect, Coon Creek varies from approximately 5 to 8 meters in width and from 0.1 to 1.4 meters in depth. Near the bridge, a series of pools were constructed in 2004 to create habitat for south-Central Coast steelhead (Oncorhynchus mykiss irideus). The pools are attractive to wading, piscivorous birds and both great blue heron (Ardea herodias) and black-crowned night heron (Nycticorax nycticorax) were observed foraging in them.

Dense vegetation coverage prevents walking in the creek from approximately 150 meters west of the bridge. Overall canopy height ranges from 4.5 to 12 meters (average 6 meters). All canopy trees in the survey transect are willows. Understory coverage is extensive (approximately 95 percent), and penetrating the vegetation beyond the edges is difficult in most places. Most of the understory species are native perennials. The most abundant species are poison oak, stinging nettle, California blackberry (Rubus ursinus) and poison hemlock. Dogwood (Cornus occidentalis) and wild cucumber (Marah fabaceus) are also abundant in some areas. Non-native thistle (Cirsium sp.) is common along the disturbed edges near the trail and fenceline along the north side of Coon Creek.

Upland Habitat The upland vegetation of the NRSA was evaluated during surveys between April 18 and June 2, 2006 to assess potential for use as breeding habitat for GRSP, HOLA, and burrowing owls. A majority (approximately 85%) of the 500-acre NRSA contains upland vegetation, which is comprised of annual grasses (including Bromus spp. and Avena fatua), scattered pockets of native grasses (Nassellaspp.), and elements of scrub habitat, such as California sagebrush (Artemisia californica) and coyote brush (Baccharis pilularis). Included with the annual grasses were a number of annual forbs, including wild radish (Raphanus sativa) and mustard (Brassica spp.). Vegetation height was generally up to 18 inches. Overall vegetation height increased in areas with shrubs.

Based on 2006 surveys, the upland habitat in the NRSA appears to provide nesting habitat for GRSP, but not for HOLA or burrowing owl. The vegetation height may be too great for nesting by HOLA. Burrowing owls appear to prefer more inland locations for breeding in this part of California. The reason for this is not known (personal communication, Deb Hillyard, CDFG). However, the vegetative cover is sufficient, and North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 53 July 27, 2006

suitable nesting substrate (American* badger (Taxidea taxus) and California ground squirrel (Spermophilus beecheyi) burrows) is abundant in the uplands.

The upland vegetation in the NRSA is good nesting habitat for a number of species and is used by others during migration and winter. Its value to upland bird species appears to have been enhanced by current grazing management, which retains suitable amounts of nesting cover and controls grazing animal imact during the nesting season.

In addition to the GRSP, 50 other bird species were observed during the upland surveys.

Of that total, 30 could be considered upland species with potential to nest on the ground or in shrubs in upland habitats. Species commonly observed during the surveys included western meadowlark (Sturnella neglecta), California thrasher (Toxostoma redivivum),

lesser goldfinch (Carduelis psaltria), American goldfinch (Carduelis tristis), wrentit (Chamaea fasciata), western scrub-jay (Aphelocoma californica), and bushtit (Psaltriparusminimus).

Habitat Summary The western reach of Coon Creek comprises approximately 1.5 km. of riparian woodland.

The canopy is monotypic (willow only) but the understory is dense and well-developed, providing nesting habitat for a number of species of resident and neotropical migrant birds. The riparian corridor is relatively short and narrow (approximately 200 meters at its widest) and therefore subject to "edge-effects" resulting in increased risk of predation and nest parasitism (although brown-headed cowbirds were scarce). However, the existing vegetation is "intact," showing few signs of human impact or erosion and degradation associated with grazing. Although native mammalian predators were observed on Coon Creek, species that impact breeding birds including cats (Felis domesticus), red fox (Vulpes vulpes), and crows (Corvus brachyrhynchos) were conspicuously absent while others including raccoon (Procyon lotor) and western scrub jay probably occur only in low numbers. Furthermore, only a single non-native bird species, the European starling, was observed.

The remainder of the site is upland habitat, mostly grassland, but also with some scrub habitat interspersed. Ground cover is relatively high, providing foraging, escape, and nesting habitat to a number of birds. The upland areas are valuable not only to birds foraging and nesting on the ground, but also to raptors, such as red-tailed hawk and golden eagle that forage for prey over the open areas.

4.4 Mammals 4.4.1 Study Sites A small mammal trapping survey was conducted in the NRSA over three consecutive nights (June 18, 19 and 20, 2005) by biologists Paul Collins and Rob Gilman. The purpose of the surveys was to assess presence of sensitive mammals, particularly the San Diego desert woodrat (Neotoma lepida intermedia), a California Species of Special North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 54 July 27, 2006

Concern, and the Morro Bay kangaroo rat (Dipodomys heermanni morroensis), a Federal and state endangered species.

A day-time survey for American badger was conducted by Pierre Fidenci and Sally Krenn, on July 26, 2005. Two additional follow-up night badger surveys were performed in August 2005 by PG&E staff biologists Steve Yonge and Kelly Collins. Ms. Krenn also surveyed the southern portion of the NRSA for badger burrows on several dates during July and August 2005.

4.4.2 Sensitive Species Accounts Desert Woodrat (Neotoma lepida)

The desert woodrat is a small, pale gray woodrat with a distinctly bicolored tail.

Underparts are pale or white, but the hairs are gray at the base. This animal also has a distinct white throat patch. In California this species inhabits chaparral in the vicinity of rocky outcrops. It is also typical in pinyon-juniper habitats and deserts. Desert woodrats are primarily nocturnal, retreating to dens constructed of debris among rocks and boulders and/or vegetation when inactive during the day. This species feeds on leaves, berries, and seeds of many sorts of forbs, as well as leaves of shrubs and berries, cacti and desert succulents (Jameson and Peeters 1988).

Thirty-one subspecies of desert woodrat exist in the western United States, of which four subspecies, N. 1. lepida, N. 1. gilva, N. 1. grinnelli, and San Diego desert woodrat (N. L.

intermedia), occur in southern California. The San Diego subspecies is a California Species of Special Concern (CDFG 2005b). It now occurs in coastal California from San Luis Obispo south; historic locations have been recorded from San Luis Obispo near Los Padres National Forest, San Fernando near Angeles National Forest, Redlands near the San Bernardino Mountains and the San Bernardino National Forest, and Julian near the Cleveland National Forest (Jameson and Peeters 1988).

American Badger (Taxidea taxus)

The American badger is a large mustelid species adapted for digging and underground life. It is silver-grey with a dark head bearing a distinctive white stripe. It has a short, furred tail. Badgers are found statewide, in open areas primarily with sandy soils, including deserts. It feeds on ground squirrels and pocket gophers, and its population fluctuates with the populations of these animals. Badgers make large burrows, and also tear up ground in pursuit of prey (Jameson and Peeters 1988). It is a California Species of Special Concern.

Morro Bay Kangaroo Rat (Dipodomys heermannimorroensis)

The Morro Bay subspecies of kangaroo rat (D. h. morroensis) is a federal and state-listed endangered species. It is considered California's most endangered mammal, inhabiting only a small area near Los Osos and possibly at Montana de Oro State Park. They live in sandy plains with sparse vegetation, including plants such as California sagebrush, lupine, and coyote brush (CDFG 2000).

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4.4.3 Survey Methods Small Mammal Trapping Survey The small mammal trapping survey was conducted by biologists Paul Collins and Rob Gilman during June 18 through 20, 2005. The survey was performed by setting up five trap lines (trap lines 401 - 405) within the NRSA (Figure 4.4-1). Each of the trap lines consisted of a total of 20 extra-large (12-inch long) Sherman live traps, for a total of 300 trap-nights. These larger traps were used to minimize stress and potential injury to larger animals, such as kangaroo rats and woodrats.

The 100 traps were placed in locations in coastal bluff scrub, cactus scrub 2, and grassland habitats. The location of each trap line was recorded using a Garmin V global positioning system (GPS) receiver. The trap line sites were previously selected on June 7, 2005 by Mr. Collins and GANDA wildlife biologist Tom Olson. Mr. Collins previously conducted small mammal surveys over a larger portion of the NRSA for PG&E, the results of which are contained in the PEB (BioSystems Analysis 1995).

Within each trapline, traps were set to maximize the likelihood of capturing small mammals, especially target species, such as San Diego desert woodrat and Morro Bay kangaroo rat. Items taken into consideration included vegetation types, presence of cover, habitat features unique to certain species (such as rock outcrops and cactus patches for San Diego desert woodrat), and observations of sign (scat, burrows, stick nests, etc.).

As such, the traplines were not arranged in traditional small mammal trapping grids.

Similarly, traps were not placed at a consistent spacing, although in most situations, consecutive traps were 30 feet or more apart.

The traps were baited with a combination of rolled oats and birdseed and set during the late afternoon/early evening for three consecutive nights. During the three trap-nights, there was a 1/2/2 to ,/4 waxing moon. Mammals captured in the traps were identified to species, sex, age, and reproductive condition, and then measured and released as quickly as possible at the capture site. Data forms were completed on each survey morning to document the trapping results.

Air temperatures during the surveys ranged from approximately 20'C (68°F) in the mornings to 32°C (90'F) in the afternoons. The weather during the surveys was clear and sunny with calm winds in the afternoons, ranging from five to ten miles per hour.

The surveys were performed between 0700 and 1100 hours0.0127 days <br />0.306 hours <br />0.00182 weeks <br />4.1855e-4 months <br />.

Trapline 401 was located on the southeast side of Crowbar Peak, at the extreme southern end of the NRSA. The vegetation in the area was coastal sage scrub, characterized by California sagebrush (Artemisia californica), coyote brush (Baccharis pilularis),

2A small localized occurrence along the boundary fence with Montana de Oro State Park involving a non-native Opuntiaspp.; not considered a separate community type for purposes of this baseline.

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deerweed (Lotus scoparius), buckwheat (Eriogonum parviflorum), and sticky monkeyflower (Mimulus aurantiacus). This location was selected during an earlier site visit because apparent signs of San Diego desert woodrat had been noted.

Trapline 402 was located on a small knoll near the mouth of Crowbar Canyon. The vegetation was mostly annual grassland with elements of coastal sage scrub. Dominant species included annual grasses, especially wild oats (Avena sativa), as well as forbs, such as black mustard (Brassica nigra). Some native species were also present, such as purple needlegrass (Nassella pulchra), California sagebrush, dove weed (Croton californicus), and mock heather (Ericameriaericoides). The location of this trapline was chosen because the general area appeared to have suitable kangaroo rat habitat.

Trapline 403 was located on a rocky, southeast-facing hillside north of Tom's Pond and Lion Rock. The vegetation in the area was coastal sage scrub characterized by California sagebrush, coyote brush, and poison-oak. Giant wild-rye (Leymus condensatus) was scattered through the area. The trapline was selected because it contained elements of suitable San Diego desert woodrat habitat, such as rocky outcrops, some with small stick nests.

Trapline 404.was located on the east side of the first point north of Point Buchon. The vegetation was a mix of annual grassland and coastal sage scrub. Dominant plant species included wild oats, brome grasses (Bromus spp.), Indian paintbrush (Castilleja spp.),

everlasting (Gnaphalium spp.), buckwheat, coyote brush, California sagebrush, and mock heather. The location of the trapline was chosen because it appeared to have suitable habitat for both desert woodrat and kangaroo rats.

Trapline 405 was located near the mouth of Coon Creek on the steep north bank, adjacent to the fence separating the NRSA from Montana de Oro State Park. The vegetation along the trapline was coastal sage scrub that included patches of cactus (Opuntia spp.). Some plant species from the adjacent riparian habitat also were present. Characteristic plants included California sagebrush, coyote brush, Italian thistle (Carduus pycnocephalus),

arroyo willow (Salix lasiolepis), poison-hemlock (Conium maculatum), black mustard, and star thistle (Centaurea solstitialis). The location of this trapline was selected due to the presence of the cactus patches, which are known to be used by San Diego desert woodrats..

American Badger Survey A day-time survey for American badger was conducted by Pierre Fidenci and Sally Krenn, on July 26, 2005. A nighttime survey was also performed on this date where suitable habitat for the American badger had been previously identified during the day.

Two additional follow-up night badger surveys were performed in August 2005 by PG&E staff biologists Steve Yonge and Kelly Collins. Ms. Krenn also surveyed the southern portion of the NRSA for badger burrows on several dates during July and North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 57 July 27, 2006

Figure 4.4-1. Small mammal trapping sites in the NRSA.

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August 2005, and mapped more than 50 burrows using a mobile GIS platform with GPS receiver.

Suitable habitat consisted of large areas of open grassland containing numerous burrows large enough to accommodate this species. The majority of this habitat was concentrated in the southern portion of the NRSA.

The first night survey was conducted by walking through areas of suitable habitat with a 6-volt light, searching for eyeshine. In cases where visibility was limited by dense fog, a vehicle was used to improve lighting and visibility. Subsequent night surveys were conducted from a vehicle using a 50,000 candle-power spotlight.

4.4.4 Survey Results Small Mammal Trapping A total of 125 small mammals were caught, consisting of five species: desert woodrat (Neotoma lepida), deer mouse (Peromyscus maniculatus), California ground squirrel, Botta's pocket gopher (Thomomys bottae), and California mouse (Peromyscus californicus)(see Table 4.4-1). The majority of animals caught were desert woodrats (90 percent). Although the San Diego desert woodrats could not be conclusively distinguished in the field from other N. lepida subspecies, they were likely of the desert subspecies (N. 1. intermedia) based on distributions described in the literature (such as Hall 1981). Hall (1981) indicates that the desert subspecies range extends from Baja California along the coast to a point in San Luis Obispo County north of the NRSA. The subspecies to the north is N. L.petricola, reported mostly from Monterey County. No kangaroo rats of any species were caught in this survey. The results of this survey are summarized in Table 4.4-1.

American Badger Two American badgers were observed during the night survey of July 26. One of the badgers was observed at the entrance of a burrow located at the western edge of Red Barn 1 paddock, and the second individual was observed along Pecho Valley Road, just north of the Red Barn paddocks. Due to the observation of two individuals and the presence of numerous burrows, American badgers appear to be common in the southern part of the NRSA. Earlier surveys (BioSystems 1995) did not detect this species; however, suitable habitat was recorded. Grazing tenant, Bob Blanchard has reported seeing badgers within the NRSA on numerous occasions.

Incidental Observations Additionally, two mammalian predators were detected during protocol surveys for riparian birds. Coyote (Canis latrans) and bobcat (Lynx rufus) were detected on most surveys. A mountain lion (Felis concolor) was reported seen in the NRSA in 2005, but could not be confirmed.

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4.5 Discussion Source information from the PEB pertaining to terrestrial wildlife (invertebrates, amphibians and reptiles, birds, and mammals) has been identified here and briefly discussed. The principal issues raised by the DTF in their review of this portion of the PEB dealt with:

  • habitatassessments for Smith's blue butterfly, foothill yellow-legged frog, California newt, silvery legless lizard, Coast horned lizard, and western spadefoot toad; San Emigdio and unsilvered fritillary butterfly presence; bat surveys; riparian and special-status bird surveys; Morro kangaroo rat and Morro shoulderband snail presence; tiger salamander presence; updating research priorities based on 2005 CNDDB data.

Other issues brought up by DTF members were focused more at the potential of public access to impact special-status species.

After a review of results from 2005 surveys, PG&E decided that surveys for two upland special status bird species (horned lark and grasshopper sparrow) should be conducted in 2006.

Preliminary research showed that the NRSA was well outside the known geographic ranges for the San Emigdio and unsilvered fritillary butterfly. In addition, results of 2005 wildlife studies showed little habitat available for the following species: Smith's blue butterfly, foothill yellow-legged frog, California newt, silvery legless lizard, coast horned lizard, and western spadefoot toad.

Bat surveys were not conducted because minimal roosting habitat exists within the NRSA, which led to the conclusion that bats are unlikely to be affected by day-time managed access on these lands.

Tiger salamander protocol surveys (two-year survey protocol) could not be conducted in the time frame given by the Coastal Commission for completing the baseline; however, this species was not detected during amphibian surveys conducted in the vicinity of Tom's Pond and Coon Creek. Furthermore, there is limited suitable habitat for this listed species within the NRSA; the nearest known population is approximately 10 miles away.

Figure 4.5-1 provides a summary of sensitive species occurrence as determined by surveys conducted in 2005 and 2006. PG&E believes that this portion of the baseline inventory is suitably complete and that it will adequately inform the process of planning a trail route and monitoring program.

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Figure 4.5-1. Results of sensitive wildlife surveys performed within the NRSA in 2005 2006.

Pacific Gas & Electric Co.

Diablo Canyon Power Plant North Ranch Managed Access Study Sensitive Terrestrial MammalslBirds Figure 4.5-1

~DRAFT

- otV~R.EcltJc; ea ~

~ ~ I '0.

,~ 0 ~ ~0$tI Baseline Inventory PG&E North Ranch Project Draft Ranch Project Draft Comprehensive Comprehensive Baseline Inventory PG&E Document No. 001.3.06,13 61 July 27, 2006

4.4-1.

STable Small mimmaItaping results at five sites within th40 IMammal Species I'Trap-in-e 401 1 rapline 402 Trapline 403 Latin Name Common Name 18-Jun 19-Jun 20-Jun 18-Jun 19-Jun 20-Jun 18-Jun 19-Jun 20-Jun Spermophilus beecheyi (SPBE) California ground squirrel 1 1 1 Thomomys bottae (THBO) Botta's pocket gopher Peromyscus maniculatus (PEMA) deer mouse 1 2 Peromyscus californicus (PECA) California mouse Neotoma lepida (NELE) desert woodrat 11 11 9 1 15 14 12 Total Mammals Caught 11 12 10 0 2 3 15 14 12 Number of Traps Set 20 20 20 20 20 20 20 20 20 Number of Traps Sprung 11 13 10 1 2 3 16 14 12 Catch Effort 55% 63.2% 50% 0% 10% 15% 78.9% 70% 60%

Trapline Catch Effort _ 56.1% 18.3% 69.6%

Mammal Species Trapline 404 Trapline 405 Subtotal Latin Name Common Name 18-Jun 19-Jun 20-Jun 18-Jun 19-Jun 20-Jun Spermophilus beecheyi (SPBE) California ground squirrel 4 Thomomys bottae (THBO) Botta's pocket gopher 11 Peromyscus maniculatus (PEMA) deer mouse 1 1 1 6 Peromyscus californicus (PECA) California mouse 1 1 Neotoma lepida (NELE) desert woodrat 4 3 5 9 11 9 113 Total Mammals Caught 4 3 6 11 12 10 125 Number of Traps Set 20 20 20 20 20 20 300 Number of Traps Sprung 4 4, 6 14 16 13 139 Catch Effort 20% 15.8% 30% 64.7% 75% 58.8% 44.4%

Trapline Catch Effort 21.9% 66.2% 144.4%

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5.0 Marine Resources 5.1 Intertidal Community Many intertidal species are relatively common and may be locally abundant where suitable habitats (e.g., specific substrate types) are available. Mapping surveys in 2005 provided a more complete descriptive baseline on intertidal habitat areas along the NRSA coastline than had been available in the PEB.

Data on intertidal species composition and abundance were derived from a long-term (30-year) baseline of data from the DCPP Receiving Water Monitoring Program (RWMP), as well as additional sampling performed within the NRSA in 2005 specifically for the North Access project. The NRSA coast is not contacted by the DCPP cooling water discharge plume (Tenera 1997), and serves as a control for data collected further south within the region of plume effects. This unique scientific baseline allowed the results of substrate mapping to be used to indirectly estimate species composition and relative abundance of intertidal species throughout the NRSA.

5.1.1 Study Site The NRSA shoreline can be characterized as an exposed outer rocky coast ,with much physical variation (Figure 5.1-1). The shoreline is composed of headlands that drop steeply into the ocean, covelets between the headlands, and stretches of rocky open shore, all of which are exposed to heavy wave action. Offshore wash rocks.and sea stacks are also common. In any section of shore, the width of the intertidal zone, types of substrates (bedrock, boulders, cobbles), degree of wave exposure, and vertical relief can be variable over short distances. In many areas, a narrow sand/gravel beach occurs in the upper intertidal between the shore cliff and rocky intertidal zone. Wide and long sand/gravel beaches occur between Point Buchon and Disney Point.

The marine community and habitat descriptions below are for the region between the high tide level and approximately the mean lower low water tide level (MLLW). Species on nearshore wash rocks were included in the mapping surveys done in 2005. However, nearshore wash rocks are not sampled in the RWMP studies, and therefore species on wash rocks cannot be described from RWMP data.

5.1.2 Species Accounts There are no intertidal species in California that are classified as rare, endangered, or threatened by state or federal agencies. The following species accounts address species of local or regional management and/or scientific interest due to limited distribution, declining numbers, slow recovery potential, commercial or recreational value, or ecological role (keystone species).

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 63 July 27, 2006

Figure 5.1-1. Shoreline habitats along the NRSA coast. Note that the upper photographs show the remaining rocks of a collapsed headland.

n------

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 64 July 27, 2006

Much of the species information presented below is from the Multi-Agency Rocky Intertidal Network (see www.marine.gov), a large consortium of marine scientists conducting intertidal research in California.

Black Abalone (Haliotiscracherodii)

Black abalone occur mainly in the high intertidal zone, in crevices and underneath ledges.

Although the northernmost reported range of black abalone is Coos Bay, Oregon, most black abalone do not occur north of San Francisco. Black abalone were once relatively common along the San Luis Obispo and Santa Barbara County coastlines, including the Channel Islands, but since the 1980s black abalone have declined in abundance from withering syndrome disease (Alstatt et al. 1996; Tenera 1997, 1999; Raimondi and Bergen 2003).

Black abalone can attain a maximum length over 20 cm. The shell exterior is dark blue, dark green, or black. The shell is usually free of epiphytic organisms. The shell holes with rims are not elevated. Usually there are five to seven holes remaining open as new ones form and old ones fill.

The larger abalone feed on drift kelp (Leighton 1966) while the smaller abalone graze on diatoms and crustose coralline algae (Morris et al. 1980). Growth varies with size, location, and other environmental factors, but growth is generally slow and shell size cannot be used to determine age (Morris et al. 1980). Natural predators of abalone include sea otters, sea stars, fish, and octopus (Morris et al. 1980).

Although once very abundant (Douros 1987, Richards and Davis 1993), abalone have severely declined in abundance, causing the fishery in California to close south of San Francisco. Intense fishing and withering syndrome may be the chief reasons for the black abalone population decline (Lafferty and Kuris 1993, Richards and Davis 1993).

Abalone in southern California and on the Channel Islands disappeared almost completely during the mid-1980s. Declines also occurred in the vicinity of the DCPP (Tenera 1997). Due to the low population numbers, low recruitment, and slow growth, recovery from disturbances can be long-term (Raimondi et al. 1999). Black abalone are currently being considered by the National Marine Fisheries Service for listing under the federal Endangered Species Act.

Owl Limpet (Lottiagigantea)

Owl limpets are most common in the middle intertidal zone on cliff faces and rocks in heavy wave-exposed areas (Morris et al. 1980). Owl limpets range from northern California to Cenos Island, Baja California, Mexico.

Owl limpets maintain territories on rocks by 'bulldozing' other competitors away for rock space (Stimpson 1970). This action creates space and promotes algal growth (Raimondi et al. 1999). The largest limpets are estimated at 10-15 years old and are believed to breed in the fall and early winter in California (Morris et al. 1980).

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 65 July 27, 2006

Owl limpet shells can be 100 mm in length (Lindberg 1981), but larger ones have also been found (unpublished data). Shells are oval and low in profile with an anterior apex.

The shell surface is often rough and eroded; shell color is brown with white spots. The shell interior is dark with a brown margin. The shell interior also has a prominent owl-shaped mark within the area of the bluish muscle scar. The foot is gray on the sides and orange or yellow on the sole.

Humans collect owl limpets for food, and the larger individuals are the ones generally collected. Owl limpets are protandrous hermaphrodites, changing sex from male to female with age (Ricketts et al. 1985). Therefore, collecting large individuals may skew the gender ratio of owl limpet populations and decrease reproduction (Kido and Murray 2003).

California Mussel (Mytilus californianus)

The California mussel is most abundant on surf-exposed rocks, mainly in the mid- to upper intertidal zone on outer coasts. Mussels attach to hard substrate by secreting byssal threads from the base of the foot (Morris et al. 1980). California mussels can also grow in the offshore subtidal to depths of 24 meters (e.g., on the legs of offshore oil platforms).

California mussels range from the Aleutian Islands, Alaska to southern Baja California, Mexico.

California mussels can occur as extensive multi-layered beds (usually in the northern portion of the range). These beds create micro-habitats for many species of invertebrates and algae (Paine 1966, MacGinitie and MacGinitie 1968, Suchanek 1979, Kanter 1980).

Mussel beds are susceptible to predation by sea stars (Morris et al. 1980), and are also collected for bait and human food. An area cleared of mussels may take 1-10 years to reestablish itself (Morris et al. 1980, Vesco and Gillard 1980, Kinnetics 1989).

California mussels are black and bluish in color, and valves can be partially white from erosion. The valves can have radial ribbing and concentric growth lines. Shells can grow to be about 13 cm long.

Mytilus galloprovincialis/trosullus,the bay mussel, can be interspersed with California mussels, but bay mussels generally occur in calmer waters because of weaker byssal threads (Morris et al. 1980). Bay mussels have smoother valves, lack radiating ridges, and have a strong elbow-curve at the shell umbo. Bay mussels tend to become less eroded than California mussels.

In California, mussels are quarantined from late spring to early autumn because the toxin from a dinoflagellate accumulates in the mussel tissue (Kozloff 1983). This toxin can cause paralysis and death.

Surfgrass (Phyllospadixscouleri and P. torreyi)

Surfgrass is an angiosperm with true leaves, stems, and rootstocks, and reproduces by seeds, not spores as in algaes. The long straight grass-like leaves of P. scouleri are flat and wide (2-4 mm). In contrast, the leaves of P. torreyi are more narrow (less than 2 mm North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 66 July 27, 2006

wide) and tend to be wirier than the leaves of P. scouleri. The leaves of P. scouleri and P. torreyi arise from a rhizotomous base.

P. scouleri is generally found at or below the zero tide level forming dense grass-green beds. It can also occur in mid-low tide pools. P. scouleri ranges from Vancouver Island to southern California. P. torreyi also grows mainly at or below the zero tide level and can form dense grass-green beds. P. torreyi ranges from northern California to Baja California. P. torreyi is more likely to be found in sandy areas than P. scouleri.

Surfgrass habitat is highly productive, providing shelter for many invertebrates and supporting many species of algae (Stewart and Myers 1980). The red algae, Smithora naiadum and Melobesia mediocris are exclusively epiphytic on sea grasses, such as surfgrass (Abbott and Hollenberg 1976). Surfgrass also provides nursery habitat for fishes and invertebrates, such as the California spiny lobster (Panulirus interruptus)

(Engle 1979). If the rhizome systems remain viable, then recovery following disturbance can be fairly rapid. However, recovery can be long if the entire bed is lost because recruitment is irregular (Turner 1985, 1983), and restoration projects have generally not been unsuccessful.

Sea Palm (Postelsiapalmaeformis)

Sea palm is a brown alga (Phaeophyta) that resembles a miniature palm tree standing about 60 cm tall when full grown. -One hundred or more blades may arise from the tip of the thick, flexible stipe (Abbott and Hollenberg 1976). Sea palms occur on high to midtidal rocks in wave-exposed areas. Sea palms range from British Columbia to San Luis Obispo County, California.

Sea palms compete with mussels and other algae for space. Sporelings can attach to competitors and grow, and the drag effect on the animal can cause the animal to become dislodged during storms. Other sporelings can grow to maturity in the cleared spaces (Dayton 1975).

Sea palms (sporophytes) live only from early spring to late autumn or early winter (Kozloff 1983), and thus each population is dependent on the success of spore production from the previous year's population. Sea palms are collected for food and sold in health food stores and on the internet. Most collecting has occurred north of San Francisco.

The California Sea Grant Program is funding studies to determine the vulnerability of sea palms to overexploitation.

Rockweeds (Silvetia compressa, Fucus gardneri, Hesperophycus californicus, Pelvetiopsis limitata)

Rockweeds are an assemblage of intertidal brown algal species of the family Fucaceae.

Four species of rockweeds are occasional in occurrence along the NRSA coast (Silvetia compressa, Fucus gardneri, Hesperophycus californicus, and Pelvetiopsis limitata).

These four species are treated together because of their similarities in ecological function, morphology, occurrence in the intertidal, life histories, and susceptibility to visitor impacts. In general, rockweeds are perennial algae that provide habitat and shelter for North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 67 July 27, 2006

algae and many animals (Hill 1980, Gunhill 1983). Each plant grows from a single holdfast that gives rise to a basal stipe. In turn, the basal stipe branches dichotomously many times to form a bushy plant. Although S. compressa can grow up to 90 cm, most plants are half that size. F. gardnerigrows up to 25 cm, while H. californicus can grow up to about 40 cm. P. limitata is the smallest of the four species, growing up to about 8 cm. All four species can be similar in appearance, particularly when small. The color of the species ranges from yellow to olive-green to brown.

Although each of the four rockweed species tends to form patches of various sizes, the patches of the various species can occur relatively close to one another and close in elevation depending on local variations in habitat and wave exposure. S. compressa and F. gardneri occur on midtidal rocks that are somewhat protected from the open surf. S.

compressa occurs from British Columbia to Baja California, while F. gardneri ranges from Alaska to Santa Barbara County, California. H. californicus occurs slightly higher in elevation than S. compressa and F. gardneri. H. californicus ranges from Santa Cruz, California to Baja California. On the other hand, P. limitata is generally infrequent, but when present it tends to occur on the tops of rocks, rarely on the sides of rocks. P.

limitata tends to be the highest intertidal-occurring rockweed of the four species, on upper intertidal rocks in more wave-exposed areas. P. limitata ranges from British Columbia to San Luis Obispo County, California.

Rockweeds are, in general, among the species most susceptible to trampling effects because they occur in the mid- to upper intertidal zone where foot traffic on the shore can be greatest (Denis 2003). Any breakage or weakening of the main basal stipe can result in loss of the whole plant, and recovery can be slow (Hill 1980, Vesco and Gillard 1980).

Gamete dispersal is very limited (Johnson and Brawley 1998) and recruitment can be irregular with low survivorship (Gunhill 1980).

5.1.3 Survey Methods HabitatMapping Habitat mapping of the intertidal zone along the NRSA coast was completed by taking an aerial photograph of the shoreline into the field on which to delineate and label the habitat types described in Table 5.1-1. The base map was a photo-mosaic of sequential planar aerial photographs of the shoreline taken on October 27, 2003 when the tide level was approximately +4 foot mean lower low water (MLLW). Although the photo-mosaic did not depict the full width of the intertidal zone, the photos were valuable in orienting the observer's location with respect to the reach of shore being mapped.

The mapping of intertidal habitats was done from the cliff bluff by a two-person team using 10x50 binoculars and a 15-32x50 spotting scope. The mapping could not be done down on the shore because the intertidal zone along the majority of the NRSA coast cannot be accessed, due to tall shore cliffs and headlands that drop steeply into the ocean.

Preliminary mapping was done over various sections of the coast on May 19, June 3, July 14-15, and August 4-5 and 23, 2005. The entire cliff bluff of the NRSA was walked again on December 11, 12, and 13, 2005 when tides were below 0 foot MLLW to observe North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 68 July 27, 2006

Table 5.1-1. Intertidal habitat classification description.

Substrate Classilfcation ,DescripDtioniii <

Bench platform - elevated Benchrock that slopes gently offshore and can be traversed during moderate tide levels. Substrate relief can be variable, due to ridges and surge channels. Boulders and cobbles may be present, but are not the predominant substrate. This form of substrate tends to have tidepools because the rocks can hold water at low tide.

Bench platform - low intertidal Same as elevated bench platform (above) but is in the low intertidal and generally not accessible, since it is most often covered with water.

Vertical wall Near vertical slope of the intertidal zone. Short width intertidal zone, due to the vertical nature of the rock wall(s). Often with ledges and crevices. This habitat is most common around headlands.

Sand/gravel beach Beach of fine grained sediments that can also be interspersed with boulders and cobbles Boulder field Areas of mainly large boulders (ice-chest size to car size).

Boulder/cobble field Area or band of the shore with mixed cover of cobbles and boulders Cobble field Area of relatively same-size cobbles (approx. football size)

Rocky mixed substrate Shore of mainly bedrock and/or large boulders. Cobbles and sand/gravel can be minor components. Relief can be variable, due to the mix of substrates. Pools of water can be present at low tide, but can eventually drain.

Offshore outcropping Rock pinnacles, sea stacks, and wash rocks that are separated from land. Habitat includes the tops and sides of rocks.

and refine the intertidal mapping details and to ensure the mapping was consistent among sections of coast. The habitat polygons and attribute data were later converted into an ArcView/ArcGIS shapefile. This shapefile was then incorporated with the other resource layers within the project mobile GIS platform.

Species Mapping All intertidal species that could be positively identified through binoculars or spotting scope were recorded for each habitat area mapped. Although the majority of the species mapping was done from the cliff bluff, several shoreline areas could be accessed. These areas were more closely searched for individual species. Species abundances were also noted relative to the size (area) of the habitat type that was mapped (Table 5.1-2).

The effort was focused on those intertidal species listed in Table 5.1-3 that are of scientific and resource management interest based on having at least one of the following characteristics:

  • Collected for food
  • Can be easily damaged by trampling
  • Long-lived
  • Limited recruitment
  • Limited distribution North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 69 July 27, 2006
  • Slow to recover
  • No-take regulatory status Table 5.1-2. Relative abundance descriptions.

Abundant Plentiful, large supply Common Frequent in occurrence, widespread Occasional Irregular in occurrence, patches, or clusters Sparse (rare) Seldom in occurrence Surveyswere terminated each day when the incoming tide reached approximately the +3 foot MLLW level or when much of the intertidal zone could not be observed between wave sets. The results of the surveys provide species occurrence information above the approximate 0 foot MLLW tide level.

Black abalone was the only species of focus that could not be mapped. Black abalones occur in crevices, underneath ledges, and between boulders, and are therefore hidden from open view. They cannot be seen from a distance, and one must thoroughly search underneath and between rocks for abalone. Furthermore, the abundance of black abalone has declined significantly in central California from withering syndrome (Alstatt et al.

1996, Tenera 1997, 1999, Raimondi and Bergen 2003). Therefore, considerable effort would have been required to specifically find remaining abalone in the NRSA. Areas of stable substrates with crevice habitats are the most likely areas where abalone might occur. Areas of sand/gravel, cobble, and shifting boulders are not prime abalone habitat.

DCPPRWMP Studies Currently, the RWMP intertidal sampling program consists of two studies, the horizontal band transect (HBT) study and vertical band transect (VBT) study. The HBT study provides abundance data on intertidal algae and invertebrates at fixed stations. The VBT study provides abundance data on intertidal fishes at a separate set of fixed stations. A black abalone special study was also a part of the RWMP, but has been discontinued as of 1995.

RWMP stations occur along the NRSA coast and collectively function as a group of reference (control) stations to compare changes in the marine biota at intertidal stations south of the NRSA that are contacted by the cooling water discharge.

Horizontal Band Transect Study There have been 27 horizontal band transect (HBT) stations sampled in the RWMP at one time or another. A smaller subset of these continues to be routinely sampled as part of that monitoring program. Currently, there are two HBT stations along the NRSA coast that have been regularly sampled since the inception of the program in 1976 (active stations), and four that have been dropped from the program (historical stations).

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Table,,, 5.1-3. Intertidal species otfscientific Vand' resource management interestj pirseýnt in-the NRSA. K Common Name Scientific Occurrence Susceptibility to Regulatory Status Name Human Impacts Owl limpets Lottia gigantea In aggregations on rocks Collected for food. Up to 35 individuals exposed to high wave energy as per day can be at headlands, and often collected with a valid associated with mussels. Large CDFG fishing license, individuals can be 10-15 yrs no size limit of old. individuals.

Black abalone Haliotis In rock crevices and in boulder Collected for food. No-take by the CDFG cracherodii interstices throughout the and candidate listing intertidal zone. Long-lived. by the National Marine Limited recruitment. Limited Fisheries Service.

abundance due to withering syndrome.

Mussels Mytilus spp. In aggregations on wave Collected for food Up to 10 pounds in the exposed bedrock and headlands, and bait. shell can be collected Long-lived. Can be slow to with a valid CDFG recover from damage. fishing license.

Rockweeds Fucus In patches. Long-lived Can be easily Up to 10 pounds wet gardneri, perennials on semi-exposed damaged by weight in aggregate Silvetia shores in the upper intertidal trampling, can be collected with a compresso, zone, valid CDFG fishing Hesperophycus license.

californicus, and Pelvetiopsis limitata Sea palm Postelsia In patches. Spring annual on Collected mainly Harvesting allowed

"- * *palmaeformis

- wave exposed headlands, north of San with a CDFG permit.

Limited spore dispersal. Francisco for food Southern range limit is San Luis and sold in health Obispo County, and the food stores and on southernmost patch occurs on the intemet.

Disney Pt.

Perennial beds in the low Not highly No take by the CDFG.

intertidal-shallow subtidal susceptible to between the zero to approx. -15 trampling impacts ft MLLW tide level. because of its low intertidal occurrence, but slow to recover if damaged.

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These stations are identified in Figure 5.1-2. The amount of sampling that has been completed at each of these stations is presented in Table 5.1-4. Each active and historical station along the NRSA consists of two 30 meter fixed transects oriented parallel to shore, one at the +1 foot MLLW tide level and the other at the +3 foot MLLW tide level.

The same 10-1 m2 permanent quadrat positions are sampled along each permanent transect, which is re-deployed each visit between permanent bolts embedded in the substrate (Figure 5.1-3). Quadrats are re-positioned along each transect according to markers on the transect lines.

The substrate in the intertidal zone is irregular in relief, such that substrate relief in a quadrat varies from none on rock platforms to about 0.5 meter vertical relief. Substrate irregularities result in some quadrats tilting from horizontal. Observers count organisms or estimate species' cover within the quadrat as viewed perpendicularly to the quadrat frame, regardless of tilt angle. Rocks are not overturned.

Percent cover is estimated visually for all algal species and bare substrate in each quadrat.

The quadrat is a 1 m 2 plastic frame subdivided by strings into 16-1/16 m 2 sub-quadrats.

Algal coverage is recorded as the number of 1/16 m 2 sub-quadrats covered by the species plus the number of 9th subunits of 1/16 m 2 additionally covered (determined by visually separating a 1/16 m2 sub-quadrat into nine subunits). Species found in less than one 9th sub-unit in each quadrat are recorded as present. Overstory species are estimated first and then moved aside to allow estimates of the understory and crustose species. These data are later converted to percentages for tabulation and analyses. Total algal cover per quadrat often exceeds 100 percent, due to the overlayering of multiple taxa.

Frequently it is not practical to count all invertebrates in a 1 m 2 quadrat, so they are sampled using one of two methods. In five of the 10 quadrats, all species are recorded as either present or absent, and individuals larger than 2.5 cm in greatest dimension are counted. In the other five quadrats the same method is used, except that certain species of invertebrates are counted regardless of size. Black abalone are counted in all ten quadrats, regardless of size, and the percent cover of encrusting invertebrates, such as sponges and tunicates, is estimated using the same visual techniques as for the algae.

Vertical Band Transect Study Numerous fishes live in the intertidal after the tide recedes. During low tide, they find areas of shade and protection that remain moist, which are mainly areas underneath and between boulders and cobbles. Tidepools also provide a refuge for intertidal fishes at low tide.

The vertical band transect (VBT) study complements the HBT study in sampling fishes underneath cobbles and small boulders (Figure 5.1-4). The VBT study began in May 1979 and was continued through August 1983. Sampling resumed two years later in November 1985, and remains ongoing. There were no VBT stations in the NRSA area until May 1999. This station (NC-IV, see Figure 5.1-2) has been sampled four times yearly between May 1999 and present (Table 5.1-4).

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Figure 5.1-2. Locations of the RWMP horizontal band transect (HBT), vertical band transect (VBT), and black abalone stations.

N S

0 1.500 3,000 Feet North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 73 July 27, 2006

Figure 5.1-3. Tenera biologists sampling intertidal quadrats.

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At each station, three transects are positioned perpendicular to the shoreline according to permanent markers. Each transect originates in the high intertidal zone (approximately

+4.5 foot MLLW) near the cliff base and terminates near the +0 foot MLLW tide level.

Transects within a station are separated by approximately 10 feet (3 meters). Each transect serves per of 36 quadrats as astation.

reference line to position 12, 1-meter2 permanent quadrats, for a total The fishes that occur in each quadrat are captured in hand nets, identified, measured, tallied, and returned to the quadrat. Initially, this study included recording the presence of algae and invertebrates in the quadrats, but collection of these data was discontinued in 1995, due to duplication of information from the HBT study.

Black Abalone Special Study The RWMP intertidal program once included special studies of black abalone to monitor the extent and effects of withering syndrome in areas along the coast. Permanent 2x 1Gm transect plots north and south of the power plant were established in rocky areas where black abalone were once abundant. Two of the 2x10 meter transect plots were on the NRSA coast, one at Point Buchon and the other at North Control (see Figure 5.1-1).

Sampling at the North Control black abalone transect began in 1989, one year after withering syndrome was first observed near the DCPP. Sampling at the Point Buchon black abalone transect began in 1996. Sampling at all transects was done semi-annually and stopped in 1998 after numbers had declined to near-zero at all transects. The Point Buchon and North Control black abalone transects were re-sampled in December 2005.

5.1.4 Survey Results Habitat mapping An example section of coast depicting the mapped habitat types appears in Figure 5.1-5.

The species noted in the various habitats are listed in Table 5.1-5.

The habitat maps with corresponding species lists for the entire NRSA shoreline are archived in the project GIS as a separate marine polygon theme. The intertidal areas that could be accessed by foot are indicated as 'visited' in the observation method field of the GIS marine polygon theme.

The habitat areas identified in the mapping survey provided the means to subdivide the shoreline into logical sections for mapping the distribution and relative abundances of intertidal algae and invertebrates. The mapping included species in addition to those listed in Table 5.1-3, but was limited to only the most conspicuous species that could be positively identified from the cliff bluff with the use of binoculars and spotting scopes.

Other species included oar kelp (Laminaria setcheliji) and feather boa kelp (Egregia menziesii). Most species could not be mapped because of their small sizes and cryptic occurrences beneath algal fronds and in crevices. Also, the backsides (seaward sides) of rocks were not surveyed.

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Table 5.1-4. HBT, VBT, and black abalone sampling along the NRSA coast (1976-2005).

Sampling~

Station Area Status Frequency Duration Comments<

HBT 1+1, 1+3 North Control Active 4 times yearly 1976-Present Ongoing sampling HBT 2+1, 2+3 North Control Active 4 times yearly 1976-Present Ongoing sampling HBT 3+1, 3+3 North Control Historical 4 times yearly 1976-1995 Re-sampled in 2005 HBT 25+1, 25+3 Point Buchon Historical 4 times 1977, 1985-87 Re-sampled in 2005 HBT 26+1, 26+3 Arch Rock Historical Once 1977 Station destroyed from cliff burial HBT 27+1, 27+3 Tom's Pond Historical 4 times 1977, 1985-87 Re-sampled in 2005 VBT NC-I V North Control Active 4 times yearly 1999-Present Ongoing sampling Black Abalone Point Buchon Historical 1-2 times yearly 1996-98 Re-sampled in 2005 Black Abalone North Control Historical 1-2 times yearly 1989-98 Re-sampled in 2005 Figure 5.1-4. Prickleback fish (Stichaeidae) sampled in the intertidal vertical band transect study.

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Figure 5.1-5. Habitat mapping results for the shore surrounding and including Point Buchon. The relative abundances of species associated with each habitat type are presented in Table 5.1-5.

30 0 25 50 100 150 200 250 0 eters @ 900 meters of coastline 26 habitats (9 types) present 1 inch equals 100.0 meters 15 selected species observed A Inventory PG&E North Ranch Project Draft Ranch Project Comprehensive Baseline Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 77 July 27, 2006

Table 5.1-5. Species and relative abundances associated with the habitats portrayed in Figure 5.1-5.

Relative abundance categories are S-sparse; 0,occasional, commonA-abundant.

cl 6 ý Cu0.

MO012 Cobble Field M013 Boulder Field M014 Bench - Elevated C A 0 A C A C C M015 Vertical Wall S 0 C C C C S S M016 Offshore Rock 0 S S 0 0 M017 Rocky Mixed S A A C A C 0 S C 0 M018 Cobble Field M019 Vertical Wall C S C C S S S A S M020 Offshore Rock A 0 C C M021 Vertical Wall A 0 C C S M022 Sand Gravel Beach M023 Boulder Field A A A S S M024 Offshore Rock A S A A A M025 Vertical Wall S A A M026 Sand Gravel Beach M027 Vertical Wall S S C A S

M028 Bench - Low C S S S S M029 Sand Gravel Beach M030 Offshore Rock A C M031 Bench - Low A A S M032 Offshore Rock C C A A A A M033 Rocky Mixed C A A C C M034 Vertical Wall C C C C A C N002 Offshore Kelp Bed A C N003 Offshore Kelp Bed A C N017 Offshore Kelp Bed A C North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 78 July 27, 2006

Species Mapping In general, the same species were present in all rocky intertidal areas. Sandy beach and cobble field areas tended to be devoid of intertidal species, due to the unstable nature of the substrates. The only unique species occurrence was the presence of a stand of sea palms at Disney Point. Sea palms were not present elsewhere. The lone stand was on the outermost tip of Disney Point exposed to the full force of waves. Approximately 800 individuals were counted on Disney Point in 2005 (S. Krenn, PG&E, pers. com.).

HorizontalBand TransectStudy A total of 89 intertidal plant taxa and 147 invertebrate taxa were sampled in the HBT stations along the NRSA coast from 1976 through 2005 (Tables 5.1-6 and 5.1-7). The most abundant species have occurred at all stations (Figures 5.1-6 and 5.1-7). Relative abundances, however, have been different across stations, due to variations in habitat structure and biological interactions.

Common species in the upper intertidal band transects have included the nail brush seaweed (Endocladia muricata) and foliose red alga (Mastocarpus papillatus and Mazzellaflaccida). Rockweeds (S. compressa) have tended to be common in the upper zone, as well, occurring as distinct patches draping over rocks. Turban snails (Tegula funebralis), aggregating anemones (Anthopleura elegantissima), hermit crabs (Pagurus spp.) and species of limpets (Lottiidae) have generally been among the most abundant of the common species sampled in the HBT study. California mussels have been common-abundant, but only on rocks in the HBT transects that are exposed to the full force of waves. Surfgrass (Phyllospadix spp.) occurs in a zone from about 0 foot MLLW (intertidal) to about -15 foot MLLW (subtidal).

The low intertidal HBTs sample the upper zone of surfgrass distribution. Sea urchins (Strongylocentrotuspurpuratus)are generally more common in the lower intertidal zone.

Sea urchins were abundant at Station 26+1, but both transects of Station 26 have since been excluded from sampling after the arch rock that was used as a 'bridge' to access the station collapsed.

Vertical Band TransectStudy The most common intertidal fishes sampled in the intertidal zone have been the gunnel/stickleback species complex (Pholididae/Stichaeidae) followed by rock prickleback) (Xiphister mucosus) and black prickleback (Xiphister atropurpureus)

(Figure 5.1-8). These fishes are eel-like in appearance. The largest ones have been up to about 10 inches long. Most have been less than four inches long.

Black Abalone SpecialStudy Monitoring at fixed 2 x 10 meter transect plots along the NRSA coastline show a long-term decline in black abalone in the local area (Figure 5.1-9). The sampling of the Point Buchon and North Control black abalone transects in 2005 confirmed a lack of recovery in black abalone since sampling last occurred here (1998). Currently the northernmost North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 79 July 27, 2006

Table 5.1-6. Plant taxa sampled in the HBT stations on the NRSA coast (1976-2005).

Common .ommon U Name Scientific Name ,Nameor I Scientific Name or'Description CHRYSOPHYTA RHODOPHYTA (continued)

Chrysophyta diatoms Endocladiamuricata turf algae CHLOROPHYTA Erythrophyllum delesserioides foliose algae Acrosiphonia spp. filamentous algae Farlowia/Pikeaspp. branched algae Bryopsis spp. filamentous algae Fauchealaciniata foliose algae Cladophora spp. pin cushion algae filamentous red algae filamentous algae Codium setchellii prostrate algae Gastrocloniumsubarticulatum branched algae Derbesiamarina (Halicystis ovalis) saccate algae Gelidium coulteri turf algae Ulva/Enteromorphaspp. sea lettuce Gelidium pusillum turf algae Gelidium robustum branched algae PHAEOPHYTA Gelidium spp. branched algae Analipusjaponicus turf algae Grateloupiadoryphora foliose algae Colpomenia spp. saccate algae Gymnogongrus chiton branched algae Colpomenia/Leathesia/ saccate algae Halosaccionamericanum saccate algae Sorantheraspp.

Cystoseira osmundacea bladder chain kelp Halymenia/Schizymenia spp. foliose algae Egregia menziesii feather boa kelp Hymenena spp. foliose algae Fucaceae rockweed juv. articulated coralline algae articulated coralline algae Fucus gardneri rockweed Mastocarpusjardinii branched algae Haplogloiaandersonii turf weed Mastocarpuspapillatus foliose algae Hesperophycus californicus rockweed Mazzaella affinis foliose algae Laminariasetchellii oar kelp Mazzaellaflaccida iridescent seaweed Laminariales oar kelp (juv.) Mazzaella heterocarpa foliose algae Leathesia difformis saccate algae Mazzaella leptorhynchos branched algae

-Nereocystisluetkeana bull kelp Mazzaella lilacina foliose algae Pelvetia compressa rockweed Mazzaella linearis foliose algae Phaeostrophionirregulare foliose algae Mazzaella rosea foliose algae Rosenvingeafloridana branched algae Melobesia mediocris crustose coralline algae Scytosiphon spp. saccate algae Microcladiaborealis branched algae Microcladiacoulteri branched algae RHODOPHYTA Neoptilota densa branched algae Ahnfeltiopsis leptophylla branched algae Neorhodomela larix branched algae Antithamnion/Platythamnionspp. filamentous algae non-coralline crust non-coralline crustose algae Calliarthron/Bossiellaspp. articulated coralline Odonthaliafloccosa branched algae algae Callithamnionpikeanum branched algae Osmundea spp. branched algae Callithamnion/Pleonosporiumspp. filamentous algae Plocamium violaceum branched algae Callophyllisfirma foliose algae Polyneura latissima foliose algae Callophyllisflabellulata foliose algae Porphyra spp. foliose algae Callophyllis spp. foliose algae Prionitisspp. branched algae Chondracanthuscanaliculatus branched algae Pterocladiacaloglossoides turf algae Chondracanthuscorymbiferus foliose algae Plerosiphonia dendroidea filamentous algae Chondracanthus foliose algae Rhodophyta (juv. blades) foliose algae harveyanus/spinosus Chondriadecipiens branched algae Rhodymenia spp. foliose algae Corallinaofficinalis articulated coralline Sarcodiothecagaudichaudii branched algae algae Corallinavancouveriensis articulated coralline Schizymenia epiphytica foliose algae algae coralline crust crustose coralline algae Smithora naiadum foliose algae Cryptopleuraruprechtiana foliose algae Sorantheraulvoidea saccate algae Cryptopleuraviolacea foliose algae Cryptosiphonia woodii branched algae TRACHEOPHYTA Cumagloia andersonii branched algae Phyllospadix spp. surfgrass North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 80 July 27, 2006

Table 5.1-7. Invertebrate taxa sampled in the HBT stations on the NRSA coast (1976-2005).

Common Name I .< Common Namje.,or Scientific Name,, or Descriprtion { Scientific, Name' 0Description PORIFERA ARTHROPODA (continued)

Acarnus erithacus volcano sponge Hemigrapsus oregonensis yellow shore crab Haliclona spp. purple sponge Heptacarpusspp. transparent shrimp Porifera sponge (unid.) Idotea spp. isopod Isopoda isopod CNIDARIA Lophopanopeus spp. black-clawed crab A biet./Sertularella/ hydroid complex Loxorhynchus spp. masking crab Sertularia spp.

Anthopleura artemisia buried anemone Majidae spider crab Anthopleura elegantissima aggregating anemone Natantia ghost shrimp Anthopleura xanthogrammica green anemone Pachycheles spp. porcelain crab Anthozoa anemone unid. Pachygrapsus crassipes lined shore crab Cactosoma arenaria prickly anemone Pagurusspp. hermit crab Corynactiscalifornica strawberry anemone Paraxanthiastaylori lumpy clawed crab Epiactisprolifera brooding anemone Petrolisthes spp. porcelain crab Halcampa decemtentaculata ten-tentacle burrowing Pollicipespolymerus goose neck barnacle anemone Urticina spp. sea anemone Pugettia spp. kelp crab Pycnogonida sea spider PLATYHELMINTES Tetraclitarubescens volcano barnacle Platyhelminthes flat worm MOLLUSCA NEMERTEA Acanthinucellaspp. unicorn snail Nemertea unsegmented worm Acmaea mitra white-cap limpet Aeolidiapapillosa shag-rug nudibranch ANNELIDA Alia spp. dove snail Chaetopteridae parchment-tube worm Amphissa spp. wrinkled dove snail CirratulidaefTerebellidae burrowing worm Barleeiaspp. snail Dendropoma spp. worm shell Bittium spp. threaded bittium snail Diopatraornata omate tube worm Calliostoma annulatum purple-ring top snail Dodecaceriafewkesi colonial tube worm Calliostoma ligatum blue top snail Eudistylia polymorpha feather duster worm Calliostoma spp. top snail Nereididae segmented worm Chama spp. clam Phragmatopomacalifornica cement tube worm Conus californicus cone snail Pisla spp. tube worm Crepidulaspp. slipper snail Polychaeta segmented worm Cyanoplax spp. chiton Polynoidae scale worm Diaululasandiegensis nudibranch Salmacina tribranchiata tube worm Diodora spp. rough keyhole limpet Serpulidae plume worm Discurriainsessa seaweed limpet Spirorbidae tube worm Doriopsillaalbopunctata white spotted nudibranch Epilucina californica California lucine clam SIPUNCULA Fissurellavolcano volcano limpet Sipuncula peanut worm Fusinus luteopictus painted spindle snail Haliolis spp. abalone ARTHROPODA Hermissendacrassicornis opalescent nudibranch Amphipod (tube) amphipod tube Hipponix spp. hoof shell Balanus spp. barnacle Homalopoma luridum/Lirularia dwarf turban snail succincla Cancerantennarius rock crab Hopkinsiarosacea Hopkins rose nudibranch Cancer spp. rock crab Ischnochitonidae chiton Chlhamalusfissus acorn barnacle Kelletia kelletii Kellet's Whelk Grapsidae (juv.) shore crab Lacuna spp. chink snail Hemigrapsus nudus purple shore crab Lepidozona spp. chiton Table continued North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 81 July 27, 2006

Table 5.1-7 (continued). Invertebrate taxa sampled in the HBT stations on the NRSA coast (1976-2005).

Common Name .or. Communon Name Sciýi'ific Nauneý or Descr~igptio ~Scientific Name Description MOLLUSCA (continued) MOLLUSCA (continued)

Lithopoma gibberosum red tob snail Tegula brunnea brown turban snail Littorina spp. periwinkle snail Tegulafunebralis black turban snail Lottia asmi black limpet Tonicella lineata lined chiton Lottia digitalis ribbed limpet Tricolia spp. pheasant shell Lottia gigantea owl limpet Trimusculus reticulatus reticulate button snail Lottia instabilis unstable limpet Triopha maculata spotted nudibranch Lottia limatula file limpet Lottia ochracea yellow limpet ECTOPROCTA Lottiapelta shield limpet Bryozoa (encrusting) moss animal (encrusting form)

Lottia scabra rough limpet Bryozoa (erect) moss animal (erect form)

Lottiidae limpet Bryozoa (foliose) moss animal (foliose form)

Megatebennus bimaculatut, two-spotted keyhole Eurystomella bilabiata red encrusting bryozoan limpet Mopalia spp. chiton Musculus pygmaeus clam ENTOPROCTA Mytilidae mussel Entoprocta goblet worm Mytilus californianus California mussel Mytilus galloprovincialis mussel ECH1NODERMATA Mytilus spp. mussel Asteroidea sea start Nitidiscala/Opaliaspp. snail Cucumariaspp. sea cucumber Nucella emarginata dogwinkle snail Eupentactaquinquesemita stiff-footed sea cucumber Nudibranchia nudibranch Henricialeviuscula blood seastar Nuttallinacalifornica chiton Holothuroidea sea cucumber Ocenebra spp. rock snail Leptasterias spp. six-rayed seastar Octopus spp. octopus Lissothurianutriens red sea cucumber Onchidella borealis leather limpet Ophiothrix spp. common brittle star Pelecypoda (boring) boring clam Ophiuroidea brittle star Phidianahiltoni fighting phidiana Parastichopusspp. warty sea cucumber nudibranch Pseudomelatoma torosa knobbed drill Patiriaminiata bat star Rostangapulchra red sponge nudibranch Pisaster ochraceus ochre sea star Serpulorbissquamigerus tube snail Pisaster/Henricia(juv.) sea star juvenile Stenoplax spp. chiton Pycnopodia helianthoides sunflower star Tecturafenestrata chocolate limpet Strongylocentrotuspurpuratus purple sea urchin Tecturapaleacea surfgrass limpet Tecturapersona speckled limpet UROCHORDATA Tectura scutum plate limpet tunicates, colonial/social sea squirt colony tunicate, solitary individual sea squirt North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 82 July 27, 2006

Figure 5.1-6. Mean abundance of intertidal algae sampled in the HBT upper and lower transects in the NRSA (1976-2005). Species are the top 15 most abundant species across transects and surveys.

Upper Shore Algae Sta. Level: 1+3 2+3 3+3 25+3 26+3 27+3 76-87, 76-77, 77, Years: 76-05 89-95, 84-87, 86-88, 77 77, 99-05 89-95.05 05 86-87,05 Surveys: 124 108 38 6 5 Mean Percent Cover 0 20 0 20 400 20 40 0 20 40 0 20 40 0 20 40 Endocladia muricata Non-coral line crust Mastocarpus papillatus '0.1 Mazzaella flaccida Corallina vancouveriensis coralline crust Silvetia compressa <0.1 0.1 Mastocarpus jardinli 0,1

<0.1 Gelidiumn coulteri Mazzaella affinis <0.1 Cladophora spp. <0.1 -'0.1 <0.1

'0.1 CalIliarthron/BossielIla spp. <0.1 <0.1

<0.1 Gelidiumn pusillumn <0.1

<0.1 Codiumn setcheliji Porphyra spp. <0.1 <0.1 '0.1 Lower Shore Algae Sta. Level: 1+1 2+1 3+1 25+1 26+1 27+1 76-87, 76-77, 77 77 77, 86-87, Years: 76-05 89-95,84-876 86:d8, 99-05 89-95, 05 05 05 Surveys: 125 105 36 6 1 5 Mean Percent Cover 0 35 0 35 35 0 35 0 350 35 Mazzaella flaccida Non-coralline crust 1 coralline crust 1 Phyllospadix spp.

Gastroclonium subarticulatum 0 Corallina vancouveriensis Chondracanthus canaliculatus 10 Cryptopleura violacea Gelidium coulteri Mastocarpus papillatus Mazzaella affinis I Egregia menziesii Calliarthron/Bossiella spp. P Corallina officinalis '0.1 '0.1 <0.1 '0.1 Endocladia muricata '0.1 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 83 July 27, 2006

Figure 5.1-7. Mean abundance of intertidal invertebrates sampled in the HBT upper and lower transects in the NRSA (1976-2005). Species are the top 15 most abundant species across transects and surveys.

Upper Shore Invertebrates Sta. Level: 1+3 2+3 3+3 25+3 26+3 27+3 76-87, 76-77, 77, Years: 76-05 89495, 84-87, 86-88, 77 77, 99-05 89-95,05 05 86-87,05 Surveys: 124 108 38 6 5 Mean Number / m' 0 100 0 100 200 0 100 200 0 100 200 0 100 200 0 100 200 Tegula funebralis Mytilus califomianus 0.1 <0.1 Lottia scabra Anthopleura elegantissima Pagurus spp.

Nuttallina californica '0.1 Lottia limatula <0.1 Ocenebra spp.

Lottia pelta '0.1 Pollicipes polymerus Tectura scutum <0.1 Tetraclita rubescens '0.1 '0.1 Acanthinucella spp. Q0.1 0.1 Pachygrapsus crassipes '0.1 Mopalia spp. Q0.1 '0.1 Lower Shore Invertebrates Sta. Level: 1+1 2+1 3+1 25+1 26+1 27+1 76-87, 76-77, 77, Years: 76-05 89-95, 77, 86-87, 99-05 84-87 86-88, 77 05 89-95, *5 05 5

Surveys: 125 105 36 6 1 Mean Number / m' 0 30 60 30 60 30 60 0 30 60 0 30 60 0 30 Tegula funebralis --" =*t'J224 Strongylocentrotus purpuratus <0.1 -0=ý ,194 Pagurus spp.

Teguta brunnea Tetraclita rubescens Anthopleura elegantissima Lottia scabra '01 Fissurella volcano <01 Epiactis prolifera Lottia pelta <0.1 Tectura scutum Leptasterias spp.

Nemertea

'0.1 Serpulorbis squamigerus '01

<0.1 Mytilus californianus '0.1 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 84 July 27, 2006

incidence of withering syndrome is near Cambria, located approximately 30 miles north of the NRSA (P. Raimondi, U.C. Santa Cruz, pers. comm.).

5.1.5 Discussion Findingsin Context with OtherResearch Results from the RWMP, HBT, and VBT sampling, and black abalone studies, can be used to describe the types of intertidal communities and species (including species relative abundances) along the NRSA shoreline. In general, the species sampled in the RWMP studies are those expected to be present in any rocky area in the NRSA. All of the species sampled are relatively widespread and common inhabitants of rocky shores in central California. None are unique to the NRSA coast. Relative abundances among the species, however, are expected to vary between and among areas, due to many factors (e.g., differences in substrate composition, elevation, relief, exposure to wave and sand scour effects, competition for space, recruitment, grazing by marine organisms, and predation).

Owl limpets are believed to be not widespread throughout the NRSA. Owl limpets are specific to certain habitats that were under sampled in the HBT study. Owl limpets tend to be most abundant on smooth rocks exposed to the full force of waves, such as on the outer edges of headlands, places where HBT transects were not established.

Black abalone (Haliotis cracherodii)is another habitat-specific species in the NRSA. A specialized study was designed to sample this species which tends to occur as solitary individuals or in small aggregations in rock undercuts and crevice habitats. Transect plots were established in habitat areas specific for black abalone and where black abalone were once abundant. Numbers have since declined to near zero in all transect plots.

The Minerals Management Service (MMS) Pacific OCS Region also prepared habitat and species maps of the coast. This was done in the 1980s for the entire California coast, which included the NRSA coast. The intertidal habitat maps were created from helicopter videotape flyovers taken during low tide. A limited number of ground-truth surveys were completed to validate and refine the map details. In general, the MMS maps of the NRSA shoreline show less habitat detail than the intertidal maps prepared for the present study. A further description of the MMS maps, including a comparison of those maps and the maps of the present study is presented in Appendix E.

In comparing species lists between the MMS survey maps and results of the present mapping survey, the species occurrences noted on the MMS maps are similar to those found in the present mapping survey, with two exceptions. The MMS surveys noted sea palms were continuous in distribution from Coon Creek to Disney Point, a distance of approximately one mile. The mapping surveys done in 2005 noted sea palms were present only as a single patch on Disney Point, indicating a local decrease in the distribution of this species between the 1980s and present.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 85 July 27, 2006

Figure 5.1-8. Mean abundance per survey of intertidal fish sampled in Station VBT NC-1V (1999-2005).

Years: 1999-05 Surveys: 27 Mean Total Fish Per Survey 0 5 10 15 20 25 Pholididae/Stichaeidae unid.

Xiphister mucosus Xiphister atropurpureus Gobiesox maeandricus Anoplarchus purpurescens Xiphister spp.

Xererpes fucorum I Oligocottus snyderi Cebidichthys violaceus Cottidae unid.

Gibbonsia spp.

Anoplarchus/Cebidichthys spp.

Typhlogobius californiensis Artedius spp.

Pholididae unid.

Apodichthys flavidus Gibbonsia metzi Oligocottus spp.

Figure 5.1-9. Changes in the abundance of black abalone in 2 x 10 meter transect plots in the NRSA (1989-2005).

200 C' 180-E 160 6 140 x 120 North Control E

100 2N10 Point Buchon 80 640

< 20 o

0I I I I-I I I I I I I I 11, 1111., 1111,1,1, , ,I I  ! 1 1 I 1I I fF 1 1 1 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 86 July 27, 2006

Also, the MMS surveys noted the red algal complex Odonthalia/Rhodomela spp. (now Odonthalia/Neorhodomelaspp.) as being occasional in occurrence throughout the NRSA coast. This description is questionable. It would be difficult, if not impossible, to detect the occurrence of Odonthalia/Neorhodomelaspp. in aerial photographs, and ground-truth surveys were not done over the entire shoreline of the NRSA. The MMS description of the distribution of Odonthalia/Neorhodomela spp. was likely based on habitat association, not confirmed sightings (M. Hill, Minerals Management Service, pers. com.).

The only current confirmed occurrence of Odonthalia/Neorhodomela spp. along the NRSA coast is at RWMP station HBT 2+1 (Tenera 2006).

Adequacy of the Field Work in Addressing DTF Comments on the Preliminary EnvironmentalBaseline

'DTF Comment(s):

  • Item #77 requests information on the intertidal algal and invertebrate species that would be exposed to potential visitor impacts (e.g., trampling, collecting, handling), information that is not compiled in this manner in RWMP annual reports.
  • Item #88 requests an invertebrate inventory.
  • Item #87 requests a more complete description of sensitive intertidal species in the NRSA than provided in RWMP reports.

Actions Taken in Response to DTF Comments:

  • Items #77 and #88: The RWMP annual reports present species inventories and data for the stations sampled along the NRSA coast, but also contain a significant amount of information that is not relevant to the CBI. Therefore, this special data summary (above) was prepared for this project consisting only of data from the NRSA coast stations. Also, historical RWMP stations along the NRSA coast that are no longer sampled in the RWMP were sampled again in 2005 expressly for this project to provide a more recent accounting of species composition and abundance at other station locatibns along the NRSA coast. These data are included above.
  • Items #77 and #88: A mapping survey of intertidal habitats along the NRSA coast was completed in 2005 to fill gaps between the RWMP fixed stations.
  • Item #87: There are no intertidal algae or invertebrates currently classified as "sensitive" by state or federal agencies (i.e., rare, endangered, or threatened under state or federal Endangered Species Acts, or otherwise officially recognized as sensitive). However, some species are of higher scientific and resource management interest because of limited distribution, declining abundances, or slow recovery potential. While these characteristics may be used to categorize species as sensitive, other species are considered to be important based on habitat value or role as key predators or consumers. The CBI has included information on all such species occurrences along the NRSA coast.
  • The RWMP studies (1976-ongoing) provide the most comprehensive and long-term data sets available for describing species composition and abundance along the NRSA shoreline. The CDFG completed studies in 1970-1982 (Burge and North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 87 July 27, 2006

Schultz 1973, Gotshall et al. 1984, 1986). One of the CDFG intertidal sampling areas was on the NRSA coast and in the same area as RWMP horizontal band transects. Thus, there is duplication in sampling results between the CDFG and RWMP studies. North.et al. (1989) completed thermal effects studies at DCPP in 1969-1987. However, none of their stations were along the NRSA coast. North (1969). developed the first species list for Diablo Cove, the immediate receiving water body of the DCPP thermal discharge, but the list did not include species north of the power plant in the NRSA. North and Anderson (1989) prepared a thermal effects predictive report that describes short and long-term changes in Diablo Cove that might occur once the power plant became operational. The report did not describe the NRSA coast.

Other Comments Not Specifically Addressed In The CB1:

Several other DTF comments pertain to intertidal studies that might be incorporated into a plan for long-term monitoring. The DTF comments below will be addressed in the final Access Monitoring Plan:

" Item #80 discusses the need to restrict access, regularly monitor, and change access points as needed to minimize impacts.

  • Items #81, #82, #84, #86, and #89 are similar in noting the design of the long-term monitoring program should incorporate sampling methods that are the same as or compatible with other similar studies being conducted along the central California coast.
  • Item #83 discusses the types of analysis methods that can be used to detect an impact should they exist.

5.2 Marine Mammals The most important marine mammal species of concern along the NRSA coast is the Pacific harbor seal (Phoca vitulina richardsi),because individuals commonly haulout on the shore where there is the potential for haulout behaviors to be disturbed by people visiting the area. PG&E performed seal haulout mapping surveys along the DCPP coast from 1973 to1986, which included the NRSA coast (Krenn and Benech 1987). However, due to the 20 year time span since that work, harbor seal haulout mapping surveys were repeated in spring-summer 2005, to provide a current description of haulout use and locations for the NRSA coast.

5.2.1 Study Sites The marine mammal haulout mapping survey in 2005 was conducted over the entire NRSA shoreline. Areas used by harbor seals for hauling out are typically sand beaches, reef platforms, and rocks that can be accessed without the seals needing to climb steeply, as the hind flippers of harbor seals cannot be rotated forward and used for pushing.

While many rocks may be too steep and high for them to climb onto during low tides, they may be more accessible during mid- or high tides. Harbor seals do not occur on rocks with excessively tall vertical walls, such as offshore pinnacles and sea stacks.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 88 July 27, 2006

5.2.2 Species Accounts Pacific harbor seal (Phocavitulina richardsi)

Pacific harbor seals range throughout the North Atlantic and North Pacific as five distinct stocks (populations). The individual stocks have been designated as subspecies, due to the effects of geographic isolation. Phoca vitulina richardsi is the Pacific harbor seal subspecies that occurs along the NRSA coast and it ranges from Alaska to Baja California, Mexico.

The Pacific harbor seal is the only pinniped species in California with spotted pelage.

Coat color is highly variable, ranging from mottled dark spots on a light background to pale reticulations on a dark background. The sexes are similar, with males only slightly larger than females. The average seal is about five feet long and weighs about 200 pounds. Newborn pups weigh about 22 pounds, and are weaned when they are about six weeks old, at which time their weight has increased to about 50 pounds. Their maximum life span is 25 to 30 years. They are opportunistic feeders, and feed on a variety of nearshore fishes and invertebrates. Unlike other pinnipeds, individual harbor seals tend to remain in the same area (Thompson et al. 1998) and use the same haulout locations year after year for resting, molting, giving birth, and nursing pups (Studer 2000). A typical haulout area may have 30-80 animals. The Marine Mammal Protection Act of 1972 provides federal protection to marine mammals, which includes harbor seals. This law prohibits any activity that results in harassing or killing marine mammals.

Harbor seals have acute vision and hearing, and because of this they can be shy and sensitive to unusual activities while hauled out. The response to an unusual sight or sound can range from head-raising to abandonment of the haulout area. A 'forced' departure from the haulout area during pupping and molting seasons (March-July) would be the greatest form of potential impact.

Sea lions (Zalophus califonianus) and sea otters (Enhydra lutris) sometimes occur in the same haulout areas with Pacific harbor seals. When disturbed, however, Pacific harbor seals tend to be the first species to 'flush' or scurry off into the water and depart the area.

The flight response can cause a 'flight cascade' among other species (S. Benech, pers.

obs.).

Based on statewide census data, there are currently about 27,000 Pacific harbor seals that use 567 haulout areas along the California coast and offshore islands (CDFG 2001, NMFS 2003, Lowry et al. 2005). Based on surveys completed in the 1970s and 1980s along the NRSA coast, there were approximately 225 harbor seals that used two haulout areas on a regular basis and four areas on an intermittent basis, including one area for pupping along the coast between Coon Creek and Crowbar Peak (S. Benech, unpubl.

data, Krenn and Benech 1987, Hanan et al. 1989 and 1992).

5.2.3 Survey Methods Four field surveys were completed in 2005 to map harbor seal haulout locations and use along the NRSA coastline. The period from May through July is the standard time used by investigators to conduct population surveys (Hanan et al. 1989). This time span also North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 89 July 27, 2006

generally coincides with the harbor seal's six-week summer molting period when individuals are more likely to spend time hauled out (Hanan et al. 1989). Morning hours are when sea and swell conditions can be most calm, which are conditions conducive for seals to haulout. Low tides are also best to observe haulout areas because low tides provide more intertidal area on which harbor seals can rest.

The haulout surveys were conducted on June 12 and 27, and on July 7 and 28, 2005, between 0750 and 1200 noon. The haulout surveys were conducted simultaneously with regularly scheduled bi-monthly sea otter counts in the NRSA. Low tides during the surveys ranged from -0.02 foot to +2.5 foot MLLW. All observations were made from the bluff edge. The observer carefully approached the bluff edge to not disturb harbor seals on the shore below. Observations and counts were made visually using 7x50 binoculars. The numbers of hauled out harbor seals, locations, and times were noted on aerial photo maps of the survey area. An accurate census of all harbor seals was not expected or possible because of the likelihood that some individual seals were away from the shore and out of view during the observations. Incidental observations of hauled out sea otters and other pinniped species were also noted on the maps. The observer continued along the coastal terrace from one observation point to the next making sure that there was overlap with the previous field of view. This search method was repeated until the entire five kilometer length of the NRSA shoreline was observed (Coon Creek to Crowbar Peak).

5.2.4 Survey Results Harbor seals were hauled out in mainly four areas: Disney Point, Windy Point, Barn Road, and Seal Rock (Figures 5.2-2 and -3). The Disney Point haulout was new in 2005.

It remains unclear whether this area is a new primary or secondary haulout because of the small number of observations. For reporting purposes it is considered a primary area because it was occupied by large numbers of animals during three of the four survey days. The Disney Point haulout area consists of two sand/gravel pocket beaches at the south base of the Point. The maximum number of harbor seals hauled out there was 88.

The shoreline length of the Windy Point haulout area is relatively large with various locations where harbor seals can haulout. The fnaximum number of harbor seals hauled out in the Windy Point area was 45.

The Barn Road haulout area is physiognomically different from all of the other areas, consisting of a combination of sand beach at the cliff base and an adjoining offshore low bench platform that is exposed during low tide. The maximum number of harbor seals hauled out at Barn Road was 20.

The Seal Rock haulout area is mainly a complex of large offshore rocks where as many as 94 harbor seals were observed.

The haulout sites used most regularly over the four survey days were Windy'Point and Seal Rock. Harbor seals were observed hauled out in these areas on each of the four North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 90 July 27, 2006

survey days. The Disney Point haulout area was occupied on three of the four survey days. The Barn Road haulout area was occupied on two of the four survey days.

Sea otters were also observed in the harbor seal haulout areas. Two adult otters were observed at Windy Point, and two adults plus one pup were observed on Seal Rock. In addition, a single adult male sea otter was observed hauled out on rocks south of Coon Creek. Sea otters that were offshore of the intertidal zone along the NRSA were also noted during the marine mammal haulout surveys. Each day there were approximately 53 adults and four dependent pups resting in kelp beds along the NRSA coastline.

5.2.5 Discussion Findings in Context with Other Research The results from the harbor seal haulout mapping surveys provide a recent description of haulout locations and use along the NRSA coast since the time they were previously mapped by Krenn and Benech (1987). In general, harbor seals have increased in numbers since the 1970s. However, the relative increase has slowed over recent years (Figure 5.2-2). This pattern is consistent with statewide census trends that indicate population growth has decreased to less than 10% each year.

Using the maximum number of harbor seals that were hauled out in each area and totaling those numbers across areas provides a population estimate of 247 harbor seals for 2005 along the coast between Coon Creek and Seal Rock. This method is an estimate, and accounts for harbor seals that may have been in the water and out of view during the observations. This is the current method used by CDFG to estimate statewide population densities (Hanan et al. 1989).

Another method used to derive seal population estimates uses a correction factor of 1.53 to account for unobserved seals that may be in the water (Hayward et al. 2005). Using this method and the largest single count of the four days surveyed (164), a population estimate for the NRSA of 250 animals was derived; nearly identical to the estimate derived using the other method.

The surveys in 2005 also found that the number of haulout areas had increased slightly and the locations had shifted from the 1970s to the present. There were four haulout areas in the NRSA in 1975 and five in 1986 (S. Benech, un publ. data, Krenn and Benech 1987, Hanan et al. 1989, Lowry et al. 2005). Four areas were occupied during the present surveys, but one was a new area, providing a total of six areas that have been used as haulouts between 1975 and 2005.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 91 July 27, 2006

Figure 5.2-1. Harbor seal and sea otter haulout locations and number of hauled out animals observed in four survey days within the NRSA, Spring-summer 2005.

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0 1,500 3,000 Feet

§MM1M~zzz~zzAMMMME:: I North Ranch Project Draft Comprehensive Baseline Inventory PG&E-Document No. 001 .3.06.13 92 July 27, 2006

Figure 5.2-2. Maximum number of harbor seals observed hauled out along the NRSA coast (1973-2005). Data for 1973-2004 are from Hanan et al. 1989 and Lowry et al. 2005. Data for 2005 are from the surveys completed as part of the NRSA coast baseline study.

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1973 1976 1988 2004 2005 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 93 July 27, 2006

Use of each area also changed over time. In 1975, Windy Point and Seal Rock were

'primary' haulout areas. Primary areas were those almost always occupied on two temporal scales (day and season). At the same time, two areas were 'secondary' areas, one on an extended reef immediately southwest of Tom's Pond and another about 400 meters north of Seal Rock. Secondary areas were less consistent in use on both a daily and a seasonal basis.

Harbor seals increased in numbers from 1975 to 1986, and four primary areas and one secondary area became used (five total haulout areas). The Tom's Pond area had shifted from secondary to primary and the new Barn Road primary area appeared. An additional secondary area appeared at Windy Point. Since then, additional rocks next to Windy Point have been used as haulout sites, such that the Windy Point area is now larger and a primary haulout. It remains unclear whether this area is a new primary or secondary haulout because of the small number of observations. For reporting purposes it is considered a primary area because it was occupied by large numbers of animals during three of the four survey days.

The Windy Point and Seal Rock haulout areas have remained consistent in use over three temporal scales daily, seasonal, and annual. These areas probably provide the most consistent ease of access for harbor seals and are relatively distant from current human disturbances (e.g., ranching practices). However, other areas should not be considered less. important as they provide necessary alternate resting areas.

The Barn Road site has the further historical distinction of being an important pupping area, the only documented pupping area in the NRSA (Krenn and Benech 1987). The Barn Road site was used again for this purpose in 2005 (S. Benech, pers. obs.).

Sea lions and elephant seals (Mirounga angustirostris)can co-occur in the same haulout areas with harbor seals (Studer 2000). However, this has been rare along the NRSA coast (S. Benech, pers. obs.). Elephant seals in the NRSA vicinity have tended to be juveniles observed mainly on the breakwater tri-bars of the DCPP intake cove. Sea lions in the DCPP area mainly haulout on Lion Rock and Pup Rock. Both are offshore and south of the NRSA. These steeper rocks can be more easily accessed by the more agile sea lions.

In contrast, sea otters can be common co-habitants with harbor seals in haulout areas.

Small numbers of otters (usually 2-5) can often be seen hauled out alongside and among harbor seals. Sea otters have been documented at as many as eight haulout locations along the NRSA coast (Benech 1996), which includes the harbor seal haulout areas mapped in the present study. Although sea otters can haulout on rocks year-round, sea otters tend to haulout in largest numbers in spring, their peak pupping season. Sea otters can bully harbor seals, and if there is competition for space, the otter will generally win (S. Benech, pers. obs.).

Although harbor seals tend to be 'loyal' to specific haulout areas, they may vary their use at a particular area hourly, daily, and seasonally. Use is dictated by sea conditions, tidal height, and perceived exposure to danger or harassment, which can change over time.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 94 July 27, 2006

Pupping, nursing, and molting can also affect the time and place of use. Harbor seals are quite capable and not hesitant to shift to alternate haulout areas depending on the nature of conditions and availability of other haulout areas.

Harbor seals are vulnerable to human disturbances, and are known to flush from haulout areas when humans approach within 300 meters (Trulio 2005). The National Oceanic and Atmospheric Administration (NOAA) recommends 90 meters as a suitable distance to minimize haulout disturbance effects. However, the actual 'comfort' distance for harbor seals can be affected by the degree and regularity of the disturbance. For example, slow, quiet movements tend to be less alarming to harbor seals than loud, fast movements and noises. Also, harbor seals can become tolerant to various sights and sounds if they are regular in occurrence. It is the unpredictable infrequent event, such as low flying aircraft, occasional human visitors, or dogs that can be the most disruptive.

Adequacy of the Field Work in Addressing DTF Comments on the PEB The literature comprising the PEB includes the report of Krenn and Benech (1987),

which describes marine mammal haulout locations along the NRSA coast from surveys conducted over the period 1973 to 1986.

DTF Comment(s):

  • Item #91 requests that a marine mammal haulout mapping survey be completed as part of the CBI because the previous mapping survey along the DCPP coast was done 20 years ago.

" Item #79 also requests that a marine mammal haulout mapping survey be completed as part of the CBI. Item #79 further states that monitoring should continue once there is public access and that bluff trails be re-routed if impacts occur, particularly during the pupping season.

Actions Taken, or to be taken in Response to DTF Comments:

  • Items #79 and #91: Marine mammal haulout areas were mapped along the NRSA coast in 2005 to provide updated information on haulout use and locations.
  • As appropriate, based on a final trail route, annual monitoring will include assessment of access related effects on marine mammals.

5.3 Nesting Sea Birds Surveys of seabird nesting colonies were done along the NRSA coast in spring-summer 2005. Nesting seabirds that are close to public trails can be vulnerable to human disturbances. Greatest impacts can be disruption to nesting behaviors that result in reduced survivorship of eggs and fledglings. The Migratory Bird Treaty Act of 1918 provides federal protection to migratory birds, including seabirds, and prohibits any activity that can result in harassing or killing seabirds.

Twenty five species of seabirds nest along the California coast with the greatest diversity and local abundance occurring in two areas along the northern coast; the Farallon Islands and the coastline between Cape Mendocino and the Oregon border (Osborne and North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 95 July 27, 2006

Reynolds 1971, Sowls et al. 1980, USFWS 2005). The Santa Barbara Channel Islands also comprise an important location for breeding seabirds, supporting the entire California breeding populations of black storm-petrels (Oceanodroma melania), brown pelicans (Pelecanusoccidentalis), and Xantus' murrelets (Synthliboramphushypoleucus).

Several species of seabirds have been documented as nesting along the NRSA coast during previous surveys of the area. These include the western gull (Larus occidentalis),

Brandt's cormorant (Phalacrocoraxpenicillatus), pelagic cormorant (Phalacrocorax pelagicus), pigeon guillemot (Cepphus columba), and black oystercatcher (Haematopus bachmani). Of the seabird species that nest along the California coast, these five species are reported to have the widest distribution of nesting colonies (Sowls et al. 1980).

5.3.1 Study Sites Seabirds nest on offshore rocks, on coastal shore cliffs that are relatively stable, and on ledges of headland walls. The NRSA coast has a variety of these habitats available to nesting seabirds, therefore the entire NRSA coastline was included in the 2005 field surveys.

5.3.2 Nesting Sea Bird Species Accounts Brandt's Cormorant (Phalacrocoraxpenicillatus)

Brandt's cormorants are a common yearlong resident and the most abundant of the cormorants nesting on the California coast. They are protected under the Federal Migratory Bird Treaty Act, and their Conservation Classification for breeding seabirds under the California Current System is 'moderate'.

The breeding range extends from southeast Alaska to Baja California, Mexico. Brandt's cormorants reside in marine subtidal and pelagic zones, especially near rocky shores.

Except while fishing, Brandt's cormorants spend little time on the water. They roost communally on rocky headlands and islets, and occasionally on sand beaches. Brandt's cormorants nest on the flat or moderately sloping tops of offshore islets, as well as inaccessible mainland bluffs and cliff ledges.

The most recent surveys indicate a total range-wide breeding population of <100,000 Brandt's cormorants, of which approximately 75% breed in Oregon and California (USFWS 2005). Brandt's cormorants are monogamous and breed mostly from March to August and lay eggs from April to July. Clutch size ranges from three to six, with four being the norm. Both parents incubate the eggs. The young are altricial; the age of first flight and independence is unknown.

Brandt's cormorants are susceptible to disturbance during the breeding season. Humans, boats, and low flying aircraft easily frighten parents off their nests, which can result in heavy predation on eggs and the young. Crows, ravens, and western gulls are common predators of the eggs and young of Brandt's cormorants. Repeated disturbance can cause a colony to be permanently abandoned.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 96 July 27, 2006

Pelagic Cormorant (Phalacrocoraxpelagicus)

The pelagic cormorant is the smallest and least gregarious of the Pacific cormorants and is a fairly common year-long resident along most of its range, which extends from the Chukchi and Bering seas south to Japan and northern Baja California, Mexico. They are protected under the Federal Migratory Bird Treaty Act, and their Conservation Classification for breeding seabirds under the California Current System is 'high concern'. Pelagic cormorants reside in marine subtidal habitats along rocky coasts with cliffs and offshore islands. They forage relatively close to shore, usually within 10 kilometers of land.

Pelagic cormorants breed from April to September and the eggs are laid mainly from May to June. Pelagic cormorants are monogamous colonial nesters, although colony size is comparatively small with generally fewer than 100 birds per colony (USFWS 2005).

Clutch size is usually three to five eggs, but can be six to seven. Pelagic cormorants are capable of raising only one brood per season, but may lay a replacement clutch if the entire clutch is lost early in the season. The young are raised in platform nests built of seaweed that are on small outcrops and ledges situated anywhere from hundreds of feet above the ocean to just within the spray zone.

The global population of pelagic cormorants is estimated at approximately 400,000 birds with about 69,000 breeding in North America (USFWS 2005). California represents less than 21% of the North American breeding population at an estimated 14,300 birds (USFWS 2005). Numbers of birds and breeding success have declined dramatically during El Nifho events.

Shoreline development poses a threat to pelagic cormorants in California. Pelagic cormorants are highly sensitive to human disturbances during breeding season. Adults, in their panicked retreat, may knock eggs and young chicks from nests or leave them vulnerable to predation by crows, ravens, and western gulls.

Pigeon Guillemot (Cepphus columba)

Pigeon guillemots inhabit subtidal and intertidal marine habitats and are found along rocky coasts from the Kurile Islands to southern California. They are protected under the Federal Migratory Bird Treaty Act, and their Conservation Classification for breeding seabirds under the California Current System is 'moderate.' In California, pigeon guillemots breed on offshore rocks and inland cliffs from the Oregon border south to Santa Barbara Island. There are five recognized sub-species; C.c. eureka breeds in Oregon and California. Pigeon guillemots forage close to shore and birds are rarely encountered greater than five kilometers offshore (USFWS 2005).

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 97 July 27, 2006

Figure 5.3-1. Known locations of sensitive marine birds within the NRSA as determined by surveys performed in 2005.

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Pigeon guillemots typically nest in natural rock crevices and talus slopes, but occasionally use burrows or artificial cavities, such as wharf timbers and drain pipes (Sowls et al. 1980). On the Channel Islands, eggs are laid from mid-April through mid-June, with a peak in early May (CDFG 2005c). The young hatch from mid-May through mid-July, and fledge from late June through August (CDFG 2005c). Clutches usually contain two eggs.

The global population estimate of pigeon guillemots is 246,000 birds with about 88,000 breeding in North America; California's breeding population is 15,500 (USFWS 2005).

A northward movement takes place following the breeding season, and most pigeon guillemots disappear from the California coastline during fall/winter, reappearing just before breeding the following year.

Compared to other seabirds, pigeon guillemots are not highly vulnerable to human disturbance, due to relatively low nesting density, inaccessible nests sites, and their widespread distribution along the Pacific coast. Nevertheless, pigeon guillemots will readily abandon their nests if disturbed during incubation or brooding (Sowls et al. 1980).

Black Oystercatcher (Haematopusbachmant)

Black oystercatchers are shorebirds that inhabit rocky shores along most of the California coast. They are protected under the Federal Migratory Bird Treaty Act, and their Conservation Classification for breeding seabirds under the California Current System is

'high concern'. The U.S. Shorebird Conservation Plan lists black oystercatcher as a

'Species of High Concern' based on relative abundance, threats on breeding grounds, and non-breeding distribution (Brown et al. 2001).

Although black oystercatchers are usually found on the same rocks and offshore islands as colonial nesting seabirds, they are non-colonial nesters and permanent residents of the coastal areas they inhabit. The nests of black oystercatchers, which are difficult to find, are composed of a slight depression on a rock ledge, usually lined with pebbles or shell pieces, and located just above the ocean splash zone (Sowls et al. 1980). Black oystercatchers begin laying eggs in early May. Clutch size is one to three eggs, with an average of two. The chicks are precocial and within about a week of hatching follow the adults to nearby intertidal feeding grounds (Sowls et al. 1980). By late September most chicks have fledged (CDFG 2005c).

Black oystercatchers require clean and undisturbed rocky coastlines for nesting and feeding, and are highly susceptible to human disturbance. Human activity may cause incubating parents to abandon their nests, leaving eggs and chicks vulnerable to predacious gulls and ravens. Mortality among eggs and chicks is high. In addition to predation, occupied nests are frequently destroyed by storm waves (Sowls et al. 1980).

Sowls et al. (1980) estimates the California breeding population of black oystercatchers to be 1,000 birds, with the Farallon Islands supporting 6% and the Channel Islands 34%

of the state population (CDFG 2005c). Black oystercatchers vanished from the Farallon Islands in the 1860s, probably as a consequence of too much human disturbance. It was North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 99 July 27, 2006

not until 1956 that black oystercatchers were once again observed on the Farallon Islands on a regular basis (Sowls et al. 1980).

Western Gull (Larisoccidentalis)

Western gulls are endemic to the west coast of North America and are abundant yearlong residents of coastal California. They are protected under the Federal Migratory Bird Treaty Act, and their Conservation Classification for breeding seabirds under the California Current System is 'low concern'.

Their range extends from British Columbia to the southern tip of Baja California, Mexico. There are two recognized sub-species of the western gull: L. o. occidentalis (British Columbia to San Francisco) and L. o. wynami (San Francisco to Baja) (Grant, 1999). Western gulls hybridize extensively with glaucous-winged gulls in the northern part of their range (USFWS 2005).

Although western gulls nest in a variety of habitats, they are primarily found on the more horizontal surfaces of offshore rocks and islands. Western gulls may also nest along the mainland coast on steep slopes and cliff faces that are inaccessible to terrestrial predators.

Western gulls also nest on man-made structures, such as building tops, bridges, and anchored boats. Western gull nests are usually substantial and consist of an arrangement of vegetation, debris, and feathers. Western gulls breed colonially from early April through August (CDFG 2005c). Clutch size can be up to three eggs (USFWS 2005).

The total worldwide breeding population of western gulls is estimated to be between 80,000 and 126,000 birds, with the majority of the population (50-77%) in California (USWFS 2005). Although reproductive success since the 1970s and 1980s has declined on the Farallon and Santa Barbara Islands, the California statewide population has increased in numbers by 39% (USFWS 2005).

Although human impacts on western gulls are limited due to the remote breeding localities and the resilience of individuals and populations, they, like other seabirds, are susceptible to human disturbance while nesting. Disturbance may result in lowered reproductive success and intra-specific predation of eggs and chicks (Sowls et al. 1980).

5.3.3 Survey Methods The objective of the survey effort was to identify seabird nesting locations and summarize the distribution, species composition, and relative abundances of nesting seabirds within the NRSA. Surveys were conducted during the spring-summer months of 2005 (from mid-May to mid-July) to encompass the peak of the nesting season. Survey results represent a snapshot in time and are intended to provide current information on the locations where seabird nesting activity occurs along the NRSA coastline.

Field surveys of seabird nesting colonies were conducted along the 3.3-mile section of the NRSA coast, from Coon Creek to Seal Rock. The NRSA was surveyed on two occasions in 2005, once early in the seabird nesting season and once near the end of the nesting season. Each survey effort was conducted between the hours of 0930 and 1500 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 100 July 27, 2006

(when birds were resting following their morning foraging bout) and required two days to complete. The first survey was initiated on May 19 at Coon Creek and progressed southward to Peregrine Rock (about half way through the NRSA). The first survey effort was completed on June 3 when the remaining section of coast to Seal Rock was surveyed.

The second survey effort commenced on July 14, beginning at Coon Creek and ending at Tom's Pond. The second survey was completed on the following day (July 15) when the remaining section of the coast to Seal Rock was surveyed.

Field surveys were conducted by two teams of two biologists. Binoculars and spotting scopes were used to count and identify seabirds and to observe nesting activity. One of the observers on each team served as a data recorder. Counts were made from vantage points at or near the top of the mainland cliff. Usually both teams counted birds from the same location and compared counts. Counts were repeated to ensure accuracy. Observer teams recorded the site location, number of birds by species, and number of birds on nests. After a consensus was reached about the seabird count at a specific location the observer teams moved to the next vantage point. This count method was repeated until the entire coastline between Coon Creek and Seal Rock was surveyed. Therefore, the data collected during surveys was based on direct counts of individual birds and nests and not estimates. However, there were. few vantage points along the NRSA coast that would allow the observer teams to count seabirds loafing or nesting on the ocean (offshore) side of nearshore rocks. Therefore, actual nesting abundance is likely to be higher than survey count totals.

5.3.4 Survey Results The seabird data was grouped by geographical reference areas (coastal sections) that correspond to the permanent grazing paddocks located immediately adjacent to the coastal bluffs all along the NRSA coast (Figure 5.3-2). Seabird nests were observed in nine of the twelve coastal sections (Figure 5.3-3 and Table 5.3-1).

The survey results indicate that four common local seabird species nest along the NRSA coastline: Brandt's cormorants, pelagic cormorants, western gulls, and pigeon guillemots.

Black oystercatcher pairs were also observed in and around nesting colonies on offshore rock formations. Black oystercatcher nests were not positively identified during the survey, but nesting activity within the NRSA is considered likely.

Western Gull (Larisoccidentalis)

Western gulls were the most abundant and widely distributed seabird species nesting within the NRSA with a total of 59 nests distributed within eight of the twelve coastal sections. Nests on offshore rock formations within the PF4 (Point Buchon) and Big Wash paddock areas accounted for 77% of the western gull nests observed during the survey. Western gulls nested singly or in loose aggregations atop tall offshore rock formations. The spacing of the nests appeared to be a minimum of several meters, as defined by the territory of the adult gulls. Old, abandoned gull nests were also found on top of the mainland bluffs at several locations along the coast.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 101 July 27, 2006

Pelagic Cormorant (Phalacrocoraxpelagicus)

As with western gulls, the PF4 (Point Buchon) and Big Wash coastal sections supported the greatest number of pelagic cormorant nests, which were second in nest abundance within the NRSA. Pelagic cormorants were observed nesting on narrow ledges along the vertical surfaces of offshore rocks and rocky coastal cliffs that receive some protection from direct exposure to ocean swells and wind. A total of 52 pelagic cormorant nests were observed during surveys within coastal section PF4 (Point Buchon), DP (Disney Point), and Big Wash.

PiNeon Guillemot (Cepphus columba)

Pigeon guillemot nests were also detected in these three sections of the NRSA. Pigeon guillemots often utilized the same semi-protected vertical rock cliffs as pelagic cormorants, however the pigeon guillemot nests were located back inside crevices instead of on narrow ledges along the rock face. Although pigeon guillemots appeared to be relatively abundant within the NRSA and were commonly observed on the ocean adjacent to rocky headlands, nesting activity was positively identified at only four locations. The nesting abundance of pigeon guillemots is easily underreported because nests are hidden back in crevices, and once nesting has begun, nest sites are often very difficult to detect. Additionally, it is impossible under most circumstances to distinguish breeding pigeon guillemots from non-breeders so counts reflect the total number of birds around a colony instead of the number of breeding birds (Sowls et al. 1980). A total of 119 pigeon guillemots were counted between the Coon Creek and WP 1 (Windy Point) paddock areas, inclusively.

Brandt's Cormorant (Phalacrocoraxpenicillatus).

Like western gulls, Brandt's cormorants utilize the top of tall offshore rock formations for nesting. The Brandt's cormorant had the most restricted nesting distribution within the NRSA with nests present on one offshore rock in section PF5 (Lover's Beach).

Brandt's cormorants nest in relatively dense colonies with the nests generally evenly spaced (one meter or less). Consequently, the nesting colony in PF5 with both Brandt's cormorant nests and western gull nests supported the greatest density of nesting birds in the NRSA.

Black Oystercatcher (Haematopusbachmani)

Although black oystercatcher nests were not detected in the NRSA, as many as 27 black oystercatchers were observed along the coast during a single survey, including several adult oystercatchers exhibiting possible incubating or brooding behavior.

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Figure 5.3-2. Sections of coast (ranch paddocks) used to summarize coastal distribution data on nesting seabirds within the NRSA.

N 0 1,500 Feet North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 103 July 27, 2006

Figure 5.3-3. Number of nesting seabirds observed by sections of coast in two surveys completed in spring-summer of 2005 along the NRSA. The numbers represent the summation of the maximum numbers observed per site within each section over the two surveys.

  • Brandts Cormorant-Nest " Pigeon Guillemot-Nest
  • i Pelagic Cormorant-Nest " Western Gull-Nests 40 z

30 20 t t  :.-121-----t -~ i +/- _______ _______ -i thil 1-oI 10 0 I I I Paddock Coon PF4 PF5 DP BW Slope WP1 WP2 WP3 RB3 Camp LR Creek Coastal Coon Point Lover's Disney Big South Windy Tom's Barn Rd. Barn Rd. Seal Rk./ Seal Section Creek Buchon Beach Point Wash of Big Point- Pond South Crowbar Rock Wash Tom's South Pk. South Pond Table 5.3-1. Nest and breeding bird count data for the NRSA coast.

Number of Seabird N'ests~ per Section of Shore (Paddock)!/____

Coon ~:';

Species Creek PF4. PF5 DP ý'BWýA Slope ,1YY1 "WP2 MP3 RB Camp LR Total W estern gull ........

Larus occidentalis 1 13 2 4 28 1 9 1 59 Brandt's cormorant Phalacrocorax 38 38 penicillatus Pelagic cormorant Phalacrocorax 14 3 35 52 pelagicus Pigeon guillemot 21 4 Cepphus columba Tr..I, 1. 27' I 11ý a I 1411 North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 104 July 27, 2006

A variety of other seabirds that do not nest along the NRSA coast were also observed during the surveys. These include brown pelican (Pelecanus occidentalis), glaucous-winged gull (Larus glaucescens), Heermann's gull (L. heermanni), ringbilled gull (L.

delawarensis), and black turnstone (Arenaria melanocephala). Nesting cliff swallows (Petrochelidonpyrrhonota)and peregrine falcons were also observed.

5.3.5 Discussion Most nesting activity was observed north of the Big Wash area and can be explained by the geophysical characteristics of the coastline. The coastal bluffs north of the Big Wash area are mainly headlands, rocky promontories extending into the ocean, steep shore cliffs, and tall offshore pinnacles and sea stacks. Excluding the Seal Rock area at the southern end of the NRSA, nesting activity was rare along the southern portion of the NRSA. The relative unsuitability of this reach for nesting is due mainly to the lack of offshore rocks and sea stacks of sufficient height to provide nest areas that are protected from large waves. In addition, the shore cliffs along this reach consist mainly of weathered unconsolidated soils rather than hardened rock. The cliffs are highly erosive and have few ledges and crevices that offer suitable nesting areas.

Findings in Context with Other Research In addition to the work of Krenn and Benech (1987), seabird nesting surveys were conducted previously along the NRSA coast by Frame (1972) and Sowls et al. (1980).

Frame (1972) surveyed pelagic cormorant nesting sites from Coon Creek to the southern extent of the Big Wash paddock area. Sowls et al. (1980) cataloged seabird colonies along the California coast that included Area 477 (San Luis Obispo). Three of the seabird colonies surveyed, Colony 009 (Point Buchon), Colony 010 (Unnamed Rocks),

and Colony 028 ('Pup Rock and Adjacent Mainland') were in the current NRSA. These three areas encompassed much of the higher value nesting habitat observed in the present study. In comparing data, one principal difference between data"collected in 1979-1980 by Sowls et al. (1980) and data collected during the 2005 survey is the vantage points used. Observations of seabird colonies by Sowls et al. (1980) were made entirely from a boat, except for Colony 028 where the field team landed on Pup Rock to count western gull nests. The surveys conducted in 2005 for the present study were completed from the top of the shore cliff.

Sowls et al. (1980) reported the number of breeding birds in a colony by multiplying the total count of nests by two (except for pigeon guillemots, in which all pigeon guillemots were counted). Table 5.3-2 compares the count data (nests and breeding birds) between the Sowls et al. (1980) study and the 2005 study for similar sections of the NRSA coast.

The Sowls et al. (1980) breeding colony 009 corresponds to coastal paddock areas PF4 (Point Buchon) and PF5 (Lover's Beach); breeding colony 010 corresponds to coastal paddock areas DP (Disney Point), BW (Big Wash), and Slope; breeding colony 028 corresponds to paddocks Camp (Seal Rock area) and LR (Lion Rock), although breeding colony 028 includes areas south of Lion Rock.

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A comparison of the 2005 survey results with the Sowls et al. (1980) data show an overall increase in nesting activity within the NRSA for western gulls, Brandt's cormorants, and pelagic cormorants with some variation in the distribution of nests for each species. The Brandt's cormorant nesting colony documented in the 2005 study was not reported in Sowls et al. (1980) or by Frame (1972), and may be a recent expansion of the large colony on Lion Rock. In contrast, pigeon guillemot numbers appear to be reduced. This could reflect differences in survey timing and methods between the two studies rather than a population decline. Black oystercatcher nesting was not identified during the 2005 survey. However, survey methods and timing may also have played a part in this finding.

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Table 5.3-2. Comparison of nest and breeding bird data for the NRSA coast, Tenera 2005 survey vs. Sowls et al. 1980.

2005 Stud .Sowls et al. (1980)

~Shore Areas (paddocks) Comparable Seabird'Colony, DP, BW, and Camp and Species PF4-PF5 Slope LR 009 010 028 Western gull 15 nests 33 nests 4 nests 11 nests 27 nests Larus occidentalis 30 birds 66 birds 8 birds 22 birds 54 birds Brandt's cormorant 38 nests Phalacrocoraxpenicillatus 76 birds Pelagic cormorant 14 nests 38 nests 2 nests 32 nests Phalacrocoraxpelagicus 28 birds 76 birds 4 birds 64 birds Pigeon guillemot 53 birds 45 birds 20 birds 200 birds Cepphus columba 5 b Black Oystercatcher 3 nests 5 nests I nest Haematopus bachmani 6 birds 10 birds 2 birds Actual black oystercatcher nest locations are found in a low percentage of circumstances, so in previous studies nesting was usually indicated from the territorial defense behavior of adults, which required a close approach (Sowls et al. 1980). The 2005 study was conducted from a distance that would be unlikely to elicit territorial defense behavior, and therefore nesting activity could not be identified by this method. The vantage points along the top of mainland bluffs did not allow a closer approach and no attempts to elicit a defense response were made. Despite the negative findings, the relatively high number of black oystercatchers observed during surveys and possible incubating/brooding behaviors suggest that breeding does occur within the NRSA.

Adequacy of the Field Work in Addressing DTF Comments on the Preliminary EnvironmentalBaseline PG&E had no information to provide in the PEB on nesting seabirds along the NRSA coast, thus prompting new field studies in 2005 to establish a baseline for this resource category.

DTF Comment(s):

  • Items #75, #78, and #90 recommends that a nesting seabird mapping survey be done as part of the DCPP environmental baseline.

" Item #78 also recommends the bluff trail avoid areas of nesting seabirds and that monitoring be done and the trail re-aligned as necessary to minimize impacts to nesting seabirds.

Actions Taken in Response to DTF Comments:

  • Items #75, #78, and #90: Surveys of seabird nesting colonies along the NRSA coast were done in spring-summer 2005 for use in coastal bluff trail planning and preparation of the access monitoring plan.

PG&E believes that all aspects of the marine, resources baseline (intertidal species, marine mammals, and seabirds) are complete and responsive to comments received from North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 107 July 27, 2006

the DTF. This information will suitably support development of the Access Plan and Access Monitoring Plan.

6.0 Cultural Resources Twenty-nine prehistoric and historical archaeological sites (or potential sites) have been identified within the NRSA. Some of these sites were first recorded in the 1940s when Arnold Pilling performed the earliest systematic archaeological surveys of the region under the auspices of the University of California (Pilling 1951). Pilling's sites were assigned the first trinomial designations in San Luis Obispo County under the state's newly designed numbering system (e.g. CA-SLO-5, CA-SLO-6, CA-SLO-9). In the 1980s Wilcoxon (1988) performed limited surveys on behalf of PG&E, recording additional sites, and in the early 1990s Shelly Davis-King conducted a more thorough survey of the NRSA property, documenting or updating the records for most sites in the NRSA (Davis-King 1991, Davis-King and Williams 1992). Since that time, however, the sites have not been formally revisited. Most recently, PG&E cultural resources specialist, Lynn Compas (2003) surveyed a small portion of the NRSA prior to replacement of an old bridge recording several historical features.

In response to comments received on the PEB from the DTF, PG&E agreed to relocate and update the records of all known cultural site within the NRSA. A contractor, Applied Earthworks (/E), was hired to perform this work.

,E's redocumentation focused on current site conditions, and used sub-meter accurracy GPS technology to plot site locations and boundaries. In addition to archaeological field work, .E researched historical uses of the NRSA, including the farming activities of Japanese immigrants during the 1920s and 1930s. Although the scope of the study did not involve significance evaluation of historical or prehistoric sites, research sought to expand on existing overviews of the NRSA and provide a context for future interpretation of the sites.

6.1 Physical and Cultural Setting 6.1.1 Physical Environment The NRSA is variously referred to as the Pecho Ranch, North Ranch, and/or North Property, and is located at the southern end of the Santa Lucia Range, one of the southern Coast Ranges that extend south from San Francisco Bay to the Santa Ynez River, west of the San Andreas Fault zone (Norris and Webb 1990). Long valleys parallel the coast, with faults and folds controlling the direction of drainage throughout the region (Norris and Webb 1990). The coastal terrace lies between the Irish Hills on the east and the Pacific Ocean. It consists of uplifted bedrock overlain with successive layers of ancient marine deposits and more recent alluvial sediments (Greenwood 1972). The NRSA consists of approximately three-miles (500 acres) of this marine terrace and coastline, situated between Coon Creek in the north and Crowbar Canyon in the south, and ranging in elevation from sea level 320 feet. Coon Creek, the major drainage in the NRSA, is a perennial stream that originates in the hills and flows through a narrow canyon to the sea.

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made reservoir. Monterey and Franciscan cherts are found throughout the coastal region and were the primary tool stones worked by prehistoric inhabitants.

The climate is generally mild with cool summer temperatures averaging 70 degrees Farenheit and winters ranging from 40 to 50 degrees Farenheit (Jones and Waugh 1995).

Most rainfall occurs between December and March. The NRSA is often blanketed by fog, particularly in the summer months when the warm inland air rises creating an on-shore flow of cool moist marine air.

The coastal region supported a variety of resources important to both prehistoric and historical inhabitants. Along with fish and sea mammals, shellfish are plentiful in the shallow waters offshore. Olivella, Haliotis, and Mylitus species, whose shells are well represented in prehistoric middens, provided not only sustenance but also the raw material for tools and ornamentation (Greenwood 1972). Small and medium size-mammals (e.g., squirrels, raccoon, coyote, fox, mountain lion, and deer) are found in the coastal hills. The immediate NRSA is characterized by four distinct vegetation community types. These are described in detail in Section 3.0.

In historical times, a variety of crops were cultivated on the coastal terrace, and domestic livestock, primarily cattle, may have grazed here continuously for the past 200 years.

Similarly, the Irish Hills have been used as pasture land for many years, but the chaparral and woodland habitats of this region have remained comparably undisturbed and include grass and scrublands as well as stands of oak and Bishop pine.

6.1.2 Prehistory Archaeological evidence suggests that Native American use of this Central Coast region began during the late Pleistocene, as early as 9000 B.C. A scant but growing body of evidence from this earliest period of occupation includes two fluted projectile points: one is a basal fragment discovered near Santa Margarita (Gibson 1995) and one is a complete point found near Nipomo (Mills et al. 2005). More conclusive evidence of human occupation has been found at a few coastal sites dating to the early Holocene, prior to 6500 B.C., including four deep shell middens dating from 7000-8000 B.C. The paucity of sites and materials from this time, termed the Paleocoastal Period by Moratto (1984),

suggests that population density was low and settlements were impermanent. People used relatively simple technology to procure plant foods, shellfish, and a limited array of vertebrate species (Breschini and Haversat 1982; Greenwood 1972; Jones and Waugh 1993; Jones et al. 1994; King 1990).

Well-developed shell middens, numerous milling implements, and fishing tools provide the evidence for more intensive and settled human occupation after 6500 B.C. Although the period is best defined by the predominance of handstones and milling slabs, indicating a reliance on hard seeds and other plant foods, flaked stone tools include leaf-shaped bifaces, oval bifacial knives, choppers, and scrapers. Hammerstones, fishing equipment (grooved net sinkers and bipointed gorges), and Olivella beads are also included among the artifacts.

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Cultural changes after 3500 B.C. are thought to be a response to environmental shifts, rising sea levels, and an increase in population. Diagnostic artifacts of this period include large side-notched, square-stem, and contracting-stem projectile points as well as Olivella beads. Although milling slabs and handstones continued as the primary plant processing tools, mortars and pestles were added to the artifact inventory, probably indicating systematic use of acorns (Glassow and Wilcoxon 1988). In response to climatic changes, local residential sites appear more settled but not permanent, with an increase in logistical organization of economic activities (Jones et al. 1994). The greater diversity of site types during this period reflects an increasing number of short-term occupations near labor-intensive resources. Trade and exchange also increased in importance as population mobility decreased, as evidenced by exotic shell beads and obsidian materials in midden deposits (Jones et al. 1994).

Prehistoric technology and economy became markedly more complex after 600 B.C. The artifact assemblage contains shell fishhooks and other fishing gear, saucer-type Olivella beads, and contracting-stem projectile points. The use of handstones and milling slabs continued during this period, but pestles and mortars occur in greater proportions (Jones and Waugh 1995). After A.D. 500 the bow and arrow was adopted and the tomol, or plank canoe, was developed on the coast (King 1990). Along the Santa Barbara Channel the tomol became the basis of an extensive maritime fishing industry and helped link the mainland to the Channel Islands; it is unclear, however, to what extent the tomol was used north of Point Conception, although local residents utilized tule balsas and dugouts.

Subsistence practices during late prehistory emphasized fish and acorns, with greater use of seasonal resources and the first attempts at food storage (Glassow and Wilcoxon 1988; King 1990). Continuation of trade relationships is evident in the increased number and diversity of obsidian items and beads associated with this period. Settlement practices were similar to those of the prior period. Sites were occupied on an extensive basis but not as permanent settlements. These residential bases functioned in conjunction with smaller short-term occupations at specialized resource processing areas.

The period after A.D. 1000 was a time of emergent political complexity, development of social ranking, and the rapid development of craft specialization along the Santa Barbara Channel. Similar evidence is lacking, however, in San Luis Obispo County. In this area settlement appears to have shifted away from the coast, perhaps reflecting adaptations to warmer temperatures and changes in available resources on the coast (Jones et al. 1994).

Artifact assemblages contain a mixture of earlier artifact types such as stemmed projectile points, milling slabs, handstones, bowl mortars, and Olivella beads. Moreover, the absence of imported obsidian after A.D. 1000 suggests a change in trade relationships that is likely associated with the shift in settlement patterns (Jones et al. 1994). Native populations in San Luis Obispo County may have decreased during this time as villages became temporary hunting camps and native inhabitants increasingly relied on terrestrial mammals for subsistence.

No subsurface investigations have occurred in the NRSA, but in the late 1960s, prior to the construction of the DCPP, Roberta Greenwood excavated six sites: CA-SLO-2, -51, -

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52, -61, -584, and -585 between Diablo Canyon Creek and Pecho Creek (Diablo Creek lies about 1-mile south of the NRSA, while Pecho Creek crosses the marine terrace approximately 3.5 miles south of DCPP). These investigations produced a wealth of material remains, including flaked and ground stone tools, bone and shell artifacts, and deeply stratified shell midden deposits containing numerous human burials. CA-SLO-2 produced radiocarbon dates indicating that occupation began more than 9,000 years ago (Greenwood 1972). In addition, the upper levels of the site yielded several types of small triangular and lanceolate projectile points typically associated with late prehistoric and historic Chumash groups. CA-SLO-2 contains ample evidence that the occupants of this site were fishermen, but the level of technology suggests that fishing was limited to the immediate seashore and apparently represented an important but not central part of the subsistence strategy (Greenwood 1972).

More recently, Gary Breschini and Trudy Haversat performed limited test excavations at CA-SLO-7 and -8, two smaller sites immediately north of CA-SLO-2 (Breschini and Haversat 1988). They concluded that CA-SLO-7 contained two occupational components, one representing Phase 1 of the Late Period and the second representing either Early or early Middle Period occupation. CA-SLO-8 appeared to be a single component site associated with the Late Period Phase 1. The Late Period components at both sites appeared to be seasonally occupied fishing camps related to the village at CA-SLO-2, while the Early/Middle Period component at CA-SLO-7 was more difficult to interpret because of its very sparse assemblage. Both sites were judged to be significant historical resources according to CEQA criteria (Breschini and Haversat 1988).

Additionally, the California Department of Parks and Recreation has sponsored a field school at CA-SLO-9 for the students of California State Polytechnic University in San Luis Obispo. The results of two seasons of excavation are not yet published, but a suite of radiocarbon dates indicates that the portion of the site investigated dates exclusively to the Late Period (Terry Jones pers. comm. 2005).

6.1.3 Ethnography San Luis Obispo County lies within the traditional ethnographic territory of the ObispeZo, or northern Chumash. The Chumash were among the most populous and socially complex groups in all of native California. By the beginning of the Protohistoric Period, the Chumash were living inlarge villages along the Santa Barbara Channel coast, with less dense populations in the interior regions, on the Channel Islands, and in coastal areas north of Point Conception. Population density was unusually high for a nonagricultural group; some villages may have had as many as 1,000 inhabitants.

Occupational specialization went beyond craft activities such as bead production to include politics, religion, and technology. Complex social and religious systems tied many villages together and regulated regional trade, procurement and redistribution of food and other resources, conflict, and other aspects of society. Leadership was hereditary, and some chiefs had influence over several villages, indicating a simple chiefdom level of social organization (Arnold 1992; Johnson 1988).

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The ObispeZo apparently were never as populous as their relatives in the Santa Barbara region, and archaeological research suggests societies less dependent on fishing (Glassow and Wilcoxon 1988). Local populations may have led a less sedentary lifestyle with a dietary focus on inland rather than coastal or maritime resources and greater reliance on logistic mobility than their southern neighbors (Woodman et al. 1991). The ObispeZo may not have attained the levels of social and political development of their southern counterparts, and the extent to which they participated in regional networks integrating social and economic activities remains to be clarified.

Spanish occupation of California began in 1769 and brought Chumash culture to the brink of extinction. The establishment of the Spanish Presidio in Santa Barbara and five Franciscan missions in Chumash territory significantly disrupted social, economic, and political organization. Introduction of domestic plants and animals as well as European wild grasses caused irreversible changes in the local environment. Native Californians had limited resistance to European diseases, which caused significant deaths among the Chumash.

Although people of Chumash ancestry still live in the region today and many strive to retain parts of their culture, the complex social system of the Chumash ended during the Mission Period (1769-1830). Larson et al. (1989) suggest that climatic variability, prolonged droughts, and warmer sea-surface temperatures during this period forced the Chumash into the missions as a strategy to minimize economic and social risk. However, Price (2005) argues that Mission agricultural yields were insufficient to support the native population, and the Obispeno continued to practice the full suite of traditional foodways well into the Mission period.

6.1.4 History Euro-American settlement in San Luis Obispo County began with the founding of the Mission San Luis Obispo de Tolosa in 1772. The mission was part of a series of churches established along the California Coast by the Franciscan Order of the Catholic Church under the patronage of the Spanish Crown. Initially, Spanish ships supplied the province with basic foodstuffs, tools, and other goods, but by the late 1770s the missions were producing enough wheat and corn to meet their own needs (save for the occasional climatic calamity). The friars also cultivated beans and barley and raised a variety of livestock.

The ensuing Mexican Period (1821-1848) served as not only a temporal transition between the Spanish and Anglo-American periods in California history but an economic one as well. Following independence from Spain, the Mexican authorities dispensed with Spanish mercantilism, opened the door to foreign markets, expanded trade with Americans and other foreigners, and afforded private individuals-both Mexican nationals and immigrants-the right to obtain title to land (Hackel 1998). Such immigrant-friendly laws directly contributed to the migration and eventual permanent presence of Anglo-Americans in California.

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In 1834, Governor Jose Figueroa initiated the process of secularization, formally ending the influence of the missions and converting them into mere churches. The mission estates were subsequently redistributed to private citizens; the economic void created by the demise of the missions was filled by the emergence of the ranchos-huge parcels totaling several thousand acres each and supporting large herds of livestock.

The political and economic unrest in California during the early and mid-i 840s is evident in the Mexican government's conveyance of the Cafiada De Los Osos y Pecho y Islay, a 32,431 -acre land grant that includes the North Diablo Canyon lands. In 1842, Governor Alvarado granted the Cahiada De Los Osos to Victor Linares; one year later, Alvarado's successor as governor, Manuel Micheltorena, awarded the Pecho y Islay to Francisco Padillo (Title Insurance and Trust Co. 1957). In 1845, Micheltorena was ousted from power and replaced by Pio Pico (Thompson and West 1883). In September of that year, Pico consolidated the two grants and issued them to Diego (James) Scott and Juan (John)

Wilson (Title Insurance and Trust Co. 1957). By 1850, Wilson had bought out Scott and become the sole proprietor of the Cafiada De Los Osos y Pecho y Islay.

Along with the Cafiada De Los Osos y Pecho y Islay properties, Wilson's holdings included the Piedra Blanca, La Laguna, and Suey ranchos. Wilson even purchased part of the San Luis Obispo Mission from the Mexican government in 1845, although the U.S.

government restored these lands to the church in 1856 (La Vista 1969). Wilson died in 1860 (Thompson and West 1883), leaving his estate to his wife Ramona Carrillo Wilson.

The Pecho y Islay Rancho (or Pecho Ranch) was likely used as pasture land. Although the eastern boundary of the ranch lay only 10-12 miles from the town of San Luis Obispo, the property was largely isolated and undeveloped. Until fairly recently, the Pecho Road-which winds northward from the ranch over the Pecho Hills, then eastward through the Los Osos Valley, and on towards San Luis Obispo-was the only land route between the ranch and outside world.

The emergence of the dairy industry, following the 1862-1864 drought, attracted many northern Italian immigrants as well as Portuguese from the Azores Islands to San Luis Obispo County (Krieger 1988). Among these dmigrds was Luigi Marre, native of Genoa, Italy. Marre had arrived in San Francisco in 1854, and by the time he leased the southern part of the Pecho Ranch in 1879, Marre was an accomplished stockman boasting several thousand head of cattle and sheep (Morrison and Haydon 1917). Marre leased the Pecho Ranch for 18 years, after which he bought 3,800 acres of the property. Marre's parcel lay south of Diablo Creek The northern portion of the Pecho Ranch is associated with another prominent stockman in San Luis Obispo County---Alden Bradford Spooner, Jr. (Morrison and Haydon 1917).

A.B Spooner was one of seven children born to Reverend A.B. Spooner Sr., long time resident in the Morro area. In 1892, the younger Spooner leased a 6,500-acre swath extending from just north of Islay Creek to Diablo Creek. That same year he built his ranch house, which today serves as the visitors' center for Montafia de Oro State Park.

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Near his residence, Spooner erected a dairy barn and milk house; a water wheel along Islay Creek powered the dairy's cream separator and butter churn (Miossi 1973).

The most reliable shipping link for the Spooner Ranch was via steamboat. By October 1892 Spooner had built a landing near the mouth of Islay Creek, on the southern cliffs of the well-protected cove that would eventually bear his name (San Luis ObispoTribune 1892). Throughout its history, much of the ranch's development and activity centered around Spooner's Cove; the remainder of the property was used primarily as agricultural and pasture lands.

Along with livestock, agriculture was part of the Spooner Ranch's economy from the very beginning. According to Ed Petersen (2005), crops were grown primarily on the coastal terrace, while livestock grazed in the hills further inland. In its first year of production, the ranch loaded 2,500 sacks-of beans and barley onto a steamer docked at Spooner's Cove; the amount represented only half of the cargo ready for shipment, since the freighter could not accommodate the entire harvest (San Luis Obispo Tribune 1892).

In 1902, Spooner shipped from the wharf at Cayucos over 4,800 sacks of small white beans harvested the previous year (Tognazzini 2002). That same year he purchased the ranch from Henry Cowell, who had previously acquired the property from John Wilson's granddaughter, Ramona Hillard (Morrison and Haydon 1917).

In 1920 Spooner died, leaving the business to his three sons-Quincy, Carleton, and Alden III. As remembered by Ed Petersen (2005), each brother was responsible for a different aspect of the operations of the ranch; Quincy oversaw the farming activities, Carleton managed the cattle, while Alden "milked the cows."

During the 1920s and 1930s, much of the coastal terrace, including the NRSA, was leased to Japanese farmers. To some extent, the Japanese farmers were insulated from the depressed prices of the country's traditional staples, since they grew then exotic crops like bush peas, Brussels sprouts, and artichokes. The impact of Asian farmers on the county's agricultural economy was considerable; by 1938, the market value of vegetable crops-led by peas, lettuce, and tomatoes-totaled just over $2.8 million, surpassing the

$2.2 million combined figure for wheat, barley, and beans (General Directories 1938).

The Japanese continued to farm the land until 1942, when they were involuntarily relocated to interment camps established during World War II under Executive Order 9066.

In 1942 Oscar Field acquired the Spooner Ranch. Sometime in the 1940s, he constructed a small dam and pump house from which irrigation water was piped to agricultural fields downstream (Petersen 2005). In 1954 he sold the northern half of the ranch (outside the NRSA) to Irene McAllister; following financial troubles, the land passed into federal receivership and became part of the Montafia de Oro State Park in 1965 (Miossi 1973).

Eventually, Field gave up farming because of difficulties in tapping enough water to irrigate his crops (Petersen 2005). PG&E purchased the property and incorporated it into the grounds of the DCPP. In 1985 the Company began commercial operation of the plant, providing power to customers in central and northern California.

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6.2 Methods To generate baseline data, /E performed background historical research and field surveys of the NRSA. Background research focused on historical uses of the NRSA, including the farming activities of Japanese immigrants during the 1920s and 1930s. Field work was intended to relocate and update the site records of previously identified cultural resources on North Diablo Canyon lands. E's redocumentation focused on current site conditions, and used sub-meter accurracy GPS technology to plot site locations and boundaries.

6.2.1 Background Research Methods

,E performed historical background research to expand on existing historical overviews of the area and provide context for interpretation of the historical archaeological sites.

Historical research focused on three general topics: initial development of the Pecho Hills; A.B. Spooner and the Spooner Ranch; and the Japanese community which farmed portions of the ranch from the 1920s to early 1940s. )E's in-house library contains several texts and maps regarding the history of San Luis Obispo County, which provided the baseline data for the archival study. These were supplemented with information from local San Luis Obispo County repositories including the Main Branch of the San Luis Obispo County Library and the San Luis Obispo Historical Society. The Historical Society was particularly helpful in providing references about the Spooner Ranch and Japanese community in San Luis Obispo County. In addition, Company Biologist Sally Krenn, who served as ,E's in-field contact for the project, and Dean E. Miller, archivist at the Special Collection Department of the Kennedy Library at California Polytechnic State University, also offered guidance during the study. Although the above sources offered ample information about the Pecho Hills/Spooner Ranch in general, little textual information exists about the NRSA per se. To complement the findings of archival research, 2E interviewed local residents knowledgeable about the NRSA. On 11 October 2005, Edward Petersen, descendant of A.B. Spooner and long-time resident of the North Diablo Canyon property, recounted the various personalities associated with the ranch as well as pertinent facts and events during the tenure of both the Spooner and Field families. Additionally, the Petersens hold numerous photographs of ranch life, including some that are specific to the NRSA. -

On 14 November 2005, )E interviewed Mr. Mas Tarioka, who grew up on his father's farm located on the Spooner-Ranch. Mr. Tarioka's recollections included several details about his and other farms occupying the ranch's coastal terrace that offered invaluable information about the social structure of the community as a whole. Ms. Krenn, who arranged the interview with the Petersens and provided the contact information for Mr.

Tarioka, facilitated both interviews.

Prior to field work, AE also performed a records search at the Central Coastal Information Center at the University of California, Santa Barbara, to update existing information regarding cultural resources within the NRSA. We consulted the 'site records, reports, and base maps on file at the Information Center to ensure that we hadthe most up-to-date information about each site in the NRSA.

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6.2.2 Field Methods

,E revisited archaeological sites on the NRSA during October 2005. As each site was relocated, the area in and around the resource was intensively surveyed, using pin-flags to mark the location and distribution of surface artifacts, features, and concentrations of cultural remains. The nature and distribution of cultural remains visible on the surface was compared to the data recorded on the existing site record, and site boundaries were established based on both data sets. Information gathered during the current field effort was combined with data from the original site records, and each site was recorded to current standards on the appropriate California Department of Parks and Recreation form (DPR 523).

In most cases the existing site maps were sufficiently detailed and accurate that new maps were not drafted; any additional information was plotted on the existing map. In those cases where sketch maps were missing or contained substantial inaccuracies, new maps were drafted in the field. To further document site conditions, each site was photographed using a digital or 35-millimeter camera.

A Trimble GeoXT Global Positioning System (GPS) was used to record the boundaries of each site and collect other geospatial data. GPS data were delivered to PG&E as ArcView shape files and were included as a layer in the Company's Geographic Information System (GIS). In accordance with the Company's GIS protocols, the coordinate system used for data collection was the Universal Transverse Mercator (UTM)

Zone 10, and the 1983 North American Datum.

Most of the archaeological sites within the NRSA are scatters of shell dietary debris or shell midden accumulations. Because shell can be dated by the radiocarbon method and can provide a valuable source of chronological information, and because of the potential loss of this information from natural erosion, /E collected 29 shell samples from 14 sites for radiocarbon dating. Three radiocarbon samples were submitted to Beta Analytic, Inc.,

in Coral Gables, Florida, for radiocarbon assay. The remaining samples are currently stored in iE's laboratory in Fresno. AE also collected a single complete projectile point found on the surface of one of the sites.

6.3 Study Results A complete report on the results of /E's study, including updated cultural resource records for all archaeological sites, is on file at the Central Coastal Information Center of the California Historical Resources Information System, on the campus of the University of California, Santa Barbara. The results of the study are summarized below.

6.3.1 The Japanese Community in San Luis Obispo County Most Japanese immigrants arrived in California around the turn-of-the century and promptly established communities along the Central Coast and San Joaquin Valley.

Although the particulars vary from place to place, a common thread runs through the history of each of these early settlements. Subsistence centered on the production or exchange of farming goods, by which the Japanese introduced numerous new varieties of North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 116 July 27, 2006

fruits and vegetables to the State's agricultural industry. As with other ethnicities, the Japanese communities were composed of tightly knit families often living near each other, and business transactions were primarily conducted within the community.

Religion was ecumenical in nature, and communities typically supported multiple places of worship from the Buddhist, Christian, and Shinto faiths. While the social characteristics of these groups were determined largely by historical and cultural factors, the permanence of each community was a matter of its structure as well as the effect of the prevailing land laws towards Asian immigrants in the first quarter of the twentieth century. In general, Japanese families established deep roots in places where they were able to purchase land and/or integrate themselves as a whole into the broader commercial network. Conversely, communities were relatively short-lived in cases where farmers could acquire land only via a lease (rather than by title) or in instances where the community's mode of production was dominated by one person or interest (rather than spread across multiple individuals and business).

Within San Luis Obispo County, Japanese immigrants began settling in the Arroyo Grande and Oceano areas around the turn of the century. While each farmer planted his own mix of crops, depending on specific soil and climatic conditions, agricultural plots invariably included bush peas, which thrived in the year-round cool climate of the Central Coast. In response to the expanding harvests of peas, commercial interest groups like the Pismo Pea Growers Association (1922) and Arroyo Grande Pea Growers Association (1925) were established to pack the vegetables, serve as a distribution point, disseminate information about commodity prices, and generally enhance the marketability of the product (Fukuhara 1976). In 1927, the two organizations merged to form the Pismo Growers Vegetable Exchange (POVE), which operates today as a major grower-shipper of numerous coastal vegetables.

The POVE offered more than just market assistance. The organization's first president, George Fukunaga, was a U.S. citizen (born in Hawaii), which was of critical importance in securing agricultural land for the Issei (native-born Japanese) farmers. In addition to its restriction on property ownership, the 1913 Alien Land Law limited the period of lease to Asian aliens to three years. To circumvent this discriminatory statute, Fukunaga would serve as a go-between by acquiring land via a primary lease, then subletting the property to immigrant farmers.

Another focal point of Japanese immigrant life in the county emerged in the 1920s, when Tameji Eto moved his family and farming business from Pismo Beach to Los Osos Valley. Arroyo Grande was the commercial and social hub of the Japanese community, but at the time no phone lines existed between Los Osos Valley and Arroyo Grande.

Along with other valley residents, Eto organized the Los Osos Mutual Telephone Company, which was later bought out by the Bell System (Krieger and Krieger 1991). In addition, he created the South Central Japanese Agricultural Association and the San Luis Obispo Packing House Exchange to help support the price of farm products and facilitate the flow of goods from the farm to the retail market (Krieger 1991).

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In most areas where the Japanese congregated, a primary school was established to educate the Nisei (U.S.-born children of native Japanese) in their ancestral language and culture. Schools were founded in Arroyo Grande, in Pismo Beach, on Eto's property in Los Osos Valley, and on French Road near the site of the Madonna Inn (Krieger and Krieger 1991). Students were taught the standard public curriculum in the morning and Japanese language and history in the latter part of the day.

By 1940, the Japanese had survived -the anti-Asian legislation of the early twentieth century and become well ingrained in county life. However, following the bombing of Pearl Harbor by the Japanese Imperial Navy and the subsequent outbreak of World War II in the Pacific, sentiment once again turned against Japanese Americans. On February 19, 1942, President Roosevelt signed Executive Order 9066 that led to the incarceration of approximately 120,000 Japanese aliens and citizens from the Pacific states (Ostgaard et al. 2000). The detainees were initially assigned to nearby temporary stations, where they were then transported to one of ten War Relocation Authority relocation centers located throughout the western United States. Although non-Japanese friends and business associates generally protected the interests of families tied to organizations like the POVE and Yamato Colony, many suffered material loss during their interment since few possessions could be carried to the camps. When the war ended, the detainees were allowed to return home.

6.3.2 Japanese Farming on Spooner Ranch The information below is based primarily on the recollections of Mr. Mas Tarioka (2005), interviewed by fE in November 2005. Born in 1928, Mr. Tarioka grew up on his family's farm located within the NRSA and Spooner Ranch.

Sometime in the 1920s, the Spooners began leasing tracts of the coastal terrace to Japanese immigrant farmers. The Tarioka family had emigrated from Japan years earlier.

At the urging of his grandfather, who arrived in the United States around the turn of the century, Tarioka's father crossed the Pacific and landed in California in 1915. After a stint working for the railroad, he took up farming on the Spooner Ranch in the south part of the NRSA. As many as seven families settled along the coast, including the Honda, Yoshida (near Coon Creek), Kuranaga, Nakamura, and Tarioka clans. These were large families, including extended relatives and as many as ten children.

Although he could not remember the size of his father's farm, Tarioka did state that two other families occupied the coastal terrace between the Tarioka homestead and Diablo Canyon, suggesting that each farm encompassed at least 100-200 acres. Bush peas, which could be cultivated without irrigation water, were grown around the Tarioka homestead. When the fields were fallow, the Spooners brought their cattle to drink at the springs near the present-day site of Tom's Pond. Interestingly, a family's crop was not necessarily grown in the fields immediately adjacent to the homestead; Tarioka recalls that his father grew lettuce, artichokes, and tomatoes near the mouth of Diablo Creek, about 1.5 miles down the coast from the family's residence. There, irrigation water was tapped further upstream and channeled to the coastal terrace. Tarioka remembers that the creek was dammed and water was delivered via surface pipe, while Ed Petersen (2005)

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stated that a wood lined ditch extended from the present-day site of the PG&E switchyard to Lions Rock. These differences in description likely reflect changes that occurred to the irrigation system between the 1930s and 1950s. Harvested crops were sold to the Los Angeles market and shipped via the Sakata Trucking firm, located along Los Osos Road (General Directories 1938). The produce was likely packaged in San Luis Obispo or Arroyo Grande before being freighted south.

As a boy at the time, Tarioka was not certain about the specifics of the lease agreement and suspected the land was let out directly from the Spooners. According to Davis-King (1991), "the land was sold and then leased to a Japanese farmer named George Fuganawa", who assisted his countrymen in obtaining the necessary materials and labor.

However, Ed Petersen noted that while Fuganawa was associated with the ranch in the 1960s, he had no knowledge of Fuganawa's involvement prior to WWII. That the Tariokas resided on the property well beyond the three year limit imposed by the alien land laws suggests either that some U.S. citizen served as a middleman between the Spooners and the foreign born farmers or alternatively that the Spooners simply ignored the contractual restrictions imposed by these statutes and leased the land directly to the Japanese.

Tarioka was acquainted with the Japanese school along Coon Creek, but like most of his classmates, the better part of his elementary education occurred outside the Spooner Ranch, at the Sunnyside School near Los Osos. (The Sunnyside school may be the same as the Eto school mentioned by Krieger and Krieger [1991].) He remembers the schoolhouse was a one-room structure and that a small cottage was later added on to house grades 1-3. The school taught English curriculum in the morning and Japanese culture and language in the afternoon. During harvest season, enrollment grew as the children of vegetable pickers attended the school. Tarioka mentioned that for one year (probably 1938) he attended the school along Coon Creek, after the bus that shuttled children between Los Osos and the Spooner Ranch discontinued its service. To his knowledge the school did not have a formal name.

In 1939 the family moved to Arroyo Grande. Along with other families, the Tariokas were relocated to an interment camp during World War II. After spending time in a temporary camp at the Fresno Fairgrounds, the family was sent to Jerome, Arkansas and later to Gila River camp in Arizona, after the former closed in June 1944. Following the war, the family returned to Fresno, where Mr. Tarioka presently resides.

6.3.3 Inventory of Archaeological Resources AE relocated and rerecorded 22 previously identified prehistoric and historical archaeological sites between Coon Creek and Crowbar Canyon. These locations are confidential and thus no maps or other reference material are provided. EFwas unable to relocate one previously recorded site, CA-SLO-1456. This sparse scatter of marine shell with one concentration covered a 25 x 21 meter area "on a subtle hilltop and coastal terrace" about 30 meters east of Pecho Coast Road (Davis-King 1991). A careful examination of the ground surface in the general location did not reveal any remains.

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Additionally, /E did not attempt to examine sites on the north side of Coon Creek or south of Crowbar Canyon, and sites in these areas are not discussed below.

At the north end of the NRSA, two sites with prehistoric and historical remains reflect both Native American occupation and subsequent Japanese farming life during the first half of the twentieth century. CA-SLO-1450/H and -1451/H contain historical remains associated with Japanese families who farmed the coastal terrace under lease to the Spooners, as described above. These two sites contain architectural remnants of as many as eight buildings and other structures, including residences, a schoolhouse, chicken coops, sheds, and other structures. Don Spooner, a descendant of the family who leased the land to the Japanese, indicated in 1991 that the Japanese occupation began around 1920, and that the sites were created by a family named Yoshiba (possibly Yoshida)

(Davis-King and Williams 1992).

Both CA-SLO-1450/H and -1451/H also contain prehistoric shell midden deposits.

Unfortunately, the main drainage bordering the sites is presently choked with very thick growth of willow and other riparian vegetation, making a detailed examination of these sites impossible. However, the westernmost end of the complex is less densely vegetated, and the shell midden and historical features in this area could be examined.

An exposed cutbank at CA-SLO-1451/H revealed a buried midden stratum that is grayish, highly indurated, and likely to be considerably more ancient than the surface deposits. A shell sample from the lower stratum yielded an uncorrected radiocarbon age of 2560 +/- 50 BP (Cal BC 160 to Cal AD 130 @ 2 sigma).

Also at the north end of the NRSA, CA-SLO-1370 and -1467 comprise one large, continuous prehistoric site with variably dense and diffuse shell midden deposits extending from the edge of the coastal bluff upslope to the east for approximately 450 meters. A .stratigraphic profile exposed in the cliff face at the west end of the site revealed two discrete midden strata as much as two meters thick. The upper midden stratum, extending from the surface to up to 100 cm deep, is a dark black, dense shell midden typical of late prehistoric deposits in the region. A shell sample from the base of this deposit yielded an uncorrected radiocarbon age of 3780 :- 60 BP (Cal BC 1670-1360

@ 2 sigma). The lower midden is a grayish, highly indurated deposit that yielded an uncorrected radiocarbon age on shell of 5420 +/- 40 BP (Cal BC 3700-35 10 @ 2 sigma).

Human remains have been identified at CA-SLO-1370. The site also contains a minor historical component consisting of trash and agricultural waste dumped into a "blowhole" at the western end of the site.

Moving south there are a series of small shell scatters along the coastal bluff. Most of these are very sparse, non-midden deposits with few constituents other than shell fragments. These may be remnants of once-larger sites that have eroded into the sea.

Although none of the sites were tested, it is unlikely that they have deeply buried components. The exceptions are CA-SLO-1466, a rock shelter with a dense midden at least 50 cm deep as indicated by rodent burrows; and CA-SLO-1459, which has a moderately developed midden and possibly some depth of deposit.

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The site CA-SLO-1457/H is densely covered with ice plant and other vegetation.

Prehistoric archaeological remains were visible primarily along the edges of the bluff, where vegetation is thinner, and the shell density in these areas was less than was noted by Davis-King (1991). However, more varied and intense cultural deposits may be preserved in the central areas beneath the vegetation. The concrete pads and other historical features at the site also had become completely buried by residual soils and vegetation; probing and minor trowel excavation was needed to confirm their locations.

Only two sites in the areas discussed above are not located along the coastal bluff. CA-SLO-1454/H is a sparse deposit of historical debris on a low mound. CA-SLO-1 198H is also a deposit of twentieth century debris. At present, neither site can be definitively associated with particular events or individuals, although both are likely to be thematically 'linked to ranching and agriculture.

The coastal terrace widens at the southern end of the NRSA, and two major site complexes plus several smaller sites are found. A substantial complex of prehistoric and historical remains was recorded as CA-SLO-1366/H. The prehistoric site contains two deep midden mounds with substantial deposits of shell and bone dietary debris and numerous stone tools. The site also contains a bedrock milling station with at least three mortars. This site is likely to contain human remains, and may be the local Chumash village noted by Spanish explorers (T. Jones pers. comm. 2005). The historical component at CA-SLO- 1366/H includes an earth and masonry dam, pond, remnants of a water tank and platform, and artifacts associated with agriculture and settlement. The historical features and remains are linked to ranching, agriculture, and settlement themes, and may be related to the Japanese agricultural settlements of the early to mid-twentieth century.

The remnants of the Tarioka Farm were recorded as CA-SLO- 1197/H. The Tarioka family emigrated from Japan near the beginning of the twentieth century and began leasing land on Spooner Ranch in the 1920s. Mas Tarioka, who currently lives in Fresno, was born at the site in 1928 and lived there with his family until 1939, when they moved to Arroyo Grande. The Tarioka Site contains the remains of a house and barn, agricultural equipment, and a broad scatter of agricultural, residential, and domestic artifacts. A discrete, localized concentration of shell debris may reflect a prehistoric component of the site.

Two prehistoric shell middens lie south of the Tarioka Site. CA-SLO-6 appears to be a moderately dense shell midden, but the site is densely covered with ice plant and other vegetation, completely obscuring the surface except at the edge of the bluff and one or two other isolated locations. CA-SLO-5 lies just beyond the southern boundary of the NRSA but was revisited at the Company's request because of its proximity. CA-SLO-5 is larger and more complex than CA-SLO-6, with a principal midden mound, surrounding lithic scatter, bedrock milling stations, and other features. The nature and complexity of this site suggest that it, too, might harbor human remains.

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Finally, CA-SLO-1464 is a very sparse lithic scatter. Davis-King (1991) collected a stemmed chert projectile point from the site in 1991; a few questionable chert flakes are the only cultural materials remaining.

6.4 Discussion Documents containing information on cultural resources have been identified from the PEB and briefly discussed above. Because of the confidentiality of archaeological site locations, cultural resource reports are not included in the baseline data. These reports were made available to the archaeological member of the DTF, Dr. Terry Jones of Cal Poly. Comments received by the DTF concerning this portion of the baseline were focused on updating the site records, utilizing GPS to both incorporate the confidential layer into the mobile GIS platform, and to conduct historic research for context in better understanding the nature of the historic sites and features. A request to provide a permanent datum for each of the archaeological sites was withdrawn by the DTF after discussions. The sub-meter accuracy GPS data gathered in 2005 will allow relocating of these sites for monitoring purposes without use of permanent survey monuments.

PG&E's concern was that monuments might disclose the location of sites to unauthorized individuals.

Prior to recent work on the NRSA, complete archaeological examination of the area had been performed in 1990 and 1991. While the previous studies were performed to then current professional standards, mapping of the sites was inaccurate due to the problems of the USGS maps available for the area. As indicated in section 6.3.3 above, the archaeological sites were revisited in the fall of 2005 and site locations were entered into the mobile GIS platform based on recent sub-meter GPS data. Historical background research for the area was undertaken so as to provide a better context for assessing the importance of the historic sites found in the area.

PG&E believes that this portion of the baseline is complete and adequately supports trail planning as well as development of a plan for access monitoring.

7.0 Sustainable Agriculture Special Condition 3 of the Coastal Development Permit speaks of the need to assure "compatible multiple public benefits" including sustainable agriculture, during the development and implementation of a plan of public access. This section has been included to provide baseline information on the present day agricultural practices within the NRSA. Some historical data is also included here, to provide a long-term historical context for agricultural land use in this part of San Luis Obispo County.

Where applicable throughout this section, the reader is referred (for additional information) to specific source documents contained in the PEB, submitted to the CCC and the DTF by PG&E in March 2005.

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7.1 Historical Context Euro-American settlement in San Luis Obispo County began with the founding of Mission San Luis Obispo de Tolosa in 1772. By the late 1770s the California mission system had become self-sufficient in terms of food production growing wheat, corn, beans, barley and a variety of livestock.

In the period following its independence from Spain (1821-1848), Mexico expanded trade with Americans and other foreigners, directly contributing to the migration and eventual permanent presence of Anglo-Americans in California.

Secularization of the missions (1834) led to the redistribution of mission estate lands to private citizens. The economic void created was quickly filled by the emergence of the ranchos, huge parcels totaling many thousands of acres often supporting expansive herds of free-ranging cattle and horses. One such "land grant" rancho was the Cahiada De Los Osos y Pecho y Islay. Totaling 32,431 acres, this rancho was comprised of two smaller properties that became consolidated into a single holding in 1845, and included those lands within our NRSA.

The gently sloping coastal terrace of the Pecho y Islay Rancho (or Pecho Ranch) was likely first used as pasture land. Although the eastern boundary of the ranch lay only 10-12 miles from the town of San Luis Obispo, the property was geographically isolated from the interior valleys by a steeply rising complex of coastal hills (the Irish Hills). This region was then and has remained largely undeveloped.

In 1892, Alden Bradford Spooner, Jr. leased the northern portion of the Pecho Ranch; a 6,500-acre swath extending from just north of Islay Creek to Diablo Creek, including the entire NRSA (Morrison and Haydon 1917:287-289). Along with livestock, agriculture was part of the Spooner's ranch economy from the beginning. Crops were grown primarily on the coastal terrace, while livestock grazed further inland. In its first year of production, the ranch loaded 2,500 sacks of beans and barley onto a steamer docked at Spooner's Cove; the amount represented only half of the cargo ready for shipment, since the freighter could not accommodate the entire harvest (San Luis Obispo Tribune 1892).

In 1902 Spooner shipped from the wharf at Cayucos over 4,800 sacks of small white beans harvested the previous year (Tognazzini 2002:122). That same year he purchased the ranch from Henry Cowell (Morrison and Haydon 1917:288).

During the 1920s and 1930s, much of the coastal terrace, including the NRSA, was leased to Japanese farmers. To some extent, the Japanese farmers were insulated from the depressed prices of the country's traditional staples, since they grew then exotic crops like bush peas, brussel sprouts, and artichokes. The impact of Asian farmers on the county's agricultural economy was considerable. By 1938, the market value of vegetable crops (led by peas, lettuce, and tomatoes) totaled just over $2.8 million, surpassing the

$2.2 million combined figure for wheat, barley, and beans (General Directories 1938:37).

The Japanese continued to farm the land until 1942, when they were involuntarily relocated to interment camps established during World War II under Executive Order 9066.

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In 1942 Oscar Field acquired the Spooner Ranch. Sometime in the 1940s, he constructed a small dam and pump house on lower Coon Creek, approximately 0.4 miles upstream of its confluence with the Pacific Ocean (Figure 7.1-1). Irrigation water was piped from here to agricultural fields located along the flood plane of the stream and the adjacent marine terrace for production of vegetable crops (Petersen 2005). In 1954 he sold the northern half of the ranch (north of the NRSA) to Irene McAllister. In 1965, following financial troubles, the land passed into federal. receivership and became part of the Montafia de Oro State Park (Miossi 1973). No crop agriculture or grazing has occurred on these state lands since.

Figure 7.1-2 shows agricultural fields as they appeared along Coon Creek (circa 1970's),

contrasted with their present-day appearance following two-decades or more of "old field succession" that ensued after abandonment of row crop agriculture here.

Farming continued for a time within the NRSA, south of Montafia de Oro State Park, but was abandoned here too in the 1980s, coincidental with a period of prolonged state-wide drought (1984 - 1991). Grazing paddocks in the northern end of the NRSA between Coon Creek and Disney Point still bare the name, "Pea Fields." It was at this time (1985) that PG&E purchased the remaining Field Ranch property, incorporating these lands into the security buffer that today surrounds the DCPP. From this period to the present, grazing has been the only agricultural practice on PG&E property north of the power plant.

7.2 Land Stewardship and Best Management Practices PG&E implemented a formal program of Land Stewardship on its fee-title lands surrounding DCPP in 1990, by creating the LSC. A detailed discussion of this program is included in the preliminary baseline, Vol. 2: Folder 7; PG&E 1993. The Stewardship Program is grounded on Best Management Practices (BMPs) developed for each of eight resource or land use categories. The BMPs established in 1993 to guide grazing management have not been further modified and remain relevant to the present (see below).

One of the first projects undertaken by the LSC addressed grazing management on the North Ranch. A general rangeland assessment was conducted in 1990, a copy of which is found in the PEB (Vol. 1: Folder 3; Fry 1990). The assessment showed much of the terrace rangeland on the North Ranch grazed beyond appropriate levels due to below normal forage production (nearing the end of a seven-year drought) and failure to adjust stocking levels to compensate. Recommendations included development of a grazing management strategy that could better balance stocking and available forage, while protecting sensitive resource areas. A successful solution was found using high intensity, short duration grazing management (HISD), a decision that would lead to a fundamental change of direction in resource management on the North Ranch.

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Figure 7.1-1. Historic pump house built in the 1940s, located on Coon Creek within the NRSA.

North Ranch Project Draft Comprehensive Baseline Inventory.

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Figure 7.1-2. Old field succession along Coon Creek following end of crop agriculture in the late 1970s.

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7.3 Ranch Operations 7.3.1 Grazing Management HISD grazing, sometimes called holistic grazing (Savory 1988), or high intensity - low frequency grazing (Heitschmidt and Stuth 1991) has been in use on the North Ranch continuously since 1991. HISD grazing attempts to more closely mimic the grazing behavior exhibited by wild free ranging ungulate populations (e.g., bison, antelope, etc.).

Wild herds tend to remain bunched for protection from predators, while continuously moving across seasonal ranges following traditional movement corridors. HISD grazing places an entire herd of livestock together in one relatively small paddock for a short period of time (typically a few days) before the herd is moved to the next paddock, allowing the first paddock to rest. Because of the high number of paddocks involved each receives significant rest between grazing episodes. This results in more uniform forage use while improving growth and reproduction of native perennial grass species.

On the North Ranch other advantages, including reduced veterinary costs, elimination of supplemental feeding, and lower bull costs have also been attributed to this change in grazing management.

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Studies comparing various grazing management strategies have tended to show lower per unit or per area production values with HISD compared to continuous grazing (Heitschmidt and Taylor (in) Heitschmidt and Stuth 1991). However, one clear advantage of this system as shown by the North Ranch experience is a level of animal control that virtually eliminates common environmental impacts associated with more traditional grazing systems. Over use of native perennial grasses, impacts to riparian zone vegetation and aquatic habitats, water quality impacts, declining biodiversity, increase in non-native species, and accelerated erosion are examples of common grazing-related resource management concerns.

The success of the North Ranch grazing program received national recognition in 1999, when the National Cattlemen's Beef Association presented its 9 th annual Region 6 Environmental Stewardship Award to the Blanchards for outstanding achievement in the area of environmental stewardship.

7.3.2 Management Infrastructure Transitioning to HISD grazing required an investment in new infrastructure (fencing and water systems) that PG&E helped bring about. This was necessary because of the need to begin rotating livestock through a larger number of smaller paddocks to achieve more uniform forage use and eliminate areas of over use.

In 1978, under management more like continuous grazing, the NRSA on the North Ranch contained just four paddocks defined by conventional barbed wire and steel post fencing (PEB Vol. 1: Folder 3; Stechman 1978, pg. 15). By 1991, under HISD grazing, this same area had been reconfigured with 16 paddocks defined by smooth-wire electric fence, and an expanded livestock water system with additional distributed tank storage, and new water distribution lines and troughs supplying each new paddock (Figure 7.3-1).

At this time too, the grazing lessee voluntarily implemented changes in the maintenance of secondary roads throughout the property to reduce soil erosion. These roads are no longer graded and are allowed to support grass cover that is either grazed or mowed to reduce the risk of ignition from vehicles. Also, the amount of vehicle use has been reduced to further encourage natural revegetation of road surfaces.

Over time, a working partnership has evolved among the North Ranch, the LSC at Diablo Canyon, and other local and community stakeholders. The result has been the emergence of a resource management program that incorporates goals beyond maximizing livestock production, and embodies a land ethic that acknowledges the role of grazing in biodiversity conservation, protection of sensitive species and habitats, and restoration of native grasslands.

7.3.3 Livestock Over the past 15 years, the North Ranch has been primarily a cow-calf operation. This means that a production herd is maintained on the property year-round, and the annual calf crop is sold after weaning. The PEB (Vol. 1: Folder 3; Fry 1991) summarizes the numbers of livestock on the North Ranch annually from 1978 through 1991. Two North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 128 July 27, 2006

Figure 7.3-1. Current paddock configuration and location of watering points on the NRSA.

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quantitative assessments of grazing capacity have been conducted on the North Ranch to guide management decisions and administrative policy. Reports of these assessments were included in the PEB (Vol. 1: Folder 3; Stechman 1978 and Fry 1991). There was very close agreement between the two studies regarding a maximum grazing capacity of from 120 to 130 animal unit months (AUMs) on the North Ranch.

Since 1991, the North Ranch has tended to keep stocking at low to moderate levels as reflected in annual monitoring surveys, and beginning about 2000, the Ranch began "experimenting" with multiple species of livestock (cattle, goats, and sheep). Differences in forage use and feeding behavior exhibited by mixed species of livestock have long been recognized as creating additional management options (Stoddart and Smith 1955).

In this context, management refers to the measured and controlled use of animal impact (disturbance) to achieve specific management goals. In addition to the grazing BMPs identified earlier, these goals include sustaining the productivity of natural plant communities and the benefits of important ecological processes (e.g., energy flow, nutrient cycling, water cycle, and soil building processes) to benefit rangeland health (National Research Council 1994). The LSC has encouraged the North Ranch to explore grazing management alternatives that are consistent with established grazing BMPs.

PG&E's annual program of wildland fuels management, a cooperative undertaking involving the California Department of Forestry and Fire Protection, also utilizes mixed-species grazing to reduce fuel volume in high risk areas near power plant facilities. Over the last ten-years, this program has become increasingly integrated into the operation of the North Ranch (Figure 7.3-2).

7.4 Annual Monitoring (Stock flow, photostations, and RDM)

Since 1991, grazing has been monitored annually in three ways; 1) stock flow records kept by the rancher document numbers of animals and time spent in each paddock throughout the year, 2) photo monitoring from permanent stations established throughout the property is conducted twice annually (spring and fall) by the LSC (see Vol. 1: Folder 3; PG&E 2005photo), and 3) quantitative measurement of residual dry matter (RDM) is performed by the LSC annually in the late fall, before the first soaking rains (see Vol. 1:

Folder 3; PG&E 2005).

Figure 7.4-1 illustrates the location of recent RDM sample sites and permanent photo monitoring stations.

7.5 Resource Management Initiatives on the North Ranch 7.5.1 Public Outreach Involvement with the local community is another aspect of the North Ranch operation, encouraging education and research opportunities. Examples include the hosting of Cal Poly range management student field trips to the ranch, field outings for the Women's Farm Bureau, Five Nations Beef Tour, and California Agriculture Education Foundation.

These activities are typically arranged and hosted by the Blanchards and coordinated through the LSC and PG&E's security department at Diablo Canyon.The LSC routinely processes requests for access to the North Ranch for various purposes including research.

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Managed access was a recognized element of the Stewardship program from its inception as reflected in BMPs developed for the program (see preliminary baseline, Vol.. 2: Folder 7; PG&E 1993, pg. 39).

Currently, two State University proposals are being considered that request use of the North Ranch for long-term research projects. One of these will examine the effects of HISD grazing on wildlife populations. The other will use the long-protected Pecho coast marine intertidal resources and their associated long-term scientific baseline to help plan the management of these resources in recently acquired State Park properties elsewhere in the Central Coast region.

Figure 7.3-2. Goats used in wildland fuels management near the DCPP are temporarily pastured on the North Ranch during kidding season to reduce losses from predators. Guard dogs protect the flock (center left).

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Figure 7.4-1. Location of RDM sample sites and photo monitoring stations within the NRSA.

A RDM sample site D Photo Monitoring

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7.5.2 Cultural Resource Protection As discussed in Section 6.0, the NRSA is rich with Native American sites and artifacts, some dating back as far as 9,000 years or more. The Land Stewardship Program BMPs are clear regarding the need to periodically review land use practices with potential to affect cultural resources and ensure their protection (see PEB, Vol. 2: Folder 7; PG&E 1993, pg. 33).

The 2005 field surveys remapped known cultural sites on the NRSA and documented several new sites. Also identified during these surveys were areas of significant ground disturbance caused by cattle, in or near cultural sites. Three impacted sites, two within the NRSA and one located south of Crowbar Peak, are currently under review by the LSC; plans will be developed in consultation with the North Ranch for reducing animal impacts at these sites.

7.5.3 Native Grass Restoration Prior to the Spanish colonial period, California's grasslands. were characterized predominantly by several species of native perennial bunch grasses. Ornduff et al. (2003 rev.) state that the introduction to California of large herds of cattle by the Spanish, was accompanied by importation of Mediterranean annual grasses. Today, 99 percent of all California grasslands are covered by non-native annual grasses.

Of those native grasses identified by Crampton (1974) from the central and south coast region and central valley of California, several species are today still found on the North Ranch. These include purple needle grass (Nessella pulchra), California brome (Bromus carinatus), blue wildrye (Elymus glaucus), small flowered melic (Melica imperfecta),

meadow barley (Hordeum brachiantherum), and giant wildrye (Elymus condensatus).

Additional information on grasslands of-the NRSA is found in the PEB, Vol.: 2; Folder 5, BioSystems 1995, pgs. 40 - 44.

As discussed earlier (see section 3.1) descriptions of "Coastal Prairie" grasslands occurring within the NRSA (BioSystems 1995; PG&E 2001) were found to be unsupported based on the results of field surveys performed in 2005. It now appears more likely that the NRSA represents part of a geographical transition zone between plant associations with predominantly northern affinities and those with predominantly southern affinities.

Still, interest in native grass restoration has grown in recent years through the efforts of groups like the California Native Grass Society and the Central Coast Grazing Coalition.

The North Ranch managed grazing program has provided conditions favorable for the growth and reproduction of perennial grasses. Study plots established in 2005 at five locations on the ranch will allow measurement of the trend in~perennial grass populations here over time (Figure 7.5-1).

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 133 July 27, 2006

7.6 Discussion Source information from the PEB pertaining to managed grazing has been identified here and briefly discussed. The monitoring protocols followed by the LSC within the NRSA annually for the past 15 years have also been discussed and illustrated with maps and figures.

The principal issues raised by the DTF in their review of this portion of the preliminary baseline dealt with assuring that managed grazing and native perennial grass restoration efforts would not be adversely impacted by or modified to accommodate public access.

Other issues focused on whether the public could be protected from accidents and injury resulting from livestock or guard dog interactions and contact with electrified fencing.

The existing ranch infrastructure has been identified and illustrated, as well as the operational dynamics of HISD grazing. These data will help the trail planning process minimize conflicts between livestock and people.

Results of 2005 botanical studies showed native bunch grasses currently occupy too small a percentage of the coastal terrace grasslands to be effectively mapped. Several small study plots have been created and mapped to further assess the condition and growth trend of these plants. Within these plots, perennial grasses were counted to determine density per unit area. Some counts were made along linear belt transects and other plots received total area counts. Once a final route plan is developed for access, additional plots may be established to assess the specific impacts of access on these species.

PG&E believes that this portion of the baseline is complete and adequately supports trail planning as well as development of a plan for access monitoring.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 134 July 27, 2006

Figure 7.5-1. Location of 4 of 5 perennial grass study plots established on the NRSA in 2005.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 135 July 27, 2006

8.0 Geology and Soils The primary importance of geology and soils information as a component of the environmental baseline is to inform planning and monitoring functions regarding the potential for erosion issues. Erosion (coastal bluff erosion or sheet erosion across the marine terrace) could affect human safety as well as natural and cultural resource values in the NRSA. A secondary interpretive value is recognized, providing information on the geologic origin of coastal rock formations and landforms for the enjoyment of the public.

The PEB contains several references relevant to this theme, each containing data specific to the NRSA (Vol. 2: Folder 6; Erickson 1990, PG&E 1991, Schwalbach 1992. Vol. 2:

Folder 7; Dames and Moore 1975, Belknap 2003).

A topographic map of the NRSA with hill shading is presented in Figure 8.0-1. From this map it is apparent that the NRSA slopes gently from east to west except for the general vicinity of Windy Point where the slope increases considerably and the width of the marine terrace narrows. A color map of the soils found in the NRSA, based on the work of Ernstrom (1984), Department of Agriculture, Soil Conservation Service (now the Natural Resources Conservation Service), is provided in Figure 8.0-2.

Immediately east of the NRSA in the Irish Hills, the predominant soil type is the Lopez very shaly clay loam, on slopes of 30 to 75 percent. This soil formed in residual material weathered from hard shale.

In contrast, there are two predominant soils within the NRSA Santa Lucia very shaly clay loam, and Still gravely sandy clay loam. These soils typically lie on slopes of 5 to 9 percent, but locally (e.g., Windy Point area) may increase to from 30 to 50 percent. They formed in residual material weathered from sandstone or shale and within the NRSA are associated with Monterey formation.

The Monterey formation leads to the development of loose, very coarse-textured soils of low to moderate fertility and water-holding capacity. With the exception of a narrow band of coastal bluff scrub vegetation and occasional intrusions of coastal sage scrub (e.g., Windy Point and Big Slide) these soils are predominantly occupied by grassland vegetation. The stratigraphy of the Monterey formation has been described in detail from field studies conducted at Point Buchon, located within the NRSA on the coast south of Coon Creek (Vol. 2: Folder 6; Schwalbach 1992).

No ultramafic rocks (e.g., serpentine) are found within the NRSA (Kruckeberg 1984).

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 136 July 27, 2006

Figure 8.0-1. Topographic features of the NRSA.

PG&E Baseline Inventory North Ranch Draft Comprehensive Project Draft Ranch Project Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13. 137 July 27, 2006

Figure 8.0-2. Soils of the NRSA.

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a Ii t 8lIt. 19 L

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 138 July 27, 2006

8.1 Coastal Bluff Caves As one aspect of the continuous process of coastal bluff erosion, coastal bluff caves (sea caves) can lead to sudden collapse, as occurred recently near the mouth of Coon Creek.

A large sea cave occurs near Coon Creek and penetrates horizontally deep into the coastal bluff. The top of the cave suddenly collapsed, resulting in a sink-hole on the coastal terrace that was approximately 70 feet by 50 feet in size. The large hole drops vertically into the sea cave that is still open to the ocean. Also, an arch rock near Disney Point that was crossed to access a RWMP intertidal station collapsed, preventing further access to sample that station (see Section 5.1.3). Consequently, a coastal bluff trail routed over an arch rock or near a sea cave could be a potentially dangerous area of the trail.

To acquire more complete information on sea caves in the NRSA, PG&E performed additional photogrametric and field studies of seas caves in 2005 (Figure 8.1-1). Sea caves were considered to be any, indentation in the face of the bluff or headland, sufficiently large for a person to fit inside. Sea caves included such features as arch rocks, formed by wave action cutting completely through a headland. Except for the mapping of coastal bluff caves, no other field studies pertaining to geology and soil stability in the NRSA were performed in 2005.

8.1.1 Methods Oblique aerial photographs of the NRSA coast were used to map the locations of sea caves. The mapping could not be done in the field because much of the NRSA shoreline cannot be accessed, due to steep shore cliffs that drop vertically into the water. Also, the intertidal zone in many areas is narrow such that one cannot walk along the shore for long distances. Therefore, the only practical means to identify and map sea caves was through the use of oblique aerial photographs of the shore taken at a downward angle from over the ocean. A series of such photographs for the NRSA coastline taken in October of 2004 was available in the public domain at www.Californiacoastline.org.

Using these recent photographs, GIS technicians carefully digitized each cave structure within the NRSA to create a map of sea caves along the NRSA coast. These data were then incorporated into the project's mobile GIS platform to facilitate future directed studies and monitoring of cave structures that may have potential to affect trail use (Figure 8.1-2).

The dimensions of sea caves (height, width, depth, and distance from the top of the cave to the top of the bluff) were not cataloged because they could not be safely accessed for this purpose.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 139 July 27, 2006

Figure 8.1-1. 2005 map of coastal bluff caves throughout the NRSA.

Pacific Gas & Electric Co.

Diablo Canyon Power Plant North Ranch Managed Access Study Coastal Caves Figure 8.1-1 DRAFT NOJ, R~r~e~

~dyA~e~ B~,y

.?3&E.~op. B~n~y North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 140 July 27, 2006

Figure 8.1-2. Mobile GIS platform coverage of coastal bluff caves mapped in 2005.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 141 July 27, 2006

Transferring the locations of the sea caves in the photos to a base map was done manually by 'eye'. The photographs were first visually inspected for sea caves, and then the cave locations were transfered to the base map using visual reference points in the photos and base map imagery to guide manual positioning.

8.1.2 Results Seventy-six sea caves were identified along the NRSA coast (see Figure 8.1-1), this included arch rocks. Some sea caves were likely not included in this survey, because they were not revealed in the photos, due to being on hidden sides of headlands.

There were more sea caves along the northern versus southern half of the NRSA coast.

Although cave dimensions were not cataloged, sea caves were taller, wider, and deeper along the northern versus, southern half of the NRSA. Also, all arch rocks were along the northern half of the NRSA, mainly at Point Buchon and Disney Point (Figure 8.1-3).

The photogrametric and field surveys documented many sea caves, with the majority distributed along the bluffs north of Windy Point. Harder, more resistant rocks in this portion of the NRSA likely explain this distribution pattern. Sea caves are largely absent in the southern half of the NRSA. This is because the sea cliffs are composed mainly of softer, unconsolidated sediments (Figure 8.1-4). Also, the bottom of the cliff in many of these areas is relatively high in elevation making the cliff base less exposed to wave erosion, compared to the northern section of coast line.

8.2 Coastal Bluff Erosion and Surficial Geologic Features There is not sufficient existing information (local maps and photos) from which to document historic coastal bluff retreat in the NRSA. More modern technologies such as Light Detection and Ranging (LIDAR) are capable of the resolution (centimeter accuracy) necessary to show rates of coastal bluff erosion typical of the NRSA coast.

However, readily available LIDAR coverage is far less accurate (one-meter accuracy).

Ground-based photography from permanently established sites chosen after a final trail route is selected will help manage trail safety while providing a baseline suitable for on-going monitoring studies. Surficial geologic features have been mapped throughout the NRSA (1970 source data) and incorporated into the mobile GIS platform (Figure 8.2-1).

These data may be useful to the process of trail planning and monitoring, and also provide information of interest to the public.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document-No. 001.3.06.13 142 July 27, 2006

Figure 8.1-3. Sea caves and arch rocks along the northern portion of the NRSA (north of Windy Point).

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 143 July 27, 2006

Figure 8.1-4. Soft sediment shore cliff along the southern section of the NRSA, south of Barn Road.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 144 July 27, 2006

Figure 8.2-1. Surficial geologic features of the NRSA.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 145 July 27, 2006

8.3 Stewardship BMPs Related to Soils PG&E implemented a formal program of Land Stewardship on its fee-title lands surrounding DCPP in 1990, by creating a LSC. A detailed discussion of this program is included in the PEB, Vol. 2: Folder 7; PG&E 1993. The Stewardship Program is grounded on Best Management Practices (BMPs) developed for each of eight resource or land use categories. The BMPs established in 1993 to guide protection of soils are presented in Figure 8.3-1.

PG&E performed broad field surveys directed at identifying erosion problems on the Diablo lands, including the NRSA, in the early 1990s. Reports of these surveys were included in the PEB, Vol. 2: Folder 6; Erickson 1990, PG&E 1991; and Vol. 1: Folder 3; Fry 1990.

The most significant erosion issue identified is the feature locally known as Big Wash (Figure 8.3-2). This hill slope erosion feature involves steep topography and shaly soils where gullies formed more than one-half century ago, depositing materials down slope and onto the adjacent coastal terrace. Big Wash is described in detail in PG&E (1991),

where it is identified also as Site 22. The following text taken from the 1991 report addresses the effect of Site 22 on areas west of the main ranch road (NRSA):

No erosion has occurred along the dirt access roads in the vicinity, except near the bottom of the hill, although no roadside drainage dftches or culverts are provided No erosion problems occur on the west side of the North Access Road, other than siltation.

No other signi !cant erosion occurs along the road between the emplacement and DCPP. Other areas appear heavily grazed, and have considerably less vegetation than at the former shore battery emplacement site, At the present time (15 years later), the gentle slope and extremely well drained soils of the terrace still appear to act as a buffer or "trap" preventing sedimentation from reaching sensitive marine intertidal habitats beyond the coastal bluff. Photo monitoring by the LSC over the last 15 years reveals no significant change in the appearance of this area.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 146 July 27, 2006

Figure 8.3-1. Best Management Practices (BMPs) established in 1993 to guide protection of soils.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 147 July 27, 2006

Figure 8.3-2. View of Big Wash taken from mobile GIS platform (2003 imagery) showing gully formation, also colluvial deposits on the terrace west of Pecho Valley Road.

North Ranch Project Draft Comprehensive Baseline Inventory PG&E Document No. 001.3.06.13 148 July 27, 2006

8.4 Discussion The PEB contained no maps of sea caves along the NRSA coast for use in bluff trail planning. Callapse of sea caves and arch rocks has occurred along this coast in the past (see Figure 8.1-3). The DTF specifically requested that this information be included in the CBI. PG&E believes that adequate information is now available to reduce risk of trail accidents and reduce the likelihood that the trail will need to be relocated as a result of an unforeseen bluff-wasting event.

Documents containing information on the geology and soils of the NRSA have been identified from the PEB and briefly discussed here. Comments received by the DTF concerning this portion of the baseline were focused at the issue of establishing a baseline for determining rate of coastal bluff erosion. This issue was addressed through discussions between PG&E's project team and the CCC staff, supported by PG&E's Geosciences department. As discussed earlier, there is not sufficient existing information (local maps and photos) from which to document historic coastal bluff retreat in the NRSA, and the cost of developing this data using modem LIDAR technology with suitable (centimeter) accuracy is clearly beyond the scope envisioned by the CCC for this effort. PG&E proposed instead to rely on ground-based photography from permanently established sites chosen after a final trail route is selected to monitor trail safety and inform the process of adaptive management of the access program. In addition, surficial geologic features have been incorporated into the mobile GIS platform to further inform trail planning and monitoring tasks.

PG&E and the CCC staff reached agreement on the adequacy of the geology and soils baseline as documented in electronic correspondence dated March 5 and March 8, 2006.

Other comments received from the DTF addressed the accuracy of soils mapping based on the 1984 soil survey of the county's coastal region. This issue was resolved in discussions between PG&E and DTF member, Brent Hallock (documented in electronic correspondence dated March 2 and March 16, 2006). PG&E in cooperation with Cal Poly will perform a field check of soil types associated with the trail route once the route plan has been developed. This will ensure that soil characteristics along the planned trail route are not misinterpreted based on any lack of precision that may exist in the 1984 map coverage.

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Benech, S.V. 1996. Observations of the Sea Otter (Enhydra lutris) Population between Point Buchon and Rattlesnake Creek, January through December 1995. Unpublished report. 59pp.

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Appendices Appendix A DTF Comment Log

Item Comment CCC PGE Survey no. Results? Current Status 1 ED to confirm DTF Feedback; contact rpt on yes A new beta test version GIS platform designed for annual monitoring of PGE to ensure coordination Terry Jone coord. cultural resources is complete and has been successfully field tested.

with Native American It presently contains the 1991 survey data. A contractor, Applied Earth community representatives. Works, completed historical site research and field mapping studies in October, 2005. New submeter mapping was accomplished of all known sites on the North Property. The new layer will be added to, not replace, the original baseline data from 1991. Additional ethnographic studies will be performed in 2006. PG&E's cultural resources specialist, Glenn Caruso discussed these measures with Terry Jones during the week of Sept. 12, 2005 and Dr. Jones expressed his general satisfaction. Dr. Jones also visited the property with Mr.

Caruso and the consultants during the field mapping effort in October.

PG&E has completed a summary table of cultural resource survey work performed in 2005. Native American consultation was initiated January 6, 2006. Some responses have been received.

2 ok 3 ok 4 ok; PGE to pursue LIDAR if coord. Lidar; rpt in yes PG&E will investigate the use of LIDAR technology applied to feasible(in coord. With Mark W.r.t. Lidar 2006 monitoring of coastal bluff retreat during development of the access Johnsson; monitoring plan.

5 ok; further specific seacave yes This work was performed in September, 2005. Sea cave locations mapping to'be done if, were identified from recent oblique aerial photos and were digitized necessary trail planning phase (georeferenced) to create an additional shapefile layer for use in constraints mapping. If the position of any sea caves are seen as having potential safety implications for the public, as judged by review of a specific access routing plan, further investigation of specific sea caves may be warranted. Larry Womack discussed PG&E's proposed approach with Mark Johnson on Sept. 15, 2005 in Eureka, California.

Mark indicated that the plan was acceptable.

6 ok yes 7 ok 8 ok

9 ok 10 ok 11 ok 12 ok 13 ok 14 ok 15 ok with understanding that Stems from Blanchard comment re: fragile soils. No bare ground there will be a "land baseline exists currently. It has been suggested that once a route is conditions" baseline for, determined additional baseline assessment may be warranted.

monitoring erosion Development of this baseline can be accomplished with existing mobile GIS platform.

16 ok 17 ok 18 ok, with understanding that Stems from Eliason comment re: protect pond and stream from trail land condition may be a - erosion. PG&E has no intention of allowing access to impact wetland constraint for purposes of trail areas. PG&E considers this issue to be of high importance as does siting/construction the Regional Water Quality Control Board. Every effort will be made during development of the access plan to reduce the potential for access-related erosion. Development of the monitoring plan will also

______ emphasize detection/prevention of erosion issues.

19 ok 20 ok 21 ED toconfirm DTF Feedback; Contact Report yes Stems from Eliason comment re: need to update preliminary baseline awiting study results DTF due to dated information on sensitive species. PG&E has no intention of allowing public access to impact sensitive species or habitats. DTF member, Julie Eliason, visited the NRSA on August 11 and met with consulting botanist, John Stebbins to discuss preliminary findings of the botanical surveys. Ms Eliason visited the NRSA again on October 6 and met with wildlife and marine biology consultants to review their study results and field methodologies. On these occasions Ms Eliason expressed her general satisfaction with the scope and approach taken

_in this work.

22 a:waiting study' resu1ts Report yes Stems from Eliason comment re: Protection of vernal pool habitat. No vernal pool habitat was found to occur in the NRSA. This was independently confirmed by both John Stebbins and by Dr. Christopher Rogers. DTF member, Julie Eliason, visited the NRSA on August 11 and October 6. The first field trip included consulting botanist, John Stebbins and its purpose was to discuss preliminary findings of the botanical surveys and review field methodologies. Ms Eliason commented that in her opinion the studies were comprehensive and complete.

23 awaiting study results Report yes Stems from Eliason comment re: Protection of sensitive plant, Edna manzanita. Edna manzanita does not occur in the NRSA. See also response to item 22 above.

24 awaiting study resu'lts" Report yes Stems from Eliason comment re: concern over invasive plants increasing as a result of access. PG&E has mapped noxious weed populations within the NRSA to provide a baseline for purposes of monitoring effects of public access. See also response to item 22 above.

25 awaiting study resulits' Report yes Stems from Eliason comment re: concern over direct impacts to sensitive plant communities from construction and maintenance of a trail. PG&E has mapped these areas. Our goal will be to reduce to the

.- greatest extent possible, direct impacts from construction and

.. - maintenance activities on botanical resources of the NRSA. See also responses to items 22 and 18 above.

26 iawaitihg study results Report yes Stems from Eliason comment re: protection of Coulter's saltbush.

Field studies failed to identify Coulter's saltbush within the NRSA.

Three other Atriplex species were found (2 native; 1 non-native) distributed broadly throughout the coastal bluff scrub community. The possibility exists that the reported location of Coulter's saltbush resulted from a misidentification. See also response to item 22 above.

27 awaiting study results Report yes Stems from Eliason comment re: Protection of sensitive plant, Edna manzanita. Edna manzanita does not occur in the NRSA. See also

_response to item 23 above.

28 6k, comment:the adaptive yes Stems from Eliason comment re: prevention of noxious weeds. Of the management plan prepared 34 candidate noxious weed species identified as potentially occurring and approved bythe E.D., within the NRSA, 12 were present. All were represented by few, should include management relatively small occurrences. Each has been mapped and some have measures" including already received control treatments. See also response to item 22 potentially pest/weed control above. Control of noxious weeds is an on-going responsibility of the methods; need to Land Stewardship Committee and part of our Best Management integrate/leverage work of Practices since 1993.

land stewardship committee into management plan effort 29 awaiting study results; need to Contact Report yes Stems from Eliason comment re: routing of access to avoid direct confirm definition/delineation DTF impacts to sensitive habitats. Coastal bluff scrub is the sensitive of community types with DTF habitat most likely to be impacted by access. PG&E's goal will be to reduce to the greatest extent possible, direct impacts from construction and maintenance activities on botanical resources of the NRSA. See also response to item 22 above.

30 ~ok;comment: the- PG&E will consider opportunities to provide educational information to management plan should the public during preparation of its plan of public access.

include an Education/

interpretation component 31 awaiting study results, Report yes Some of the sensitive plant species mentioned by Mr. Walgren were added to the survey list; others had no possibility of occurring within the NRSA because their special habitat requirements are not present there. Mr Walgren visited the NRSA on Sept. 29, 2005. He expressed general satisfaction with the study efforts.

32 -awaiting study results Report yes Compact cobwebby thistle was added to survey list, but was not found.

33 E.D. to-follow upwith DTF; yes Neither of the specific habitat types referred to (maritime

-,def./del*ineation of chaparral/Bishop pine) by Deb Hillyard occur within the NRSA, but habitat/vegetation/community both occur to the east in the Irish Hills. Sensitive habitats within the types needs to be resolved - NRSA include coastal bluff scrub and Central Coast willow riparian scrub. Both of these habitats were mapped in 2005 from recent high resolution aerial photography, ground truthed and independently validated at our request by Dr. David Keil, Biological Sciences Dept.,

__ _ _ _ _ _ _ _ _ _ _ __._ _ Cal Poly.

34 awaiting study results; ED to Contact Report yes These areas are contained within the coastal bluff scrub mapping follow up with, DTF DTF units. Attribute data assigned to specific polygons will be used to identify presence of significant wild flower populations.

35 see 33 yes Coastal bluff scrub has been described, mapped and field checked.

36 see 33;'are native Respond yes Results of botanical studies this year showed native bunch grasses bunchgrasses being mapped? currently occupy too small a percentage of the coastal terrace grasslands to be effectively mapped. Several small study plots have been created and mapped to further assess the condition and growth trend of these plants. Within these plots, perennial grasses were counted to determine density per unit area. Some counts were made along linear belt transects and other plots received total area counts (estimate < 1% ground cover based on density of plants observed within study plots and assuming an average basal area of 2 inches per plant). Once a final route plan is developed for access, additional plots may be established to assess the specific impacts of access on these species. See also response to item 37 below.

37 see 33;what is thedefinitionh Respond Further study of the grasslands this year, and additional information of CTP being used? gathered on past agricultural practices affecting the coastal terrace, led to the conclusion that the NRSA does not contain significant coastal prairie remnants. This is consistent with the mapping done by BioSystems (1993) and included in the preliminary baseline data distributed to the DTF in March 2005. Coastal prairie grasses are generally believed to be displaced permanently by cultivation. The native grasses present today in the NRSA reflect restoration of more common Central Coast perennial grasses since the end of row crop agriculture and the onset of managed grazing. Contemporary definitions of coastal prairie (Ornduff, Faber, and Keeler-Wolf 2003) include certain key indicator species such as grasses of the genus Festuca, Deschampsia, Danthonia,and Calamagrostis. These grasslands also possess true grassland soils similar to those of the American Midwest. Our grasslands contain a mix of annual and perennial species with perennials representing much less than 50%

cover, and absent are virtually all of the key indicator species that characterize the coastal prairie (e.g., Festuca spp., Deschamsia

_ _caespitosa, and Danthonia califomica).

38 awaiting study results Report yes Several small study plots (100' x 100') have been created and mapped to further assess the condition and growth trend of these plants.

Within these plots, perennial grasses were counted to determine density per unit area. Within plots, some counts were made along linear belt transects and other plots received total area counts. Once a final route plan is developed for access, additional plots may be established to assess impacts of access on these species.

39 awaiting study results Report yes A record of grazing practices covering about the last 30 years on the North Property was included in the preliminary baseline and is contained in several report documents by Steckman and by Fry.

Additional information on historical practices was gathered by the cultural resources consultant (Applied Earthworks), and more is currently being sought through a researcher at Cal Poly. These

..... ____ _____:__findings will be included in the final baseline report document.

40 ED to confirm with DTF Contact yes This work was performed in July and August 2005, by invertebrate DTF ecologist Christopher Rogers, PhD. Results were negative for SBB, and no suitable habitat was found in the NRSA for other sensitive invertebrate species. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J.

Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29.

Consulting biologists from Tenera and GANDA were also present on these trips.

41 ok 42 ok; need legless lizard survey Report yes Legless lizard and coast homed lizard surveys were conducted the followup week of July 25, 2005. Results were negative but air temperature was too cold for effective surveys. Additional surveys were performed on September 26 and 27 under suitable field conditions with negative results. The consultant confirmed that the area at mouth of Coon Creek is the only suitable habitat for these species in the NRSA. The results of these and other wildlife surveys performed this year were

  • discussed in the field-with DTF members J. Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips.

43 awaiting lizard survey Report yes see comment above (item 42) followups 44 ok

45 ok; awaiting survey results, Report yes This fact is one of the prime reasons for PG&E's decision to proceed with field studies even before review of the preliminary baseline by the DTF. All studies made use of the most recent agency-published lists for taxonomy and status of sensitive species potentially occurring in the NRSA.

46 ok 47 ok 48 ok, awaiting survey results; Report yes Thorough surveys have been completed for MSS throughout suitable see'69' habitat within the NRSA with negative results. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J. Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29. Consulting biologists from Tenera and

_______.....GANDA were also present on these trips.

49 ok 50 ok, but nieed t6 confirm this observation at trailplanning phasei _______ _____

51 tenative ok; What is likelihood Respond yes Burrowing owls were confirmed in the NRSA at three locations in close of the. presence oftlthese proximity to the bluff road during night spotlight surveys in October.

species? Is there roosting habitat near possible trail locations (potential constraint) 52 tentative ok; what is likelihood- Respond Neither short-eared nor long-eared owls were detected during field of the presence of these - studies.

species? Is there roosting habitat near possible trail locations (potential constraint)

53 tentative ok; what is likelihood Respond Horned lark and grasshopper sparrow were identified during field of the presence of these surveys this year and are believed to be breeding in the grasslands of species? Is there roosting the NRSA. PG&E has requested a proposal from GANDA for further habitat near possible trail focused surveys of these species in spring 2006 after development of locations (potential constraint) a routing plan. Loggerhead shrike and Bell's sage sparrow were not detected, and are not thought to occur in the NRSA. The results of surveys performed this year were discussed in the field with DTF members J. Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips.

54 tentative ok; what islikelihood Respond Yellow warbler was found occupying habitat in the Coon Creek riparian of the presence of these area. Nesting by this species also occurred. Yellow-breasted chat and

  • species? Is there roosting
  • least Bell's vireo were not detected duringsurveys in the Coon Creek habitat near possible trail area. Two willow flycatchers (subspecies not known) were seen in the locations (potential constraint) i Coon Creek area in April. These are thought to be transients of the brewsterisubspecies. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J.

Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29.

Consulting biologists from Tenera and GANDA were also present on these trips.

55 awaiting study results Report yes Tri-colored blackbirds were not detected in the NRSA. Habitat near the mouth of Coon Creek supports a breeding population of red-winged blackbirds. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J.

Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29.

Consulting biologists from Tenera and GANDA were also present on these trips.

56 tentative ok; what is likelihood Respond San Diego desert woodrats occur in suitable habitat throughout the of the presence.of these - NRSA. Nests were found in coastal bluff scrub habitat. The results of species? Is there roosting these and other wildlife surveys performed this year were discussed in habitat near possible trail the field with DTF members J. Eliason and D. Hillyard on October 6 locations (potential constraint) and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips.

57 ok; see 74 Day and night surveys were performed during the week of July 25, 2005. Additional night surveys were conducted in August and September. Two badgers were observed within the NRSA, and numerous burrows were identified in the southern portion. Burrow mapping was begun using the mobile GIS platform. More than 50 badger burrows thought to be active or recently active were mapped in a single paddock (Red Barn 1). No additional mapping of badger dens has been performed.

58 tenative ok; What is likelihood* Respond Invertebrate surveys were performed in July and August 2005, by of the presernce~of-these,,- invertebrate ecologist Christopher Rogers, PhD. Results were species? Is,here~habitatnear negative for SBB, and no suitable habitat was found in the NRSA for possible trail 1ocations other sensitive invertebrate species. The results of these and other (potential constraint)1

  • wildlife surveys performed this year were discussed in the field with DTF members J. Eliason and D. Hillyard on October 6 and with M.

- Walgren on Sept. 29. Consulting biologists from Tenera and GANDA

_____-_ were also present on these trips.

59 ok; se 69 Thorough surveys have been completed for Morro shoulderband snail throughout suitable habitat within the NRSA with negative results. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J. Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips.

60 ok (impact observation) 61 ok (impact observation) 62 ok (impact observation) 63 ok (impact observation) 64 'awaiting study r'esults Report yes The need to prevent disturbance of nesting birds is the intent behind the Federal Migratory Bird Treaty Act and other state/federal laws that protect wildlife. PG&E is aware of its responsibility in this area and will take all necessary precautions to avoid direct or indirect impacts to nesting birds during and after development of the access plan. See Workshop PPT.

65 ok (impact observation)

66 awaitingstudy results Report yes San Diego desert woodrats were trapped at all locations identified as possible habitat in the NRSA. They are generally distributed throughout the Coastal Bluff Scub, and also are associated with most rock outcrops in the NRSA.

67 ok; see 74 68 EDto-followup with DTF Contact yes NRSA was thoroughly examined for evidence of k-rat burrows before DTF trapping studies were planned. Only one small area within the coastal bluff scrub was thought to possibly have k-rat burrows. Trapping there did not produce this species. Dune-like habitat near mouth of Coon Creek was found unsuitable as habitat for MBKR. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J. Eliason and D. Hillyard on October 6, and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips.

69 awaiting survey resultsi Report yes Thorough surveys have been completed for MSS throughout suitable habitat within the NRSA with negative results. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J. Eliason and D. Hillyard on October 6, and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips. See also response at item

___ ____ ___ ____ ___ ____ ___ ___ 48.

70 0ok; ED to followup with DTF%, Contact yes Additional amphibian species: Suitable breeding habitat for these DTF species was examined during protocol-level surveys for red-legged frogs at Trout Pond and at Coon Creek. No eggs, larvae, metamorphs, or adults were observed at either location.

71 ok 72 lawaiting "final study";'ED to Contact Report yes The results of wildlife surveys performed this year were discussed in fllowup with DIE DTF the field with DTF members J. Eliason and D. Hillyard on October 6, and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips. All agreed that the scope of work and methods used were sufficient for informing the process of access and monitoring plan development.

73 ok (impact observation) II

74 awaiting survey r6sults` - Report yes Day and night surveys were performed during the week of July 25, 2005. Additional night surveys were conducted in August and September. Two badgers were observed within the NRSA, and numerous burrows were identified. Burrow mapping resulted in more than 50 badger burrows being documented in a single paddock (Red Barn 1). No additional mapping of badger dens has been performed.

75 awaiting, survey results Report yes All seabird breeding colonies were surveyed and mapped during spring and summer 2005. Higher numbers of nest sites occurred on bluff cliffs, off-shore rocks and sea stacks north of Trout Pond. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J. Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips.

76 awaiting survey results Report yes Surveys performed in 2005 mapped and updated information for all pinniped and sea otter haulout and pupping areas, as well as offshore and intertidal habitats utilized by these species.

77 awaiting survey results' Report yes Apart from one sea palm population mapped near Disney Point, intertidal organisms within the NRSA were found to consist of regionally common species. Some additional quantitative sampling was performed along horizontal band transects within the NRSA in 2005 to augment routine sampling carried out annually under the power plant's thermal effects monitoring program. A complete mapping of all intertidal substrates was completed under minus tide conditions

__"___ and added to the mobile GIS.

78 awaiting survey results Report yes All seabird breeding colonies were surveyed and mapped during spring and summer 2005. Higher numbers of nest sites occurred on bluff cliffs, off-shore rocks and sea stacks north of Trout Pond. The results of these and other wildlife surveys performed this year were

- discussed in the field with DTF members J. Eliason and D. Hillyard on October 6 and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips.

79 ok; comment: consider as part- PG&E has identified this potential impact to seabird nesting colonies of monitoring/adaptive (See results from thresholds workshop). Suitable measures for management plan protection of these nest sites from visitor disturbance will be developed during route planning.

80 awaiting survey results Report yes The work performed by Tenera in 2005 included mapping of primary

- . .and secondary haulout sites used by harbor seals, sea lions, and sea otters within the NRSA. These sites have been included in the project GIS, and will be considered along with other resource data during constraints analysis and development of the access plan.

81 ok 82 ED to followup with DTF Contact The existing marine resources data from PG&Es 30-year thermal DTF effects monitoring database will be adequate to inform the process of developing a plan of access. Once the route plan is developed additional sampling at one or more specific sites may be required to support access-related impacts monitoring. PG&E will ask that the

-____- proposed approach for such sampling be reviewed by the DTF.

83 *ED to followup with DTF Contact The existing marine resources data from PG&Es 30-year thermal DTF effects monitoring database will be adequate to inform the process of developing a plan of access. Once the route plan is developed additional sampling at one or more specific sites may be required to support access-related impacts monitoring. PG&E will ask that the proposed approach for such sampling be reviewed by the DTF.

84 ED to followup with DTF Contact The existing marine resources data from PG&E's 30-year thermal DTF effects monitoring database will be adequate to inform the process of developing a plan of access. Once the route plan is developed additional sampling at one or more specific sites may be required to support access-related impacts monitoring. PG&E will ask that the

____ ,.proposed approach for such sampling be reviewed by the DTF.

85 ED:to foilowup With DTF Contact The existing marine resources data from PG&E's 30-year thermal DTF effects monitoring database will be adequate to inform the process of developing a plan of access. Once the route plan is developed additional sampling at one or more specific sites may be required to support access-related impacts monitoring. PG&E will ask that the proposed approach for such sampling be reviewed by the DTF.

86 ok

87 'ED to followup with DTF,* Contact The use of controls (aka reference areas) was examined in some

  • comment:- issue of"'controls". DTF detail during the thresholds workshop. PG&Es monitoring plan will needs~to be addressed in incorporate the concept of control or reference areas for use in

-monitoringplan- distinguishing naturally occurring variation from changes that result from public access impacts. Selection of suitable control/reference sites and careful documentation of these will begin on completion of a route plan.

88 awaiting survey results

  • Report yes The existing marine resources data from PG&E's 30-year thermal effects monitoring database will be adequate to inform the process of developing a plan of access. Once the route plan is developed additional sampling at one or more specific sites may be required to support access-related impacts monitoring. PG&E will ask that the proposed approach for such sampling be reviewed by the DTF.

89 awaiting survey results Report yes The existing marine resources data from PG&E's 30-year thermal effects monitoring database will be adequate to inform the process of developing a plan of access. Once the route plan is developed additional sampling at one or more specific sites may be required to support access-related impacts monitoring. PG&E will ask that the

__...__*proposed approach for such sampling be reviewed by the DTF.

90 ok 91 awaiting survey results Report yes All seabird breeding colonies were surveyed and mapped during spring and summer 2005. Higher numbers of nest sites occurred on bluff cliffs, off-shore rocks and sea stacks north of Trout Pond. The results of these and other wildlife surveys performed this year were discussed in the field with DTF members J. Eliason and D. Hillyard on October 6, and with M. Walgren on Sept. 29. Consulting biologists from Tenera and GANDA were also present on these trips.

92 !awaiting survey results I Report yes The work performed by Tenera in 2005 included mapping of primary S,.and secondary haulout sites used by harbor seals, sea lions, and sea otters within the NRSA. These sites have been included in the project GIS, and will be considered along with other resource data during

  • _constraints

___ analysis and development of the access plan.

93 under review This issue was identified and taken into account during the thresholds workshop. Functional resource attributes identified for managed grazing included habitat structure and function, essential animal behaviors, soil and site stability, hydrologic function, and biological integrity. The outcome of the threshold workshop was presented to Mr. Blanchard on November 2 at Diablo Canyon power plant. He expressed general satisfaction with the approach taken toward

____ ,_________development of a resource monitoring plan.

94 under review. See response, item 93 above 95 ok;bbt, need to discuss' Yes Potential impacts from public access were evaluated during the reiation to baIaseline October 5, 2005 thresholds workshop. Eight resource categories were "conistraints"' for-purposes 6f addressed including managed grazing. Impacts identified as monitoring chlange over time potentially effecting managed grazing included this impact along with 8 others. All identified impacts to all resource categories will be considered during development of the final monitoring plan.

96 ok; but need to discuss Potential impacts from public access were evaluated during the

ýrelatiion'to-baselineý October 5, 2005 thresholds workshop. Eight resource categories were

'constraints" for purposes of addressed including managed grazing. Impacts identified as monitoring change over time potentially effecting managed grazing included this impact along with 8 others. All identified impacts to all resource categories will be considered during development of the final monitoring plan.

97 ok; but need to discuss Potential, impacts from public access were evaluated during the" relation to baseline' October 5, 2005 thresholds workshop. Eight resource categories were "constraints" for purposes of addressed including managed grazing. Impacts identified as monitoring change over time potentially effecting managed grazing included this impact along with 8 others. All identified impacts to all resource categories will be considered during development of the final monitoring plan.

98 ok; but need to discuss, Potential impacts from public access were evaluated during the relation to baseline" October 5, 2005 thresholds workshop. Eight resource categories were "constraints" for purposes of addressed including managed grazing. Impacts identified as monitoring change overtime potentially effecting managed grazing included this impact along with 8 others. All identified impacts to all resource categories will be considered during development of the final monitoring plan.

99 ok; (impact observation)

100 ok; (impact observation) 101 ok; (impact observation) 102 ok; (impact observation) 103 ok; (impact observation) 104 ok; (impact observation) 105 ok; (impact observation) 106 ok; (impact observation) 107 ok; (impact observation)

Appendix B Plant Species List for the North Ranch Survey Area.

Botanical Species List for the NRSA 2005-2006 Family :Scientilic

  • Common F:orm Status, Collection Habitat Wetland Ind.

in bold) date/number Blechnaceae Woodwardia Giant chain Per. Native Herbarium Riparian fimbriata fern Dryopteridaceae Dryopteris Wood fern Per. Native Herbarium Coastal arguta scrub/rparian Dryopteridaceae Polystichum Western Per. Native Herbarium Riparian munitum sword fern Pteridaceae Adiantum Five-finger Per. Native Herbarium Riparian aleuticum fern Aizoaeae Tetragonia New Per., Exotic 3/18/2005/001 Beaches, bluffs tetragonoides Zealand Herb spinach Aizoaeae Carpobrotus Ice plant Per., Exotic Need Sample Beaches, bluffs

  • edulis Herb Aizoaeae Carpobrotus Sea fig Per., Exotic Need Sample Beaches, bluffs
  • chilensis Herb Anacardiaceae Rhus ovata Sugar bush Shrub Native Herbarium Enclosure Anacardiaceae Toxicodendron Poison oak Per., Native Herbarium Coastal scrub diversilobum Vine Apiaceae Apium Celery Ann., Exotic 3/18/2005/002 Wetlands, pond FACW graveolens Per.

Apiaceae Berula erecta Cutleaf Per., Native 3/18/05/003 Wetlands, pond OBL water Herb parsnip Apiaceae Conium Poison- Per., Exotic Riparian FACW maculatum hemlock Herb Apiaceae Foenniculum Fennel Per. Exotic Herbarium Disturbed, scrub vulgare Asteraceae Achillea Common Per., Native Grassland/Many FACU millefolium yarrow, Herb habitats milfoil Asteraceae Agoseris Agoseris Ann. Native Herbarium Coastal scrub, heterophylla grasslands Asteraceae Ambrosia Bur sage Ann. Native Herbarium Disturbed/road acanthicarpa side Asteraceae Ambrosia Beach bur Per., Native Herbarium Beaches chammissonis sage Herb Asteraceae Anaphalis Pearly Per., Native Need Sample? Chaparral, margaritacea everlasting Herb disturbed areas Asteraceae Anthemis cotula Mayweed Ann. Exotic Herbarium Disturbed /

Roadsides Asteraceae Artemesia California Shrub Native 3/18/05/004 Coastal scrub, UPL californica sagebrush chaparral Asteraceae Artemesia Tarragon Per., Native Herbarium Riparian dracunculus Herb

Asteraceae Bacharis Coyote bush Shrub Native Herbarium Coastal scrub, UPL pilularis chaparral Asteraceae Camomilla Pineapple Ann. Native Herbarium Disturbed/

suaveolens weed Roadsides Asteraceae Carduus Italian Ann.,H Exotic Need Sample? Coastal scrub, UPL pycnocephalus thistle erb chaparral, grassland Asteraceae Carthamus Wooly Per., Nox. Herbarium Corral area lanatus distaff Herb Weed-thistle "B" Asteraceae Centaurea Tocalote Ann. Nox. Herbarium Grassland, melitensis weed disturbed Asteraceae Cirsium vulgare Bull thistle Ann., Exotic Herbarium Coastal scrub, FACU Herb grassland Asteraceae Cotula Brass- Ann., Exotic 3/18/05/005 Wetlands, pond FACW+

coronopifolia buttons, Herb Asteraceae Erigeron Seaside Per., Native 3/18/05/006 Beaches, coastal FACU glaucus daisy Herb scrub Asteraceae Eriophyllum Golden- Sub., Native Herbarium Coastal scrub, confertiflorum yarrow Shrub chaparral var.

confertifolium Asteraceae Eriophyllum Seaside Sub., Native 4/22/05 Coastal scrub, staechadifolium wooly Shrub bluffs, beaches sunflower Asteraceae Gnaphalium Green Bien.,H Native 3/18/05/007 Coastal scrub, californicum everlasting erb grassland Asteraceae Hazardia Sawtooth Shrub Native Herbarium Coastal scrub squarrosa var. golden bush squarrosa Asteraceae Helenium Bigelow Per., Native Herbarium Grassland, seeps bigelovii sneeze weed Herb Asteraceae Hypochaeris Smooth Ann. Exotic Herbarium Grasslands glabra cat's-ear Asteraceae Isocoma Goldenbush Per., Native Herbarium Coastal, shrub menziesii Sub.,

Shrub Asteraceae Lasthenia Perrenial Per. Native 3/18/05/008 Beaches, coastal macrantha goldfields CNPS bluffs ssp.macrantha IB Asteraceae Lasthenia Goldfields Ann. Native Grasslands FACU californica Asteraceae Layia Tidy-tips Ann. Native 3/18/05/009 Grasslands platyglossa Asteraceae Picris echioides Bristly ox- Ann. Exotic Herbarium Coastal scrub, tongue disturbed Asteraceae Senecio vulgaris Common Ann. Exotic Herbarium Grasslands groundsel Asteraceae Silybum Milk thistle Ann., Exotic Need Sample Grasslands, marianum Bien. coastal scrub Asteraceae Sonchus asper Prickly sow Ann. Exotic 4/21/05/010 Grasslands

thistle Asteraceae Xanthium Spiny Ann. Native Herbarium Pond spinosum cocklebur Boraginaceae Amsinkia Rancher's Ann. Native 3/18/05/011 Grasslands

  • menziesii var. fireweed menziesii Boraginaceae Heliotropum Alkali Per. Native Herbarium Pond, seeps curassavicum heliotrope Brassicaceae Brassicanigra Black Ann. Exotic Need Sample Grasslands mustard Brassicaceae Brassica rapa Fields Ann. Exotic Herbarium Grassland, mustard coastal scrub, disturbed Brassicaceae Cackile maritima Sea rocket Ann. Exotic 4/21/05 Beaches Brassicaceae Raphanus sativa Wild radish Ann. Exotic 3/18/05/012 Grasslands, coastal scrub Brassicaceae Rorripa Water cress, Ann. Native Pond OBL nasturtium-aquatica Brassicaceae Sisymbrium Hedge Ann. Exotic Herbarium Grassland officinal mustard Cactaceae Opuntia ficus- Indian fig Per. Exotic Herbarium Riparian, fence indica line Caprifoliaceae Lonicera Twin berry Per., Native Herbarium Chaparral involucrata Vine Caryophyllaceae Silene gallica Windmill Ann. Exotic Need Sample Grasslands pink Caryophyllaceae Spergula Stickwort Ann. Exotic Herbarium Disturbed arvensis ssp.

arvensis Caryophyllaceae Spergularia Beach Per. Native Check Coastal scrub, FAC+

macrotheca var. sandspurry sp.3/18/05/013 bluffs, beaches macrotheca Caryophyllaceae Spergularia Sandspurry Ann. Exotic 4/22/05 Disturbed rubra grasslands Caryophyllaceae Stellariamedia Chickweed Ann. Exotic 3/18/05/014 Grassland Chenopodiaceae Atriplex Saltbush Per. Native 3/18/05/015 Bluffs, rocky FAC+

californica outcrop Chenopodiaceae A triplex Australian Per. Exotic Bluffs, rocky semibaccata salt bush outcrop Chenopodiaceae Chenopodium Sheep sorrel Ann. Exotic Disturbed album grasslands Chenopodiaceae Chenopodium California Per. Native Coastal bluffs californicum chenopod Convolvulaceae Calystegia Wild Per., Native 3/18/05/016 Coastal scrub macrostegia morning Vine glory Cornaceae Comus Creek Tree Native Herbarium Riparian stolinifera dogwood Crassulaceae Dudleya cymosa Stone crop Per. Native Bluffs, rocky ssp. paniculata outcrop

Crassulaceae Dudleya Stone crop Per. Native Herbarium Coastal scrub, lanceolata chaparral Cucurbitaceae Marahfabaceae California Per., Native 4/21/05 Coastal scrub, manroot Vine chaparral Euphorbiaceae Croton Croton Per., Native Herbarium Beaches, sandy californicus Herb areas Fabaceae Astragalus Central Per., Native 3/18/05/017 Bluffs, rocky nuttallii var. coastal Herb CNPS 4 outcrop nutallii postal weed Fabaceae Lathyrus Jepson's pea Per. Native Coastal scrub jepsonii Fabaceae Lotus Birdsfoot Per. Exotic Herbarium Pond, seeps corniculatus treefoil Herb Fabaceae Lotus strigosus Treefoil Ann. Native Herbarium Coastal scrub, chaparral Fabaceae Lupinus Yellow bush Per. Native Coastal bluffs arboreus lupine Fabaceae Lupinus bicolor Miniature Ann. Native Need Sample Grasslands lupine Fabaceae Lupinus Silver dune chamissonis lupine Fabaceae Lupinus Stinging Ann. Native 3/18/05/18 Coastal scrub hirusutissimus lupine Fabaceae Lupinus Wood lupine Ann. Native Need Sample Coastal scrub, truncatus chaparral Fabaceae Medicago Bur clover Ann. Exotic 3/18/05/019 Grasslands polymorpha Fabaceae Melilotus indica Sweet clover Ann. Exotic 3/18/05/020 Grasslands Fabaceae Spartium Spanish Per. Nox. Disturbed, junceum broom Weed roadsides Fabaceae Trifolium Hop clover Ann.- Exotic Herbarium Grasslands aureum Bien..

Fabaceae Trifolium Little hop Ann. Exotic Herbarium Disturbed dubeum clover Fabaceae Trifolium Sour clover Ann. Native 3/18/05/021 Grasslands FAC fucatum Fabaceae Trifolium Bull clover Per. Native Herbarium Grassland wormskioldii Herb.

Fabaceae Vicia americana Vetch Per. Native Herbarium Riparian var. americana Frankeniaceae Frankenia Alkali heath Sub. Native 4/21/05 Coastal bluffs FACW salina Shrub Geraniaceae Erodium Red stem Ann. Exotic Sample? Grasslands cicutarium filaree Geraniaceae Erodium White stem Ann. Exotic Sample? Grasslands moschatum filaree Geraniaceae Geranium Cutleaf Ann. Exotic Herbarium Disturbed, dissectum geranium grasslands Haloragaceae Myriophyllum Parrots Per. Exotic Herbarium Pond aquaticum feather Hydrophyllaceae Pholistoma Fiesta Ann. Native Herbarium Chaparral, auritum flower riparian

Lamiaceae Marrubium White Shrub Exotic Need Sample Grasslands vulgare horehound Lamiaceae Salvia mellifera Black sage Shrub Native 4/21/05 Enclosure Lamiaceae Stachys bullata California Per., Native 3/18/05/022 Coastal scrub, hedge nettle Herb chaparral Lemnaceae Lemna minor Duck weed Per. Native Herbarium Pond Malvaceae Malva parviflora Cheese Ann. Exotic Grasslands weed Myoporaceae Myoporum Myoporum Per. Exotic Herbarium Pond, laetum Tree ornamental house sites Nymphaceae Nymphaea Fragrant Per. Nox. Herbarium Pond odorata water lily Weed-

"B" Panicled Ann. Native Herbarium Onagraceae Epilobium Grassland, brachycarpum willow herb riparian, disturbed Oxalidacea Oxalis Oxalis Per. Exotic Disturbed corniculata Papaveraceae Eschscholtzia California Ann., Native Need Sample Grasslands, californica poppy Bien. coastal scrub Pinaceae Pinus radiata Monterey Tree Native Herbarium Chaparral pine Plantaginaceae Plantagoerecta Plantago Ann., Native Need Samples Chaparral Herb Plantaginaceae Plantago Cutleaf Ann., Exotic Herbarium Grassland, coronpus plantago Bien. coastal scrub, disturbed Plantaginaceae Plantago English Per. Exotic Herbarium Grassland, lanceolata plantain coastal scrub, disturbed Polygonaceae Eriogonum Sea cliff Shrub Native 3/18/05/023 Bluffs, rocky parvifolium buckwheat outcrops, coastal scrub Polygonaceae Eriogonum California Shrub Native Herbarium Chaparral fasiculatum buckwheat Polygonaceae Rumex Sheep sorrel Per., Exotic Herbarium Grasslands acetosella Herb Polygonaceae Rumex crispus Sour dock Per. Exotic Herbarium Herb.

Polygonaceae Pterostegia Dryad Per. Native Herbarium Chaparral, rocky drymariodes saddle outcrops Polemoniaceae Navarretia Skunkweed Ann. Native Herbarium Coastal scrub, squarrosa disturbed, roads Portulacaceae Claytonia Miner's Ann. Native Need Sample perfoliata lettuce Primulaceae Anagallis Scarlet Ann. Exotic 3/18/04/024 Coastal scrub,

  • arvensis pimpernel grasslands Ranunculaceae Thalictrum Meadow rue Per., Native Herbarium Chaparral fenderli var. Herb.

fenderli Rhamnaceae Rhamnus California Shrub Native Herbarium Chaparral

californica coffee berry Tree Rhamnaceae Rhamnus crocea Spiny Shrub Native 4/21/05 Coastal scrub redberry Rhamnaceae Ceonothus Blue Shrub Native Herbarium Enclosure thyrsifolius blossom Rosaceae Aphanes Aphanes Ann. Native 4/22/05 Grasslands occidentalis Rosaceae Heteromeles Toyon Shrub Native Herbarium Chaparral, arbutifolia Tree enclosure Rosaceae Rubus ursinus California Per. Native Herbarium Riparian, seeps blackberry Vine Rubiaceae Gallium sp. Bedstaw Need Sample Salicaceae Salix lasiolepis Arroyo Tree Native Herbarium Pond, riparian willow Scrophulariaceae Castelleja Paintbrush Per. Native Herbarium Chaparral applegatii Scrophulariaceae Collinsia Chinese Ann. Native Herbarium Chaparral heterophylla houses Scrophulariaceae Mimulus Bush Per. Native Herbarium Coastal scrub, aurantiacus monkey Shrub chaparral flower Scrophulariaceae Mimulus Monkey Ann.- Native Herbarium Pond, riparian guttatus flower per.

Scrophulariaceae Schrophularia California Per. Native Herbarium Coastal scrub, californica bee plant chaparral Scrophulariaceae Veronica American Per. Native Herbarium Pond, riparian americana brookline Scrophulariaceae Veronica Chain Per. Exotic Herbarium Pond catenata speedwell Solanaceae Solanum Nightshade Per. Native Herbarium Chaparral douglassii Tamaricaceae Tamarix Tamarisk Per. Nox. Need Sample Riparian ramossissima weed Tropaeolaceae Tropaeolum Garden Per. Native Herbarium Coastal scrub, majus nasturtium Herb. riparian moist Urticaceae Urtica dioica Stinging Per. Exotic Herbarium Coastal scrub, ssp. holosericea nettle riparian Urticaceae Urtica urens Dwarf Ann. Native Herbarium Chaparral, stinging disturbed nettle Verbenaceae Verbena Verbena Per. Native Herbarium Coastal scrub, lasiostachys riparian moist Vitaceaa Parthenocissus Virginia Per. Native Herbarium Riparian vitaceae creeper Violaceae Viola sp. Need Sample Cyperaceae Scirpus California Per. Native 3/18/05/025 Wetlands, pond OBL californicus bulrush Juncaceae Juncus capitatus Capped rush Ann. Exotic 3/18/05/02/026 Wetlands, pond Juncaceae Juncus bufonius Toad rush Ann. Native Herbarium Pond Poaceae Avena barbata Slender oats Ann. Exotic Sample?

Poaceae Bromus California Per. Native 3/18/05/027 Grasslands carinatus brome Poaceae Bromus Ann. Sample hordeaceous Poaceae Cenchrus Southern Ann. Exotic Herbarium Grasslands, echinatus sandbur coastal scrub Poaceae Dactylis Orchard Per. Native Herbarium Grassland, glomerata grass disturbed, moist areas Poaceae Deschampsia Per. Native Herbarium Grassland, moist danthonioides areas Poaceae Distichlis Saltgrass Per. Native Herbarium Pond spicata Poaceae Ehrharta Veldt grass Per. Nox. Herbarium Grassland, calycina weed disturbed Poaceae Hordeum Meadow Per. Native Herbarium Grasslands brachyantherum barley Poaceae Lamarckiaaurea Goldentop Ann. Exotic Herbarium Coastal scrub, disturbed Poaceae Leymus Pacific wild Per. Native Herbarium Bluffs, pacificus rye grassland, south Poaceae Lolium Italian Ann. Exotic 3/18/05/028 Grasslands Fac*

multiflorum ryegrass Poaceae Nassellapulchra Purple Per. Native 3/18/05/029 Grasslands needle grass Poaceae Phalaris Harding Per. Exotic 3/18/05/030 Grasslands aquatica grass Poaceae Phalaris Reed canary Per. Native Herbarium Coastal scrub arundinacea grass Poaceae Poa annua Annual Ann. Exotic 3/18/05/031 Grasslands bluegrass Poaceae Polypogon Rabbitsfoot Ann. Exotic 3/18/05/032 Grasslands FACW+

monspeliensis grass Poaceae Vulpia Slender Ann. Exotic 3/18/05/033 Grasslands FACU*

bromoides fescue Poaceae Vulpia Native Herbarium Grasslands microstachys Typhaceae Typha Narrow- Per. Native Need Sample Pond angustifolia leaved cattail Typhaceae Typha latifolia Cattail Per. Native Herbarium Riparian

Appendix C List of Bird Species Observed on the North Ranch Survey Area.

Bird Snecies Observed During 2005-2006 Surveys Brown pelican (Pelecanusoccidentalis)

Double-crested cormorant (Phalacrocoraxauritus)

Brandt's cormorant (Phalacrocoraxpenicillatus)

Black-crowned night heron (Nycticorax nycticorax)

Great blue heron (Ardea herodias)

Mallard (Anas platyrhynchos)

Surf scoter (Melanittaperspicillata)

Turkey vulture (Cathartesaura)

Red-tailed hawk (Buteojamaicensis)

Peregrine falcon (Falcoperegrinus)

California quail (Callipeplacalifornica)

Killdeer (Charadriusvociferus)

Black oystercatcher (Haematopus bachmani)

Western sandpiper (Calidrismauri)

Red-necked phalarope (Phalaropuslobatus)

California gull (Larus californicus)

Western gull (Larus occidentalis)

Mourning dove (Zenaidamacroura)

White-thraoted swift (Aeronautes saxatalis)

Anna's hummingbird (Calypte anna)

Allen's hummingbird (Selasphorussasin)

Northern flicker (Colaptes auratus)

Black phoebe (Sayornis nigricans)

Hutton's vireo (Vireo huttonii)

Western scrub-jay (Aphelocoma californica)

American crow (Corvus brachyrhynchos)

Common raven (Corvus corax)

Tree swallow (Tachycineta bicolor)

Cliff swallow (Petrochelidonpyrrhonota)

Barn swallow (Hirundo rustica)

Wrentit (Chamaeafasciata)

Bushtit (Psaltriparusminimus)

Pygmy nuthatch (Sittapygmaea)

House wren (Troglodytes aedon)

Bewick's wren (Thryomanes bewickii)

Western bluebird (Sialia mexicana)

Swainson's thrush (Catharus ustulatus)

Hermit thrush (Catharusguttatus)

Northern mockingbird (Mimus polyglottos)

California thrasher (Toxostoma redivivum)

European starling (Sturnus vulgaris)

Orange-crowned warbler ( Vermivora celata lutescens)

Yellow warbler (Dendroicapetechia)

Wilson's warbler (Wilsonia pusilla).

Common yellowthroat (Geothlypis trichas)

California towhee (Pipilo crissalis)

Spotted towhee (Pipilo maculatus)

Rufous-crowned sparrow (A imophila ruficeps)

Grasshopper sparrow (Ammodramus savannarum)

Fox sparrow (Passerellailiaca)

Song sparrow (Melospiza melodia)

Nuttall's white-crowned sparrow (Zonotrichialeucophrys nuttallii)

Lazuli bunting (Passerinaamoena)

Western meadowlark (Sturnella neglecta)

Red-winged blackbird (Agelaius phoeniceus)

Purple finch (Carpodacuspurpureus)

House finch (Carpoducusmexicanus)

American goldfinch (Carduelistristis)

Lesser goldfinch (Carduelispsaltria)

Appendix D Riparian Bird Species Observations and Status Summary Results (May-July 2005).

22-A pr.: 23-Apr 3-Mayv 17- ay 71Juni 25 7" 5284ul' 5-U - 16-Jul Coon Esinie Creek Regional' Nubr o Common Namm.e* Scientific

.. Na*me

. .- Status Status" # code # code # code # Codee c #reedig Pairs lsub-2 fo 3 adult ND Great Blue Heron Ardea herodius T RB Great Egret Ardea alba W W NA Black-crowned Night-heron Nycticorax nycticorax T RB 2 2hy - - I uv _ ND Killdeer Charadriusvociferus BB RB 2 n I v I t I uv II Turkey Vulture Cathartesaura T RB 4 fo I fo ND Northern Harrier Circus cyanus T RB 2 uv ND Red-tailed Hawk Buteojamaicensis T RB 1 fo I fo I fo ND American Kestrel Falco sparverius T RB 1 v I v 2 fo ND California Quail Callipepla californica BC RB x I s I v 3 c ND Mourning Dove Zenaida macroura B RB X s 5 3s 4 s,pr 5 fl,2s 5 Is 4 5 v,v 5 c 2 Barn Owl Tylo alba T RB I v ND Great Horned Owl Bubo virginianus PB RB I c I v I v ND White-throated Swift Aeronautes saxatalis T RB 20 for ND Anna's Hummingbird Calypte anna B RB X 3 2s 1 s 1 v 2 v 2 is 3 Is I v 3-4 Allen's Hummingbird Selasphorus sasin B SB I for I v 3 Ipr 4 lpr 5 2pr 6 Is, Ijuv 4 v 2 v 3 Rufous Hummingbird Selasphorusrufus M Mi 3 r NA Costa's Hummingbird Calypte costae T SB 1 lb 1 v ND Belted Kingfisher Ceryle alcyon T RB X I for I for ND Northern Flicker Colaptes auratus B RB x 2 pr 2 It 2 It 2 3 3 it,ifl 3 c I Downy Woodpecker Picoidespubescens PB RB I v 2 c I v I Nuttall's Woodpecker Picoides nuttallii PB RB I v__ pr,t _3 It I Black Phoebe Sayornis nigricans PB RB I for 1 v 2 pr I v I v 3 ljuv I c I Pacific-slope Flycatcher Empidonax difficilis PB SB 7 7s I c 2 2s 4 2s, ljuv 3 IIs 2 2s 2-3 Willow Flycatcher Empidonax traillii M SB I Ifor 0

Emnidonax sn Emioa w unknown species 313 I Iforr Flycatcher IMyiarchus cinerascens IT JS '41 1 1 1 f.

5B Cassin's Kinabird Tvrannus vociferans IT I V Tree Swallow Tachycineta bicolor PB SB 2 for 8 for 13 flI Violet-green Swallow Tachycineta thalassina T SB 2 for 4 for ND Northern Rough- Stelgidopteryx winged Swallow serripennis T SB X 4 for 2 for 2 for 7 for 2 for 4 for 3 fo ND Barn Swallow Hirundo rustica T SB X 2 for 6 for I for 4 for 18 for 10 for 4 for 18 fo ND Petrochelidon Cliff Swallow _pyrrhonota T SB X 40 for 8 for 2 for 1 for 2 fo 2 for 2 fo ID Aphelocoma 2

Western Scrub-Jay californica B RB x 3 1pr pr 3 0 3 v 2 v 1 2 v 2 1 Wrentit Chamaeafasciata B RB X S 6 4s 4 4s 3 3s 8 4s,2fl 11 5s 12 5s,2n 7 3s 5 2s 5-6 Ruby-crowned Kinglet Regulus calendula W W I for 1 v I v NA Chestnut-backed Chickadee Poecile rufescens PB RB 8 5 lIs 5 fam 4 v 2 v 5 c I1I v_ ND Bushtit Psaltriparusminimus PB RB 9 2fam 6 4 fam 4 fam 5 1 v 13 v ND, ln,4s,lj Bewick's Wren Thryomanes bewickii B RB s 5 4s 3 3s 2 2s 2 2s 10 4s,3f1 9 4s 15 fl 9 3s 5 House Wren Troglodytes aedon B RB 1 v 1 v 4 n I v 2 Swainson's Thrush Catharusustulatus B SB 4 4s 3 3s 4 4s 4 3s I cf I V 3-4 California Thrasher Toxostoma redivivum BC RB X s 2 Is 2 Is 3 2s 3 Is 3 v 2 is 3 2juv 3 European Starling Sturnus vulgaris T NRB 30 v 0 Hutton's Vireo Vireo huttonii B RB 2 [3 pr,n 3 is 4 2` 3 Warbling Vireo Vireo gilvus T SB 7 for 2 Is 4 v ND Orange-crowned Warbler Vermivora celata Bc RB/M 9 4s 1 s 3 fl,2s 2 2s 3 is,Ifl I V ND Nashville Warbler Vermivora ruftcapillis M M NA MacGillivrays Warbler Oporornis tolmiei M M X v 2 fb NA Yellow Warbler - endroicapetechia B SB 8 6s 7 5s,2pr 4 4s 4 3s 3 is,fl I v 1 V 3-5 Wilson's Warbler Wilsoniapusilla B SB X s 17 7s 12 6s, Ipr 6 4s 4 3s 2 2s 5 v 5 110 2-3 2

Common Yellowthroat Geothlypis trichas B RB X Is 4 Iprs 5 3s 5 3s,pr 6 Is Is,2f,n 2 v 5 3juv 6 14c 4-5 Western Tanager irangaludoviciana M M 3 for NA Summer Tanager iranga rubra V M I v NA

Pheucticus Black-headed Grosbeak melanocephalus PB SB I I 2 2s II Is 11 Is I Lazuli Bunting Passerinaamoena T SB 2 v I c 0 Spotted Towhee Pipilomaculatus B RB X s 3 2s,n? 5 2s 3 2s 4 2s,fl 5 3s 8 3s,lcf 10 4s, Ifn 2 c 3-4 California Towhee Pipilocrissalis B RB X S 5 3s 6 2s,fl 3 2s 2 2s 2 2s 2 Is 3 Is 3 5fl,cf,5 5s,4fl,2 8s,6fl, lj 5s,2n, Ij Song Sparrow Melospizamnelodia B RB X s 10 9s, lcf s,fl-4 19 s 13 n 23 uv,2n 14 uv 12 Is,Sjuv 7 cv 10-12 White-crowned Sparrow Zonotrichialeucophrys BC RB 2 Is I s 1 uv 2 s 1 v ND Red-winged Blackbird Agelaius phoeniceus B RB X n 22 2cf 22 2n, 3cf 22 2cf 17 fl,4t 13 fi I v 12 Brown-headed Cowbird Molothrus ater T RB 1 male 2 is 0 Euphagus Brewer's Blackbird cyanocephalus T RB 1 v 0 Hooded Oriole lcterus cucullatus T SB 3 for _0 Bullock's Oriole cterus bullockii T SB I v 0 American Goldfinch Carduelistristis B RB X 2 r I s 2 Is 5 fam 5 ls,3juv 5 v 8 4juv 2 Lesser Goldfinch Carduelispsaltria T RB 7 v 0 Purple Finch Catpodacuspurpureus B RB I Is 2 is,lcf 3 2s 2 House Finch Carpodacusmexicanus PB RB v 3 v 3 8 Ijuv 14 v 3juv ND Total site visit survey I survey 2 survey 3 survey 4 survey 5 survey 6 survey 7 survey 8

  1. species 66 20 35 36 37 36 34 33 34 34
  1. individuals NA NA 210 136 142 122 157 137 154 120 Codes: s=singing, t=territorial behavior pr=pair, cf-=carrying food, cn=canying nest material, n=nest, fl--fledglings with adults, fam = family group, hy = hatching year birds (independent), v= visual detection only NA: Not Available ND: Not Detected Status Codes: B=Confirmed Breeder; BC = Nesting in adjacent chaparral; BB = Nesting on beach; PB=Probable Breeder;T=Transient; W=Winter Visitor; M=Migrant, V=Vagrant Individuals were confirmed as breeders (B) based on the discovery of an active nest, adults carrying food to a nest location, or the presence of "locals" (recently fledged juveniles) within a known territory.

Confirmed breeding species were further divided into "resident breeders" (RB) and neotropical migrant "summer breeders" (SB). Continued territorial presence of a male or pair for six weeks or more warranted a "probable breeder" (PB) status. Non-breeding birds were also rated according to the potential of the species to breed in the area and habitat. Species that were potential breeders based on these criteria but were not confirmed as breeders within the survey area were designated "transients" (T). Species that migrate to northern latitudes were designated as "migrants" (M). Over-wintering species that breed at higher latitude or elevation were designated as "winter species" (W). A single detection of an unusual species observed outside the typical migratory period was given "vagrant" status.

Appendix E Minerals Management Service (MMS): Shoreline Classification GIS

Minerals Management Service (MMS): Shoreline Classification GIS E.1.1 Data Description In the 1970s and 1980s, a team of scientists, under contract to the Minerals Management Service (MMS), mapped shoreline physical and biological information of the entire California coast from helicopter videotape flyovers. A limited number of ground-truth surveys were completed to check and refine the mapping results from the flyovers. Each USGS quadrangle map was divided into shore segments (Unit Identifiers) according to predominant substrate type. Biological and physical information was then recorded for each shore segment in an associated table. The habitat types and species assemblages from the videotapes and ground-truth surveys were described for the coast on 165 USGS quad maps covering all of California, including the Channel Islands.

The purpose of the MMS surveys was to develop a statewide set of coastal maps with shoreline biological and substrate information to classify areas most sensitive to oil spills.

The information provides a unique historical data set on shoreline characteristics for all of California that can be used for resource management and biological research.

In 2005, Tenera converted all of the information from a subset of the statewide set of maps and tables into GIS (Tenera 2005). The current GIS describes shoreline habitat characteristics and biological assemblages for the Monterey Bay National Marine Sanctuary (MBNMS), Gulf of the Farallones National Marine Sanctuary (GFNMS), and Channel Islands National Marine Sanctuary (CINMS).

E.1.2 MMS Description of Habitat Types Along the NRSA Coast While the MMS maps and tables of physical and biological information for the NRSA coast have not been converted into the GIS, the information was reviewed and summarized directly from the maps and table hardcopies for the area. Below, the MMS information is compared to the habitat maps prepared for the NRSA baseline study described in Section 5.1.

Shoreline habitats on the MMS maps for the NRSA appear in Figures E.l-1 and E.1-2.

Descriptions of the physical and biological data appear in Table E.1-1. The MMS effort describes the NRSA coast shoreline as being a mix of substrate types that includes bench rock, rocky outcroppings, and mixed substrates in various proportions, including sand/gravel beaches that are continuous or occur as pocket beaches. Wave exposure was rated as high in all areas.

The biological information includes the occurrence of select conspicuous intertidal algal and invertebrate species. All of the data reflect what was observed directly from the helicopter and what was revealed on the videotapes. In some cases, however, a species occurrence was noted based on habitat association or extrapolation from locations of known occurrence (M.

Hill, MMS, Pacific OCS Region, pers. com.).

E.1.3 Comparison of the MMS Maps and Habitat Maps Prepared for the NRSA Baseline Inventory For some coastal sections along the NRSA, there is relatively close agreement in habitat descriptions between the MMS maps and maps that were specifically prepared for the NRSA baseline study. However, for some coastal sections, the MMS maps are less accurate or detailed than those prepared for the NRSA baseline study. An example of inconsistent results between map sets is the reach from Disney Point through and including Windy Point (MMS shore segments C and D, Table E.l-1). The MMS shoreline map portrays MMS segment C as a continuous granule beach while the NRSA baseline mapping survey found this section of coast to be mainly a shore of mixed substrates. Immediately downcoast is MMS segment D, which the MMS survey described segment D as being mainly mixed sediment pocket beaches. The NRSA coast baseline mapping survey noted this same section as being mostly vertical wall habitat with ledges that drop steeply into the ocean. Pocket beaches were infrequent.

In species descriptions, both map sets are generally similar in describing species occurrences and relative abundances, with the exception of sea palms (Postelsiapalmaeformis) and the Odonthalia/Neorhodomela species complex. These species differences are explained in Section 5.1. There are likely other differences in the physical and biological .descriptions between the map sets. A large reason may be that the purpose of the MMS mapping surveys was to obtain general information to assess the area's sensitivity to oil spills, and was not done to obtain details necessary for visitor access planning. Furthermore, most of the MMS information for the NRSA coast was from helicopter observations and videotapes. Some areas may not have been observed closely, and videotapes may not have had clear detail in certain areas. While the MMS maps provide sufficient information to describe habitats and species occurrences over broad areas, the maps prepared specifically for the NRSA coast in 2005 should be considered more detailed and current.

E.1-4 Literature Cited Tenera Inc. 2005. DVD of California coastal marine habitats GIS for the Monterey Bay, Gulf of the Farallones, and Channel Islands National Marine Sanctuaries, submitted to the Monterey Bay National Marine Sanctuary. February 2005.

Table A.M-1. Summary of physical and biological information from the MMS shoreline classification maps.

MMS/USGS Quad Mae CNC 47 CNC 47 CNC 47 CNC 47 CNC 47 CNC 46 CNC 46 CNC 46 Port CNC 46 CNC 46 Port CNC 46 CNC 46 CNC 46 Port Morro Morro Bay Morro Bay Morro Bay Morro Bay Port San Port San San Luis Port San San Luos Port San Port San San Luis Bay South South South South Luis Luis Luis Luis Luis South MMS Unit Identifier M N 0 P 0 A B C D E F G H (Shore section)

General Shore Section Coon Coon Pt. Unnamed Unnamed South end Disney Pt. Disney Pt. to Windy Pt. Tom's Pond Tom's Barn Rd. Crowbar to (north-south) Creek Creek to Buchon to Promontor Promontor of Lover's Windy Pt. reach Beach Pond to Field's Cove Pt. Lover's y y to Beach 2 reach Beach to Crowbar Buchon Beach Lover's Bam Rd.

Beach 2 Sand Rocky, Gravel Rocky Gravel Rocky Rock Gravel Pockets of Gravel beach Rocky Rocky Rocky (based on MMS beach, wide beach narrow beach narrow narrow beach, mixed wide wide narrow, summary codes in ephem platform, intertidal, intertidal intertidal offshore sediments platform platform offshore associated map tables) eral with offshore with rocks with mixed with rocks pockets of rocks continuous substrates continuous mixed gravel sand substrates beach beaches

& boulders in low intertidal.

offshore rocks Wave Exposure (scale of 1-10 with 10 1-10 10 10 10 10 10 8 10 10 10 10 10 8 highest)

Intertidal Ataas Endocladia muricata C-A C-A C-A C-A C C C C C C C C Sitvetia compressa 0 0 0 0 0 0 0 0 0 0 0 0 Fucus gardneri 0 0 0 0 0 0 0 0 0 0 0 0 Chondracan-thus spp. C C C C C C C C C C C C Cora//ina spp.iChondra- O-C O-C O-C O-C O-C O-C V canthus spp.

Postelsia palmaeformis C-A C-A C-A C-A C C Ha/osaccion C C C C C C C C glandiforme Mazzae//asyp. C C C C C C C C C C C C Odonthalial 0 0 0 0 0 0 0 0 0 0 0 0 Neorhodomela tarix Coralline algae C-A C-A C-A C C C C C C C C C Phyllospadix spp. C C C C 0 0 0 0 0 0 0 0 Alona marginata C C C C Egregiam nziesni C C C C C C C C C C C C Laminaria spp. C C C C O-C O-C O-C 0-C O-C O-C O-C O-C Kelp Beds Macrocystmsspp. 0 0 0 0 0 0 0 0 Nereocsti l/uetkeana O-C O-C O-C O-C O-C O-C 0-C O-C O-C O-C O-C O-C Intertidal Invertebrates Acorn barnacles 0 0 0 0 0 0 0 0 0 0 0 0 Myti/u ca/fo mic us O-C O-C O-C O-C C C C C C C C C Po/cigesPolymerus 0-C O-C O-C O-C C C C C C C C C Marine Mammals Harbor seal 0 O-C Stellar sea lion 0 Calfomia sea lion O-A Seabird Nestina Colonies Brandt's comorant O-C Pelagic comorant C C C C Black oystercatcher 0 0 0 0 0 0 Western gull C C C C C Pigeon guillemot 0 A A A A Endangered Species Southern sea otter C C C C C C C C C C C C C

'- -~ I I

I Figure E.1-1. USGS Morro Bay South quadrangle map portraying MMS shore characteristics.

~.-~--'-- ,

-A - -

t "44

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Figure E.1-2. USGS Port San Luis quadrangle map portraying MMS shore characteristics.

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LICENSE AGREEMENT FOR GRAZING PURPOSES This License Agreement ("License Agreement") is made and entered into this 6day OfJ)f

. , 2006 (the "Effective Date") by PACIF[C GAS AND ELECTRIC CONIvWNY California corporation, hereinafter called "PG&E", and ROBERT BLANCHARD, JR., a married man as to his separate property, hereinafter called "Licensee."

RECITALS:

A. PG&E owns the real property commonly known as Pecho Ranch, (Assessor's Parcel Numbers 076-011-006, 008, 013, 016, 021,022, 024, 026, 027, 028, and 029; 076-031-005 and 006, 076-091-002, 004 and 005; 076-021-023; State Board of Equalization No. 135-40-25c, Parcels I through 10) hereinafter called the "Property", situate in the County of San Luis Obispo, State of California.

B. PG&E and Licensee previously entered into a lease dated November 1, 1990, for the use of the Property, xrhich lease expired on October 1, 2000, and thereafter Licensee has been in possession on a holdover basis.

C. Licensee wishes to graze cattle, goats and sheep on a portion of the Property, consisting of seventeen (17) parcels of land containing approximately 3358 acres, as shown on EXHIBIT "A" attached hereto and by this reference made a part hereof (the "License Area").

D. PG&E is willing to grant such permission subject to the terms and conditions set forth herein.

NOW, THEREFORE, for good and valuable consideration, PG&E and Licensee hereby agree as follows:

1. Temporary Grazing License. Subject to the terms and conditions set forth in this License Agreement, PG&E hereby confers to Licensee a temporary, personal, non-exclusive and non-possessory right and license to enter, and for Licensee to allow Licensee's directors, officers, partners, members, managers, employees, contractors, subcontractors, consultants, representatives, agents, permittees and invitees ("Licensee's Representatives") to enter, the License Area for the sole purpose of grazing livestock in connection with Licensee's livestock business hereinafter referred to as "Licensee's Activities." This License Agreement gives Licensee a license only and does not constitute a grant by PG&E of any ownership, leasehold, easement or other similar property interest or estate.
2. Fees. Licensee shall pay to PG&E at the address set forth herein, or at such other place as PG&E shall designate in writing, PG&E's standard administrative fee of Three hundred fifty Dollars ($350.00) plus Five Thousand Dollars ($5,000.00) annual fee, totaling Five PG&E CO, 02898.999.0029.b COPY

Thousand Three Hundred Fifty dollars ($5,350.00), payable in advance, the first payment to be made concurrently with the execution of this License Agreement, aJnd thereafter on or before the anniversary of the Effective Date of this License Agreement as set forth below.

Period Annual Fee First Year $5,000.00 Second Year $5,000.00 Third Year $5,000.00 Fourth Year $5,000.00 Fifth Year $5,000.00

3. Term: Termination: Surrender. This License Agreement shall be for a term offive (5) years commencing on the Effective Date of this License Agreement, unless sooner terminated Provided however, that PG&E may terminate this License Agreement, at any time, for any reason or no reason, including, without limitation, pursuant to the provisions of General Order No. 69-C of the California PublicUtilities Commission (tO "C9PUC"), upon thirty (30) days written notice to the Licensee. (Licensee to initial here f: (j ), In the event that PG&E terminates this License Agreement, Licensee shall be entitled to a refund of any fees allocable to the period after the date that Licensee vacates the Property. Upon the expiration or termination of this License Agreement, at Licensee's sole cost and expense, Licensee shall remove all of Licensee's livestock, personal property and all debris, repair'and restore the Property as nearly as possible to the condition that existed prior to Licensee's entry hereunder. As part of such restoration, at PG&E's election, Licensee shall remove all fencing and other improvements installed by Licensee following the Effective Date of this License Agreement. Licensee shall bear the entire cost of such repair, removal and restoration, and PG&E shall bear no liability for any costs caused or related to any termination of this License Agreement. In the event Licensee fails to remove Licensee's livestock or fails to repair or restore the Property within said thirty (30) day period, PG&E may elect to remove Licensee's livestock and effect such removal, repair or restoration as necessary and recover such costs and expenses therefor from Licensee. Licensee shall pay such costs and expenses within ten (10) days of receipt of an invoice therefor. Licensee further acknowledges that PG&E's right to terminate this License Agreement shall not be affected by any improvements which Licensee has made to the License Area regardless of the nature or extent of those improvements. Licensee's obligations under this Section shall survive the expiration or termination of this License Agreement.
4. Condition of the Prop er. Licensee accepts the Property "as is", in its existing physical condition, without warranty by PG&E or any duty or obligation on the part of PG&E to maintain the Property. Licensee acknowledges that one or more of the following (collectively, "Potential Environmental Hazards") may be located in, on or underlying the Property:

(a) electric fields, magnetic fields, electromagnetic fields, electromagnetic radiation, power frequency fields, and extremely low frequency fields, however designated, and 02898.999.0029.b 2

whether emitted by electric transmission lines, other distribution equipment or otherwise

("EMFs");

(b) Hazardous Substances (as hereinafter defined). For purposes hereof, the term "Hazardous Substances" means any hazardous or toxic material or waste which is or becomes regulated by Legal Requirements, as defined herein, relating to the protection of human health or the environment, including, but not limited to, laws, requirements and regulations pertaining to reporting, licensing, permitting, investigating and remediating emissions, discharges, releases or threatened releases of such substances into the air, surface water, or land, or relating to the manufacture, processing, distribution, use, treatment, storage, disposal, transport or handling of such substances. Without limiting the generality of the foregoing, the term Hazardous Substances includes any material or substance:

(1) now or hereafter defined as a "hazardous substance," "hazardous waste," "hazardous material," "extremely hazardous waste," "restricted hazardous waste" or "toxic substance" or words of similar import under any applicable local, state or federal law or under the regulations adopted or promulgated pursuant thereto, including, without limitation, the Comprehensive Environmental Response, Compensation and Liability Act of 1980, 42 U.S.C.

§§9601 et seq. ("CERCLA"); the Resource Conservation and Recovery Act of 1976, 42 U.S.C.

§§6901 et sec.; the Clean Air Act, 42 U.S.C. §§7401 e setq.; the Clean Water Act, 33 U.S.C.

§§ 1251 et seq.; the Toxic Substance Control Act, 15 U.S.C. §§2601 et seM.; the Federal Insecticide, Fungicide, and Rodenticide Act, 7 U.S.C. §§136 et seM.; the Atomic Energy Act of 1954, 42 U.S.C.

§§2014 et seq.; the Nuclear Waste Policy Act of 1982, 42 U.S.C. §§10101 et seq.; the California Hazardous Waste Control Law, Cal. Health and Safety Code §§25 100 et seq.; the Porter-Cologne Water Quality Control Act, Cal. Water Code §§13000 et seq.; the Carpenter-Presley-Tanner Hazardous Substance Account Act (Health and Safety Code §§25300 et seM.); and the Medical Waste Management Act (Health and Safety Code §§25015 et seq.); or (2) which is toxic, explosive, corrosive, flammable, infectious, radioactive, carcinogenic, mutagenic or otherwise hazardous, and is now or hereafter regulated as a Hazardous Substance by the United States, the State of California, any local governmental authority or any political subdivision thereof; or (3) the presence of which on the Property poses or threatens to pose a hazard to human health or safety or to the environment; or (4) which contains gasoline, diesel fuel or other petroleum hydrocarbons; or (5) which contains lead-based paint or other lead contamination, polychlorinated biphenyls ("PCBs") or asbestos or asbestos-containing materials or urea formaldehyde foam insulation; or (6) which contains radon gas; (c) fuel or chemical storage tanks, energized electrical conductors or equipment, or natural gas transmission or distribution pipelines; and 02898.999.0029.b 3

(d) other potentially hazardous substances, materials, products or conditions.

Licensee shall take reasonable precautions to protect Licensee's Representatives and Licensee's livestock from risks of harm from Potential Environmental Hazards. Licensee acknowledges that it has previously evaluated the condition of the Property and the License Area and all matters affecting the suitability of the Property for the uses permitted by this License Agreement, including, but not limited to, the Potential Environmental Hazards listed herein,

5. Licensee's Covenants.

(a) Legal Compliance. Licensee covenants and agrees, at Licensee's sole cost and expense, promptly to comply, and cause all of Licensee's Representatives to comply, with (i) all laws, statutes, ordinances, rules, regulations, requirements or orders of municipal, state, and federal authorities now in force or that may later be in force, (ii) with the conditions of any permit, occupancy certificate, license or other approval issued by public officers relating to Licensee's use or occupancy of the Property; and (iii) with any liens, encumbrances, easements, covenants, conditions, restrictions and servitudes (if any) of record, or of which Licensee has notice, which may be applicable to the Property (collectively, "Legal Requirements") regardless of when they become effective, insofar as they relate to the use or occupancy of the Property by Licensee. This License Agreement shall also be subject to any and all future environmental mitigation agreements with any federal, state or local entity or agency that may relate to the Property. The judgment of any court of competent jurisdiction, or the admission of Licensee in any action or proceeding against Licensee, whether or not PG&E is a party in such action or proceeding, that Licensee has violated any Legal Requirement relating to the use or occupancy of the Property, shall be conclusive of that fact as between PG&E and Licensee. Licensee shall furnish satisfactory evidence of such compliance upon request by PG&E; (b) Use of Property. Licensee covenants and agrees that Licensee shall not in any way interfere or permit any interference with the use by PG&E of the Property. Interference shall include, but not be limited to, any activity by Licensee that places any of PG&E's gas or electric facilities in violation of any of the applicable provisions of General Order Nos. 95 (Overhead Electric), 112 (Gas), and 128 (Underground Electric) of the CPUC or to any other applicable provisions of the laws and regulations of the State of California or other governmental agencies under which the operations of utility facilities are controlled or regulated, including, but not limited to the CPUC and the Federal Energy Regulatory Commission ("FERC");

(c) Licensee's Activities. Licensee covenants and agrees that Licensee shall conduct Licensee's Activities in such a manner so as to protect the Property, PG&E's utility facilities, the environment and human health and safety. Licensee shall not cause or permit any Hazardous Substances, as defined herein, to be brought upon, produced, stored, used, discharged or disposed of on, or in the vicinity of,the Property. Notwithstanding the foregoing, Licensee may store or use on the License Area (i) Hazardous Substances specifically authorized by PG&E, at PG&E's sole and absolute discretion and subject to whatever conditions PG&E may impose, pursuant to the Work Plan as described in Section 5(g) below, in the manner so authorized, and (ii) gasoline, diesel or other fuel contained within the gas tanks of automobiles or trucks on the Property. Licensee agrees to store and/or use all such authorized Hazardous Substances in 02898.999.0029.b 4

compliance with all Legal Requirements. In the event PG&E determines that Licensee's Activities in any way endanger the Property, PG&E's utility facilities, the environment, or human health and safety, PG&E may, at PG&E's sole discretion, require that the Licensee halt Licensee's Activities until appropriate protective measures may be taken to eliminate such endangerment to PG&E's satisfaction. Licensee shall hold PG&E harmless from any claims in any way resulting from any delay under this paragraph. PG&E's right to halt activities under this section shall not in any way affect or alter Licensee's insurance or indemnity obligations under this License Agreement, nor shall it relieve Licensee from any of Licensee's obligations hereunder that pertain to health, safety, or the protection of the environment; (d) Site Security. Licensee hereby covenants and agrees that Licensee and Licensee's Representatives shall comply with any and all PG&E's on-site safety and security requirements and any other rules and regulations that may be applicable to Licensee's Activities at the Property. Licensee covenants and agrees to cooperate with PG&E and abide by any and all orders or instructions issued by PG&E, its employees, agents or representatives. PG&E reserves

'the right to restrict access to the Property in the event of fire, earthquake, storm, riot, civil disturbance, or other casualty or emergency, or in connection with PG&E's response thereto, or if emergency repairs or maintenance are required to PG&E facilities within or in the vicinity of the Property, or otherwise when PG&E deems it advisable to do so, including in connection with events and emergencies occurring or affecting PG&E's business operations located elsewhere than in the immediate vicinity of the Property; (e) Non-Interference: Use Restrictions. Licensee covenants and agrees to coordinate Licensee's Activities regarding the license granted herein to strictly avoid any interference with the use by PG&E of the Property and any adjoining lands owned by PG&E.

Licensee shall not park any vehicle in such a manner to restrict PG&E's access and shall not use the Property for overnight parking or storage of any vehicles, trucks or pieces of equipment. Except with respect to transportation of livestock, activities associated with the management of Licensee's livestock business, or the removal of any deceased livestock, Licensee shall not allow any vehicles on the Property without PG&E's consent, which consent shall be at PG&E's sole and absolute discretion. Furthermore, Licensee covenants and agrees not to dispose of any personal property or materials of any kind, including but not limited to, any vehicles or pieces of equipment on the Property; (f) Fencing. Licensee covenants and agrees to install, repair and maintain fencing and gates on the Property approved by PG&E and in the locations and in the manner reasonably required by PG&E. Licensee covenants and agrees to maintain all fencing in good and proper condition and repair to the satisfaction of PG&E. Licensee shall not erect any buildings, structures or other improvements without PG&E's written consent, which shall be at PG&E's sole and absolute discretion; and, (g) Hazardous Materials: Work Plan. Licensee covenants and agrees to use, store or discharge on the Property, only such Hazardous Materials that are approved in writing by PG&E as set forth below, at PG&E's sole and absolute discretion, prior to any release of such substances. Licensee shall prepare a work plan for the review and approval of PG&E which describes in detail and with specificity the exact substances, including, but not limited 02898.999.0029.b 5

to, all Hazardous Substances, proposed to be used on the Property and the proposed area of exposure and method of application (the "Work Plan"). The Work Plan will be submitted to the following person at PG&E for approval: Rick Hernandez, (805) 595-6376, 4325 So. Higuera, San Luis Obispo, CA 93401. PG&E reserves the right to request Licensee to provide additional information, reports, studies or other documents not included in the Work Plan. Licensee acknowledges and agrees that PG&E's review of the Work Plan is solely for the purpose of protecting PG&E's interests, and shall not be deemed to create any liability of any kind on the part of PG&E, or to constitute a representation on the part of PG&E or any person consulted by PG&E in connection with such review that the Work Plan is adequate or appropriate for any purpose, or complies with applicable Legal Requirements.

(h) Livestock Requirements. Licensee covenants and agrees that Licensee is responsible for the individual health of Licensee's livestock and shall take any and all appropriate steps to insure that proper and timely inoculations are given to protect the overall health of the herd.

Licensee also agrees to diligently and promptly dispose of any dead livestock in accordance with all applicable Legal Requirements. Licensee further shallconduct Licensee's livestock operations in accordance with good and prudent management, and Licensee will not permit the Property to be overgrazed.

(i) Subleasing. No subleasing and or unauthorized use' of the property or its natural resources is allowed. Requests for additional authorized uses of natural resources must be submitted in writing and be approved by PG&E prior to any such use occurring.

(j) Chemical Use. Licensee shall keep-a timely log of the type, amount, and location of any pesticide, fertilizer or herbicide that Licensee uses on PG&E property. The log shall be made available to the Land Stewardship Committee upon request.

(k) Noxious Weeds. Licensee shall cooperate in the control and prevention of noxious weeds and their re-occurrence by performing any and all actions identified by the Land Stewardship Committee as necessary to achieve these ends. The Land Stewardship Committee will be principally responsible for directing noxious weed control activities, including herbicide treatments performed by a certified pest control operator, monitoring and documentation of noxious weed occurrence on the property.

(1) Resource Management. Licensee shall cooperate with the Land Stewardship Committee in the protection of sensitive habitat areas (e.g., riparian zones and coastal bluff scrub habitats), in minimizing loss of soil from erosion, and in providing necessary protections to known cultural sites. Licensee shall be responsible for the timely development and maintenance of any and all facilities, including fencing, gates and distributed water supplies, necessary to accomplish resource management and protection goals, as directed by the Land Stewardship Committee, subject to the additional stipulations presented below [covenants (in) through (q)].

(in) Public Access. Licensee shall support the plan of public access now being developed for thePecho Ranch, and assist PG&E in efforts to minimize conflicts between the public and sustainable agriculture. Grazing management practices may be modified as the Land 02898.999.0029.b 6

Stewardship Committee deems necessary to reduce impacts on public access trails and related facilities, as well as the view shed associated with these public use areas.

(n) Land Stewardship Committee. Licensee shall participate with the Land Stewardship Committee in the development, implementation, and monitoring of management goals for the Pecho Ranch; the principal goal being natural and cultural resource protection and rangeland health.

(o) Approval for Improvements. Licensee shall receive prior approval from Licensor before implementing improvements of any kind on the Ranch.

(p) Cost of Improvements. Unless otherwise agreed in writing by PG&E's Director of Site Services, Licensee shall bear the full cost of any improvements requested by Licensee for his operation.

(q) Licensor Improvements. Licensor shall bear the full cost of any improvement required by the Land Stewardship Committee designed to protect sensitive resource areas, cultural sites, bluff setbacks or other designated area. Licensor may negotiate with Licensee to provide the labor for these improvements.

Unauthorized uses include but are not limited to the following: 1) any commercial or personal consumptive use of native plants or animals (other than forage consumed by livestock); 2) grazing by livestock within any area designated by PG&E as restricted for reasons of natural or cultural resource protection, protection of the primary access road from erosion-related impacts, or to protect the access road viewshed; 3) animal impact that exceeds acceptable levels as determined by PG&E using standard RDM monitoring criteria, 4) facilitating access by third-party individuals without prior notification and proper exercise of all required PG&E security protocols; and 5) expansion, addition, or significant maintenance of infra-structure facilities of any kind without prior written authorization from PG&E.

6. Indemnification; Release.

(a) Licensee shall, to the maximum extent permitted by law, indemnify, protect, defend and hold harmless PG&E, its parent corporation, subsidiaries, affiliates, and their officers, managers, directors, representatives, agents, employees, transferees, successors and assigns (each, an "Indemnitee" and collectively, "Indemnitees") from and against all claims, losses (including, but not limited to, diminution in value), actions, demands, damages, costs, expenses (including, but not limited to, experts fees and reasonable attorneys' fees and costs) and liabilities of whatever kind or nature (collectively, "Claims"), which arise from or are in any way connected with Licensee's Activities, or the entry on, occupancy or use of, the Property by Licensee or Licensee's Representatives, or the exercise by Licensee of Licensee's rights hereunder, or the performance of, or failure to perform, Licensee's duties under this License Agreement, including, but not limited to, Claims arising out of: (a) injury to or death of persons, including but not limited to employees of PG&E or Licensee (and including, but not limited to, injury due to exposure to EMFs and other Potential Environmental Hazards in, on or about the Property); (b) injury to property or other interest of PG&E, Licensee or any third party; (c) violation of any applicable federal, state, or local laws, statutes, regulations, or ordinances, including all Legal Requirements relating to the 02898.999,0029.b 7

environment and including any liability imposed by law or regulation without regard to fault; excepting only with respect to any Indemnitee, to the extent of any Claim arising from the sole negligence or willful misconduct of such Indemnitee.

Without limiting the generality of the foregoing, Licensee shall, to the maximum extent permitted by law, indemnify, protect, defend and hold Indemnitees harmless from and against Claims arising out of or in connection with any labor performed on the Property by, or at the request or for the benefit of, Licensee. In the event any action or proceeding is brought against any Indemnitee for any Claim against which Licensee is obligated to indemnify or provide a defense hereunder, Licensee upon written notice from PG&E shall defend such action or proceeding at Licensee's sole expense by counsel approved by PG&E, which approval shall not be unreasonably withheld, conditioned or delayed.

(b) Licensee acknowledges that all Claims arising out of or in any way connected with releases or discharges of a Hazardous Substance, or the exacerbation of a Potential Environmental Hazard, occurring as a result of or in connection with Licensee's use or occupancy of the Property, Licensee's Activities or the activities of any of Licensee's Representatives, and all costs, experises and liabilities for environmental investigations, monitoring, containment, abatement, removal, repair, cleanup, restoration, remediation and other response costs, including reasonable attorneys' fees and disbursements and any fines and penalties imposed for the violation of any Legal Requirements relating to the environment or human health, are expressly within the scope of the indemnity set forth above.

(c) Licensee's use of the Property shall be at Licensee's sole risk and expense.

Licensee accepts all risk relating to Licensee's occupancy and use of the Property. PG&E shall not be liable to Licensee for, and Licensee hereby waives and releases PG&E and the other Indemnitees from, any and all liability, whether in contract, tort or on any other basis, for any injury, damage, or loss resulting from or attributable to an occurrence on or about the Property, including, but not limited to, any injury to, or death of, any of Licensee's livestock.

(d) Licensee shall, to the maximum extent permitted by law, indemnify, protect, defend and hold Indemnitees harmless against claims, losses, costs (including attorneys' fees and costs), liabilities and damages resulting from the failure of Licensee, or any of Licensee's consultants, contractors or subcontractors, to comply with the insurance requirements set forth in EXHIBIT "B". If Licensee fails to so indemnify, defend or hold harmless any Indemnitee, then at PG&E's option, this License Agreement shall terminate, if such failure continues for five (5) days following the giving of written notice of termination to Licensee, unless within such time such failure is cured to the reasonable satisfaction of PG&E.

(e) The provisions of this Section 6 shall survive the expiration or termination of this License Agreement.

7. Reserved Rights. PG&E reserves the right to use the Property for any and all purposes which will not unreasonably interfere with Licensee's enjoyment of the rights hereby granted. PG&E reserves the right to make use of the Property for such purposes as it may deem necessary or appropriate if, and whenever, in the interest of its service to its patrons or consumers or the public, it shall appear necessary or desirable to do so. Licensee shall not make use of the 02898.999.0029.b 8

Property in any way which will endanger human health or the environment, create a nuisance or otherwise be incompatible with the use of the Property by PG&E or others entitled to use the Property.

8. Compliance: Safety: Insurance. Without notice, PG&E shall have a right to access and inspect the License Area and Licensee's operations at any time to confirm Licensee's compliance with the requirements of this License Agreement and the Legal Requirements. PG&E shall have the right at any time to have a PG&E employee, biologist or other consultant make a detailed inspection of Licensee's practices. Licensee shall procure, carry and maintain in effect throughout the term of this Agreement, the insurance specified in EXHIBIT "B", by this reference made a part hereof, provided that PG&E reserves the right to review and modify the coverages and limits of coverage required and the deductibles in effect from time to time. All insurance shall be written on forms and with insurance carriers acceptable to PG&E. Prior to Licensee's entry onto the Property, and thereafter thirty (30) days prior to the expiration date of any policy, Licensee shall provide PG&E with evidence of the insurance coverage, or continuing coverage, as applicable, required by this License Agreement as more specifically set forth in EXHIBIT "B". Licensee is also responsible for causing Licensee's agents, contractors and subcontractors to comply with the insurance requirements of this License Agreement at all relevant times the insurance specified in EXHIBIT "B".
9. Additional Activities. Licensee shall not perform any activities beyond Licensee's Activities specifically authorized by this License Agreement without the prior written consent of PG&E, which consent shall be at PG&E's sole and absolute discretion, and the prior consent, to the extent required by applicable law or regulation, of any governmental authority having jurisdiction, including, but not limited to, the CPUC or the FERC.
10. Notices. Any notices or communications hereunder shall be in writing and shall be personally delivered, or sent by first class mail, certified or registered, postage prepaid, or by national overnight courier, with charges prepaid for next business day delivery, addressed to the addressee party at the address or addresses listed below, or to such other address or addresses as such party may from time to time designate in writing. Notices shall be deemed received upon actual receipt of the notice by the party being sent the notice, or on the following business day if sent by overnight courier, or on the expiration of three (3) business days after the date of mailing.

If to PG&E:

Claire Mastin Land Services Pacific Gas and Electric Company 02898.999.0029.b 9

4325 So. Higuera San Luis Obispo, CA 93401 (805) 546-3888 With a copy to:

Grant Guerra, Esq.

Pacific Gas and Electric Company P.O. Box 7442, Mail Code B3OA San Francisco, California 94120 Phone No. (415) 973-3728 If to Licensee:

Robert Blanchard, Jr.

12520 Santa Rita Road Cayucos, CA 93430 (805) 995-1164

11. Governina Law: Venue. This License Agreement shall in all respects be interpreted, enforced, and governed by and under the laws of the State of California. PG&E and Licensee agree that the venue of any action, proceeding or counterclaim shall be in the County of San Francisco, California. The covenants of the parties contained in this section shall survive the expiration or termination of this License Agreement.
12. Entire Agreement. This License Agreement supersedes all previous oral and written agreements between and representations by or on behalf of the parties and constitutes the entire agreement of the parties with respect to the subject matter hereof, with the exception of the use of Licensee's mobile home located on the Property which shall be memorialized in a separate lease agreement to be entered into by the parties. This License Agreement may not be amended except by a written agreement executed by both parties.
13. Binding Effect. This License Agreement and the covenants and agreements herein contained shall be binding on, and inure to the benefit of, the parties hereto and their respective heirs, successors and assigns, subject to the limitations on assignment set forth in this License Agreement.
14. Assignment. This License Agreement is personal to Licensee, and Licensee shall not assign, transfer, convey or encumber the license and other rights herein granted or any portion thereof or interest herein.
15. Attorneys' Fees. Should either party bring an action against the other party, by reason of or alleging the failure of the other party with respect to any or all of its obligations hereunder, whether for declaratory or other relief, and including any appeal thereof, then the party which prevails in such action shall be entitled to its reasonable attorneys' fees (of both in-house and outside counsel) and expenses related to such action, in addition to all other recovery or relief A 02898.999.0029.b 10

party shall be deemed to have prevailed in any such action (without limiting the generality of the foregoing) if such action is dismissed upon the payment by the other party of the sums allegedly due or the performance of obligations allegedly not complied with, or if such party obtains substantially the relief sought by it in the action, irrespective of whether such action is prosecuted to judgment.

Attorneys' fees shall include, without limitation, fees incurred in discovery, contempt proceedings, and bankruptcy litigation. The non-prevailing party shall also pay the attorney's fees and costs incurred by the prevailing party in any post-judgment proceedings to collect and enforce the judgment. The covenant in the preceding sentence is separate and several and shall survive the merger of this provision into any judgment on this License Agreement. For purposes hereof, the reasonable fees of PG&E's in-house attorneys who perform services in connection with any such action shall be recoverable, and shall be based on the fees regularly charged by private attorneys with the equivalent number of years of experience in the relevant subject matter area of the law, in law firms in the City of San Francisco with approximately the same number of attorneys as are employed by PG&E's Law Department.

16. No Waiver. Any waiver with respect to any provision of this License Agreement shall not be effective unless in writing and signed by the party against whom it is asserted. The waiver of any provision of this License Agreement by a party shall not be construed as a waiver of a subsequent breach or failure of the same term or condition or as a waiver of any other provision of this License Agreement.
17. No Offsets. Licensee acknowledges that PG&E is executing this License Agreement in its capacity as the owner of real property, and not in its capacity as a public utility company or provider of electricity and natural gas. Notwithstanding anything to the contrary contained herein, no act or omission of PG&E or its employees, agents or contractors as a provider of electricity and natural gas shall abrogate, diminish, or otherwise affect the respective rights, obligations and liabilities of PG&E and Licensee under this License Agreement, Further, Licensee covenants not to raise as a defense to Licensee's obligations under this License Agreement, or assert as a counterclaim or cross-claim in any litigation or arbitration between PG&E and Licensee relating to this License Agreement, any claim, loss, damage, cause of action, liability, cost or expense (including, without limitation, attorneys' fees) arising from or in connection with PG&E's provision of (or failure to provide) electricity and natural gas.
18. No Dedication- No Third Party Beneficiary. The provisions of this License Agreement are for the exclusive benefit of the parties and their successors and assigns, and shall not be deemed to confer any rights upon any person except such parties and their successors and assigns, subject to the limitations on assignment set forth in this License Agreement. No obligation of a party under this License Agreement is enforceable by, or is for the benefit of, any other third parties.

19.\ Captions. The captions in this License Agreement are for reference only and shall in no way define or interpret any provision hereof.

20. Time. Except as otherwise expressly provided herein, the parties agree that as to any obligation or action to be performed hereunder, time is of the essence.

02898.999.0029.b 11

21. Severabiliy. If any provision of this License Agreement shall be invalid or unenforceable, the remainder of this License Agreement shall not be affected thereby, and each provision of this License Agreement shall be valid and enforced to the full extent permitted by law, provided the material provisions of this License Agreement can be determined and effectuated.
22. Counterparts. This License Agreement may be executed in identical counterpart copies, each of which shall be an original, but all of which taken together shall constitute one and the same agreement.
23. Survival. The waivers of claims or rights, the releases and the obligations of Licensee under this License Agreement to indemnify, protect, defend and hold harmless PG&E and other Indemnitees shall survive the expiration or earlier termination of this License Agreement, and so shall all other obligations or agreements of PG&E and Licensee hereunder which by their terms survive the expiration or earlier termination of this License Agreement.
24. Other Documents. Each party agrees to sign any additional documents or permit applications which may be reasonably required to effectuate the purpose of this License Agreement.

Provided, however, that PG&E will not be required to take any action or execute any document that would result in any liability, cost or expense to PG&E.

IN WITNESS WHEREOF, the parties have executed this License Agreement as of the date set forth below each signature, effective upon the Effective Date first written above.

"PG&E" "Licensee" PACIFIC GAS AND ELECTRIC COMPANY, ROBERT BLANCHARD, JR.

a California corporation By: By64, Name: 1<Xren i2 , Name: -'/C,3 7 (, ' -, ,

Its: Y'IAn ov) r v-,A-p Its:

Date: _____- _______ Date: -- Oe*,

EXHIBITS "A" and "B" attached 02898.999.0029.b 12

ON Parce P*

g-t Hg gw, SBE No. 135-40-25c 'N BLANCHARD LICENSE

EXHIBIT B INSURANCE REQUIREMENTS Licensee shall procure, carry and maintain the following insurance coverage:

A. Workers' Compensation and Employers' Liability

1. Workers' Compensation insurance or self-insurance indicating compliance with any applicable labor codes, acts, laws or statutes, state or federal.
2. Employers' Liability insurance shall not be less than One Million Dollars

($1,000,000) for injury or death each accident.

B. Commercial General Liability I. Coverage shall be at least as broad as the Insurance Services Office (ISO)

Commercial General Liability Coverage "occurrence" form, with no coverage deletions.

2. The limit shall not be less than One Million Dollars ($1,000,000) each occurrence/ Two Million Dollars ($2,000,000) aggregate for bodily injury, property damage and personal injury.
3. Coverage shall: a) By "Additional Insured" endorsement add as insureds PG&E, its directors, officers, agents and employees with respect to liability arising out of work performed by or for the Licensee; b) Be endorsed to specify that the Licensee's insurance is primary and that any insurance or self-insurance maintained by PG&E shall not contribute with it.

C. Business Auto

1. Coverage shall be at least as broad as the Insurance Services Office (ISO)

Business Auto Coverage form covering Automobile Liability, code 1 "any 'auto,"

2. The limit shall not be less than One Million Dollars ($1,000,000) each accident for bodily injury and property damage.

D. Additional Insurance Provisions

1. Before commencing performance of work under this License Agreement, Licensee shall furnish PG&E with certificates of insurance and endorsements of all required insurance for Licensee.
2. The documentation shall state that coverage shall not be canceled except after thirty (30) days prior written notice has been given to PG&E.

02899.999.0029.a Exhibit B-1I

3. The documentation must be signed by a person authorized by that insurer to bind coverage on its behalf and shall be submitted to:

Pacific Gas and Electric Company Insurance Department One Market, Spear Tower, Suite 2400 San Francisco, CA 94105 A copy of all such insurance documents shall be sent to PG&E's Land Agent as specified under Notices in the body of the License Agreement.

4. PG&E may inspect the original policies or require complete certified copies, at any time.
5. Upon request, Licensee shall fumish PG&E the same evidence of insurance for Licensee's agents or contractors as PG&E requires of Licensee.

02895.999_0029.a Exhibit B-2

DO NOT RECORD THIS PAGE Los Padres Division San Luis Obispo Land Services Office Operating Dept.: Corporate Real Estate MDB&M, T31S,R1OE and T31S,R11E Section: See Attached Ferc: n/a PG&E Dwg.: none Interest: 111, 22 SBE: 135-40-25c, Parcels 1 through 10

%QC: n/a O# 2023085 Plat: NN-27 & 28, 00-28 JCN: n/a County: San Luis Obispo Prepared: Law/CRE Checked: Law/CRE Revision: 0 File: 96205.220 x-ref: 2231-10-0070 Lease ID #380903 6/15/06

LICENSE AGREEMENT FOR GRAZING AND AGRICULTURAL PURPOSES This License Agreement ("License Agreement") is made and entered into this j day of .. 2006 (the "Effective Date") by PACIFIC GAS AND ELECTRIC COMPANY, a California corporation, hereinafter called "PG&E", and WILLIAM J. MELLO AND FRANK MELLO, JR., hereinafter called "Licensee."

RECITALS:

A. PG&E has the leasehold interest in the real property commonly known as the South Marre Ranch, (Assessor's Parcel Numbers 076-151-005, 006, 007, 010 and 01 1; 076-071-014, 016 and 018; State Board of Equalization No.135-40-23b, Parcels 3 through 5) hereinafter called the "Property", situate in the County of San Luis Obispo, State of California.

B. PG&E and Licensee previously entered into an Agricultural and Cattle Grazing Lease dated June 12, 1990 for the use of the Property, which license expired on October 1, 2005, and thereafter Licensee has been in possession on a holdover basis.

C. Licensee wishes i) to graze cattle; and ii) to plant, cultivate and harvest crops, on a portion of the Property, consisting of three (3) parcels of land containing approximately 4429 acres, as shown on EXHIBIT "A" attached hereto and by this reference made a part hereof (the "License Area"), expressly excluding from the License Area the premises commonly referred to as Parcel R. Licensee shall have a non-exclusive right to use Parcel R for access to the License Area, provided, however, in exercising such access rights Licensee shall in no way interfere with, upon or impede access by Licensor, its employees, agents or assigns.

D. PG&E is willing to grant such permission subject to the terms and conditions set forth herein.

NOW, THEREFORE, for good and valuable consideration, PG&E and Licensee hereby agree as follows:

1. Temporary Grazing License. Subject to the terms and conditions set forth in this License Agreement, PG&E hereby confers to Licensee a temporary, personal, non-exclusive and non-possessory right and license to enter, and for Licensee to allow Licensee's employees, contractors, and subcontractors ("Licensee's Representatives") to enter, the License Area solely for the following purposes:

i) Cattle grazing and certain routine activities directly supporting cattle grazing (e.g.,

pasture and herd management, herding and gathering, shipping to market, FPG.&E co6, 02898.999.0029.b 02898999.029.bL LL OPY J I

maintenance and development of grazing infiastructure such as fencing and water developments) in connection with Licensee's livestock business'; and ii) cultivating, planting, maintaining (including irrigation), and harvesting of crops.

The above-referenced activities are hereafter referred to as "Licensee's Activities," This License Agreement gives Licensee a license only and does not constitute a grant by PG&E of any ownership, leasehold, easement or other similar property interest or estate.

2. Fees. Licensee shall pay to PG&E at the address set forth herein, or at such other place as PG&E shall designate in writing, PG&E's standard administrative fee of Three Hundred Fifty Dollars ($350.00) plus Twenty Thousand Dollars ($20,000.00) annual fee, totaling Twenty Thousand Three Hundred Fifty dollars ($20,350.00). The administrative fee shall be paid concurrently with the execution of this License Agreement. The annual fee shall be paid in two equal installments of Ten Thousand Dollars ($10,000.00), on or before the first day of April and October of each calendar year. The total amount of the annual fee shall be paid as set forth below.

Period Date Annual Fee First Year September, 2006-October, 2007 $20,000.00 Second Year September, 2007-October, 2008 $20,000.00 Third Year September, 2008-October, 2009 $20,000.00 Fourth Year September, 2009-October, 2010 $20,000.00 Fifth Year September, 2010-October, 2011 $20,000.00

3. Term: Termination: Surrender. This License Agreement shall be for a term offive (5) years commencing on the Effective Date of this License Agreement, unless sooner terminated Provided however, that PG&E may terminate this License Agreement, at any time, for any reason or no reason, including, without limitation, pursuant to the provisions of General Order No. 69-C of the California Public Utilities Commission I.tho."CPUC"), upon ninety (90) days written notice to the Licensee. (Licensee to initial hereV\*) Y*4N ). In the event that PG&E terminates this License Agreement, Licensee shall be entitleW to a refunid of any fees allocable to the period after the date that Licensee vacates the Property. Upon the expiration or termination of this License Agreement, at Licensee's sole cost and expense and as directed by PG&E, Licensee shall remove all of Licensee's livestock, plantings, crops, personal property and all debris; and shall repair and restore the Property~as nearly as possible to the condition that existed prior to Licensee's entry hereunder. As part of such restoration, at PG&E's election, Licensee shall remove all fencing and other improvements installed by Licensee. Licensee shall bear the entire cost of such repair, removal and restoration, and PG&E shall bear no liability for any costs caused 1Sustained or prolonged pasturing of horses on the marine terrace portion of the property will not be allowed, for reasons relating to the protection of rangeland health. Up to three (3) horses may be stabled at the corral complex, and there maintained at Licensee's expense, for use in day-to-day activities associated with Licensee's cattle business. Seasonally, as necessary to support routine short-term livestock handling activities, Licensee may pasture additional horses on the property, including the marine terrace fields, for not more than two weeks, twice a year, during which the number of horses on the property will at no time exceed a total often (10) animals.

02898.999.0029.b 2

or related to any termination of this License Agreement. In the event Licensee fails to remove Licensee's livestock, plantings, crops or personal property or fails to repair or restore the Property within said ninety (90) day period, PG&E may elect to remove Licensee's livestock, plantings, crops, and personal property and effect such removal, repair or restoration as necessary and recover from Licensee such costs and expenses as may result. Licensee shall pay such costs and expenses within ten (10) days of receipt of an invoice from PG&E. Licensee further acknowledges that PG&E's right to terminate this License Agreement shall not be affected by any improvements which Licensee has made to the License Area regardless of the nature or extent of those improvements. Licensee understands and agrees that notwithstanding that Licensee may make a substantial investment in planting and cultivating plantings or crops, and that such plantings or crops may require a number of years to come to peak production, Licensee shall not be entitled to any compensation whatsoever for the termination of this License by PG&E at any time for any reason on ninety (90) days written notice. Licensee's obligations under this Section shall survive the expiration or termination of this License Agreement.

4. Condition of the Property. Licensee accepts the Property "as is", in its existing physical condition, without warranty by PG&E or any duty or obligation on the part of PG&E to maintain the Property. Licensee acknowledges that one or more of the following (collectively, "Potential Environmental Hazards") may be located in, on or underlying the Property:

(a) electric fields, magnetic fields, electromagnetic fields, electromagnetic radiation, power frequency fields, and extremely low frequency fields, however designated, and whether emitted by electric transmission lines, other distribution equipment or otherwise

("EMiFs");

(b) Hazardous Substances (as hereinafter defined). For purposes hereof, the term "Hazardous Substances" means any hazardous or toxic material or waste which is or becomes regulated by Legal Requirements, as defined herein, relating to the protection of human health or the environment, including, but not limited to, laws, requirements and regulations pertaining to reporting, licensing, permitting, investigating and remediating emissions, discharges, releases or threatened releases of such substances into the air, surface water, or land, or relating to the manufacture, processing, distribution, use, treatment, storage, disposal, transport or handling of such substances. Without limiting the generality of the foregoing, the term Hazardous Substances includes any material or substance:

(1) now or hereafter defined as a "hazardous substance," "hazardous waste," "hazardous material," "extremely hazardous waste," "restricted hazardous waste" or "toxic substance" or words of similar import under any applicable local, state or federal law or under the regulations adopted or promulgated pursuant thereto, including, without limitation, the Comprehensive Environmental Response, Compensation and Liability Act of 1980,42 U.S.C.

§§9601 et sem. ("CERCLA"); the Resource Conservation and Recovery Act of 1976, 42 U.S.C.

§§6901 et seq.; the Clean Air Act, 42 U.S.C. §§7401 et seq.; the Clean Water Act, 33 U.S.C.

§§ 1251 et seq.; the Toxic Substance Control Act, 15 U.S.C. §§2601 et seq.; the Federal Insecticide, Fungicide, and Rodenticide Act, 7 U.S.C. §§136 et seq.; the Atomic Energy Act of 1954, 42 U.S.C.

§§2014 et seM.; the Nuclear Waste Policy Act of 1982, 42 U.S.C. §§l0101 et seM.; the California Hazardous Waste Control Law, Cal. Health and Safety Code §§25 100 et seq.; the Porter-Cologne 02898.999.0029.b 3

Water Quality Control Act, Cal. Water Code §§ 13000 e set.; the Carpenter-Presley-Tanner Hazardous Substance Account Act (Health and Safety Code §§25300 et seq.); and the Medical Waste Management Act (Health and Safety Code §§25015 et seq.); or (2) which is toxic, explosive, corrosive, flammable, infectious, radioactive, carcinogenic, mutagenic or otherwise hazardous, and is now or hereafter regulated as a Hazardous Substance by the United States, the State of California, any local governmental authority or any political subdivision thereof; or (3) the presence of which on the Property poses or threatens to pose a hazard to human health or safety or to the environment; or (4) which contains gasoline, diesel fuel or other petroleum hydrocarbons; or (5) which contains lead-based paint or other lead contamination, polychlorinated biphenyls ("PCBs") or asbestos or asbestos-containing materials or urea formaldehyde foam insulation; or (6) which contains radon gas; (c) fuel or chemical storage tanks, energized electrical conductors or equipment, or natural gas transmission or distribution pipelines; and (d) other potentially hazardous substances, materials, products or conditions.

Licensee shall take reasonable precautions to protect Licensee's Representatives and Licensee's livestock, plantings or crops from risks of harm from Potential Environmental Hazards.

Licensee acknowledges that it has previously evaluated the condition of the Property and the License Area and all matters affecting the suitability of the Property for the uses permitted by this License Agreement, including, but not limited to, the Potential Environmental Hazards listed herein.

5. Licensee's Covenants.

(a) Legal Compliance. Licensee covenants and agrees, at Licensee's sole cost and expense, promptly to comply, and cause all of Licensee's Representatives to comply, with (i) all laws, statutes, ordinances, rules, regulations, requirements or orders of municipal, state, and federal authorities now in force or that may later be in force, (ii) with the conditions of any permit, occupancy certificate, license or other approval issued by public officers relating to Licensee's use or occupancy of the Property; and (iii) with any liens, encumbrances, easements, covenants, conditions, restrictions and servitudes (if any) of record, or of which Licensee has notice, which may be applicable to the Property (collectively, "Legal Requirements") regardless of when they become effective, insofar as they relate to the use or occupancy of the Property by Licensee. This License Agreement shall also be subject to any and all future environmental mitigation agreements with any federal, state or local entity or agency that may relate to the Property. The judgment of any court of competent jurisdiction, or the admission of Licensee in any action or proceeding against 02898.999.0029.b 4

Licensee, whether or not PG&E is a party in such action or proceeding, that Licensee has violated any Legal Requirement relating to the use or occupancy of the Property, shall be conclusive of that fact as between PG&E and Licensee. Licensee shall furnish satisfactory evidence of such comipliance upon request by PG&E; (b) Use of PropeMt. Licensee covenants and agrees that Licensee shall not in any way interfere or permit any interference with the use by PG&E of the Property. Interference shall include, but not be limited to, any activity by Licensee that places any of PG&E's gas or electric facilities in violation of any of the applicable provisions of General Order Nos. 95 (Overhead Electric), 112 (Gas), and 128 (Underground Electric) of the CPUC or to any other applicable provisions of the laws and regulations of the State of California or other governmental agencies under which the operations of utility facilities are controlled or regulated, including, but not limited to the CPUC and the Federal Energy Regulatory Commission ("FERC");

(c) Licensee's Activities. Licensee covenants and agrees that Licensee shall conduct Licensee's Activities in such a manner so as to protect the Property, PG&E's utility facilities, the environment and human health and safety. If PG&E so requests, Licensee shall provide an environmental study, at Licensee's sole cost and expense, that specifies the potential impact of Licensee's Activities on the environment and human health and safety. Licensee shall not cause or permit any Hazardous Substances, as defined herein, to be brought upon, produced, stored, used, discharged or disposed of on, or in the vicinity of, the Property. Notwithstanding the foregoing, Licensee may store or use 'on the License Area (i) Hazardous Substances specifically authorized by PG&E, at PG&E's sole and absolute discretion and subject to whatever conditions PG&E may impose, pursuant to the Work Plan as described in Section 5(g) below, in the manner so authorized, and (ii) gasoline, diesel or other fuel contained within the gas tanks of automobiles or trucks on the Property, Licensee agrees to store and/or use all such authorized Hazardous Substances in compliance with all Legal Requirements. In the event PG&E determines that Licensee's Activities in any way endanger the Property, PG&E's utility facilities, the environment, or human health and safety, PG&E may, at PG&E's sole discretion, require that the Licensee halt Licensee's Activities until appropriate protective measures may be taken to eliminate such endangerment to PG&E's satisfaction. Licensee shall hold PG&E harmless from any claims in any way resulting from any delay under this paragraph. PG&E's right to halt activities under this section shall not in any way affect or alter Licensee's insurance or indemnity obligation's under this License Agreement, nor shall it relieve Licensee from any of Licensee's obligations hereunder that pertain to health, safety, or the protection of the environment; (d) Site Securt. Licensee hereby covenants and agrees that Licensee and Licensee's Representatives shall comply with any and all of PG&E's on-site safety and security requirements and any other rules and regulations that may be applicable to Licensee's Activities at the Property. Licensee covenants and agrees to cooperate with PG&E. and abide by any and all orders or -instructions issued by PG&E, its employees, agents or representatives. PG&E reserves the right to restrict access to the Property in the event of fire, earthquake, storm, riot, civil disturbance, or other casualty or emergency, or in connection with PG&E's response thereto, or if emergency repairs or maintenance are required to PG&E facilities within or in the vicinity of the Property, or otherwise when PG&E deems it advisable to do so, including in connection with 02898.999,0029.b5 5

events and emergencies occurring or affecting PG&E's business operations located elsewhere than in the immediate vicinity of the Property; (e) Non-Interference: Use Restrictions. Licensee covenants and agrees to coordinate Licensee' s Activities regarding the license granted herein to strictly avoid any interference with the use by PG&E of the Property and any adjoining lands owned by PG&E.

Licensee shall not park any vehicle in such a manner to restrict PG&E's access and shall not use the Property for overnight parking or storage of any vehicles, trucks or pieces of equipment, except those used in direct support of Licensee's activities on a day-to-day basis, or required for seasonal activities which make it reasonable and necessary to store them on the property (e.g., farm equipment such as tractors, ATV's, cultivation and seeding equipment). Except with respect to transportation of livestock, activities associated with the management of Licensee's livestock business, the removal of any deceased livestock, and activities associated with the management of Licensee' s farming business Licensee shall not allow any vehicles on the Property without PG&E's consent, which consent shall be at PG&E's sole and absolute discretion. Furthermore, Licensee covenants and agrees not to dispose of any personal property or materials of any kind, including but not limited to, any vehicles or pieces of equipment on the Property; (f) Fencing. Licensee covenants and agrees to install, repair and maintain fencing and gates on the Property approved by PG&E and in the locations and in the manner reasonably required by PG&E. Licensee covenants and agrees to maintain all fencing in good and proper condition and repair to the satisfaction of PG&E, except that i) Licensee shall have no obligation to repair damage to fencing caused by any negligent or wrongful act by PG&E and its employees and contractors; and ii) with respect to the fencing installed along the access road to the plant site, Licensee will, at Licensee's sole risk and expense, repair any damage to such access road fencing caused by Licensee's operations on the Property and PG&E will replace wire on such access road fencing, damaged by corrosive action of salt air. Licensee shall not erect any buildings, structures or other improvements; (g) Hazardous Materials: Work Plan. Licensee covenants and agrees to use, store or discharge on the Property, only such Hazardous Materials that are approved in writing by PG&E as set forth below, at PG&E's sole and absolute discretion, prior to any release of such substances. Licensee shall prepare a work plan for the review and approval of PG&E which describes in detail and with specificity the exact substances, including, but not limited to, all Hazardous Substances, proposed to be used on the Property and the proposed area of exposure and method of application (the "Work Plan"). The Work Plan will be submitted on or before the first day of April and October of each calendar year] to the following person at PG&E for approval: Rick Hernandez, (805) 595-6376, 4325 So. Higuera, San Luis Obispo, CA 93401.

PG&E reserves the right to request Licensee to provide additi 'onal information, reports, studies or other documents not included in the Work Plan. Licensee acknowledges and agrees that PG&E's review of the Work Plan is solely for the purpose of protecting PG&E's interests, and shall not be deemed to create any liability of any kind on the part of PG&E, or to constitute a representation on the part of PG&E or any person consulted by PG&E in connection -withsuch review that the Work Plan is adequate or appropriate for any purpose, or compies with applicable Legal Requirements.

02898.999,0029.b6 6

(h) Livestock Requirements. Licensee covenants and agrees that Licensee is responsible for the individual health of Licensee's livestock and shall take any and all appropriate steps to insure that proper and timely inoculations are given to protect the overall health of the herd.

Licensee also agrees to diligently and promptly dispose of any dead livestock in accordance with all applicable Legal Requirements. Licensee further shall conduct Licensee's livestock operations in accordance with good and prudent management, and Licensee will not permit the Property to be overgrazed.

(i) Water Use. Licensee shall have the right to utilize water from the existing diversion of Pecho Creek and Vineyard Creek for use in supplying irrigation water for Licensee's farmidng activities and from no other location, and Licensee covenants and agrees to maintain, to PG&E's satisfaction, this diversion and any related water conveyance facilities (pipelines, ditches) related thereto. PG&E makes no representation or warranty regarding the quantity of water, or the quality or potability of the water, and Licensee's use of such water shall be at Licensee's sole risk.

Licensee covenants and agrees to use prudent and industry accepted methods of controlling and monitoring such water use, and Licensee shall not allow waste or excess run-off of water.

(j) Subleasing. No sub-licensing, subleasing and or unauthorized use 2 of the License Area or its natural resources is allowed. Requests for additional authorized uses of natural resources must be submitted in writing to PG&E's Director of Site Services and be approved prior to any such use occurring.

(k) Chemical Use. Licensee shall keep a timely log of the type, amount, and location of any pesticide, fertilizer or herbicide that Licensee uses 'on PG&E property. The log shall be submitted annually to the Land Stewardship Committee and made available upon request.

(1) Noxious Weeds. Licensee shall cooperate in the control and prevention of noxious weeds and their re-occurrence by performing any and all actions identified by the Land Stewardship Committee as necessary to achieve these ends. The Land Stewardship Committee will be principally responsible for directing noxious weed control activities, including herbicide treatments performed by a certified pest control operator, monitoring and documentation of noxious weed occurrence on the License Area.

(in) Resource Management. Licensee shall cooperate with the Land Stewardship Committee in the protection of sensitive habitat areas (e.g., riparian zones and coastal bluff scrub habitats), in minimizing loss of soil from erosion, and in providing necessary protections to known cultural sites. Licensee shall be responsible for the timely development and maintenance of any and all facilities, including fencing, gates and distributed water supplies, necessary to accomplish 2

Unauthorized uses include but are not limited to the following: 1) any commercial or personal consumptive use of native plants or animals (other than forage consumed by livestock); 2) grazing by livestock within any area designated by PG&E as restricted for reasons of natural or cultural resource protection, protection of the primary access road from erosion-related impacts, or to protect the access road viewshed; 3) animal impact that exceeds acceptable levels as determined by PG&E using standard RDM monitoring criteria, 4) facilitating access by third-party individuals without prior notification and proper exercise of all required PG&E security protocols; and 5) expansion, addition, or significant maintenance of infra-structure facilities of any kind without prior written authorization from PG&E.

02898,999.0029.b7 7

resource management and protection goals, as directed by the Land Stewardship Committee, subject to the additional stipulations presented below, covenants (o) through (s).

(n) Public Access. Licensee shall support the plan of public access now being developed for the Pecho Coast Trail, and any future public access program of PG&E. Licensee agrees to assist PG&E in efforts to minimize conflicts between the public and sustainable agriculture. Grazing management practices may be modified as the Land Stewardship Committee deems necessary to reduce impacts on public access trails and related facilities, as well as the view shed associated with these public use areas.

(o) Land Stewardship Committee. Licensee shall participate with the Land Stewardship Committee in the development, implementation, and monitoring of management goals for the South Ranch; the principal goal being natural and cultural resource protection and rangeland health.

(p) Approval for Improvements. Licensee shall receive prior approval from Licensor before implementing improvements of any kind on the License Area.

(q) Cost of Improvements. Unless otherwise agreed in writing by PG&E's Director of Site Services, Licensee shall bear the full cost of any improvements requested by Licensee for Licensee's operation.

(r) Licensor Improvements. Licensor shall bear the full cost of any improvement required by the Land Stewardship Committee designed to protect sensitive resource areas, cultural sites, bluff setbacks or other designated area. Licensor may negotiate with Licensee to provide the labor for these improvements.

6. Indemnification: Release.

(a) Licensee shall, to the maximum extent permitted by law, indemnify, protect, defend and hold harmless PG&E, its parent corporation, subsidiaries, affiliates, and their officers, managers, directors, representatives, agents, employees, transferees, successors and assigns (each, an "Indemnitee" and collectively, "Indemnitees") from and against all claims, losses (including, but not limited to, diminution in value), actions, demands, damages, costs, expenses (including, but not limited to, experts fees and reasonable attorneys' fees and costs) and liabilities of whatever kind or nature (collectively, "Claims"), which arise from or are in any way connected with Licensee's Activities, or the entry on, occupancy or use of, the Property by Licensee or Licensee's Representatives, or the exercise by Licensee of Licensee's rights hereunder, or the performance of, or failure to perform, Licensee's duties under this License Agreement, including, but not limited to, Claims arising out of: (a) injury to or death of persons, including but not limited to employees of PG&E or Licensee (and including, but not limited to, injury due to exposure to EMNs and other Potential Environmental Hazards in, on or about the Property); (b) injury to property or other interest of PG&E, Licensee or any third party; (c) violation of any applicable federal, state, or local laws, statutes, regulations, or ordinances, including all Legal Requirements relating to the environment and including any liability imposed by law or regulation without regard to fault; 02898.999.0029.b 8

excepting only with respect to any Indemnitee, to the extent of any Claim arising from the sole negligence or willful misconduct of such Indemnitee.

Without limiting the generality of the foregoing, Licensee shall, to the maximum extent permitted by law, indemnify, protect, defend and hold Indemnitees harmless from and against Claims arising out of or in connection with any labor performed on the Property by, or at the request or for the benefit of, Licensee. In the event any action or proceeding is brought against any Indemnitee for any Claim against which Licensee is obligated to indemnify or provide a defense hereunder, Licensee upon written notice from PG&E shall defend such action or proceeding at Licensee's sole expense by counsel approved by PG&E, which approval shall not be unreasonably withheld, conditioned or delayed.

(b) Licensee acknowledges that all Claims arising out of or in any way connected with releases or discharges of a Hazardous Substance, or the exacerbation of a Potential Environmental Hazard, occurring as a result of or in connection with Licensee's use or occupancy of the Property, Licensee's Activities or the activities of any of Licensee's Representatives, and all costs, expenses and liabilities for environmental investigations, monitoring, containment, abatement, removal, repair, cleanup, restoration, remediation and other response costs, including reasonable attorneys' fees and disbursements and any fines and penalties imposed for the violation of any Legal Requirements relating to the environment or human health, are expressly within the scope of the indemnity set forth above.

(c) Licensee's use of the Property shall be at Licensee's sole risk and expense.

Licensee accepts all risk relating to Licensee's occupancy and use of the Property. PG&E shall not be liable to Licensee for, and Licensee hereby waives and releases PG&E and the other Indemnitees from, any and all liability, whether in contract, tort or on any other basis, for any injury, damage, or loss resulting from or attributable to an occurrence on or about the Property, including, but not limited to, any injury to, or death of, any of Licensee's livestock and any damage to Licensee's plantings or crops.

(d) Licensee shall, to the maximum extent permitted by law, indemnify, protect defend and hold Indemnitees harmless against claims, losses, costs (including attorneys' fees and costs), liabilities and damages resulting from the failure of Licensee, or any of Licensee's consultants, contractors or subcontractors, to comply with the insurance requirements set forth in EXHIBIT "B". If Licensee fails to so indemnify, defend or hold harmless any Indemnitee, then at PG&E's option, this License Agreement shall terminate, if such failure continues for five (5) days following the giving of written notice of termination to Licensee, unless within such time such failure is cured to the reasonable satisfaction of PG&E.

(e) The provisions of this Section 6 shall survive the expiration or termination of this License Agreement.

7. Reserved Rights. PG&E reserves the right to use the Property for any and all purposes which will not unreasonably interfere with Licensee's enjoyment of the rights hereby granted. PG&E reserves the right to make use of the Property for such purposes as it may deem necessary or appropriate if, and whenever, in the interest of its service to its patrons or consumers or the public, it shall appear necessary or desirable to do so. Licensee shall not make use of the 02898.999.0029.b 9

Property in any way which will endanger human health or the environment, create a nuisance or otherwise be incompatible with the use of the Property by PG&E or others entitled to use the Property.

8. Compliance:, Safety: Insurance. Without notice, PG&E shall have a right to access and inspect the License Area and Licensee's operations at any time to confirm Licensee's compliance with the requirements of this License Agreement and the Legal Requirements. PG&E shall have the right at any time to have a PG&E employee, biologist or other consultant make a detailed inspection of Licensee's practices. Licensee shall procure, carry and maintain in effect throughout the term of this Agreement, the insurance specified in EXHMIIT "B", by this reference made a part hereof, provided that PG&E reserves the right to review and modify the coverages and limits of cover-age required and the deductibles in effect from time to time. All insurance shall be written on forms and with insurance carriers acceptable to PG&E. Prior to Licensee's entry onto the Property, and thereafter thirty (30) days prior to the expiration date of any policy, Licensee shall provide PG&E with evidence of the insurance coverage, or continuing coverage, as applicable, required by this License Agreement as more specifically set forth in EXHIBIT "B". Licensee is also responsible for causing Licensee's agents, contractors and subcontractors to comply with the insurance requirements of this License Agreement at all relevant times the insurance specified in EXHIBIT "B".
9. Additional Activities. Licensee shall not perform any activities beyond Licensee's Activities specifically authorized by this License Agreement without the prior written consent of PG&E, which consent shall be at PG&E's sole and absolute discretion, and the prior consent, to the extent required by applicable law or regulation, of any governmental authority having jurisdiction, including, but not limited to, the CPUC or the FERC.
10. Notices. Anyv notices or commumnications hereunder shall be in writing and shall be personally delivered, or sent by first class mail, certified or registered, postage prepaid, or by national overnight courier, with charges prepaid for next business day delivery, addressed to the addressee party at the address or addresses listed below, or to such other address or addresses as such party may from time to time designate in writing. Notices shall be deemed received upon actual receipt of the notice by the party being sent the notice, or on the following business day if sent by overnight courier, or on the expiration of three (3) business days after the date of mailing.

If to PG&E:

Claire Mastin Land Services Pacific Gas and Electric Company 02898.999.0029.b 110

4325 So. H-iguera San Luis Obispo, CA 93401 (805) 546-3888 With a copy to:

Grant Guerra, Esq.

Pacific Gas and Electric Company P.O. Box 7442, Mail Code B30A San Francisco, California 94120 Phone No. (415) 973-3728 If to Licensee:

William J. Mello and Frank Mello, Jr.

P.O, Box 370 Avila Beach, CA 93424 (805) 215-2403

11. Governing Law: Venue. This License Agreement shall in all respects be interpreted, enforced, and governed by and under the laws of the State of California. PG&E and Licensee agree that the venue of any action, proceeding or counterclaim shall be in the County of San Francisco, California. The covenants of the parties contained in this section shall survive the expiration or termination of this License Agreement.

12 . Entire Amrement. This License Agreement supersedes all previous oral and written agreements between and representations by or on behalf of the parties and constitutes the entire agreement of the parties with respect to the subject matter hereof. This License Agreement may not be amended except by a written agreement executed by both parties.

13. Binding Effect. This License Agreement and the covenants and agreements herein contained shall be binding on, and inure to the benefit of, the parties hereto and their respective heirs, successors and assigns, subject to the limitations on assignment set forth in this License Agreement.
14. Assignment. This License Agreement is personal to Licensee, and Licensee shall not assign, transfer, convey or encumber the license and other rights herein granted or any portion thereof or interest herein.
15. Attorneys' Fees. Should either party bring an action against the other party, by reason of or alleging the failure of the other party with respect to any or all of its obligations hereunder, whether for declaratory or other relief, and including any appeal thereof, then the party which prevails in such action shall be entitled to its reasonable attorneys' fees (of both in-house and outside counsel) and expenses related to such action, in addition to all other recovery or relief. A 02898.999.0029.b 1 I I

party shall be deemed to have prevailed in any such action (without limiting the generality of the foregoing) if such action is dismissed upon the payment by the other party of the sums allegedly due or the performance of obligations allegedly not complied with, or if such party obtains substantially the relief sought by it in the action, irrespective of whether such action is prosecuted to judgment.

Attorneys' fees shall include, without limitation, fees incurred in discovery, contempt proceedings, and bankruptcy litigation. The non-prevailing party shall also pay the attorney's fees and costs incurred by the prevailing party in any post-judgment proceedings to collect and enforce the judgment. The covenant in the preceding sentence is separate and several and shall survive the merger of this provision into anyjudgment on this License Agreement. For purposes hereof, the reasonable fees of PG&E's in-house attorneys who perform services in connection with any such action shall be recoverable, and shall be based on the fees regularly charged by private attorneys with the equivalent number of years of experience in the relevant subject matter area of the law, in law firms in the City of San Francisco with approximately the same number of attorneys as are employed by PG&E's Law Department.

16. No Waiver. Any waiver with respect to any provision of this License Agreement shall not be effective unless in writing and signed by the party against whom it is asserted. The waiver of any provision of this License Agreement by a party shall not be construed as a waiver of a subsequent breach or failure of the same term or condition or as a waiver of any other provision of this License Agreement.
17. No Offsets. Licensee acknowledges that PG&E is executing this License Agreement in its capacity as the owner of real property, and not in its capacity as a public utility company or provider of electricity and natural gas. Notwithstanding anything to the contrary contained herein, no act or omission of PG&E or its employees, agents or contractors as a provider of electricity and natural gas shall abrogate, diminish, or otherwise affect the respective rights, obligations and liabilities of PG&E and Licensee under this License Agreement. Further, Licensee covenants not to raise as a defense to Licensee's obligations under this License Agreement, or assert as a counterclaim or cross-claimnin any litigation or arbitration between PG&E and Licensee relating to this License Agreement, any claim, loss, damage, cause of action, liability, cost or expense (including, without limitation, attorneys' fees) arising from or in connection with PG&E's provision of (or failure to provide) electricity and natural gas.
18. No Dedication: No Third Party Beneficiary. The provisions of this License Agreement are for the exclusive benefit of the parties and their successors and assigns, and shall not be deemed to confer any rights upon any person except such parties and their successors and assigns, subject to the limitations on assignment set forth in this License Agreement. No obligation of a party under this License Agreement is enforceable by, or is for the benefit of, any other third parties.
19. Captions. The captions in this License Agreement are for reference only and shall in no way define or interpret any provision hereof.
20. Time. Except as otherwise expressly provided herein, the parties agree that as to any obligation or action to be performed hereunder, time is of the essence.

02898.999,0029.b 12

21. Severability. If any provision of this License Agreement shall be invalid or unenforceable, the remainder of this License Agreement shall not be affected thereby, and each provision of this License Agreement shall be valid and enforced to the full extent permitted by law, provided the material provisions of this License Agreement can be determined and effectuated.
22. Counterparts. This License Agreement may be executed in identical counterpart copies, each of which shall be an original, but all of which taken together shall constitute one and the same agreement.
23. Survival. The waivers of claims or rights, the releases and the obligations of Licensee under this License Agreement to indemnify, protect, defend and hold harmless PG&E and other Indernnitees shall survive the expiration or earlier termination of this License Agreement, and so shall all other obligations or agreements of PG&E and Licensee hereunder which by their terms survive the expiration or earlier termination of this License Agreement.
24. Other Documents. Each party agrees to sign any additional documents or permit applications which may be reasonably required to effectuate the purpose of this License Agreement.

Provided, however, that PG&E will not be required to take any action or execute any document that would result in any liability, cost or expense to PG&E.

02898.999.0029.b 13

IN WITNESS WHEREOF, the parties have executed this License Agreement as of the date set forth below each signature, effective upon the Effective Date first written above.

"Licensee" "Licensee" Frank Mello, Jr.

Date: Ic L- - O16,,

Q- Date: 10""- 06 PACIFIC GAS AND ELECTRIC COMPANY, a California corporation By: ,&- .

Karen D. Cochran Manager, Corporate Real Estate Date: /6/~~A/i A EXHIBITS "A" and "B" attached 02898.999.0029.b 14

EXMBIiT B INSURANCE REQUIREMEENTS Licensee shall procure, carry and maintain the following insurance coverage:

A. Workers' Compensation and Employers' Liability

1. Workers' Compensation insurance or self-insurance indicating compliance with any applicable labor codes, acts, laws or statutes, state or federal.
2. Employers' Liability insurance shall not be less than One Million Dollars

($1,000,000) for injury or death each accident.

B. Commercial General Liability

1. Coverage shall be at least as broad as the Insurance Services Office (ISO)

Commercial General Liability Coverage "occurrence" form, with no coverage deletions.

2. The limit shall not be less than One Million Dollars ($1,000,000) each occurrence! Two Million Dollars ($2,000,000) aggregate for bodily injury, property damage and personal injury.
3. Coverage shall: a) By "Additional Insured" endorsement add as insureds PG&E, its directors, officers, agents and employees with respect to liability arising out of work performed by or for the Licensee; b) Be endorsed to specify that the Licensee's insurance is primary and that any insrneo self-insurance maintained by PG&E shall not contribute with it.

C. Business Auto

1. Coverage shall be at least as broad as the Insurance Services Office (ISO)

Business Auto Coverage form covering Automobile Liability, code I "any auto."

2. The limit shall not be less than One Million Dollars ($1,000,000) each accident for bodily injury and property damage.

D. Additional Insurance Provisions

1. Before commencing performance of work under this License Agreement, Licensee shall furnish PG&E with certificates of insurance and endorsements of all required insurance for Licensee.
2. The documentation shall state that coverage shall not be canceled except after thirty (30) days prior written notice has been given to PG&E.

02899.999.0029.aEx Exhibit i tB-B- I

3. The documentation must be signed by a person authorized by that insurer to bind coverage on its behalf and shall be submitted to:

Pacific Gas and Electric Company Insurance Department One Market, Spear Tower, Suite 2400 San Francisco, CA 94105 A copy of all such insurance documents shall be sent to PG&E's Land Agent as specified under Notices in the body of the License Agreement.

4. PG&E may inspect the original policies or require complete certified copies, at any time.
5. Upon request, Licensee shall furnish PG&E the same evidence of insurance for Licensee's agents or contractors as PG&E requires of Licensee.

02898.999.0029.a Exhibit B-2

DO NOT RECORD THIS PAGE Los Padres Division San Luis Obispo Land Services Office Operating Dept.: Corporate Real Estate MDB&M, T31S,RIE and T32S,RllE Section: See Below Ferc: n/a PG&E Dwg.: none Interest: 111, 22 SBE: 135-40-23b, Parcels 3 through 5

%QC: n/a O# 2023085 Plat: 00-28, 00-28-9, 00-28-10, 00-29, 00-30, PP-30 JCN: n/a County: San Luis Obispo Prepared: Law/CRE Checked: Law/CRE Revision: 0 File: 96205.100 x-ref: 2231-11-0101 Lease ID #326503 11/15/06 T31S, RIIE Sections Sec. 19, S 4 Sec. 20, all Sec. 21, SW 1 Sec. 27, W4 Sec. 28, all Sec. 29, all Sec. 30, all Sec. 32, N ,

Sec. 33, all Sec. 34, all T32S, RIlE Sections Sec. 3, all Sec. 2, all

30-Apr-10 [Title of the course]

PGCE Academy EvmpowetigO~v Eemple n Cultural Resources Protection ENVR-01 17 Version 1.1 January, 2009 Environmental Services Copyright 02008. All rights reserved.

Slide 1: Introduction Welcome to the e-Learning course, Cultural Resources Protection.

I'm Dave Missall, Senior Environmental Consultant with PG&E's Environmental Services Department.

Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 1

30-Apr-10 [Title of the course]

Course Overview This course is designed to teach you about:

  • Cultural resource protection
  • Resources to contact for assistance Performance Objectives:

Identify cultural resources within the PG&E service territory Assess potential impacts to protected cultural resources Know the Best Management Practices (BMPs) for working around cultural resources Locate resources to contact for assistance Slide 2: Course Overview So, let's look at the course overview.

This course is designed to teach you about cultural resource protection.

We'll also make sure to cover where you can get help and additional information so you can make sure you're working in full compliance with cultural resources laws and regulations.

Our objectives are to learn how to:

  • Identify cultural resources within the PG&E service territory
  • Assess potential impacts to protected cultural resources
  • Know the Best Management Practices (BMPs) for working around cultural resources
  • Locate resources to contact for assistance Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 2

30-Apr-10 [Title of the course]

Course Outline Overview

  • Module 1: Cultural Resources Protection
  • Resources
  • Assessment
  • Course Evaluation

-I - *- , .

Slide 3: Course Outline In the next 30 minutes or so, we'll be discussing cultural resources protection and specifically how it can affect your work activities.

You'll learn that you can always contact your local Cultural Resource Specialist if you need additional information.

At the end, you'll have an opportunity to demonstrate your knowledge by completing a required 10 question Assessment.

And, of course, we're always interested in your feedback so a training evaluation will also be provided.

Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 3

30-Apr-10 [Title of the course]

PG&E Vision and Values OUR VISION OUR GOALS OUf T .>

OURVAUS-Slide 4: PG&E Vision and Values Let's take a minute to remind ourselves of the Company's vision and values.

A recent revision to the Company's Vision and Values now includes Environmental Leadership as one of our four goals.

And, as an environmental leader, let's not forget that we're accountable for all our own actions; and these actions include safety and protecting our environment.

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PG&E Safety Remember, because of the hazards associated with your work activities, you should always have these three safety priorities in mind:

  • Human health Environment Property

-I - -- -

  • Slide 5: PG&E Safety And, speaking of safety - remember that, because of the hazards associated with your work activities, you should always have these three safety priorities in mind:

-Human health - that's you, your co-workers and the public

-The environment - in this case it's the protected cultural resources that could be affected by your work activities

-Property - meaning things like buildings, vehicles and tools - things that are replaceable Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 5

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Slide 6: Module 1: Cultural Resources Protection So, let's get started with Module 1 - Cultural Resources Protection Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 6

30-Apr-10 [Title of the course]

Introduction This module will focus on the cultural resources that we need to protect within the PG&E service territory.

After completion of this course, you'll be able to:

a Identify examples of cultural resources within the PG&E service territory 3 Assess potential impacts to protected cultural resources Know the Best Management Practices (BMPs) for working around cultural resources a Locate PG&E resources to contact for assistance to make sure you're in compliance

-I -- . .

Slide 7: Module 1 - Introduction After completing this module, you're going to be able to:

  • Identify examples of cultural resources within the PG&E service territory

. Assess potential impacts to protected cultural resources

. Know the Best Management Practices (BMPs) for working around cultural resources

  • Locate PG&E resources to contact for assistance to make sure you're in compliance So, what exactly are cultural resources?

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30-Apr-10 [Title of the course]

Slide 8: Definition less than 50 years may also be important.

Vaca-Dixon Substation had a significant impact on California contributing directly to the industrial development of Northern California and especially the San Francisco Bay Area.

And, though less than 50 years old, Humboldt Bay Power Plant Unit 3, for example, is eligible for the National Register because of its innovative, underground design and the construction methods used to build it.

Let's take a closer look at each type of cultural resource. Click the tabs on the left to get more information about each type.

Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 8

30-Apr-10 [Titleof the course]

RCultural Resource Types CUtia esuc ye Archaeologijcal Sites This categMr includes shes and artifacts from prehistoric and historic periods such as Native Ame~rican acorn grindiung rtones. lithic (ston~e) poi nts, botles and pictographs.

-, e - *.- .

Slide 9: Cultural Resource Types Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 9

30-Apr- 10 [Title of the course]

70 Cultural Resource Collage

~CulturalResource Co~lagell

Nil OkkftNext" or "Bac' bulo oQn lc uper rfghtlhurntoLaf o obm eh cwthmalrQo4Jraev Slide 10: Cultural Resource Collage Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 10

30-Apr-10 [Title of the course]

Knowledge Check: Cultural Resource Types Knowledlge check: Cultural R~esource, Types Drragad drop the rmsurces,- n the dotfl- that assoclate vdth the correctaftt~ ral re rtprtvr on 1hele ~.t~ ahn~a ~r~nr y~ol n struaeart11ari trarrrm

.rT, a ParItar hs -rrItihrv 4"

-, *- a a a Slide 11: Knowledge Check: Cultural Resource Types Copyright @ 2004-2005 NameOf'heOrganization. All rights reserved. 11

30-Apr-10 [Title of the course]

__t Common Myths Myth: developed city streets have no cultural resources

-S -- . C Slide 12: Common Myths Now, let's take a look at a couple common myths about cultural resources...

Here's one: Developed city streets have no cultural resources Not true. An area that has been previously disturbed can contain buried cultural resources at deeper depths.

For example, Santa Clara University, the first university in the state of California, is the site of the Santa Clara Mission. In 2008, PG&E crews encroached on an archaeological preserve in the street by disturbing buried human remains and cultural deposits while replacing a 90-year-old gas pipeline.

Excavations had to be halted immediately.

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30-Apr- 10 [Title of the course]

F1 Common Myths Myth: trash has no value 7-Slide 13: Common Myths Here's another myth: Trash has no value Also not true. Sites of human refuse, like the Diablo Canyon dump, are important sources of information for archaeologists.

These sites include information about past peoples' technology, subsistence strategies; socio-economic class; nutrition and health status.

Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 13

30-Apr-10 [Title of the course]

Knowledge,'Check: Human Refuse Sites KnoWedleqe (heck: H~umen Nefuse Sites Select the four best resoonses. Sites of human refuse provide an Opportunilty for archeologists to learn about peoples:

Il nutrition ondheifh vtiius ED~rocooi cldss

17) attitujetiswar futufi- PuWtI yelesoaliuv n) t.-chrrlooy
  • 8 - *- , U Slide 14: Knowledge Check: Human Refuse Sites Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 14

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Id Regulation and Penalties

-a - --

Slide 15: Regulation and Penalties California is rich in cultural resources, prehistoric and historic. Its first inhabitants left traces of their living activities.

The study and preservation of California's Native American cultural resources are important to all Californians. Native Americans have been in California for thousands of years, possibly as far back as 15,000 years.

Since the beginning of the century, both state and federal governments have recognized the importance of protecting our cultural resources for today's and future generations.

Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 15

30-Apr-10 [Title of the course]

I Regulation and Penalties - Federal Slide 16: Regulation and Penalties Existing federal legislation protecting cultural resources includes:

-Archaeological Resources Protection Act

-National Historic Preservation Act

-National Environmental Protection Act

-Native American Grave Protection and Repatriation Act Sites that are determined to be significant are listed on registers which provides them more protection before they can be impacted. These registers !nclude:'

-National Register of Historic Places

-National Historic Landmarks Example: Wagons at historic Japanese farm in Diablo Canyon Copyright © 2004-2005 NameOfrheOrganization. All rights reserved. 16

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Slide 17: Regulation and Penalties Existing state legislation protecting cultural resources includes:

-California Environmental Quality Act (CEQA)

-California Public Resources Code

-Senate Bill 18

-State Historical Building Code Sites that are determined to be significant are listed on registers which provides them more protection before they can be impacted. These registers include:

-California Register of Historical Resources (CRHR)

-California Inventory of Historical Resources

-California Historical Landmarks (CHL)

-California Points of Historical Interest Example: Historic artifacts at PG&E's new Gateway Power generation project Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 17

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Potential Impacts - Penalties Potential NOV Licenses and permits revoked Costly project delays Fines Litigation Loss of trust E3 Imprisonment Slide 18: Regulation and Penalties What are the consequences of non-compliance?

starting at $25,000.00 and going up from there Here's a real example of non-compliance:

After being identified during a project walk down with the USFS archaeologist present, this ditch cut into an archaeological site that is located within FERC boundaries and on USFS lands. it was done so without cultural resource clearance.

It created an extremely awkward situation and an obvious loss of trust but, fortunately, did not lead to litigation and fines.

Copyright @ 2004-2005 NameOfTheOrganization. All rights reserved. 18

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Knowledge Check: Penalties KJnovwledge Che~k: Penalties>

Which of the three choiccs bclow did we discuss as being penalt es for non tuiimplii*me ,elaite.Lu toulkurdl tetuuite piutetduo*?

0 Pubitire discipliflr 0

E Loss cf trust El Mandator monthly training 0 C Noti*es 3 Violatian (NOVd 1 Li Costlyjpro~ect delays

  • 8 - - * *e- S Slide 19: Knowledge Check: Penalties Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 19

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Best Management Practices What should. you do?

  • Minimize ground disturbance

" Leave artifacts where you find them

" Report potential cultural resources and any accidental damage to your supervisor a Supervisor will contact PG&E Cultural Resource Specialist

-, - - *,- S Slide 20: Best Management Practices So, what do we need to do in order to protect cultural resources?

Well, if cultural resources are found (like old bottles and cans, arrowheads, things like that), do not disturb them. To avoid disturbing them, simply try to minimize ground disturbance.

If you do find them, then:

-leave artifacts where you find them

-report potential cultural resources and any accidental damage to your supervisor

-Supervisor will contact PG&E cultural resource specialists But let's discuss something a little more serious - human remains.

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Human Remains Human Remains Discovery requires immediate action!

Felony to knowingly disturb!

- Treat with respect Stop all work within 100 feet, JI Record the location

~Immediately notify your Supervisor DO NOT haul away dirt!

° Do not publicly reveal the location Keep a log of all calls and events

- .~.. .

Slide 21: Human Remains The discovery of human remains requires immediate action. It is a felony to knowingly disturb a burial site!

Here's what to do:

-Treat the remains with respect

-Stop all work within 100 feet of the remains

-Record the location

-Immediately notify your Supervisor who will notify the PG&E Cultural Resource Specialists who will, in turn, contact the County Coroner

-DO NOT haul away any dirt! Archaeologists will need to examine it!

-Do not publicly reveal the location of the remains

-Keep a log of all calls and events related to the discovery of the remains -

this is required by law Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 21

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Knowledge Check: Best Management Practices Knowledge' Check: Bestiv Ma'qnagee nt, P'ra ctI ces, With regard to the UMPs we've dliscused, fill In the blank with the coneed woidfrom m

the drmp d*wn menll nn the right. Ihp 'vh vmwrri nnty nnfe.

Minimize ground - .ck Report ac*idental dwage to TirathNman hrmainwith .

If human remains are found, do 11.A

___ the lction..

If humni, rema~ins ar found, - -

_ __ _ __the Io)atlon. ....

-a -- .

Slide 22: Knowledge Check: Best Management Practices Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 22

30-Apr-10 [Title of the course]

10, Resources Cultural Resources:

AGuide to Identification and Protection Cultural Resource Specialists Refer to the Program brochure for a summary of PG&E's requirements.

Cultural Resources Program Web Site Historic Preservation Web Sites m Palfic Gas and Efectwic Company Slide 23: Resources In addition to contacting local Cultural Resource Specialists, The Cultural Resources brochure can be downloaded directly PG&E Company Intranet site. Just click the "Attachments" tab in the upper right of this course window for access.

The National Park Service Historic Preservation and the Advisory Council On Historic Preservation Web Sites can be also accessed by clicking the "Attachments" tab in the upper right of this course window.

Let's take a look now at who your local Cultural Resource Specialists are and where they're located.

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30-Apr- 10 [Title of the course]

Cultural Resource Specialists Cultural Resource Specialists~

Introduction PG&E's Cultural Resource Specialists are located throughout the service territory. Their primary function is to:

" Provide advice and guidance to Project Managers and Land Planners on cultural resource compliance

" Ovesee cultural resource consultants and contracts

" Consult with Native Americans, Agendes, and the California Office of Historic Preservation C0ick on the tabs at the left to get contact information about each Spedallist.

-a *

  • B Slide 24: Cultural Resource Specialists Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 24

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Summary and Application Keep in mind what was covered this module so you'll always be ready to:

0 Identify examples of cultural resources within the PG&E service territory I Assess potential impacts to protected cultural resources 0 Know the Best Management Practices (BMPs) for working around cultural resources tJ Locate PG&E resources to contact for assistance to make sure you're in compliance

-e - -- ,

Slide 25: Module 1: Summary and Application Now you can:

-Identify examples of cultural resources within the PG&E service territory

-Assess potential impacts to protected cultural resources

-Know the Best Management Practices (BMPs) for working around cultural resources

  • Locate PG&E resources to contact for assistance to make sure you're in compliance Copyright © 2004-2005 NameOfTheOrganization. All rights reserved. 25

30-Apr-10 [Title of the course]

Assessment 10 questions~

1Y IUnlimited

~80 percent correct~

Slide 26: Assessment Introduction O.K. Now we're ready for the Assessment.

There are a total of 10 questions and exercises for you - all should be very familiar by now. You have unlimited time to answer but you must get 80%

(that's 8 of the 10) correct to receive credit for this course. Good luck!

Click the Start button to launch a multi-page interactive assessment. Follow prompts to close the interactive file and proceed with the presentation as usual.

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Course Evaluation Course Evaluation Thanks for your feedback!

-- , S Slide 27: Course Evaluation THIS IS OPTIONAL, but appreciated.

Pass out or provide Course Evaluation as appropriate.

Collect and send to Dave Missall, Environmental Services, 350 Salem Street, Chico.

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30-Apr- 10 [Title of the course]

Thank You Thank you.

Have a great day and be safe.

PG&E Academy" Empowering Our Employees Slide 28: Thank You.

I'd like to thank you for taking the time to complete this course. By passing the Assessment, your training has been documented as complete.

Until the next time, have a great day and be safe - especially when working around protected cultural resources.

Copyright © 2004-2005 NameO~fheOrganization. All rights reserved. 28

Discovery of human remains requires immediate action. The following procedures will allow you to effectively begin proper treatment. Cultural Resources:

1. Treat the remains with respect. Do not alter the burial.

A Guide to Identification

2. Stop all work within 100 feet of the remains.

and Protection

3. Record the location so the site can be quickly located again.
4. Immediately notify PG&E cultural resource specialists who, in turn, will contact the county coroner.

Historic era structural remains, including brick and 5. Do not publicly reveal the location of the wood frame scatter.

remains.

6. Keep a log of all calls and events related to discovery of the remains. This is mandated by What to Do if You Discover a law.

Potential Cultural Resource 7. Secure the area to minimize site disturbance and vandalism.

On-site personnel are often the first to find It can be difficult to tell human remains from previously undiscovered cultural resources. The Rat Farm at McArthur Swamp.

Following the guidelines below will protect the animal remains. If you are unsure, and the amount and arrangement of remains seems significant, alert resources while ensuring the successful completion a PG&E cultural resource specialist who can of your task.

provide guidance.

1. Leave the site or the artifact untouched. On federal lands, disturbing a site can be a felony, Cultural Resource Specialists and penalties can include confiscation of equipment. The individuals below must be contacted if cultural resources or human remains are located on-site.
2. Record the location of the resource, the They also can answer general questions regarding Pacific Gas and circumstances that led to discovery, and the cultural resources.

condition of the resource.

For support, contact: Electic Company Maggie Tlumbly, Central Coast & Valley James Mangold, North Coast

3. Do not publicly reveal the location of the (916) 386.5436 office (925) 415.6362 office © 2008 resource. Public curiosity over a new discovery (916) 201.8571 cell (925) 451.5840 cell can result in damage to the resource. Jennifer Lathrop, South Valley Jim Nelson, North Valley (559) 263.5834 office (530) 894.4672 office (559) 999.1743 cell (530) 228.3152 cell
4. Immediately call a PG&E cultural resource 'Tf specialist and inform him/her of the type and Christophe Descantes, Bay Area Glenn Caruso, Topock Area (925) 415.6346 office (415) 973.6206 office location of the discovery. (925) 719.2740 cell (925) 301.6954 cell Prepared by Garcia and Associates

Corporate Environmental Policy What You Should Do PG&E is committed to being an environmental "Best work practices" to avoid injury to unknown leader by providing safe, economical, and reliable cultural resources that could be present at any work products and services in a responsible and site include:

environmentally sensitive manner. It is the policy of the Corporation to comply fully with the letter

  • Minimize ground disturbances. Such and spirit of environmental laws and regulations, disturbances might, for example, adversely affect and seek innovative ways to exceed current an unknown subsurface archaeological site.

standards of environmental protection while achieving success in competitive markets.

  • Keep vehicles on existing roads. Heavy construction vehicles and equipment can crush, Protection of cultural resources is important to dislodge, or destroy unknown cultural resources.

PG&E not only because it is required by law, but Martin Substation.

because it is important to our customers and

  • Leave artifacts where you find them. Even employees. When we protect cultural resources, we Historic bottles. seemingly common items such as bottles, bricks, respect our rich history and the many cultures of and arrowheads should be left alone. Artifacts our service territory. provide the most information when archaeologists can study them in relation to the Defining Cultural Resources place where they were found. Single artifacts, removed from their original location, can lose Cultural resources are found all around us in a some of their scientific value.

surprising variety of forms and locations. Cultural resources include: " Report potential cultural resources and any accidental damage to resources to PG&E

  • Archaeological sites and artifacts from cultural resource specialists.

prehistoric and historic periods, such as Native American acorn grinding stones, " Only remove or clean up those materials that arrowheads, or bottles and bricks. you brought on-site. Other "junk" that was already there may be part of an historic site.

  • Architectural structures, ranging from a Such "old" dumpsites can prove to be valuable Victorian era home to a rustic, rural farmhouse. storehouses of historical data.
  • Engineered features, like railroad culverts, a " Perhaps most importantly, ask yourself if you covered bridge, and some PG&E transmission are working on or near a potential cultural lines and powerhouses. resource. Will your work affect the resource?

While on-site, you are the key to protecting

  • Human constructed or altered landscapes, resources.

such as irrigated farmlands. I1 Prehistoric

  • Traditional cultural properties, which are tools come in special places associated with the activities or various shapes beliefs of a living community. These places may and sizes.

Vaca-Dixon substation, railroad culvert, and bridge. have traditional spiritual or cultural importance.

PG&E Corporation - Policies Pagel1 of 5

~~corporatel about us investors news responsibility EN.VIRONMENT

~~~~~~~~~...........

PG ..................................... I POLICY E C R O AI.................................................................................................

I N E V R NE T L P L C ................................................................................................................................................................

R MWR PG&tE CORPORATION ENVIRONMENTAL POLICY FRAMEWORK As a supplier of energy to approximately five percent of Americans and more than 40 percent of Californians, we recognize that the choices we make about the way we produce and deliver our products and serve our customers can have a direct impact on the environment. We also believe that a healthy environment is necessary for the well-being and vitality of our customers, our employees, the communities we serve, and for society at large.

PG&E has pursued initiatives, implemented programs, and advocated for policies that raised the bar on environmental stewardship not only for our industry, but for U.S. industries, in general.

Projects that we have led or been part of have helped us, our customers, and our communities save energy, reduce environmental impacts, and deploy cutting-edge technologies. This includes preventing more than 135 million tons of carbon dioxide emissions from being released into the atmosphere through customer energy efficiency programs (electric and natural gas), conserving more than 140,000 acres of forest and watershed lands for future generations, helping our customers convert their fleets to low-emission vehicles - and doing the same for our own vehicle fleet - and facilitating the deployment and installation of the U.S.'s largest concentration of customer-owned, solar generation facilities.

These efforts and accomplishments form the basis of our actions and efforts going forward, as we strive to achieve even more.

Environmental Commitment At PG&E, we are committed to being an environmental leader and demonstrating this through our actions. We pledge to think creatively, work cooperatively, and be results-oriented in our environmental stewardship efforts.

Environmental Policy Our environmental policy reflects our environmental commitment and challenges us to find ways to produce, deliver, and use energy as sustainably, responsibly, and efficiently as possible. It is our policy to:

0 Comply fully with the letter and spirit of all applicable environmental laws and regulations; http://www.pgecorp.com/corp responsibility/environmental/policies/ 4/30/2010

PG&E Corporation - Policies Page 2 of 5

" Seek opportunities to exceed current standards of environmental protection, including pollution prevention, climate protection, and habitat and species protection;

" Lead efforts to craft and reform laws and regulations to create more effective policies and greater environmental benefits;

  • Improve management programs and standards that foster environmental excellence and innovation and reduce our impact on the environment;

" Ensure that regular independent reviews of all environmental aspects of our business are conducted through a risk-based audit plan and corrective action program;

  • Enhance our transparency with regard to environmental progress and performance and provide this information to the public;

" Maintain a constructive dialogue with our customers and stakeholders on environmental matters and seek out partnerships to achieve results more effectively and efficiently;

  • Train all employees on applicable environmental requirements and the importance of environmental leadership to achieving our vision, and ensure that there is accountability for and recognition of actions; and

" Strive for continual improvement in our environmental performance.

Implementing Our Environmental Policy and Living Up to Our Environmental Commitment To ensure that we are implementing our environmental policy effectively and achieving our overall commitment, we have established tangible goals and initiatives to monitor our environmental efforts and performance, and to help our employees translate this policy into their everyday actions. Examples of specific goals and initiatives are as follows:

  • To comply fully with the letter and spirit of all applicable environmental laws and regulations, PG&E will:
  • Provide all employees with a copy of our environmental commitment and policy.
  • Conduct regular, systematic reviews of facilities and projects using applicable environmental regulations.

" Educate and train its employees and contractors on all of the environmental laws and regulations applicable to their work areas and provide them with the systems and tools to ensure compliance.

  • To seek opportunities to exceed current standards of environmental protection, including pollution prevention, climate protection, and habitat and species protection, PG&E will:
  • Account for the greenhouse gas emissions associated with its operations, and identify and pursue cost-effective options for reducing and/or avoiding the release of these emissions. See PG&E's Formal Clmate Change Policy forcJlinatechanoge-specific commitments.

http://www.pgecorp.com/corp-responsibility/environmental/policies/ 4/30/2010

PG&E Corporation - Policies Page 3 of 5

  • Foster development and deployment of clean and sustainable energy supply resources, and, as part of the planning process, screen these resources to minimize environmental and community impacts.

" Develop and seek to implement habitat conservation plans throughout our Utility service area that will allow us to more effectively protect vulnerable species populations, while more efficiently maintaining our electric and natural gas infrastructure.

  • Implement an Avian Protection Plan for PG&E-owned facilities to reduce bird mortality and improve electric system reliability, working in cooperation with the federal and state resource agencies.
  • Work collaboratively for the recovery of threatened salmon and steelhead species.
  • Model and exemplify sound energy efficiency and energy conservation practices in the management of company-owned and company-controlled buildings.

" Continue to pursue efforts to increase the use of recycled materials, reduce waste streams and water consumption, maintain high waste recycling rates, and minimize the amount of toxic and chemical substances used in our operations and maintenance activities.

" Adopt procedures and systems at our facilities, and while undertaking construction and maintenance activities, to minimize impacts to water quality.

  • To lead efforts to craft and reform laws and regulations to create more effective policies and greater environmental benefits, PG&E will:
  • Continue to play a constructive and active role in the area of climate change and advocate for a national, market-based, mandatory program to reduce greenhouse gas emissions in a way that promotes technological innovation and the efficient use of natural resources.
  • Continue to work cooperatively with state and federal agencies and legislatures to promote aggressive energy efficiency standards for appliances, buildings, lighting, and other energy-consuming products and services.
  • Support cost-effective and pragmatic approaches to increase the use of alternative-fuel vehicles in commercial fleets, including our own.
  • Pursue opportunities to encourage policymakers to prioritize energy efficiency as an energy supply resource and to develop and implement regulatory structures and rate designs that encourage utilities to design and implement aggressive energy efficiency and demand response programs.
  • To improve management programs and standards that foster environmental excellence and innovation and reduce our impact on the environment, PG&E will:
  • Continue to enhance its existing environmental management system to facilitate compliance with all environmental laws and regulations, effectively mitigate risks, and identify and manage emerging environmental issues affecting PG&E.

" Review and adopt "best practice" procedures and systems to ensure that our environmental programs are as effective as possible.

" Continuously benchmark our systems, programs, procedures, and practices against other leading utilities to ensure top-level performance.

  • To ensure that regular independent reviews of all environmental aspects of our business are conducted through a risk-based audit plan and corrective action program, PG&E will:

http://www.pgecorp.com/corpresponsibility/environmental/policies/ 4/30/2010

PG&E Corporation - Policies Page 4 of 5

" Implement an annual risk-based audit plan.

  • Communicate results of the audits to senior management for action, and present audit findings to PG&E's Board of Directors.
  • Maintain a leading corrective action program to ensure full and timely compliance.

" To enhance our transparency with regard to environmental progress and performance and provide this information to the public, PG&E will:

  • Continue to share information on its climate change "footprint," including reporting and registering its greenhouse gas emissions with the California Climate Action Registry and submitting information on the climate change risks and opportunities facing our business to the Carbon Disclosure Project, an international effort to coordinate disclosure of companies' investment-related information on climate change.
  • Continue to issue and provide every employee with a copy of its Corporate Responsibility Report, which includes information on our environmental-related policies and actions, and environmental performance, including compliance, climate change, air emissions, resource consumption, and waste.

" Undertake activities and initiatives to ensure that we are following "best practice" environmental reporting guidelines for our industry.

" To maintain a constructive dialogue with our customers and stakeholders on environmental matters and seek out partnerships to achieve results more effectively and efficiently, PG&E will:

" Continue to lead the industry in pioneering FERC's new Integrated Licensing Process when relicensing our hydroelectric facilities; and seek collaborative solutions with stakeholders on key operational and environmental issues.

  • Continue its active participation in the U.S.-China Energy Efficiency Alliance, to help facilitate information exchange and best practice in energy efficiency.
  • Continue its active support of and participation in the Pacific Forest and Watershed Lands Stewardship Council, which is responsible for protecting and enhancing 140,000 acres of watershed lands in a way that provides environmental, recreational, and educational benefits for current and future generations.

" Continue to support and work cooperatively with the California Clean Energy Fund to promote and commercialize clean energy and energy efficiency technologies.

" Continue to partner with, and support through our philanthropic efforts, organizations that protect, restore, and enhance the environment.

" Continue to partner with and support our customers and communities in achieving their sustainability and/or climate change goals.

See PG&E's Environmental Justi.c.....Picand Procedure fsor.pecific commitm.t.s, To train all employees on applicable environmental requirements and the importance of environmental leadership to achieving our vision, and ensure that there is accountability for and recognition of actions, PG&E will:

http://www.pgecorp.com/corpjresponsibility/environmental/policies/ 4/30/2010

PG&E Corporation - Policies Page 5 of 5

  • Continue to include environmental protection as one of its core company values, and PG&E's CEO and Senior Management will regularly discuss the importance of living these values with employees.
  • Continue to recognize achievements of environmental excellence and innovation of its employees through the Richard A. Clarke Environmental Leadership Award and other awards.
  • Incorporate environmental protection, performance, and leadership into employee performance expectations.

Environmental Governance Procedures Once every quarter, PG&E's Utility Officer Committee sits as an Environmental Advisory Committee to recommend the strategic direction for the company's environmental compliance and leadership activities, in accordance with the Environmental Policy Framework and Environmental Management System.

To support the mission of the Environmental Advisory Committee and to strive for continual improvement in our environmental performance:

  • PG&E's Vice President for Corporate Environmental and Federal Affairs will coordinate regular updates to the Corporation's Environmental Policy Framework to ensure that its goals and initiatives are both meaningful and timely. PG&E Corporation's Environmental Policy Framework is intended to clearly articulate the company's overall environmental commitment and policy for both PG&E employees and external stakeholders.

" PG&E's Vice President of Shared Services and Chief Procurement Officer will coordinate regular updates to the company's Environmental Management System, which is a comprehensive, systematic approach to managing our impacts on the environment and reducing potential environmental risks. PG&E's Environmental Management System identifies the operational procedures the company has put into place to meet the goals of the Corporation's Environmental Policy Framework.

" The results of these concurrent and coordinated processes will be presented to and confirmed by PG&E's Utility Officer Committee sitting as the Environmental Advisory Committee and the Chairman of the Board and Chief Executive Officer of PG&E Corporation.

Copyright © 2004 - 2009 PG&E Corporation. All Rights Reserved . feedback . sitemap . privacyy pojicy http://www.pgecorp.com/corp responsibility/envirotimental~policies/4/021 4/30/2010

Pacific Gas and Electric Mandatory / Required / Recommended Environmental Training Purpose To comply with USP 17, Exhibit C, Table 5 (page 21), each Line of Business is responsible and accountable for the proper training, awareness and competence of its employees. This document is a tool developed by Environmental Services to assist the Lines of Business in determining the necessary employee environmental trainings (i.e. profiles - see details below) that are required by environmental law, internal Company policy or are recommended (or requested) for employee development.

Contents This document identifies the environmental training requirements as defined by My Learning Course Categories. Course Categories are defined by PG&E Academy as follows:

MANDATORY: Any external federal, state or other regulatory agency (such as OSHA or DOT) or compliance-driven training that is required by law.

REQUIRED: Any internal company policy, such as Utility or Corporation Standard Practices, or other training that PG&E determines is required for employees.

RECOMMENDED: Any training that is not mandatory or required that has been recommended by a supervisor or that you are interested in for your own development.

Where possible, training content "owners" are indicated and training materials are accessible through hyperlinks. Training delivery methods are indicated where options exist (i.e. Instructor-Led (ILT), e-Learning (WBT) or tailboards. And, as applicable, training frequency (triennial, biennial, annual, initial only, etc.) is listed for each.

Training Profiles This document can be used to create specific employee training profiles. A profile is the term used by PG&E Academy that identifies mandatory or required compliance training based on job classification and/or work duties.

In general, each row in this matrix corresponds to a specific training mandate or requirement. The relevance of training to employees follows this profile coding system:

Profile Code A: Applies to all employees Profile Code C: May apply to an entire job classification Profile Code J: Applies to a specific job, task or employee Profiles of mandatory or required training topics are created by identifying the employees who perform the work described in the profiling criteria questions. Profiles list all mandatory or required training, regardless of frequency of delivery. Once the employee training profiles are complete, subsequent years will require only updates to address changes or additions to regulations or changes in employee assignments.

Rev. 09/11/2009

  • . Profiling If YES, then you My Learning Course When Repeated... Content Owner...

C a

. Criteria.., must have the Category.... Provided...

'A Iefollowing NOTES..

  • _ ___ training.. As required by...
1. A All employees require this training. ENVR-0050 REQUIRED At initial Triennially Environmental Policy:

Environmental assignment with the first Policy Training Company Policy training to Anne Jackson begin in 2010 Training materials and contact information is located here.

2. J Is employee responsible for providing ENVR-0060 RECOMMENDED At initial N/A Environmental Services:

timely and accurate information to Hazardous assignment appropriate parties when a change Materials N/A Laura Ryan occurs that triggers reporting Business Plan requirements in Hazardous Materials Inspections Business Plans (HMBPs)?

3. C Does employee work in the field and ENVR-0100 MANDATORY At initial Annually Environmental Services:

routinely handle hazardous materials or Hazardous assignment generate hazardous waste? Materials and 22 CCR 66265.16 Alan Leung Waste General 40 CFR 112.7(e)

This is the preferred delivery method for Awareness 40 CFR 262.34 (a) (4) Instructor-led training (ILT) provided by ENVR-0100. See ENVR-010OWBT for 40 CFR 262.34 (d) (iii) local Environmental Field Specialist.

criteria to determine web-based training 40 CFR 265.16 (a-c)

(WBT) option. 40 CFR 300.215 HSC 25504

4. J Does employee work in the field and ENVR-010OWBT MANDATORY At initial Annually Environmental Services:

routinely handle hazardous materials or Hazardous assignment generate hazardous waste? Materials and 22 CCR 66265.16 Alan Leung Waste General 40 CFR 112.7(e)

ENVR-0100WBT is primarily used for Awareness 40 CFR 262.34 (a) (4) make-up training. Consult the training 40 CFR 262.34 (d) (iii) content owner (identified in far right 40 CFR 265.16 (a-c) column) before profiling workgroups for 40 CFR 300.215 this WBT. HSC 25504 Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

C 4t Profiling If YES, then you My Learning Course When Repeated... Content Owner...

'r a) Criteria... must have the Category... Provided...

a (-

following NOTES ...

training... As required by...

5. J Does employee work in an office setting ENVR-T100 MANDATORY At initial Annually Environmental Services:

and only occasionally handles Hazardous assignment hazardous materials or generates Materials and 22 CCR 66265.16 Alan Leung hazardous waste? Waste General 40 CFR 112.7(e)

Awareness 40 CFR 262.34 (a) (4) This tailboard is available here.

40 CFR 262.34 (d) (iii) 40 CFR 265.16 (a-c) 40 CFR 300.215 HSC 25504

6. C Does employee work at Company ENVR-0101 MANDATORY At initial Annually Environmental Services:

facilities that have hazards associated Facility assignment with the storage of hazardous materials Environmental 40 CFR 112.7 (e) (10) Laura Ryan or hazardous waste? Plan 40 CFR 112.7 (f)

Management 40 CFR 300.215 (c) Instructor-led training (ILT) provided by This is the preferred delivery method for 40 CFR 265.16. local Environmental Field Specialist.

ENVR-0101. See ENVR-0101WBT for 22 CCR 66265.16 criteria to determine web-based training (WBT) option.

7. J Does employee work at Company ENVR-OIOIWBT MANDATORY At initial Annually Environmental Services:

facilities that have hazards associated Facility assignment with the storage of hazardous materials Environmental 40 CFR 112.7 (e) (10) Laura Ryan or hazardous waste? Plan 40 CFR 112.7 (f)

Management 40 CFR 300.215 (c)

ENVR-0101WBT is primarily used for 40 CFR 265.16 make-up training. Consult the training 22 CCR 66265.16 content owner (identified in far right column) before profiling workgroups for this WBT.

Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/1112009

4 Profiling If YES, then you My Learning Course When Repeated... Content Owner...

0 Criteria... must have the Category,.. Provided...

9 following, NOTES training... As required by...
8. J Does employee work in an office setting ENVR-T101 MANDATORY At initial Annually Environmental Services:

but occasionally visits Company facilities Facility assignment that have hazards associated with the Environmental 40 CFR 112.7 (e) (10) Laura Ryan storage of hazardous materials or Plan 40 CFR 112.7 (f) hazardous waste (as indicated by the Management 40 CFR 300.215 (c) This tailboard is available here.

requirement of a Hazardous Materials 40 CFR 265.16 Business Plan)? 22 CCR 66265.16

9. C Does employee transport, or receive in ENVR-0102 MANDATORY At initial Triennially Environmental Services:

transport, any amount of hazardous Hazardous assignment material or hazardous waste? Materials 49 CFR 172.702 Dave Missall Transportation - 49 CFR 172.704 Familiarization 49 CFR 177.816 Instructor-led training (ILT) provided by local Environmental Field Specialist.

For efficiency, the training frequency is set for 2010, 2013, 2016, etc.

10. C Does employee manage projects, plan, ENVR-0103 MANDATORY At initial Biennially Environmental Policy:

design, engineer, build, operate or Habitat and assignment maintain company facilities? Species Federal Endangered Peter Beesley Protection Species Act, 15 USC This is the preferred delivery method for Section 1531 et seq; For efficiency, the training frequency is ENVR-0103. See ENVR-0103WBT for California Endangered set for 2009, 2011, 2013, etc.

criteria to determine web-based training Species Act, California (WBT) option. Fish and Game Code Section 2050 et seq; Federal Migratory Bird Treaty Act; California Native Plant Protection Act; National Environmental Policy Act; California Environmental Quality Act; Clean Water Act and State Fish and Game Code Section 1600 Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

, ., Profiling. If YES, then you My Learning Course When Repeated... Content Owner...

I Criteria... must have the Category... Provided...

' following NOTES...

_ _ I. training... As required by...

11. J Does employee manage projects, plan, ENVR-OI03WBT MANDATORY At initial Biennially Environmental Policy:

design, engineer, build, operate or Habitat and assignment maintain company facilities? Species Federal Endangered Peter Beesley Protection Species Act, 15 USC ENVR-O103WBT is primarily used for Section 1531 et seq; For efficiency, the training frequency is make-up training. Consult the training California Endangered set for 2009, 2011, 2013, etc.

content owner (identified in far right Species Act, California column) before profiling workgroups for Fish and Game Code this WBT. Section 2050 et seq; Federal Migratory Bird Treaty Act; California Native Plant Protection Act; National Environmental Policy Act; California Environmental Quality Act; Clean Water Act and State Fish and Game Code Section 1600

12. C Does employee perform planning, ENVR-0106 REQUIRED At initial As needed Environmental Planning and Permitting design, engineering, estimating, and Environmental assignment to maintain project management functions for capital Screening Environmental Services skills Rob Stivincq, Supervisor for:

and expense projects and jobs involving Procedure P-002, overhead, surface, or underground Environmental Portfolio Manager for WRO and Small construction, maintenance, and Screening And Best O&M and Electrical Distribution operations activities, or activities Management Practices potentially subject to regulatory agency Initial training was given in 2006.

permits and approvals? This includes gas and electric distribution and transmission activities along with common utility plant (i.e., service center) activities.

Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

, , Profiling If YES, then you My Learning Course When Repeated... Content Owner...

0 Criteria... must have the Category... Provided...

) following NOTES 01 training... As required by...

13. C Does employee perform gas, electric, or ENVR-0107 REQUIRED At initial As needed Environmental Planning and Permitting utility plant construction, operation, and E-Screen BMPs assignment to maintain maintenance work? Environmental Services skills Rob Stiving, Supervisor for:

Procedure P-002, Environmental Portfolio Manager for WRO and Small Screening And Best O&M and Electrical Distribution Management Practices Initial training was given in 2006.

14. J Does employee engage in incidental ENVR-0108 REQUIRED At initial Biennially Safety Health and Claims:

pesticide use of pre-mixed consumer Incidental assignment John Gilqinas products, manage properties where Pesticide Use - Safety, Health and pesticides may be applied, specify Level 1 Claims Procedure Environmental Services:

contracting methods for pesticide use or #234, Pesticide Use Alan Leungi work in agricultural fields that may be Procedure sprayed with pesticides? This course may be taught by Health &

Safety, Learning Services, supervisors or Environmental Services.

Training materials and contact information is located here.

Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

I Profiling If YES, then you My Learning Course When Repeated... Content Owner...

U Criteria... must have the Category... Provided...

Sfollowing NOTES ...

1 I@ training... As required by...

15. C Does employee manage projects, plan, ENVR-0117 MANDATORY At initial Biennially Technical and Land Services:

design, engineer, build, operate or Cultural assignment maintain company facilities? Resources National Historic Christophe Descantes Protection Preservation Act, This is the preferred delivery method for Section 106; 36 CFR For efficiency, the training frequency is ENVR-0117. See ENVR-0117WBT for 800; National set for 2009, 2011, 2013, etc.

criteria to determine web-based training Environmental Policy (WBT) option. Act; California Environmental Quality Act; Native American Grave Protection and Repatriation Act; Archaeological Resources Protection Act; California Public Resources Code

16. J Does employee manage projects, plan, ENVR-O117WBT MANDATORY At initial Biennially Technical and Land Services:

design, engineer, build, operate or Cultural assignment maintain company facilities? Resources National Historic Christophe Descantes Protection Preservation Act, ENVR-0117WBT is primarily used for Section 106; 36 CFR For efficiency, the training frequency is make-up training. Consult the training 800; National set for 2009, 2011, 2013, etc.

content owner (identified in far right Environmental Policy column) before profiling workgroups for Act; California this WBT. Environmental Quality Act; Native American Grave Protection and Repatriation Act; Archaeological Resources Protection Act; California Public Resources Code Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

I Profiling If YES, then you My Learning Course When Repeated... Content Owner...

8 Criteria... must have the Category... Provided...

following NOTES...

0 training... As required by...

17. J Is employee employed on-site at an ENVR-0118 MANDATORY At initial Annually Environmental Services:
  • Underground Storage Tank (UST) Underground assignment facility, and may be called upon to Storage Tank H&SC Rhonda Shiffman respond to spills, overfills, or other Facility §25281.1(a)(4)(A)(1) problems associated with the operation Employee 23 CCR §2715(a)-(f) Instructor-led training (ILT) provided of the UST system? 23 CCR §2611 only by a Certified Underground Storage Tank (UST) Designated Operator.

Contact local Environmental Field Specialist to verify.

Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

l Profiling If YES, then you My Learning Course When Repeated... Content Owner...

C 1 Criteria... must have the Category... Provided...

FAfollowing NOTES..

o training... As required by...

18. C Is employee involved in discharging, or ENVR-0200 MANDATORY At initial Biennially Environmental Services:

having the potential to discharge, water Vault Discharge assignment from utility enclosures associated with General NPDES Permit Isabella Johannes underground utility construction, (previously CAG990002 and Order maintenance and operations? Vault/Trench De- No. 2006-0008-DWQ Instructor-led training (ILT) provided by Watering) supervisors as supported by the Program Manager.

Course name change in progress.

Program information and contact information is located here.

For efficiency, the training frequency is set for 2009, 2011, 2013, etc.

19. J Is employee involved with facility water ENVR-0201 MANDATORY At initial As needed Environmental Services:

discharge, including best management Facility Water assignment to maintain practices or implementing requirements Discharge Facility-Specific skills Kadi Whiteside of facility-specific permits and orders? National Pollutant Discharge Elimination System (NPDES) or Water Discharge Requirement (WDR)

Orders Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

Profiling If YES, then you My Learning Course When Repeated... Content Owner...

0 Criteria... must have the Category... Provided...

I  ;

I-_1 following NOTES training... As required by...

20. C Is employee involved with managing, ENVR-0202 MANDATORY At initial Biennially Environmental Services:

reporting and documenting PCB and PCB assignment mineral oil spills from gas and electric Management 40 CFR 761 Janet Oliver transmission and distribution pipelines 8 CCR 5194 and equipment? Instructor-led training (ILT) provided by local Environmental Field Specialist.

For efficiency, the training frequency is set for20!0, 2012, 2014, etc.

21. C Is employee responsible for operating ENVR-0204 MANDATORY At initial Annually Environmental Services vehicles greater than 10,000 pounds Vehicle Idling assignment gross vehicle weight rating (GVWR) or Rules As required by CARB Linus Farias operating off-road vehicles or engines? settlement agreement (previously Air ENVR-0204 is used exclusively to District Rules) document training associated with Vehicle Idling Rules.

Course name change in progress.

Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

V Profiling If YES, then you My Learning Course When Repeated... Content Owner...

0 Criteria... must have the Category... Provided...

wII following NOTES ...

training... As required by...

22. J Is employee involved with project-related ENVR-0209 MANDATORY Specific As needed Environmental Planning and Permitting activities that require the identification Area-Specific project- to maintain and protection of sensitive species and Habitat and Federal Endangered related job skills Rob Stivinq, Supervisor for:

their habitat? Species Species Act, 15 USC activities Protection Section 1531 et seq; Portfolio Manager for WRO and Small California Endangered O&M and Electrical Distribution Species Act, California Fish and Game Code Job-specific tailboards and information Section 2050 et seq; related to habitat and species Federal Migratory Bird protection.

Treaty Act; California Native Plant Protection Act; National Environmental Policy Act; California Environmental Quality Act; Clean Water Act and State Fish and Game Code Section 1600

23. J Is employee involved with repairing or ENVR-0210 MANDATORY At initial As needed Environmental Services servicing heating, ventilation, air Refrigerant assignment to maintain conditioning (HVAC) or motor vehicle Recovery and 40 CFR 82.42 qualification Linus Farias refrigerant systems with approved Recycling 40 CFR 82 Subpart F refrigerant recovery and recycling Section 609 Clean Air equipment? Act Amendments 1990 Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

t Profiling If YES, then you My Learning Course When Repeated... Content Owner...

0 U Criteria... must have the Category... Provided...

following NOTES 00 training... As required by...

24. C Is employee involved with transporting ENVR-0213 MANDATORY At initial Triennially Environmental Services:

hazardous materials in quantities that Hazardous assignment require the preparation of shipping Materials 49 CFR 172.702 Dave Missall papers (e.g. Hazardous Waste Shipping Transportation - 49 CFR 172.704 Paper, Materials of Trade Shipping Function Specific 49 CFR 177.816 Instructor-led training (ILT) provided by Paper, and Uniform Hazardous Waste 22 CCR 66265.16 local Environmental Field Specialist.

Manifest)? 40 CFR 265.16 For efficiency, the training compliments ENVR-0102 so the frequency is set for 2010, 2013, 2016, etc.

25. J Is employee involved in the planning, ENVR-0214 RECOMMENDED N/A N/A Environmental Services:

design, implementation or inspection of Storm Water project-related storm water permit Requirements - Federal Water Pollution Kadi Whiteside requirements (as indicated in the Advanced Control Act (Clean project's specific Storm Water Pollution Water Act), Federal This training was provided during Prevention Plan (SWPPP))? and State National inception of original Storm Water Pollutant Discharge Management Program (managed by Elimination System Environmental Policy)

(NPDES) Programs

26. C Is employee involved with storm water ENVR-0215 RECOMMENDED N/A N/A Environmental Services:

permit compliance during gas and Storm Water electric distribution or transmission Best Required by local Kadi Whiteside construction projects? Management ordinance for projects Practices requiring building or grading permits Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

Profiling If YES, then you My Learning Course When Repeated... Content Owner...

, Criteria... must have the Category... Provided...

following NOTES

  • training... As required by...
27. J This training is applicable to field ENVR-0217 MANDATORY At initial Annually Environmental Policy employees who have responsibilities VELB Qualified assignment within the potential rangqe of the Individual Federal Endangered Peter Beesley Valley ElderberryLonghorn Beetle Species Act - section (VELB). For crews, at least one 9(a)(1) of the Act and -Instructor-led training (ILT) provided by individual (typically the crew leader) Federal regulation Peter Beesley must be trained, pursuant to section 4(d) of the Act eLeaming (WBT) will be available Is the employee responsible for 1) (here - place holder) in September estimating or design, 2) inspections, 3) Agreements with the 2009.

road maintenance or 4) for implementing U.S. Fish and Wildlife any routine operations and Service as specified in maintenance, construction, restoration Biological Opinion (1 or vegetation management activities? 01-F-01 14) and the Or, is the employee responsible for Valley Elderberry performing and/or supporting Longhorn Beetle environmental reviews or permitting Conservation Program activities? document

28. J Applicable to Biologists and ENVR-0219 REQUIRED At initial As needed Environmental Planning and Permitting EnvironmentalFieldSpecialists only. E-Screen Train- assignment to maintain Is employee responsible for the delivery the-Trainer Environmental Services skills Rob Stiving, Supervisor for:

of ENVR-0106, Environmental Screening Procedure P-002, and ENVR-0107, E-Screen BMP Environmental Portfolio Manager for WRO and Small Training? Screening And Best O&M and Electrical Distribution Management Practices

29. J Applicable to field employees in Area ENVR-0220 MANDATORY At initial Annually Land Asset Management 4 and 5 only. Is employee involved in Habitat assignment work activities associated with the Conservation San Joaquin Valley Marvin Penner requirements of the San Joaquin Valley Plan - Field Operations and Operations and Maintenance Habitat Employees Maintenance Habitat Conservation Plan (HCP)? Conservation Plan (HCP)

Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

Profiling If YES, then you My Learning Course When Repeated... Content Owner...

I Criteria... must have the Category... Provided...

_' o.training... following As required by... NOTES...

30. J Is employee designated as being directly ENVR-0300 MANDATORY At initial Annually Environmental Services responsible for overseeing the Facility assignment management of hazardous materials and Hazardous 22 CCR 66265.16 Alan Leunf hazardous wastes at a specific PG&E Waste 40 CFR 265.16 facility? Management 40 CFR 300.215 Instructor-led training (ILT) provided by HSC 25504 local Environmental Field Specialist.
31. J Is employee designated as being directly ENVR-0301 MANDATORY At initial Annually Environmental Services responsible for managing, coordinating Facility assignment and reporting emergency response Emergency 22 CCR 66264.16 Laura Ryan activities at a specific PG&E facility? Response 26 CCR 19.2732 Coordination 40 CFR 112.7 Instructor-led training (ILT) provided by 40 CFR 300.215 local Environmental Field Specialist.

HSC 25504

32. J Is employee responsible for disclosing ENVR-0305 REQUIRED Annually Annually Environmental Remediation environmental liabilities in compliance Environmental with Sarbanes Oxley Title IV? Liabilities & Sarbanes Oxley Title IV Korky Creek Financial Statements Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

Profiling If YES, then you My Learning Course When Repeated... Content Owner...

0 Criteria... must have the Category... Provided...

) following NOTES...

a, training... As required by...

33. J Is the employee Senior Management and ENVR-0400 MANDATORY At initial Biennially Enerqy Delivery responsible for incident assessment, Avian Protection assignment reporting, pole risk assessment and Plan Overview PG&E Standard S2321, Mike Best retrofit, avian-safe construction, nest Avian Protection Plan management, avian enhancement or (APP) eLearning (WBT) available here. (place public awareness activities in compliance holder for 2009) with the Avian Protection Plan (APP)?
34. J Is the employee a M&C Field Employee,, ENVR-0401 MANDATORY At initial Biennially Energy Delivery Supervisor, or in Quality Assurance and Avian Protection assignment responsible for incident assessment, Plan PG&E Standard S2321, Mike Best reporting, pole risk assessment and Comprehensive Avian Protection Plan retrofit, avian-safe construction, nest Review (APP) eLearning (WBT) available here. (place management, avian enhancement or holder for 2009) public awareness activities in compliance with the APP?
35. Is the employee a Forester, Program ENVR-0402 MANDATORY At initial Biennially Energy Delivery Manager, or Specialist responsible for Avian Protection assignment incident reporting, nest management, Plan for PG&E Standard S2321, Mike Best and public awareness activities in Vegetation Avian Protection Plan compliance with the APP? Management (APP) eLearning (WBT) available here. (place holder for 2009)
36. As identified by a major emission source ENVR-0460 Required At initial Annually Environmental Services facility manager, does employee require Air Compliance - assignment program accountability or opacity Title V Program Title V Compliance Linus Farias recognition awareness training to support Training Program the facility's Title V Program compliance?

Profile Codes: A - applies to all employees; C - may apply to an entire job classification; J - applies to a specific job, task or employee Rev. 09/11/2009

( .' .: . : ,.., . .: ..

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+:.  ::*::::. '

APPLICATION FOR WATER WELL To: COUNTY HEALTH AGENCY Date _____...

DIVISION OF ENVIRONMENTAL HEALTHPemtN.'

: . 'Permit No.

FLOYD V. WELLS INC, , hereby apply for a permit to construct U repair LI or abandon FLI a well located on Lot "bl

"ock Tract '""

Or Section. Township __

  • Range - ---

(Street Address or County Road)

Owner/Agent / * ,

Address VF6Z C 1O3 ax , 4 tP, Z'Ac- CA e'?AZ4, Owner's Bond N/a Cash Deposit N/-a Well Driller FLOYD it..ELLS II .T.!

Contractor's License Number C57-229570 I hereby agree to comply with all laws and regulations of the San Luis Obispo County Health Department and the State of California pertaining to, or regulating well construction. Within fifteen days after completion of the well, I will furnish the County Health Department a log of the well and notify them before putting the well in use.

F* *_*OYDV. WELLS INC.

ACREAGE SignedApplicant INTENDED USE 1L4( Industrial 14c* Domestic, Private e Pi ,ý60.00 -k3 X Domestic, Public FePi 6.0 (s x~5 XXX Irrigation ~

Other Comments: ACCESSORS PARCEL o-wo- l I.,'R t- To~ To9N, S ý61 e53 84 Approved V/ Not Approved - 'A Sanitarian . Date..

Permit Expires 6 Months After Issue Date CD-927. Plot Plan on Reverse Side or Attached . .

WELL PERMIT PLOT PLAN SAN LUIS OBISPO COUNTY HEALTH DEPARTMENT Page 2 of 2 pages 2191 Johnson Avenue Sora Luis Obispo, California 93401 Telephone. 805/543-1200 SCALE: / " - 25' INDICATE BELOW THE EXACT LOCATION OF WELL WITH RESPECT TO THE FOLLOWING ITEMS: PROPERTY LINES, WATER BODIES OR WATER COURSES, DRAINAGE PATTERN, ROADS, EXISTING WELLS, SEWERS AND PRIVATE SEWAGE DISPOSAL SYSTEMS. INCLUDE DIMENSIONS.

CD-528

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State Water Resources Control Board Division of Water Quality Arnold Schwarzengger Linda S. Adams 1001 1Street

  • Sacramento, California 95814 - (916) 341-5538 Governor Secretaryfor Mailing Address: P.O. Box 1977 . Sacramento, California - 95812-1977 EnvironmentalProtection FAX (916) 341-5543

To: STORM WATER DISCHARGER

SUBJECT:

CHECKLIST FOR SUBMITTING A NOTICE OF INTENT In order for the State Water Resources Control Board to expeditiously process your Notice of Intent (NOI), the following items must be submitted to either of the addresses indicated below:

1. NOI (please keep a copy for your files) with all applicable sections completed and original signature of the facility operator;
2. Check made out to the "State Water Resources Control Board" with the appropriate fee. The total annual fee is $1008.00.
3. Site Map of the facility (see NOI instructions). DO NOT SEND BLUEPRINTS U.S. Postal Service Address Overnight Mailing Address State Water Resources Control Board State Water Resources Control Board Division of Water Quality Division Of Water Quality Attn: Storm Water Section Attn: Storm Water, 151h Floor P.O. Box 1977 1001 I Street Sacramento, CA 95812-1977 Sacramento, CA 95814 NOIs are processed in the order they are received. A NOI receipt letter will be mailed to the facility operator within approximately two weeks. Incomplete NOI submittals will be returned to the facility operator within the same timeframe and will specify the reason(s) for return. If you need a receipt letter by a specific date (for example, to provide to a local agency), we advise that you submit your NOI thirty (30) days prior to the date the receipt letter is needed.

Please do not call us to verify your NOI status. A copy of your NOI receipt letter will be available on our web page within twenty-four (24) hours of processing. Go to:

http://www.waterboards.ca.,gov/water issues/programs/stormwater/databases.shtrnlI to retrieve an electronic copy of your NOI receipt letter. If you have any questions regarding this matter, please contact us at (916) 341-5538.

TABLE OF CONTENTS FOR STATE WATER RESOURCES CONTROL BOARD (STATE WATER BOARD)

WATER QUALITY ORDER NO. 97-03-DWQ NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM (NPDES)

GENERAL PERMIT NO. CAS000001 (GENERAL PERMIT)

WASTE DISCHARGE REQUIREMENTS (WDRS)

FOR DISCHARGES OF STORM WATER ASSOCIATED WITH INDUSTRIAL ACTIVITIES EXCLUDING CONSTRUCTION ACTIVITIES FACT SHEET ...... .......................................... I-X III GENERAL PERMIT ORDER .......... 1-10 SECTION A: Storm Water Pollution Prevention Plan (SWPPP) .............................. 11-23 Monitoring Program and SECTION B:

Reporting Requirements ..................... 24-44 SECTION C: Standard Provisions ....................... 45-50 ATTACHMENT 1: Facilities Covered By This Permit ATTACHMENT 2: Storm Water Contacts For State and Regional Boards ATTACHMENT 3: Notice of Intent (NOI) Instructions, Fee Schedule, Form ATTACHMEN9 4: Definitions ATTACHMEN9 El 5: Acronyms TABLES TABLE A: Five Phases For Developing and Implementing SWPPPS ............................... 13 TABLE B: Assessment of Potential Pollutant Sources and Corresponding BMP Summary ...................... 18 TABLE C: Reduced Monitoring Sampling Schedule .............. 34 TABLE D: Additional Analytical Parameters ............... 40-44

FACT SHEET FOR STATE WATER RESOURCES CONTROL BOARD (STATE WATER BOARD)

WATER QUALITY ORDER NO. 97-03-DWQ NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM (NPDES)

GENERAL PERMIT NO. CAS000001 (GENERAL PERMIT)

WASTE DISCHARGE REQUIREMENTS (WDRS)

FOR DISCHARGES OF STORM WATER ASSOCIATED WITH INDUSTRIAL ACTIVITIES EXCLUDING CONSTRUCTION ACTIVITIES BACKGROUND In 1972, the Federal Water Pollution Control Act (also referred to as the Clean Water Act [CWA]) was amended to provide that the discharge of pollutants to waters of the United States from any point source is effectively prohibited unless the discharge is in compliance with an NPDES permit. The 1987 amendments to the CWA added Section 402(p) that establishes a framework for regulating municipal and industrial storm water discharges under the NPDES Program. On November 16, 1990, the U.S. Environmental Protection Agency (U.S. EPA) published final regulations that establish application requirements for storm water permits. The regulations require that storm water associated with industrial activity (storm water) that discharges either directly to surface waters or indirectly through municipal separate storm sewers must be regulated by an NPDES permit.

U.S. EPA developed a four-tier permit issuance strategy for storm water discharges associated with industrial activity as follows:

Tier I, Baseline Permitting--One or more general permits will be developed to initially cover the majority of storm water discharges associated with industrial activity.

Tier II, Watershed Permitting--Facilities within watersheds shown to be adversely impacted by storm water discharges associated with industrial activity will be targeted for individual or watershed-specific general permits.

Tier IiI, Industry-Specific Permitting--Specific industry categories will be targeted for individual or Industry-specific general permits.

Tier IV, Facility-Specific Permitting--A variety of factors will be used to target specific facilities for individual permits.

The regulations allow authorized states to issue general permits or individual permits to regulate storm water discharges.

Consistent with Tier I, Baseline Permitting, of the U.S. EPA permitting strategy, the State Water Board issued a statewide General Permit on November 19, 1991 that applied to all storm water discharges requiring a permit except construction activity.

The monitoring requirements of this General Permit were amended September 17, 1992. A separate statewide general permit has been issued for construction activity.

To obtain authorization for continued and future storm water discharge under this General Permit, each facility operator must submit a Notice of Intent (NOI). This approach is consistent with the four-tier permitting strategy described in Federal regulations, i.e., Tier 1, Baseline Permitting. Tier 1, Baseline Permitting, enables the State to begin reducing pollutants in industrial storm water in the most efficient manner possible.

This General Permit generally requires facility operators to:

1. Eliminate unauthorized non-storm water discharges;
2. Develop and implement a storm water pollution prevention plan (SWPPP); and
3. Perform monitoring of storm water discharges and authorized non-storm water discharges.

TYPES OF STORM WATER DISCHARGES COVERED BY THIS GENERAL PERMIT This General Permit is intended to cover all new or existing storm water discharges and authorized non-storm water discharges from facilities required by Federal regulations to obtain a permit including those (1) facilities previously covered by the San Francisco Bay Regional Water Quality Control Board Order No.92-011 (as amended by Order No.92-116), (2) facilities designated by the Regional Water Quality Control Boards (Regional Water Boards), (3) facilities whose operators seek coverage under this General Permit, (4) and facilities required by future U.S. EPA storm water regulations.

The General Permit is intended to cover all facilities described in Attachment 1, whether the facility is primary or is auxiliary to the facility operator's function. For example, although a school district's primary function is education, a facility that it operates for vehicle maintenance of school buses is a transportation facility that is covered by this General Permit.

The definition of "storm water associated with industrial activity" is provided in Attachment 4, Definition 9, of this General Permit. Facilities that discharge storm water associated with industrial activity requiring a General Permit are listed by category in 40 Code of Federal Regulations (CFR)

Section 122.26(b) (14) (Federal Register, Volume 55 on

-III-Pages 48065-66) and in Attachment 1 of this General Permit. The facilities can be publicly or privately owned. General descriptions of these categories are:

1. Facilities subject to storm water effluent limitations guidelines, new source performance standards, or toxic pollutant effluent standards (40 CFR Subchapter N);
2. Manufacturing facilities;
3. Mining/oil and gas facilities;
4. Hazardous waste treatment, storage, or disposal facilities;
5. Landfills, land application sites, and open dumps that receive industrial waste;
6. Recycling facilities such as metal scrap yards, battery reclaimers, salvage yards, automobile yards;
7. Steam electric generating facilities;
8. Transportation facilities that conduct any type of vehicle maintenance such as fueling, cleaning, repairing, etc.;
9. Sewage treatment plants;
10. Construction activity (covered by a separate general permit); and
11. Certain facilities (often referred to as "light industry")

where industrial materials, equipment, or activities are exposed to storm water.

For the most part, these facilities are identified in the Federal regulations by a Standard Industrial Classification (SIC).

Category 1 Dischargers The following categories of facilities currently have storm water effluent limitation guidelines for at least one of their subcategories. They are cement manufacturing (40 CFR Part 411);

feedlots (40 CFR Part 412); fertilizer manufacturing (40 CFR Part 418); petroleum refining (40 CFR Part 419);

phosphate manufacturing (40 CFR Part 422); steam electric power generation (40 CFR Part 423); coal mining (40 CFR Part 434);

mineral mining and processing (40 CFR Part 436); ore mining and dressing (40 CFR Part 440); and asphalt emulsion (40 CFR Part 443). A facility operator whose facility falls into one of these general categories should examine the effluent guidelines to determine if the facility is categorized in one of the subcategories that have storm water effluent guidelines. If

-IV-a facility is classified as one of those subcategories, that facility is subject to the standards listed in the CFR for that category and is subject to this General Permit. This General Permit contains additional requirements (see Section B.6.) for facilities with storm water effluent limitations guidelines.

Category 5 Dischargers Inactive or closed landfills, land application sites, and open dumps that have received industrial wastes (Category 5) may be subject to this General Permit unless the storm water discharges from the sites are already regulated by an NPDES permit issued by the appropriate Regional Water Board. Facility operators of closed landfills that are regulated by waste discharge requirements (WDRs) may. be required to comply with this General Permit. In some cases, it may be appropriate for closed landfills to be covered by the State Water Board's General Permit during closure activities. The Construction Activities General Permit should cover new landfill construction. Facility operators should contact their Regional Water Board to determine the appropriate permit coverage.

Category 10 Dischargers Facility operators of Category 10 (light industry) facilities are not subject to this General Permit if they can certify that the following minimum conditions at their facilities are met:

1. All prohibited non-storm water discharges have been eliminated or otherwise permitted.
2. All areas of past exposure have been inspected and cleaned, as appropriate.
3. All materials related to industrial activity (including waste materials) are not exposed to storm water or authorized non-storm water discharges.
4. All industrial activities and industrial equipment are not exposed to storm water or authorized non-storm water discharges.
5. There is no exposure of materials associated with industrial activity through other direct or indirect pathways such as particulates from stacks and exhaust systems.
6. There is periodic re-evaluation of the facility to ensure Conditions 1, 3, 4, and 5 are continuously met.

Currently, facility operators that can certify that the above conditions are met are not required to notify the State Water

Board or Regional Water Board. These facility operators are advised to retain such certification documentation on site.

The Ninth Circuit Court of Appeals invalidated the exemption granted by U.S. EPA for storm water discharges from facilities in Category 11 that do not have exposure and remanded the regulation to U.S. EPA for further action. The State Water Board, at this time, is not requiring storm water discharges from facilities in Category 11 that do not have exposure to be covered by this General Permit. Instead, the State Water Board will await future U.S. EPA or court action clarifying the types of storm water discharges that must be permitted. If necessary, the State Water Board will reopen the General Permit to accommodate such a clarification.

Section 1068 of the Intermodal Surface Transportation Act of 1991 exempts municipal agencies serving populations of less than 100,000 from Phase I permit requirements for most facilities they operate (uncontrolled sanitary landfills, power plants, and airports are still required to be permitted in Phase I).

Phase II of the Permit Program scheduled to begin August 7, 2001 will cover the facilities that are exempt from Phase I permit requirements.

TYPES OF DISCHARGES NOT COVERED BY THIS GENERAL PERMIT

1. CONSTRUCTION ACTIVITY: Discharges from construction activity of five acres or more, including clearing, grading, and excavation. A separate general permit was adopted on August 20, 1992 for this industrial category.
2. FACILITIES WHICH HAVE NPDES PERMITS CONTAINING STORM WATER PROVISIONS: Some storm water discharges may be regulated by other individual or general NPDES permits issued by the State Water Board or the Regional-Water Boards. This General Permit shall not regulate these discharges. When the individual or general NPDES permits for such discharges expire, the State Water Board or Regional Water Board may authorize coverage under this General Permit or another general NPDES permit, or may issue a new individual NPDES permit consistent with the Federal and State storm water regulations. Interested parties may petition the State Water Board or appropriate Regional Water Board to issue individual or General NPDES Permits. General Permits may be issued for a particular industrial group or watershed area.
3. FACILITIES DETERMINED INELIGIBLE BY REGIONAL WATER BOARDS:

Regional Water Boards may determine that discharges from a facility or groups of facilities, otherwise eligible for coverage under this General Permit, have potential water quality impacts that may not be appropriately addressed by

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this General Permit. In such cases, a Regional Water Board may require such discharges to be covered by an individual or general NPDES permit. Interested persons may petition the appropriate Regional Water Board to issue individual NPDES permits. The applicability of this General Permit to such discharges will be terminated upon adoption of an individual NPDES permit or a different general NPDES permit.

4. FACILITIES WHICH DO NOT DISCHARGE STORM WATER TO WATERS OF THE UNITED STATES: The discharges from the following facilities are not required to be permitted:
a. FACILITIES THAT DISCHARGE STORM WATER TO MUNICIPAL SANITARY SEWER SYSTEMS: Facilities that discharge storm water to municipal sanitary sewer systems or combined sewer systems are not required by Federal regulations to be covered by an NPDES storm water permit or to submit an NOI to comply with this General Permit. (It should be noted that many municipalities have sewer use ordinances that prohibit storm drain connections to their sanitary sewers.)
b. FACILITIES THAT DO NOT DISCHARGE STORM WATER TO SURFACE WATERS OR SEPARATE STORM SEWERS: Storm water that is captured and treated and/or disposed of with the facility's NPDES permitted process wastewater and storm water that is disposed of to evaporation ponds, percolation ponds, or combined sewer systems are not required to obtain a storm water permit. To avoid liability, the facility operator should be certain that no discharge of storm water to surface waters would occur under any circumstances.
5. MOST SILVICULTURAL ACTIVITIES: Storm water discharges from most silvicultural activities such as thinning, harvesting operations, surface-drainage, or road construction and maintenance are exempt from this permit. Log sorting or log storage facilities that fall within SIC 2411 are required to be permitted.
6. MINING AND OIL AND GAS FACILITIES: Oil and gas facilities that have not released storm water resulting in a discharge of a reportable quantity (RQ) for which notification is or was required pursuant to 40 CFR Parts 110, 117, and 302 at any time after November 19, 1987 are not required to be permitted unless the industrial storm water discharge contributed to a violation of a water quality standard.

Mining facilities that discharge storm water that does not come into contact with any overburden, raw materials, intermediate product, finished product, by-product, or waste product located at the facility are not required to be permitted. These facilities must be permitted if they have a new release of storm water resulting in a discharge of an RQ.

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7. FACILITIES ON INDIAN LANDS: the U.S. EPA will regulate Discharges from facilities on Indian lands.

NOTIFICATION REQUIREMENTS Storm water discharges from facilities described in the section titled "Types of Storm Water Discharges Covered by This General Permit" must be covered by an NPDES permit. An NOI must be submitted by the facility operator for each individual facility to obtain coverage. Certification of the NOI signifies that the facility operator intends to comply with the provisions of the General Permit. Facility operators who have filed NOIs for the State Water Board Order No. 91-013-DWQ (as amended by Order No. 92-12-DWQ) or San Francisco Bay Regional Water Board Order No.92-011 (as amended by Order No.92-116) will be sent an abbreviated NOI soon after adopting this General Permit that must be completed and returned within 45 days of receipt. Where operations have discontinued and significant materials remain on site (such as at closed landfills), the landowner may be responsible for filing an NOI and complying with this General Permit. A landowner may also file an NOI for a facility if the landowner, rather than the facility operator(s), is responsible for compliance with this General Permit.

A facility operator that does not submit an NOI for a facility must submit an application for an individual NPDES permit.

U.S. EPA's regulations [40 CFR 122.21 (a)] exclude facility operators covered by a general permit from requirements to submit an individual permit application unless required by the Regional Water Board. The NOI requirements of this General Permit are intended to establish a mechanism which can be used to establish a clear accounting of the number of facility operators complying with the General Permit, their identities, the nature of operations at the facilities, and location.

All facility operators filing an NOI after the adoption of this General Permit must comply with this General Permit. Existing facility operators who have filed NOIs prior to the adoption of this General Permit shall continue to complete the requirements of the previous General Permit through June 30, 1997 including submitting annual reports to the Regional Water Boards by July 1, 1997. Group Leaders are required to submit a 1996-97 Group Evaluation Report by August 1, 1997.

DESCRIPTION OF GENERAL PERMIT CONDITIONS Prohibitions

-VIII-This General Permit authorizes storm water and authorized non-storm water discharges from facilities that are required to be covered by a storm water permit. This General Permit prohibits discharges of material other than storm water (non-storm water discharges) that are not authorized by the General Permit and discharges containing hazardous substances in storm water in excess of reportable quantities established at 40 CFR 117.3 and 40 CFR 302.4. Authorized non-storm water discharges are addressed in the Special Conditions of the General Permit.

Effluent Limitations NPDES Permits for storm water discharges must meet all applicable provisions of Sections 301 and 402 of the CWA. These provisions require control of pollutant discharges using best available technology economically achievable (BAT) and best conventional pollutant control technology (BCT) to prevent and reduce pollutants and any more stringent controls necessary to meet water quality standards.

U.S. EPA regulations (40 CFR Subchapter N) establish effluent limitation guidelines for storm water discharges from facilities in ten industrial categories. For these facilities, compliance with the effluent limitation guidelines constitutes compliance with BAT and BCT for the specified pollutants and must be met to comply with this General Permit.

For storm water discharges from facilities not among the ten industrial categories listed in 40 CFR Subchapter N, it is not feasible at this time to establish numeric effluent limitations.

The reasons why establishment of numeric effluent limitations is not feasible are discussed in detail in State Water Board Orders No. WQ 91-03 and WQ 91-04. Therefore, this General Permit allows the facility operator to implement best management practices (BMPs) to comply with the requirements of this General Permit.

This approach is consistent with the U.S. EPA's August 1, 1996 "Interim Permitting Approach for Water Quality Based Effluent Limitations in Storm Water Permits".

Receiving Water Limitations Storm water discharges shall not cause or contribute to a violation of an applicable water quality standard. The General Permit requires facility operators to reduce or prevent pollutants in storm water discharges and authorized non-storm water discharges through the development and implementation of BMPs which constitutes compliance with BAT and BCT and, in most cases, compliance with water quality standards. If receiving water quality standards are exceeded, facility operators are required to submit a written report providing additional BMPs that will be implemented to achieve water quality standards.

-IX-Storm Water Pollution Prevention Plans (SWPPPs)

All facility operators must prepare, retain on site, and implement an SWPPP. The SWPPP has two major objectives: (1) to help identify the sources of pollution that affect the quality of industrial storm water discharges and authorized non-storm water discharges, and (2) to describe and ensure the. implementation of BMPs to reduce or prevent pollutants in industrial storm water discharges and authorized non-storm water discharges.

This General Permit requires development and implementation of an SWPPP emphasizing BMPs. This approach provides the flexibility necessary to establish appropriate BMPs for different types of industrial activities and pollutant sources. As this General Permit covers vastly different types of facilities, the State Water Board recognizes that there is no single best way of developing or organizing an SWPPP. The SWPPP requirements contain the essential elements that all facility operators must consider and address in the SWPPP. This General Permit's SWPPP requirements are more detailed than the previous general permit's SWPPP requirements, and the suggested order of the SWPPP elements have been rearranged (1) to correspond more closely with other storm water permits in effect throughout the country, and (2) to generally follow a more logical path. Facility operators that have already developed and implemented SWPPPs under previous general permits are required to review the SWPPP's requirements contained in this General Permit and then review their existing SWPPP for adequacy. If the existing SWPPP adequately identifies and assesses all potential sources of pollutants and describes the appropriate BMPs necessary to reduce or prevent pollutants, the facility operator is not required to revise the existing SWPPP.

One of the major elements of the SWPPP is the elimination of unauthorized non-storm water discharges to the facility's storm drain system. Unauthorized non-storm water discharges can be generated from a wide variety of potential pollutant sources.

They include waters from the rinsing or washing of vehicles, equipment, buildings, or pavement; materials that have been improperly disposed of or dumped, and spilled; or leaked materials. Unauthorized non-storm water discharges can contribute a significant pollutant load to receiving waters.

Measures to control spills, leakage, and dumping can often be addressed through BMPs. Unauthorized non-storm water discharges may enter the storm drain system via conveyances such as floor drains. All conveyances should be evaluated to determine whether they convey unauthorized nonzstorm water discharges to the storm drain system. Unauthorized non-storm water discharges (even when commingled with storm water) shall be eliminated or covered by a separate NPDES Permit.

There are many non-storm water discharges that, under certain conditions, should not contain pollutants associated with

industrial activity (i.e., air conditioning condensate, potable water line testing, landscaping overflow, etc.). Item D, Special Conditions, provides the conditions where certain listed non-storm water discharges are authorized by this General Permit.

Monitoring Program The General Permit requires development and implementation of a monitoring program. The objectives of the monitoring program are to (1) demonstrate compliance with the General Permit, (2) aid in the implementation of the SWPPP, and (3) measure the effectiveness of the BMPs in reducing or preventing pollutants in storm water discharges and authorized non-storm water discharges.

All facility operators (with the exception of inactive mining operations) are required to:

1. Perform visual observations of storm water discharges and authorized storm water discharges.
2. Collect and analyze samples of storm water discharges.

Analysis must include pH, total suspended solids (TSS), total organic carbon (TOC), specific conductance- toxic chemicals, and other pollutants which are likely to be present in storm water discharges in significant quantities, and those parameters listed in Table D of this General Permit. The Table D parameters are those listed in the U.S. EPA Multi-Sector General Permit. Facility operators subject to Federal storm water effluent limitation guidelines in 40 CFR Subchapter N must also sample and analyze for any pollutant specified in the appropriate category of 40 CFR Subchapter N.

Facility operators are not required to collect samples or perform visual observations during adverse climatic conditions. Sample collection and visual observations are required only during scheduled facility operating hours. Visual observations are required only during daylight hours. Facility operators that are unable to collect any of the required samples or visual observations because of the above circumstances must provide documentation to the Regional Water Board in their annual report.

Facility operators may be exempt from performing sampling and analysis if they: (1) do not have areas of industrial activity exposed to storm water, (2) receive an exemption from a local agency which has jurisdiction over the storm sewer system, or (3) receive an exemption from the appropriate Regional Water Board. Facility operators must always perform sampling and analysis for any pollutant specified in storm water effluent limitation guidelines.

This General Permit contains a new procedure where facility operators, if they meet certain minimum conditions, may certify compliance with the General Permit and reduce the number of

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sampling events required to be sampled for the remaining term of the General Permit. Each Regional Water Board may develop instructions, guidance, and checklists to assist facility operators to complete sampling reduction requests.

Local agencies that wish to provide sampling and analysis exemptions or reductions to facility operators within their jurisdiction shall develop a certification program that clearly indicates the certification procedures and criteria used by the local agency. At a minimum, these programs should include site inspections, a review of the facility operator's SWPPP, and a review of other records such as monitoring data, receiving water data, etc. The certification program shall be approved by the local Regional Water Board before implementation.

Alternative Monitoring Facility operators are required to develop a facility-specific monitoring program that satisfies both the minimum monitoring program requirements and the objectives of the monitoring program. Some facility operators have indicated that cost-effective alternative monitoring programs can be developed that provide equivalent or more accurate indicators of pollutants and/or BMP performance than a monitoring program based upon the minimum monitoring program requirements. An example of such an alternative monitoring program would be one that identifies sample locations at or near pollutant sources rather than sampling an entire drainage area where the storm water discharge has been diluted with storm water from areas with little or no industrial activity.

The State Water Board does not want to preclude facility operators from developing better, and perhaps more cost-effective, monitoring programs. This General Permit allows facility operators to submit alternative monitoring programs for approval by the Regional Water Board. For individual facilities, these proposals must be facility specific and demonstrate how the alternative monitoring program will result in an equivalent or more accurate indicator of pollutants and/or BMP effectiveness.

Facility operators with similar industrial activities may also propose alternative monitoring programs for approval by the Regional Water Boards. These proposals must demonstrate how the alternative monitoring program will result in an equivalent or more accurate indicator of pollutants and/or BMP effectiveness for all of the participating facilities.

Facility operators shall continue to comply with the existing monitoring program requirements until receiving approval by the Regional Water Board.

-XII-Group Monitoring Each facility operator may either perform sampling and analysis individually or participate in a group monitoring program. A group monitoring program may be developed either by a group leader representing a group of similar facilities or by a local agency which holds a storm water permit for a municipal separate storm sewer system for industrial facilities within its jurisdiction. The group leader or local agency responsible for the group monitoring program must schedule all participating facilities to sample two storm events over the life of this General Permit. Facility operators subject to Federal effluent limitations guidelines in 40 CFR Subchapter N must individually sample and analyze for pollutants listed in the appropriate Federal regulations.

Participants within a group may be located within the jurisdiction of more than one Regional Water Board. Multi-Regional Water Board groups must receive the approval of the State Water Board Executive Director (with the concurrence of the appropriate Regional Water Boards).

Each group leader or local agency responsible for group sampling must: (1) provide guidance or training so that the monitoring is done correctly, (2) recommend appropriate BMPs to reduce or prevent pollutants in storm water discharges and authorized non-storm water discharges from group participants, (3) evaluate and report the monitoring data to the State Water Board and/or the appropriate Regional Water Board(s), and (4) conduct two on-site inspections at each facility over the five year term of this General Permit to evaluate facility compliance and recommend BMPs to achieve compliance with this General Permit. The group leader or local agency may designate, hire, or train inspectors to conduct these inspections that are or are not directly affiliated with the group leader or local agency. It is the group leader's or local agency's responsibility to select inspectors that are capable of evaluating each facility's compliance with the General Permit and can recommend appropriate BMPs. All group monitoring plans are subject to State Water Board and/or Regional Water Board(s) review. Consistent with the four-tier permitting strategy described in the Federal regulations, the Regional Water Board(s) may evaluate the data and results from group monitoring to establish future permitting decisions. As appropriate, the State Water Board and/or the Regional Water Board(s) may terminate or require substantial amendment to the group monitoring plans. The State Water Board and/or the Regional Water Board(s) may terminate a facility's participation in group monitoring or require additional monitoring activities.

Retention of Records

-XIII-The facility operator is required to retain records of all monitoring information, copies of all reports required by this General Permit, and records of all data used to complete the NOI for a period of five years from the date of measurement, report, or monitoring activity. This period may be extended by the State and/or Regional Water Boards. All records are public documents and must be provided to the Regional Water Boards on request.

Watershed Management The State and Regional Water Boards are undertaking a focussed effort in watershed management throughout the State. In reissuing this General Permit, the State Water Board recognizes both the evolving nature of watershed management and the long-term desirability of structuring monitoring programs to support the Watershed Management Initiative. Therefore, the amended monitoring and reporting provisions provide flexibility for individual facility operators or groups of facility operators to propose and participate in, subject to Regional Water Board approval, watershed monitoring programs in lieu of some or all of the monitoring requirements contained in this General Permit.

Facility Operator Compliance Responsibilities This General Permit has been written to encourage individual facility operators to develop their own SWPPP and monitoring programs. Many facility operators, however, choose to obtain compliance assistance either by hiring a consultant on an individual basis or by participating in a group monitoring plan.

Regardless of how a facility operator chooses to pursue compliance, it is the facility operator that is responsible for compliance with this General Permit.

The State Water Board recognizes that industrial activities and operating conditions at many facilities change over time. In addition, new and more effective BMPs are being developed by various facility operators and by industrial groups. The SWPPP and monitoring program requirements include various inspections, reviews, and observations all of which recognize, encourage, and mandate an iterative self-evaluation process that is necessary to consistently comply with this General Permit. In general, facility operators that develop and implement SWPPPs that comply with this General Permit should not be penalized when discovering minor violations through this iterative self-evaluation process.

The General Permit provides facility operators up to 90 days to revise and implement the SWPPP to correct such violations.

STATE WATER RESOURCES CONTROL BOARD (STATE WATER BOARD)

WATER QUALITY ORDER NO. 97-03-DWQ NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM (NPDES)

GENERAL PERMIT NO. CAS000001 (GENERAL PERMIT)

WASTE DISCHARGE REQUIREMENTS (WDRS)

FOR DISCHARGES OF STORM WATER ASSOCIATED WITH INDUSTRIAL ACTIVITIES EXCLUDING CONSTRUCTION ACTIVITIES The State Water Board finds that:

1. Federal regulations for storm water discharges were issued by the U.S. Environmental Protection Agency (U.S. EPA) on November 16, 1990 (40 Code of Federal Regulations [CFR]

Parts 122, 123, and 124). The regulations require operators of specific categories of facilities where discharges of storm water associated with industrial activity (storm water) occur to obtain an NPDES permit and to implement Best Available Technology Economically Achievable (BAT) and Best Conventional Pollutant Control Technology (BCT) to reduce or prevent pollutants associated with industrial activity in storm water discharges and authorized non-storm discharges.

2. This General Permit shall regulate storm water discharges and authorized non-storm water discharges from specific categories of industrial facilities identified in Attachment 1, storm water discharges and authorized non-storm water discharges from facilities as designated by the Regional Water Quality Control Boards (Regional Water Boards), and storm water discharges and authorized non-storm water discharges from other facilities seeking General Permit coverage. This General Permit may also regulate storm water discharges and authorized non-storm water discharges from facilities as required by U.S. EPA regulations. This General Permit shall regulate storm water discharges and authorized non-storm water discharges previously regulated by San Francisco Bay Regional Water Board Order, No.92-11 (as amended by Order No.92-116).

This General Permit excludes storm water discharges and non-storm water discharges that are regulated by other individual or general NPDES permits, storm water discharges and non-storm water discharges from construction activities, and storm water discharges and non-storm water discharges excluded by the Regional Water Boards for coverage by this General Permit. Attachment 2 contains the addresses and telephone numbers of each Regional Water Board office.

3. To obtain coverage for storm water discharges and authorized non-storm water discharges pursuant to this General Permit, operators of facilities (facility operators) must submit a Notice of Intent (NOI), in accordance with the Attachment 3

instructions, and appropriate annual fee to the State Water Board. This includes facility operators that have participated in U.S. EPA's group application process.

4. This General Permit does not preempt or supersede the authority of local agencies to prohibit, restrict, or control storm water discharges and authorized non-storm water discharges to storm drain systems or other water-courses within their jurisdictions as allowed by State and Federal law.
5. If an individual NPDES permit is issued to a facility operator otherwise subject to this General Permit or an alternative NPDES general permit is subsequently adopted which covers storm water discharges and/or authorized non-storm water discharges regulated by this General Permit, the applicability of this General Permit to such discharges is automatically terminated on the effective date of the individual NPDES permit or the date of approval for coverage under the subsequent NPDES general permit.
6. Effluent limitations and toxic and effluent standards established in Sections 208(b), 301, 302, 303(d), 304, 306, 307, and 403 of the Federal Clean Water Act (CWA), as amended, are applicable to storm water discharges and authorized non-storm water discharges regulated by this General Permit.
7. This action to adopt an NPDES general permit is exempt from the provisions of the California Environmental Quality Act (Public Resources Code Section 21100, et seq.) in accordance with Section 13389 of the California Water Code.
8. Federal regulations (40 CFR Subchapter N) establish effluent limitations guidelines for storm water discharges from some facilities in ten industrial categories.
9. For facilities which do not have established effluent limitation guidelines for storm water discharges in 40 CFR Subchapter N, it is not feasible at this time to establish numeric effluent limitations. This is due to the large number of discharges and the complex nature of storm water discharges. This is also consistent with the U.S. EPA's August 1, 1996 "Interim Permitting Approach for Water Quality Based Effluent Limitations in Storm Water Permits."
10. Facility operators are required to comply with the terms and conditions of this General Permit. Compliance with the terms and conditions of this General Permit constitutes compliance with BAT/BCT requirements and with requirements to achieve water quality standards. This includes the development and implementation of an effective Storm Water Pollution Prevention Plan (SWPPP) to reduce or prevent pollutants associated with industrial activity in storm water discharges and authorized non-storm water discharges.
11. Best Management Practices (BMPs) to reduce or prevent pollutants associated with industrial activity in storm water discharges and authorized non-storm water discharges are appropriate where numeric effluent limitations are infeasible, and the implementation of BMPs is adequate to achieve compliance with BAT/BCT and with water quality standards.
12. The State Water Board has adopted a Watershed Management Initiative that encourages watershed management throughout the State. This General Permit recognizes the Watershed Management Initiative by supporting the development of watershed monitoring programs authorized by the Regional Water Boards.
13. Following adoption of this General Permit, the Regional Water Boards shall enforce its provisions.
14. Following public notice in accordance withState and Federal laws and regulations, the State Water Board held a public hearing on November 12, 1996 and heard and considered all comments pertaining to this General Permit. A response to all significant comments has been prepared and is available for public review.
15. This Order is an NPDES General Permit in compliance with Section 402 of the CWA and shall take effect upon adoption by the State Water Board.
16. All terms that are defined in the CWA, U.S. EPA storm water regulations and the Porter-Cologne Water Quality Control Act will have the same definition in this General Permit unless otherwise stated.

IT IS HEREBY ORDERED that all facility operators required to be regulated by this General Permit shall comply with the following:

A. DISCHARGE PROHIBITIONS:

1. Except as allowed in Special Conditions (D.1.) of this General Permit, materials other than storm water (non-storm water discharges) that discharge either directly or indirectly to waters of the United States are prohibited.

Prohibited non-storm water discharges must be either eliminated or permitted by a separate NPDES permit.

2. Storm water discharges and authorized non-storm water discharges shall not cause or threaten to cause pollution, contamination, or nuisance.

B. EFFLUENT LIMITATIONS:

1. Storm water discharges from facilities subject to storm water effluent limitation guidelines in Federal regulations (40 CFR

Subchapter N) shall not exceed the specified effluent limitations.

2. Storm water discharges and authorized non-storm water discharges regulated by this General Permit shall not contain a hazardous substance equal to or in excess of a reportable quantity listed in 40 CFR Part 117 and/or 40 CFR Part 302.
3. Facility operators covered by this General Permit must reduce or prevent pollutants associated with industrial activity in storm water discharges and authorized non-storm water discharges through implementation of BAT for toxic and non-conventional pollutants and BCT for conventional pollutants.

Developmentand implementation of an' SWPPP that complies with the requirements in Section A of the General Permit and that includes BMPs that achieve BAT/BCT constitutes compliance with this requirement.

C. RECEIVING WATER LIMITATIONS:

1. Storm. water discharges and authorized non-storm water discharges to any surface or ground water shall not adversely impact human health or the environment.
2. Storm water discharges and authorized non-storm water discharges shall not cause or contribute to an exceedance of any applicable water quality standards contained in a Statewide Water Quality Control Plan or the applicable Regional Water Board's Basin Plan.
3. A facility operator will not be in violation of Receiving Water Limitation C.2. as long as the facility operator has implemented BMPs that achieve BAT/BCT and the following procedure is followed:
a. The facility operator shall submit a report to the appropriate Regional Water Board that describes the BMPs that are currently being implemented and additional BMPs that will be implemented to prevent or reduce any pollutants that are causing or contributing to the exceedance of water quality standards. The report shall include an implementation schedule. The Regional Water Board may require modifications to the report.
b. Following approval of the report described above by the Regional Water Board, the facility operator shall revise its SWPPP and monitoring program to incorporate the additional BMPs that have been and will be implemented, the implementation schedule, and any additional monitoring required.
4. A facility operator shall be in violation of this General Permit if he/she fails to do any of the following:
a. Submit the report described above within 60 days after either the facility operator or the Regional Water Board determines that discharges are causing or contributing to an exceedance of an applicable water quality standard;
b. Submit a report that is approved by the Regional Water Board; or
c. Revise its SWPPP and monitoring program as required by the approved report.

D. SPECIAL CONDITIONS

1. Non-Storm Water Discharges
a. The following non-storm water discharges are authorized by this General Permit provided that they satisfy the conditions specified in Paragraph b.

below: fire hydrant flushing; potable water sources, including potable water related to the operation, maintenance, or testing of potable water systems; drinking fountain water; atmospheric condensates including refrigeration, air conditioning, and compressor condensate; irrigation drainage; landscape watering; springs; ground water; foundation or footing drainage; and sea water infiltration where the sea waters are discharged back into the sea water source.

b. The non-storm water discharges as provided in Paragraph a. above are authorized by this General Permit if all the following conditions are met:
i. The non-storm water discharges are in compliance with Regional Water Board requirements.

ii. The non-storm water discharges are in compliance with local agency ordinances and/or requirements.

iii. BMPs are specifically included in the SWPPP to (1) prevent or reduce the contact of non-storm water discharges with significant materials or equipment and (2) minimize, to the extent practicable, the flow or volume of non-storm water discharges.

iv. The non-storm water discharges do not contain significant quantities of pollutants.

v. The monitoring program includes quarterly visual observations of each non-storm water discharge and its sources to ensure that BMPs are being implemented and are effective.

vi. The non-storm water discharges are reported and described annually as part of the annual report.

c. The Regional Water Board or its designee may establish additional monitoring programs and reporting requirements for any non-storm water discharge authorized by this General Permit.
d. Discharges from firefighting activities are authorized by this General Permit and are not subject to the conditions of Paragraph b. above.

E. PROVISIONS

1. All facility operators seeking coverage by this General Permit must submit an NOI for each of the facilities they operate. Facility operators filing an NOI after the adoption of this General Permit shall use the NOI form and instructions (Attachment 3) attached to this General Permit. Existing facility operators who have filed an NOI pursuant to State Water Board Order No. 91-013-DWQ (as amended by Order No. 92-12-DWQ) or San Francisco Bay Regional Water Board Order No. 92-11 (as amended by Order No.92-116) shall submit an abbreviated NOI form provided by the State Water Board. The abbreviated NOI form shall be submitted within 45 days of receipt.
2. Facility operators who have filed an NOI, pursuant to State Water Board Order No. 91-013-DWQ (as amended by Order No. 92-12-DWQ) or San Francisco Bay Regional Water Board Order No. 92-11 (as amended by Order No.92-116),

shall continue to implement their existing SWPPP and shall implement any necessary revisions to their SWPPP in accordance with Section A of this General Permit in a timely manner, but in no case later than August 1, 1997.

Facility operators beginning industrial activities after adoption of this General Permit must develop and implement an SWPPP in accordance with Section A of this General Permit when the industrial activities begin.

3. Facility operators who have filed an NOI, pursuant to State Water Board Order No. 91-013-DWQ (as amended by Order No. 92-12-DWQ) or San Francisco Bay Regional Water Board Order No. 92-11 (as amended by Order No.92-116),

shall continue to implement their existing Monitoring Program and shall implement any necessary revisions to their Monitoring Program in accordance with Section B of the General Permit in a timely manner, but in no case later than August 1, 1997. Facility operators beginning industrial activities after adoption of this General Permit must develop and implement a Monitoring Program in

accordance with Section B of this General Permit when industrial activities begin.

4. Facility operators of feedlots as defined in 40 CFR Part 412 that are in full compliance with Section 2560 to Section 2565, Title 23, California Code of Regulations (Chapter 15) will be in compliance with all effluent limitations and prohibitions contained in this General Permit. Facility operators of feedlots that comply with Chapter 15, however, must perform monitoring in compliance with the requirements of Section B.4.d. and B.14. of this General Permit. Facility operators of feedlots must also comply with any Regional Water Board WDRs or NPDES general permit regulating their storm water discharges.
5. All facility operators must comply with lawful requirements of municipalities, counties, drainage districts, and other local agencies regarding storm water discharges and non-storm water discharges entering storm drain systems or other watercourses under their jurisdiction, including applicable requirements in municipal storm water management programs developed to comply with NPDES permits issued by the Regional Water Boards to local agencies.
6. All facility operators must comply with the standard provisions and reporting requirements for each facility covered by this General Permit contained in Section C, Standard Provisions.

7.- Facility operators that operate facilities with co-located industrial activities (facilities that have industrial activities that meet more than one of the descriptions in Attachment 1) that are contiguous to one another are authorized to file a single NOI to comply with the General Permit. Storm water discharges and authorized non-storm water discharges from the co-located industrial activities are authorized if the SWPPP and Monitoring Program addresses each co-located industrial activity.

8. Upon reissuance of a successor NPDES general permit by the State Water Board, the facility operators subject to this reissued General Permit may be required to file an NOI.
9. Facility operators may request to terminate their coverage.

under this General Permit by filing a Notice of Termination (NOT) with the Regional Water Board. The NOT shall provide all documentation requested by the Regional Water Board. The facility operator will be notified when the NOT has been approved. Should the NOT be denied, facility operators are responsible for continued compliance with the requirements of this General Permit.

10. Facility operators who have filed an NOI, pursuant to State Water Board Order No. 91-013-DWQ (as amended by Order No. 92-12) or San Francisco Bay Regional Water Board Order No. 92-11 (as amended by Order No.92-116) shall:
a. Complete the 1996-97 activities required by those general permits. These include, but are not limited to, conducting any remaining visual observations, sample collection, annual site inspection, annual report submittal, and (for group monitoring leaders)

Group Evaluation Reports; and

b. Comply with the requirements of this General Permit no later than August 1, 1997.
11. If the Regional Water Board determines that a discharge may be causing or contributing to an exceedance of any applicable water quality standards contained in a Statewide Water Quality Control Plan or the applicable Regional Water Board's Basin Plan, the Regional Water Board may order the facility operator to comply with the requirements described in Receiving Water Limitation C.3. The facility operator shall comply with the requirements within the time schedule established by the Regional Water Board.
12. If the facility operator determines that its storm water discharges or authorized non-storm water discharges are causing or contributing to an exceedance of any applicable water quality standards, the facility operator shall comply with the requirements described in Receiving Water Limitation C.3.
13. State Water Board Order No. 91-013-DWQ (as amended by Order No. 92-12-DWQ) and San Francisco Bay Regional Water Board Order No.91-011 (as amended by Order No.92-116) are hereby rescinded.

F. REGIONAL WATER BOARD AUTHORITIES

1. Following adoption of this General Permit, Regional Water Boards shall:
a. Implement the provisions of this General Permit, including, but not limited to, reviewing SWPPPs, reviewing annual reports, conducting compliance inspections, and taking enforcement actions.
b. Issue other NPDES general permits or individual NPDES storm water permits as they deem appropriate to individual facility operators, facility operators of specific categories of industrial activities, or facility operators in a watershed or geographic area.

Upon issuance of such NPDES permits by a Regional Water Board, the affected facility operator shall no longer

be regulated by this General Permit. Any new NPDES permit issued by the Regional Water Board may contain different requirements than the requirements of this General Permit.

2. Regional Water Boards may provide guidance to facility operators on the SWPPP and the Monitoring Program and reporting implementation.
3. Regional Water Boards may require facility operators to conduct additional SWPPP and Monitoring Program and reporting activities necessary to achieve compliance with this General Permit.
4. Regional Water Boards may approve requests from facility operators whose facilities include co-located industrial activities that are not contiguous within the facilities (e.g., some military bases) to comply with this General Permit under a single NOI. Storm water discharges and authorized non-storm water discharges from the co-located industrial activities and from other sources within the facility that may generate significant quantities of pollutants are authorized provided the SWPPP and Monitoring Program addresses each co-located industrial activity and other sources that may generate significant quantities of pollutants.

CERTIFICATION The undersigned, Administrative Assistant to the State Water Board, does hereby certify that the foregoing is a full, true, and correct copy of an order duly and regularly adopted at a meeting of the State Water Resources Control Board held on April 17, 1997.

AYE: John P. Caffrey John W. Brown James M. Stubchaer Marc Del Piero Mary Jane Forster NO: None ABSENT: None ABSTAIN: None Maureen March6

Administrative Assistant to the Board

SECTION A: STORM WATER POLLUTION PREVENTION PLAN REQUIREMENTS

1. Implementation Schedule A storm water pollution prevention plan (SWPPP) shall be developed and implemented for each facility covered by this General Permit in accordance with the following schedule.
a. Facility operators beginning industrial activities before October 1, 1992 shall develop and implement the SWPPP no later than October 1, 1992. Facility operators beginning industrial activities after October 1, 1992 shall develop and implement the SWPPP when industrial activities begin.
b. Existing facility operators that submitted a Notice of Intent (NOI), pursuant to State Water Resources Control Board (State Water Board) Order No. 91-.013-DWQ (as amended by Order No. 92-12) or San Francisco Bay Regional Water Quality Control Board (Regional Water Board) Order No. 92-11 (as amended by Order No.92-116), shall continue to implement their existing SWPPP and shall implement any necessary revisions to their SWPPP in a timely manner, but in no case later than August 1, 1997.
2. Oblectives The SWPPP has two major objectives: (a) to identify and evaluate sources of pollutants associated with industrial activities that may affect the quality of storm water discharges and authorized non-storm water discharges from the facility; and (b) to identify and implement site-specific best management practices (BMPs) to reduce or prevent pollutants associated with industrial activities in storm water discharges and authorized non-storm water discharges. BMPs may include a variety of pollution prevention measures or other low-cost and pollution control measures. They are generally categorized as non-structural BMPs (activity schedules, prohibitions of practices, maintenance procedures, and other low-cost measures) and as structural BMPs (treatment measures, run-off controls, over-head coverage.) To achieve these objectives, facility operators should consider the five phase process for SWPPP development and implementation as shown in Table A.

The SWPPP requirements are designed to be sufficiently flexible to meet the needs of various facilities. SWPPP requirements that are not applicable to a facility should not be included in the SWPPP.

A facility's SWPPP is a written document that shall contain a compliance activity schedule, a description of industrial activities and pollutant sources, descriptions of BMPs, drawings, maps, and relevant copies or references of parts of other plans. The SWPPP shall be revised whenever appropriate and shall be readily available for review by facility employees or Regional Water Board inspectors.

3. Planning and Organization
a. Pollution Prevention Team The SWPPP shall identify a specific individual or individuals and their positions within the facility organization as members of a storm water pollution prevention team responsible for developing the SWPPP, assisting the facility manager in SWPPP implementation and revision, and conducting all monitoring program activities required in Section B of this General Permit. The SWPPP shall clearly identify the General Permit related responsibilities, duties, and activities of each team member. For small facilities, storm water pollution prevention teams may consist of one individual where appropriate.
b. Review Other Requirements and Existing Facility Plans The SWPPP may incorporate or reference the appropriate elements of other regulatory requirements. Facility operators should review all local, State, and Federal requirements that impact, complement, or are consistent with the requirements of this General Permit. Facility operators should identify any existing facility plans that contain storm water pollutant control measures or relate to the requirements of this General Permit. As examples, facility operators whose facilities are subject to Federal Spill Prevention Control and Countermeasures' requirements should already have instituted a plan to control spills of certain hazardous materials. Similarly, facility operators whose facilities are subject to air quality related permits and regulations may already have evaluated industrial activities that generate dust or particulates.
4. Site Map The SWPPP shall include a site map. The site map shall be provided on an 8-'/2 x 11 inch or larger sheet and include notes, legends, and other data as appropriate to ensure that the site map is clear and understandable. If necessary, facility operators may provide the required information on multiple site maps.

TABLE A FIVE PHASES FOR DEVELOPING AND IMPLEMENTING INDUSTRIAL STORM WATER POLLUTION PREVENTION PLANS

PLANNING AND ORGANIZATION

  • Form Pollution Prevention Team
  • Review other plans ASSESSMENT PHASE
  • Develop a site map
  • Identify potential pollutant sources
  • Inventory of materials and chemicals
  • List significant spills and leaks
  • Identify non-storm water discharges
  • Assess pollutant Risks F4, BEST MANAGEMENT PRACTICES IDENTIFICATION PHASE
  • Nonstructural BMPs
  • Structural BMPs
  • Select activity and site-specific BMPs IMPLEMENTATION PHASE
  • Train employees
  • Implement BMPs
  • Conduct recordkeeping and reporting EVALUATION / MONITORING
  • Conduct annual site evaluation
  • Review monitoring information
  • Evaluate BMPs
  • Review and revise SWPPP The following information shall be included on the site map:
a. The facility boundaries; the outline of all storm water drainage areas within the facility boundaries; portions of the drainage area impacted by run-on from surrounding areas; and direction of flow of each drainage area, on-site surface water bodies, and areas of soil erosion. The map shall also identify nearby water bodies (such as rivers, lakes, and ponds) and municipal storm drain inlets

where the facility's storm water discharges and authorized non-storm water discharges may be received.

b. The location of the storm water collection and conveyance system, associated points of discharge, and direction of flow. Include any structural control measures that affect storm water discharges, authorized non-storm water discharges, and run-on.! Examples of structural control measures are catch basins, berms, detention ponds, secondary containment, oil/water separators, diversion barriers, etc.
c. An outline of all impervious areas of the facility, including paved areas, buildings, covered storage areas, or other roofed structures.
d. Locations where materials are directly exposed to precipitation and the locations where significant spills or leaks identified in Section A.6.a.iv. below have occurred.
e. Areas of industrial activity. This shall include the locations of all storage areas and storage tanks, shipping and receiving areas, fueling areas, vehicle and equipment storage/maintenance areas, material handling and processing areas, waste treatment and disposal areas, dust or particulate generating areas, cleaning and rinsing

,areas, and other areas of industrial activity which are potential pollutant sources.

5. List of Significant Materials The SWPPP shall include a list of significant materials handled and stored at the site. For each material on the list, describe the locations where the material is being stored, received, shipped, and handled, as well as the typical quantities and frequency. Materials shall include raw materials, intermediate products, final or finished products, recycled materials, and waste or disposed materials.

6.Description of Potential Pollutant Sources

a. The SWPPP shall include a narrative description of the facility's industrial activities, as identified in Section A.4.e above, associated potential pollutant sources, and potential pollutants that could be discharged in storm water discharges or authorized non-storm water discharges.

At a minimum, the following items related to a facility's industrial activities shall be considered:

i. Industrial Processes Describe each industrial process, the type, characteristics, and quantity of significant materials used in or resulting from the process, and a description of the manufacturing, cleaning, rinsing, recycling, disposal, or other activities related to the process. Where applicable, areas protected by containment structures and the corresponding containment capacity shall be described.

ii. Material Handling and Storage Areas Describe each handling and storage area, type, characteristics, and quantity of significant materials handled or stored, description of the shipping, receiving, and loading procedures, and the spill or leak prevention and response procedures. Where applicable, areas protected by containment structures and the corresponding containment capacity shall be described.

iii. Dust and Particulate Generating Activities Describe all industrial activities that generate dust or particulates that may be deposited within the facility's boundaries and identify their discharge locations; the characteristics of dust.and particulate pollutants; the approximate quantity of dust and particulate pollutants that may be deposited within the facility boundaries; and a description of the primary areas of the facility where dust and particulate pollutants would settle.

iv. Significant Spills and Leaks Describe materials that have spilled or leaked in significant quantities in storm water discharges or non-storm water discharges since April 17, 1994.

Include toxic chemicals (listed in 40 CFR, Part 302) that have been discharged to storm water as reported on U.S. Environmental Protection Agency (U.S. EPA)

Form R, and oil and hazardous substances in excess of reportable quantities (see 40 Code of Federal Regulations [CFR], Parts 110, 117, and 302).

The description shall include the type, characteristics, and approximate quantity of the material spilled or leaked, the cleanup or remedial actions that have occurred or are planned, the approximate remaining quantity of materials that may be exposed to storm water or non-storm water

discharges, and the preventative measures taken to ensure spill or leaks do not reoccur. Such list shall be updated as appropriate during the term of this General Permit.

v. Non-Storm Water Discharges Facility operators shall investigate the facility to identify all non-storm water discharges and their sources. As part of this investigation, all drains (inlets and outlets) shall be evaluated to identify whether they connect to the storm drain system.

All non-storm water discharges shall be described.

This shall include the source, quantity, frequency, and characteristics of the non-storm water discharges and associated drainage area.

Non-storm water discharges that contain significant quantities of pollutants or that do not meet the conditions provided in Special Conditions D. are prohibited by this General Permit (Examples of prohibited non-storm water discharges are contact and non-contact cooling water, boiler blowdown, rinse water, wash water, etc.). Non-storm water discharges that meet the conditions provided in Special Condition D. are authorized by this General Permit.

The SWPPP must include BMPs to prevent or reduce contact of non-storm water discharges with significant materials or equipment.

vi. Soil Erosion Describe the facility locations where soil erosion may occur as a result of industrial activity, storm water discharges associated with industrial activity, or authorized non-storm water discharges.

b. The SWPPP shall include a summary of all areas of industrial activities, potential pollutant sources, and potential pollutants. This information should be summarized similar to Table B. The last column of Table B, "Control Practices", should be completed in accordance with Section A.8. below.
7. Assessment of Potential Pollutant Sources
a. The SWPPP shall include a narrative assessment of all industrial activities and potential pollutant sources as described in A.6. above to determine:
i. Which areas of the facility are likely sources of

pollutants in storm water discharges and authorized non-storm water discharges, and ii. Which pollutants are likely to be present in storm water discharges and authorized non-storm water discharges. Facility operators shall consider and evaluate various factors when performing this assessment such as current storm water BMPs; quantities of significant materials handled, produced, stored, or disposed of; likelihood of exposure to storm water or authorized non-storm water discharges; history of spill or leaks; and run-on from outside sources.

b. Facility operators shall summarize the areas of the facility that are likely sources of pollutants and the corresponding pollutants that are likely to be present in storm water discharges and authorized non-storm water discharges.

Facility operators are required to develop and implement additional BMPs as appropriate and necessary to prevent or reduce pollutants associated with each pollutant source.

The BMPs will be narratively described in Section 8 below.

8. Storm Water Best Management Practices The SWPPP shall include a narrative description of the storm water BMPs to be implemented at the facility for each potential pollutant and its source identified in the site assessment phase (Sections A.6. and 7. above). The BMPs shall be developed and implemented to reduce or prevent pollutants in storm water discharges and authorized non-storm water discharges. Each pollutant and its source may require one or more BMPs. Some BMPs may be implemented for multiple pollutants and their sources, while other BMPs will be implemented for a very specific pollutant and its source.

TABLE B EXAMPLE ASSESSMENT OF POTENTIAL POLLUTION SOURCES AND CORRESPONDING BEST MANAGEMENT PRACTICES

SUMMARY

Area Activity Pollutant Source Pollutant Best Management Practices Vehicle & Fueling Spills and leaks fuel oil - Use spill and overflow protection Equipment during delivery Fueling - Minimize run-on of storm water into the fueling area

- Cover fueling area

- Use dry cleanup methods rather than hosing down area

- Implement proper spill prevention control program

- Implement adequate preventative maintenance program to preventive tank and line leaks

- Inspect fueling areas regularly to detect problems before they occur

- Train employees on proper fueling, cleanup, and spill response techniques.

Spills caused by fuel oil topping off fuel tanks Hosing or washing down fuel oil fuel area Leaking storage tanks fuel oil Rainfall running off fuel oil fueling area, and rainfall running onto and off fueling area

The description of the BMPs shall identify the BMPs as (1) existing BMPs, (2) existing BMPs to be revised and implemented, or (3) new BMPs to be implemented. The description shall also include a discussion on the effectiveness of each BMP to reduce or prevent pollutants in storm water discharges and authorized non-storm water discharges. The SWPPP shall provide a summary of all BMPs implemented for each pollutant source.

This information should be summarized similar to Table B.

Facility operators shall consider the following BMPs for implementation at the facility:

a. Non-Structural BMPs Non-structural BMPs generally consist of processes, prohibitions, procedures, schedule of activities, etc., that prevent pollutants associated with industrial activity from contacting with storm water discharges and authorized non-storm water discharges. They are considered low technology, cost-effective measures. Facility operators should consider all possible non-structural BMPs options before considering additional structural BMPs (see Section A.8.b. below). Below is a list of non-structural BMPs that should be considered:
i. Good Housekeeping Good housekeeping generally consist of practical procedures to maintain a clean and orderly facility.

ii. Preventive Maintenance Preventive maintenance includes the regular inspection and maintenance of structural storm water controls (catch basins, oil/water separators, etc.)

as well as other facility equipment and systems.

iii. Spill Response This includes spill clean-up procedures and necessary clean-up equipment based upon the quantities and locations of significant materials that may spill or leak.

iv. Material Handling and Storage This includes all procedures to minimize the potential for spills and leaks and to minimize exposure of significant materials to storm water and authorized non-storm water discharges.

v. Employee Training This includes training of personnel who are responsible for (1) implementing activities identified in the SWPPP, (2) conducting inspections, sampling, and visual observations, and (3) managing storm water. Training should address topics such as spill response, good housekeeping, and material handling procedures, and actions necessary to implement all BMPs identified in the SWPPP. The SWPPP shall identify periodic dates for such training. Records shall be maintained of all training sessions held.

vi. Waste Handling/Recycling This includes the procedures or processes to handle, store, or dispose of waste materials or recyclable materials.

vii. Recordkeeping and Internal Reporting This includes the procedures to ensure that all records of inspections, spills, maintenance activities, corrective actions, visual observations, etc., are developed, retained, and provided, as necessary, to the appropriate facility personnel.

viii. Erosion Control and Site Stabilization This includes a description of all sediment and erosion control activities. This may include the planting and maintenance of vegetation, diversion of run-on and runoff, placement of sandbags, silt screens, or other sediment control devices, etc.

ix. Inspections This includes, in addition to the preventative maintenance inspections identified above, an inspection schedule of all potential pollutant sources. Tracking and follow-up procedures shall be described to ensure adequate corrective actions are taken and SWPPPs are made.

x. Quality Assurance This includes the procedures to ensure that all elements of the SWPPP and Monitoring Program are adequately conducted.
b. Structural BMPs Where non-structural BMPs as identified in Section A.8.a.

above are not effective, structural BMPs shall be considered. Structural BMPs generally consist of structural devices that reduce or prevent pollutants in storm water discharges and authorized non-storm water discharges. Below is a list of structural BMPs that should be considered:

i. Overhead Coverage This includes structures that provide horizontal coverage of materials, chemicals, and pollutant sources from contact with storm water and authorized non-storm water discharges.

ii. Retention Ponds This includes basins, ponds, surface impoundments, bermed areas, etc. that do not allow storm water to discharge from the facility.

iii. Control Devices This includes berms or other devices that channel or route run-on and runoff away from pollutant sources.

iv. Secondary Containment Structures This generally includes containment structures around storage tanks and other areas for the purpose of collecting any leaks or spills.

v. Treatment This includes inlet controls, infiltration devices, oil/water separators, detention ponds, vegetative swales, etc. that reduce the pollutants in storm water discharges and authorized non-storm water discharges.
9. Annual Comprehensive Site Compliance Evaluation The facility operator shall conduct one comprehensive site compliance evaluation (evaluation) in each reporting period (July 1-June 30). Evaluations shall be conducted within 8-16 months of each other. The SWPPP shall be revised, as appropriate, and the revisions implemented within 90 days of the evaluation. Evaluations shall include the following:
a. A review of all visual observation records, inspection records, and sampling and analysis results.
b. A visual inspection of all potential pollutant sources for evidence of, or the potential for, pollutants entering the drainage system.
c. A review and evaluation of all BMPs (both structural and non-structural) to determine whether the BMPs are adequate, properly implemented and maintained, or whether additional BMPs are needed. A visual inspection of equipment needed to implement the SWPPP, such as spill response equipment, shall be included.
d. An evaluation report that includes, (i) identification of personnel performing the evaluation, (ii) the date(s) of the evaluation, (iii) necessary SWPPP revisions, (iv) schedule, as required in Section A.10.e, for implementing SWPPP revisions, (v) any incidents of non-compliance and the corrective actions taken, and (vi) a certification that the facility operator is in compliance with this General Permit. If the above certification cannot be provided, explain in the evaluation report why the facility operator is not in compliance with this General Permit. The evaluation report shall be submitted as part of the annual report, retained for at least five years, and signed and certified in accordance with Standard Provisions 9. and
10. of Section C. of this General Permit.
10. SWPPP General Rec-uirements
a. The SWPPP shall be retained on site and made available upon request of a representative of the Regional Water Board and/or local storm water management agency (local agency) which receives the storm water discharges.
b. The Regional Water Board and/or local agency may notify the facility operator when the SWPPP does not meet one or more of the minimum requirements of this Section. As requested by the Regional Water Board and/or local agency, the facility operator shall submit an SWPPP revision and implementation schedule that meets the minimum requirements of this section to the Regional Water Board and/or local agency that requested the SWPPP revisions. Within 14 days after implementing the required SWPPP revisions, the facility operator shall provide written certification to the Regional Water Board and/or local agency that the revisions have been implemented.
c. The SWPPP shall be revised, as appropriate, and implemented prior to changes in industrial activities which (i) may significantly increase the quantities of pollutants in storm water discharge, (ii) cause a new area of industrial activity at the facility to be exposed to storm water, or (iii) begin an industrial activity which would introduce a new pollutant source at the facility.
d. Other than as provided in Provisions B.11, B.12, and E.2 of the General Permit, the SWPPP shall be revised and implemented in a timely manner, but in no case more than 90 days after a facility operator determines that the SWPPP is in violation of any requirement(s) of this General Permit.
e. When any part of the SWPPP is infeasible to implement by the deadlines specified in Provision E.2 or Sections A.1, A.9, A.10.c, and A.10.d of this General Permit due to proposed significant structural changes, the facility operator shall submit a report to the Regional Water Board prior to the applicable deadline that (i) describes the portion of the SWPPP that is infeasible to implement by the deadline, (ii) provides justification for a time extension, (iii) provides a schedule for completing and implementing that portion of the SWPPP, and (iv) describes the BMPs that will be implemented in the interim period to reduce or prevent pollutants in storm water discharges and authorized non-storm water discharges. Such reports are subject to Regional Water Board approval and/or modifications.

Facility operators shall provide written notification to the Regional Water Board within 14 days after the SWPPP revisions are implemented.

f. The SWPPP shall be provided, upon request, to the Regional Water Board. The SWPPP is considered a report that shall be available to the public by the Regional Water Board under Section 308(b) of the Clean Water Act.

SECTION B. MONITORING PROGRAM AND REPORTING REQUIREMENTS

1. Implementation Schedule Each facility operator shall develop a written monitoring program for each facility covered by this General Permit in accordance with the following schedule:
a. Facility operators beginning industrial activities before October 1, 1992 shall develop and implement a monitoring program no later than October 1, 1992. Facility operators beginning operations after October 1, 1992 shall develop and implement a monitoring program when the industrial activities begin.
b. Facility operators that submitted a Notice Of Intent (NOI) pursuant to State Water Resources Control Board (State Water Board) Order No. 91-013-DWQ (as amended by Order No. 92-12) or San Francisco Bay Regional Water Quality Control Board (Regional Water Board) Order No. 92-11 (as amended by Order No.92-116), shall continue to implement their existing monitoring program and implement any necessary revisions to their monitoring program in a timely manner, but in no case later than August 1, 1997. These facility operators may use the monitoring results conducted in accordance with those expired general permits to satisfy the pollutant/parameter reduction requirements in Section B.5.c., Sampling and Analysis Exemptions and Reduction certifications in Section B.12., and Group Monitoring Sampling credits in B.15.k. For facilities beginning industrial activities after the adoption of this General Permit, the monitoring program shall be developed and implemented when the facility begins the industrial activities.
2. Oblectives The objectives of the monitoring program are to:
a. Ensure that storm water discharges are in compliance with the Discharge Prohibitions, Effluent Limitations, and Receiving Water Limitations specified in this General Permit.
b. Ensure practices at the facility to reduce or prevent pollutants in storm water discharges and authorized non-storm water discharges are evaluated and revised to meet changing conditions.
c. Aid in the implementation and revision of the SWPPP required by Section A of this General Permit.
d. Measure the effectiveness of best management practices (BMPs) to prevent or reduce pollutants in storm water

discharges and authorized non-storm water discharges.

Much of the information necessary to develop the monitoring program, such as discharge locations, drainage areas, pollutant sources, etc., should be found in the Storm Water Pollution Prevention Plan (SWPPP). The facility's monitoring program shall be a written, site-specific document that shall be revised whenever appropriate and be readily available for review by employees or Regional Water Board inspectors.

3. Non-storm Water Discharge Visual Observations
a. Facility operators shall visually observe all drainage areas within their facilities for the presence of unauthorized non-storm water discharges;
b. Facility operators shall visually observe the facility's authorized non-storm water discharges and their sources;
c. The visual observations required above shall occur quarterly, during daylight hours, on days with no storm water discharges, and during scheduled facility operating hours'. Quarterly visual observations shall be conducted in each of the following periods:

January-March, April-June, July-September, and October-December. Facility operators shall conduct quarterly visual observations within 6-18 weeks of each other..

d. Visual observations shall document the presence of any discolorations, stains, odors, floating materials, etc., as well as the source of any discharge. Records shall be maintained of the visual observation dates, locations observed, observations, and response taken to eliminate unauthorized non-storm water discharges and to reduce or prevent pollutants from contacting non-storm water discharges. The SWPPP shall be revised, as necessary, and implemented in accordance with Section A of this General Permit.
4. Storm Water Discharge Visual Observations
a. With the exception of those facilities described in Section B.4.d. below, facility operators shall visually "Scheduled facility operating hours" are the time periods when the facility is staffed to conduct any function related to industrial activity, but excluding time periods where only routine maintenance, emergency response, security, and/or janitorial services are performed.

observe storm water discharges from one storm event per month during the wet season (October 1-May 30). These visual observations shall occur during the first hour of discharge and at all discharge locations. Visual observations of stored or contained storm water shall occur at the time of release.

b. Visual observations are only required of storm water discharges that occur during daylight hours that are preceded by at least three (3) working days 2 without storm water discharges and that occur during scheduled facility operating hours.
c. Visual observations shall document the presence of any floating and suspended material, oil and grease, discolorations, turbidity, odor, and source of any pollutants. Records shall be maintained of observation dates, locations observed, observations, and response taken to reduce or prevent pollutants in storm water discharges. The SWPPP shall be revised, as necessary, and implemented in accordance with Section A of this General Permit.
d. Feedlots (subject to Federal effluent limitations guidelines in 40 Code of Federal Regulations [CFR]

Part 412) that are in compliance with Sections 2560 to 2565, Article 6, Chapter 15, Title 23, California Code of Regulations, and facility operators with storm water containment facilities shall conduct monthly inspections of their containment areas to detect leaks and ensure maintenance of adequate freeboard. Records shall be maintained of the inspection dates, observations, and any response taken to eliminate leaks and to maintain adequate freeboard.

5. Samplinq and Analysis
a. Facility operators shall collect storm water samples during the first hour of discharge from (1) the first storm event of the wet season, and (2) at least one other storm event in the wet season. All storm water discharge locations shall be sampled. Sampling of stored or contained storm water shall occur at the time the stored or contained storm water is released. Facility operators that do not collect samples from the first storm event of the wet season are still required to collect samples from two other storm events of the wet season and shall explain in the Annual Report why the first storm event was not sampled.

2 Three (3) working days may be separated by non-working days such as weekends and holidays provided that no storm water discharges occur during the three (3) working days and the non-working days.

b. Sample collection is only required of storm water discharges that occur during scheduled facility operating hours and that are preceded by at least (3) three working days without storm water discharge.
c. The samples shall be analyzed for:
i. Total suspended solids (TSS)'pH, specific.

conductance, and total organic carbon (TOC). Oil and grease (O&G) may be substituted for TOC; and ii. Toxic chemicals and other pollutants that are likely to be present in storm water discharges in significant quantities. If these pollutants are not detected in significant quantities after two consecutive sampling events, the facility operator may eliminate the pollutant from future sample analysis until the pollutant is likely to be present again; and iii. Other analytical parameters as listed in Table D (located at the end of this Section). These parameters are dependent on the facility's standard industrial classification (SIC) code. Facility operators are not required to analyze a parameter listed in Table D when the parameter is not already required to be analyzed pursuant to Section B.5.c.i.

and ii. or B.6 of this General Permit, and either of the two following conditions are met: (1) the parameter has not been detected in significant quantities from the last two consecutive sampling events, or (2) the parameter is not likely to be present in storm water discharges and authorized non-storm water discharges in significant quantities based upon the facility operator's evaluation of the facilities industrial activities, potential pollutant sources, and SWPPP. Facility operators that do not analyze for the applicable Table D parameters shall certify in the Annual Report that the above conditions have been satisfied.

iv. Other parameters as required by the Regional Water Board.

6. Facilities Sublect to Federal Storm Water Effluent Limitation Guidelines Facility operators with facilities subject to Federal storm water effluent limitation guidelines, in addition to the requirements in Section B.5. above, must complete the following:
a. Collect and analyze two samples for any pollutant specified in the appropriate category of 40 CFR Subchapter N. The sampling and analysis exemptions and reductions described in Section B.12. of this General Permit do not apply to these pollutants.
b. Estimate or calculate the volume of storm water discharges from each drainage area;
c. Estimate or calculate the mass of each regulated pollutant as defined in the appropriate category of 40 CFR Subchapter N; and
d. Identify the individual(s) performing the estimates or calculations in accordance with Subsections b. and c.

above.

7. Sample Storm Water Discharge Locations
a. Facility operators shall visually observe and collect samples of storm water discharges from all drainage areas that represent the quality and quantity of the facility's storm water discharges from the storm event.
b. If the facility's storm water discharges are commingled with run-on from surrounding areas, the facility operator should identify other visual observation and sample collection locations that have not been commingled by run-on and that represent the quality and quantity of the facility's storm water discharges from the storm event.
c. If visual observation and sample collection locations are difficult to observe or sample (e.g., sheet flow, submerged outfalls), facility operators shall identify and collect samples from other locations that represent the quality and quantity of the facility's storm water discharges from the storm event.
d. Facility operators that determine that the industrial activities and BMPs within two or more drainage areas are substantially identical may either (i) collect samples from a reduced number of substantially identical drainage areas, or (ii) collect samples from each substantially identical drainage area and analyze a combined sample from each substantially identical drainage area. Facility operators must document such a determination in the annual report.
8. Visual Observation and Sample Collection Exceptions Facility operators are required to be prepared to collect samples and conduct visual observations at the beginning of the wet season (October 1) and throughout the wet season

until the minimum requirements of Sections B.4. and B.5. are completed with the following exceptions:

a. A facility operator is not required to collect a sample and conduct visual observations in accordance with Section B.4 and Section B.5 due to dangerous weather conditions, such as flooding, electrical storm, etc.,

when storm water discharges begin after scheduled facility operating hours or when storm water discharges are not preceded by three working days without discharge. Visual observations are only required during daylight hours. Facility operators that do not collect the required samples or visual observations during a wet season due to these exceptions shall include an explanation in the Annual Report why the sampling or visual observations could not be conducted.

b. A facility operator may conduct visual observations and sample collection more than one hour after discharge begins if the facility operator determines that the objectives of this Section will be better satisfied.

The facility operator shall include an explanation in the Annual Report why the visual observations and sample collection should be conducted after the first hour of discharge.

9. Alternative Monitoring Procedures Facility operators may propose an alternative monitoring program that meets Section B.2 monitoring program objectives for approval by the Regional Water Board. Facility operators shall continue to comply with the monitoring requirements of this Section and may not implement an alternative monitoring plan until the alternative monitoring plan is approved by the Regional Water Board. Alternative monitoring plans are subject to modification by the Regional Water Boards.
10. Monitoring Methods
a. Facility operators shall explain how the facility's monitoring program will satisfy the monitoring program objectives of Section B.2. This shall include:
i. Rationale and description of the visual observation methods, location, and frequency.

ii. Rationale and description of the sampling methods, location, and frequency; and

iii. Identification of the analytical methods and corresponding method detection limits used to detect pollutants in storm water discharges. This shall include justification that the method detection limits are adequate to satisfy the objectives of the monitoring program.

b. All sampling and sample preservation shall be in accordance with the current edition of "Standard Methods for the Examination of Water and Wastewater" (American Public Health Association). All monitoring instruments and equipment (including a facility operator's own field instruments for measuring pH and Electro Conductivity) shall be calibrated and maintained in accordance with manufacturers' specifications to ensure accurate measurements. All laboratory analyses must be conducted according to test procedures under 40 CFR Part 136, unless other test procedures have been specified in this General Permit or by the Regional Water Board. All metals shall be reported as total metals. With the exception of analysis conducted by facility operators, all laboratory analyses shall be conducted at a laboratory certified for such analyses by the State Department of Health Services. Facility operators may conduct their own sample analyses if the facility operator has sufficient capability (qualified employees, laboratory equipment, etc.) to adequately perform the test procedures.
11. Inactive Mining Operations Inactive mining operations are defined in Attachment 1 of this General Permit. Where comprehensive site compliance evaluations, non-storm water discharge visual observations, storm water discharge visual observations, and storm water sampling are impracticable, facility operators of inactive mining operations may instead obtain certification once every three years by a Registered Professional Engineer that an SWPPP has been prepared for the facility and is being implemented in accordance with the requirements of this General Permit. By means of these certifications, the Registered Professional Engineer having examined the facility and being familiar with the provisions of this General Permit shall attest that the SWPPP has been prepared

-in accordance with good engineering practices. Facility operators of mining operations who cannot obtain a certification because of noncompliance must notify the appropriate Regional Water Board and, upon request, the local agency which receives the storm water discharge.

12. Sampling and Analysis Exemptions and Reductions A facility operator who qualifies for sampling and analysis exemptions, as described below in Section B.12.a.i., or who qualifies for reduced sampling and analysis, as described below in Section B.12.b., must submit the appropriate certifications and required documentation to the Regional Water Boards prior to the wet season (October I) and recertify as part of the Annual Report submittal. A facility operator that qualifies for either the Regional Water Board or local agency certification programs, as described below in Section B.12.a.ii. and iii., shall submit certification and documentation in accordance with the requirements of those programs. Facility operators who provide certifications in accordance with this Section are still required to comply with all other monitoring program and reporting requirements. Facility operators shall prepare and submit their certifications using forms and instructions provided by the State Water Board, Regional Water Board, or local agency or shall submit their information on a form that contains equivalent information.

Facility operators whose facility no longer meets the certification conditions must notify the Regional Water Boards (and local agency) within 30 days and immediately comply with the Section B.5. sampling and analysis requirements. Should a Regional Water Board (or local agency) determine that a certification does not meet the conditions set forth below, facility operators must immediately comply with the Section B.5. sampling and analysis requirements.

a. Sampling and Analysis Exemptions

A facility operator is not required to collect and analyze samples in accordance with Section B.5. if the facility operator meets all of the conditions of one of the following certification programs:

i. No Exposure Certification (NEC)

This exemption is designed primarily for those facilities where all industrial activities are conducted inside buildings and where all materials stored and handled are not exposed to storm water.

To qualify for this exemption, facility operators must certify that their facilities meet all of the following conditions:

(1) All prohibited non-storm water discharges have been eliminated or otherwise permitted.

(2) All authorized non-storm water discharges have been identified and addressed in the SWPPP.

(3) All areas of past exposure have been inspected and cleaned, as appropriate.

(4) All significant materials related to industrial activity (including waste materials) are not exposed to storm water or authorized non-storm water discharges.

(5) All industrial activities and industrial equipment are not exposed to storm water or authorized non-storm water discharges.

(6) There is no exposure of storm water to significant materials associated with industrial activity through other direct or indirect pathways such as from industrial activities that generate dust and particulates.

(7) There is periodic re-evaluation of the facility to ensure conditions (1), (2), (4), (5), and (6) above are continuously met. At a minimum, re-evaluation shall be conducted once a year.

ii. Regional Water Board Certification Programs The Regional Water Board may grant an exemption to the Section B.5. Sampling and Analysis Requirements if it determines a facility operator has met the conditions set forth in a Regional Water Board certification program. Regional Water Board certification programs may include conditions to (1) exempt facility operators whose facilities infrequently discharge storm water to waters of the United States, and (2) exempt facility operators

that demonstrate compliance with the terms and conditions of this General Permit.

iii. Local Agency Certifications A local agency may develop a local agency certification program. Such programs must be approved by the Regional Water Board. An approved local agency program may either grant an exemption from the Section B.5. Sampling and Analysis Requirements or reduce the frequency of sampling if it determines that a facility operator has demonstrated compliance with the terms and conditions of this General Permit.

b. Sampling and Analysis Reduction
i. A facility operator may reduce the number of sampling events required to be sampled for the remaining term of this General Permit if the facility operator provides certification that the following conditions have been met:

(1) The facility operator has collected and analyzed samples from a minimum of six storm events from all required drainage areas; (2) All prohibited non-storm water discharges have been eliminated or otherwise permitted; (3) The facility operator demonstrates compliance with the terms and conditions of the General Permit for the previous two years (i.e.,

completed Annual Reports, performed visual observations, implemented appropriate BMPs, etc.);

(4) The facility operator demonstrates that the facility's storm water discharges and authorized non-storm water discharges do not contain significant quantities of pollutants; and (5) Conditions (2), (3), and (4) above are expected to remain in effect for a minimum of one year after filing the certification.

ii. Unless otherwise instructed by the Regional Water Board, facility operators shall collect and analyze samples from two additional storm events (or one additional storm event when certification filed for the wet season beginning October 1, 2001) during the remaining term of this General Permit in accordance with Table C below.

Facility operators shall collect samples of the first

storm event of the wet season. Facility operators that do not collect samples from the first storm event of the wet season shall collect samples from another storm event during the same wet season. Facility operators that do not collect a sample in a required wet season shall collect the sample from another storm event in the next wet season. Facility operators shall explain in the Annual Report why the first storm event of a wet season was not sampled or a sample was not taken from any storm event in accordance with the Table C schedule.

Table C REDUCED MONITORING SAMPLING SCHEDULE Facility Operator Samples Shall be Collected and Analyzed Filing Sampling in These Wet Seasons Reduction Certification By Sample 1 Sample 2 Oct. 1, 1997 Oct. 1, 1997-May 31, 1998 Oct. 1, 1999-May 31, 2000 Oct. 1, 1998 Oct. 1, 1998-May 31, 1999 Oct. 1, 2000-May 31, 2001 Oct. 1, 1999 Oct. 1, 1999-May 31, 2000 Oct. 1, 2001-May 31, 2002 Oct. 1, 2000 Oct. 1, 2000-May 31, 2001 Oct. 1, 2001-May 31, 2002 Oct. 1, 2001 Oct. 1, 2001-May 31, 2002

13. Records Records of all storm water monitoring information and copies of all reports (including the Annual Reports) required by this General Permit shall be retained for a period of at least five years. These records shall include:
a. The date, place, and time of site inspections, sampling, visual observations, and/or measurements;
b. The individual(s) who performed the site inspections, sampling, visual observations, and or measurements;
c. Flow measurements or estimates (if required by Section B.6);
d. The date and approximate time of analyses;
e. The individual(s) who performed the analyses;
f. Analytical results, method detection limits, and the analytical techniques or methods used;
g. Quality assurance/quality control records and results;
h. Non-storm water discharge inspections and visual observations and storm water discharge visual observation records (see Sections B.3. and 4.);
i. Visual observation and sample collection exception records (see Section B.5.a, 7.d, 8, and 12.b.ii.);
j. All calibration and maintenance records of on-site instruments used;
k. All Sampling and Analysis Exemption and Reduction certifications and supporting documentation (see Section B.12);
1. The records of any corrective actions and follow-up activities that resulted from the visual observations.
14. Annual Report All facility operators shall submit an Annual Report by July 1 of each year to the Executive Officer of the Regional Water Board responsible for the area in which the facility is located and to the local agency (if requested).

The report shall include a summary of visual observations and sampling results, an evaluation of the visual observation and sampling and analysis results, laboratory reports, the Annual Comprehensive Site Compliance Evaluation Report required in Section A.9., an explanation of why a facility did not implement any activities required by the General Permit (if not already included in the Evaluation Report), and records specified in Section B.13.i.

The method detection limit of each analytical parameter shall be included. Analytical results that are less than the method detection limit shall be reported as "less than the method detection limit." The Annual Report shall be signed and certified in accordance with Standard Provisions 9. and 10. of Section C of this General Permit.

Facility operators shall prepare and submit their Annual Reports using the annual report forms provided by the State Water Board or Regional Water Board or shall submit their information on a form that contains equivalent information.

15. Group Monitoring Facility operators may participate in group monitoring as described below. A facility operator that participates in group monitoring shall develop and implement a written site-specific SWPPP and monitoring program in accordance with the General Permit and must satisfy any group monitoring requirements. Group monitoring shall be subject to the following requirements:
a. A group monitoring plan (GMP) shall be developed and implemented by a group leader representing a group of

similar facility operators regulated by this General Permit or by a local agency which holds an NPDES permit (local agency permittee) for a municipal separate storm sewer system. GMPs with participants that discharge storm water within the boundaries of a single Regional Water Board shall be approved by that Regional Water Board. GMPs with participants that discharge storm water within the boundaries of multiple Regional Water Boards shall be approved by the State Water Board. The State Water Board and/or Regional Water Board(s) may disapprove a facility's participation in a GMP or require a GMP participant to conduct additional monitoring activities.

b. Each GMP participant shall collect and analyze samples from at least two storm events in accordance with Section B.5. over the five-year period of this General Permit.

The two storm event minimum applies to new and existing members. The group leader or local agency permittee shall schedule sampling to meet the following conditions:

(i) to evenly distribute the sample collection over the five-year term of this General Permit, and (ii) to collect samples from the two storm events at each participant's facility in different and non-consecutive wet seasons. New participants who join in Years 4 and 5 of this General Permit are not subject to Condition (ii) above. Group leaders shall explain in the annual Group Evaluation Report why any scheduled samples were not collected and reschedule the sampling so that all required samples are collected during the term of this General Permit.

c. The group leader or local agency permittee must have the appropriate resources to develop and implement the GMP.

The group leader or local agency permittee must also have the authority to terminate any participant who is not complying with this General Permit and the GMP.

d. The group leader or local agency permittee is responsible for:
i. Developing, implementing, and revising the GMP; ii. Developing and submitting an annual Group Evaluation Report to the State Water Board and/or Regional Water Board by August 1 of each year that includes:

(1) An evaluation and summary of all group monitoring data, (2) An evaluation of the overall performance of the GMP participants in complying with this General Permit and the GMP,

(3) Recommended baseline and site-specific BMPs that should be considered by each participant based upon Items (1) and (2) above, and (4) A copy of each evaluation report and recommended BMPs as required in Section B.15.d.v. below.

iii. Recommending appropriate BMPs to reduce or prevent pollutants associated with industrial activities in storm water discharges and authorized non-storm water discharges; iv. Assisting each participant in completing their Annual Comprehensive Site Compliance Evaluation and Annual Report;

v. Conducting a minimum of two on-site inspections of each participant's facility (it is recommended that these inspections be scheduled during the Annual Comprehensive Site Compliance Evaluation) during the term of this General Permit to evaluate the participant's compliance with this General Permit and the GMP, and to recommend any additional BMPs necessary to achieve compliance with this General Permit. Participants that join in Years 4 and 5 shall be scheduled for one evaluation. A copy of the evaluation and recommended BMPs shall be provided to the participants; vi. Submitting a GMP (or revisions, as necessary), to the appropriate Regional Water Board(s) and State Water Board no later than September 1, 1997 (or August 1 in subsequent years). Once approved, a group leader or local agency permittee shall submit a letter of intent by August 1 of each year to continue the approved GMP. The letter of intent must include a roster of participants, participant's Waste Discharge Identification number (WDID#),

updated sampling schedules, and any other revisions to the GMP; vii. Revising the GMP as instructed by the Regional Water Board or the State Water Board; and viii. Providing the State Water Board and/or Regional Water Board with quarterly updates of any new or deleted participants and corresponding changes in the sampling and inspection schedule.

e. The GMP shall:
i. Identify the participants of the GMP by name, location, and WDID number; ii. Include a narrative description summarizing the industrial activities of participants of the GMP and explain why the participants, as a whole, have sufficiently similar industrial activities and BMPs to be covered by a group monitoring plan; iii. Include a list of typical potential pollutant sources associated with the group participant's facilities and recommended baseline BMPs to prevent or reduce pollutants associated with industrial activity in the storm water discharges and authorized non-storm water discharges; iv. Provide a five-year sampling and inspection schedule in accordance with Subsections b. and d.v. above.
v. Identify the pollutants associated with industrial activity that shall be analyzed at each participant's facility in accordance with Section B.5. The selection of these pollutants shall be based upon an assessment of each facility's potential pollutant sources and likelihood that pollutants associated with industrial activity will be present in storm water discharges and authorized non-storm water discharges in significant quantities.
f. Sampling and analysis shall be conducted in accordance with the applicable requirements of this Section.
g. unless otherwise instructed by the Regional Water Board or the State Water Board Executive Director, the GMPs shall be implemented at the beginning of the wet season (October 1).
h. All participants in an approved GMP that have not been selected to sample in a particular wet season are required to comply with all other monitoring program and reporting requirements of this Section including the submittal of an Annual Report by July 1 of each year to the appropriate Regional Water Board.
i. GMP participants subject to Federal storm water effluent limitation guidelines must perform the monitoring described in Section B.6. and submit the results of the monitoring to the appropriate Regional Water Board within the facility operator's Annual Report.
j. GMPs and Group Evaluation Reports should be prepared in accordance with State Water Board (or Regional Water Board) guidance.
k. GMP participants may receive Sampling and Analysis Reduction sampling credit in accordance with the following conditions:
i. Current or prior participants (group participants) of approved GMPs, who have not collected and analyzed samples from six storm events as required in Section B.7.b.i. (i), may substitute credit earned through participation in a GMP for up to four of the six required storm events. Credits for GMP participation shall be calculated as follows:

(1) Credit may only be earned in years of participation where the GMP participant was not scheduled to sample and the GMP was approved.

(2) One credit will be earned for each year of valid GMP participation.

(3) One additional credit may be earned for each year the overall GMP sample collection performance is greater than 75 percent.

ii. GMP participants substituting credit as calculated above shall provide proof of GMP participation and certification that all the conditions in Section B.12.b.i. have been met. GMP participants substituting credit in accordance with Section B.15.k.i.(3) shall also provide GMP sample collection performance documentation.

iii. GMP participants that qualify for Sampling and Analysis Reduction and have already sampled a storm event after October 1, 1997 shall only be required to sample one additional storm event during the remainder of this General Permit in accordance with the "Sample 2" schedule (or "Sample 1" schedule when certification filed for the wet season beginning October 1, 2001) in Table C of this Section.

n. Group leaders shall furnish, within 60 days of receiving a request from the State Water-Board or Regional Water Board, any GMP information and documentation necessary to verify the Section B.15.k. sampling credits. Group leaders may also provide this information and documentation to the group participants.
16. Watershed Monitoring Option

Regional Water Boards may approve proposals to substitute watershed monitoring for some or all of the requirements of this Section if the Regional Water Board finds that the watershed monitoring will provide substantially similar monitoring information in evaluating facility operator compliance with the requirements of this General Permit.

TABLE D ADDITIONAL ANALYTICAL PARAMETERS Subsector SIC Activity Represented Parameters SECTOR A. TIMBER PRODUCTS Al 2421 General Sawmills and Planing Mills ....................................................................................... COD;TSS;Zn A2 2491 Wood Preserving .................................................................................................................................. As;Cu A3 2411 Log Storage and Handling ........................................................................................................................ TSS A4 2426 Hardwood Dimension and Flooring Mills ..................................................................................... COD;TSS A4 2429 Special Product Sawmills, Not Elsewhere Classified .................................................................... COD;TSS A4 243X Millwork, Veneer, Plywood, and Structural Wood ....................................................................... COD;TSS A4 (except 2434--Wood Kitchen Cabinet Manufacturers)

A4 244X Wood Containers ........................................................................................................................... COD;TSS A4 245X Wood Buildings and Mobile Homes ............................................................................................. COD;TSS A4 2493 Reconstituted Wood Products ....................................................................................................... COD;TSS A4 2499 Wood Products, Not Elsewhere Classified SECTOR B. PAPER AND ALLIED PRODUCTS MANUFACTURING B1 2 6 1X Pu lp M ills ........................................................................................................................................................

B2 262X Paper Mills .......................................................................................................

B3 263X Paperboard Mills .................................................................................................................................... COD B4 265X Paperboard C ontainers and B oxes ...................................................................................................................

B5 267X Converted Paper and Paperboard Products, Except Containers and Boxes ....................................................

SECTOR C. CHEMICAL AND ALLIED PRODUCTS MANUFACTURING Cl 281X Industrial Inorganic Chemicals ..................................................................................................... AI;Fe;N+N C2 282X Plastics Materials and Synthetic Resins, Synthetic Rubber, Cellulosic, and Other Manmade Fibers Except Glass ............................................................................ Zn C3 2 83X Dru g s ...............................................................................................................................................................

C4 284X Soaps, Detergents, and Cleaning Preparations; Perfumes, Cosmetics, and Other Toilet Preparations ......................................................................................... N+N;Zn C5 285X Paints, Varnishes, Lacquers, Enamels, and Allied Products C6 286X Industrial O rganic C hem icals ..........................................................................................................................

C7 287X Nitrogenous and Phosphatic Basic Fertilizers, Mixed Fertilizer, Pesticides, and Other Agricultural Chemicals .................................................. Fe;N+N;Pb;Zn;P C8 289X M iscellaneous C hem ical Products ...................................................................................................................

3952 Inks and Paints, Including China Painting Enamels, India Ink, (limited to list) Drawing Ink, Platinum Paints for Burnt Wood or Leather Work, Paints for China Painting, Artist's Paints, and Artist's Watercolors ...............................................................

SECTOR D. ASPHALT PAVING/ROOFING MATERIALS MANUFACTURERS AND LUBRICANT MANUFACTURERS D1 295X Asphalt Paving and Roofing M aterials .................................................................................................... TSS D2 2992 Lubricating O ils and Greases .........................................................................................................................

Parameter Names Al - Aluminum Cd - Cadmium Cu - Copper Mg - Magnesium BOD - Biochemical Oxygen Demand As - Arsenic CN - Cyanide Fe - Iron Ag - Silver N + N - Nitrate & Nitrite Nitrogen NH3- Ammonia Hg - Mercury P - Phosphorus Se - Selenium Pb- Lead Zn - Zinc TSS -Total Suspended Solids COD - Chemical Oxygen Demand Subsector SIC Activity Represented Parameters

SECTOR E. GLASS, CLAY, CEMENT, CONCRETE, AND GYPSUM PRODUCT MANUFACTURING El 3211 Flat G lass .........................................................................................................................................................

El 322X G lass and G lassw are, Pressed or B low n .........................................................................................................

El 323X G lass Products M ade of Purchased Glass .......................................................................................................

E2 3241 H ydraulic Cem ent ............................................................................................................................................

E3 325X Structural Clay Products ............................................................................................................................. Al E3 326X Pottery and Related Products ...................................................................................................................... Al E3 3297 Non-Clay Refractories ................................................................................................................................ Al E4 327X Concrete, G ypsum , and Plaster Products (Except Lime) ................................................................... TSS;Fe (except 3274).

E4 3295 M inerals and Earths, G round, or O therw ise Treated ........................................................................... TSS;Fe SECTOR F. PRIMARY METALS F1 331X Steel Works, Blast Furnaces, Rolling & Finishing Mill ....................................................................... AI;Zn F2 332X Iron and Steel Foundries .................................................................................................. AI;TSS;Cu;Fe;Zn F3 333X Primary Smelting and Refining of Nonferrous Metals ...................................................................................

F4 334X Secondary Smelting and Refining of Nonferrous Metals ...............................................................................

F5 335X Rolling, Drawing, and Extruding of Nonferrous Metals .................................................................... Cu;Zn F6 336X Nonferrous Foundries (Castings) ........................................................................................................ Cu;Zn F7 339X Miscellaneous Primary Metal Products SECTOR G. METAL MINING (ORE MINING AND DRESSING) EXCEPT INACTIVE METAL MINING ACTIVITIES ON FEDERAL LANDS WHERE AN OPERATOR CANNOT BE IDENTIFIED GI O I Iro rXn O res .........................................................................................................................................................

G2 102X Copper Ores ......................................................................................................................... TSS;COD;N+N G3 10 3X L ead and Z in c Ores .........................................................................................................................................

G4 104X G old and S ilver Ores ......................................................................................................................................

G5 106X Ferroalloy O res, Except V anadium ................................................................................................................

G6 108X M etal M ining Services ....................................................................................................................................

G7 109X M iscellaneous M etal O res ..............................................................................................................................

SECTOR H. COAL MINES AND COAL MINING-RELATED FACILITIES NA 12XX Coal Mines and Coal Mining-Related Facilities ........................................................................... TSS;AI;Fe SECTOR I. COAL MINES AND COAL MINING-RELATED FACILITIES I 131X C rude Petroleum and N atural Gas ..................................................................................................................

12 132X N atural G as L iquids ........................................................................................................................................

13 138X O il and Gas F ield Services ............................................................................................................................

SECTOR J. MINERAL MINING AND DRESSING EXCEPT INACTIVE MINERAL MINING ACTIVITIES OCCURRING ON FEDERAL LANDS WHERE AN OPERATOR CANNOT BE IDENTIFIED JD 141X Dimension Stone ..................................................................................................................................... TSS J1 142X Crushed and Broken Stone, Including Rip Rap ....................................................................................... TSS JI 148X Nonmetallic Minerals, Except Fuels ........................................................................................................ TSS J2 144X Sand and Gravel ............................................................................................................................ TSS;N+N J3 145X C lay, C eram ic, and R efractory M aterials .......................................................................................................

J4 147X C hem ical and Fertilizer M ineral M ining ........................................................................................................

J4 149X Miscellaneous Nonmetallic Minerals, Except Fuels .......................................................................................

Subsector SIC Activity Represented Parameters SECTOR K. HAZARDOUS WASTE TREATMENT STORAGE OR DISPOSAL FACILITIES NA 4953 Hazardous Waste Treatment Storage or Disposal ............................................................ NH 3;Mg;COD;As Cd;CN;Pb Hg;Se;Ag SECTOR L. LANDFILLS AND LAND APPLICATION SITES NA 4953 Landfills and Land Application Sites That Receive or ........................................................................ TSS;Fe Have Received Industrial Wastes, Except Inactive Landfills or Land Applications Sites Occurring on Federal Lands Where an Operator Cannot be Identified SECTOR M. AUTOMOBILE SALVAGE YARDS NA 5015 Facilities Engaged in Dismantling or Wrecking Used Motor ................................................. TSS;Fe;Pb;AI Vehicles for Parts Recycling or Resale and for Scrap SECTOR N. SCRAP RECYCLING FACILITIES NA 5093 Processing, Reclaiming, and Wholesale Distribution of Scrap .................................................... TSS;Fe;Pb and W aste M aterials ............................................................................................................. AI;Cu;Zn;CO D SECTOR 0. STEAM ELECTRIC GENERATING FACILITIES NA 4911 Steam Electric Power Generating Facilities ........................................................................................... Fe SECTOR P. LAND TRANSPORTATION FACILITIES THAT HAVE VEHICLE AND EQUIPMENT MAINTENANCE SHOPS AND/OR EQUIPMENT CLEANING OPERATIONS P1 40X X R ailroad Transportation ..................................................................................................................................

P2 41XX Local and H ighw ay Passenger Transportation ...............................................................................................

P3 42XX M otor Freight Transportation and W arehousing ...........................................................................................

P4 43X X United States Postal Service ...........................................................................................................................

P5 5171 Petroleum B ulk Stations and Term inals ..........................................................................................................

SECTOR Q. WATER TRANSPORTATION FACILITIES THAT HAVE VEHICLE (VESSEL) &

EQUIPMENT MAINTENANCE SHOPS AND/OR EQUIPMENT CLEANING OPERATIONS NA 44XX W ater Transportation ................................................................................................................ AI;Fe;Pb;Zn SECTOR R. SHIP AND BOAT BUILDING OR REPAIRING YARDS NA 373X Ship and Boat Building or Repairing Y ards ...................................................................................................

SECTOR S. AIR TRANSPORTATION FACILITIES NA 45XX Air Transportation Facilities That Have Vehicle ......................................................... BOD;COD;NH 3;pH Maintenance Ships, Material Handing Facilities, Equipment Cleaning Operations, or Airport and/or Aircraft Deicing/Anti-icing Operations

Subsector SIC Activity Represented Parameters SECTOR T. TREATMENT WORKS NA 4952 Treatment Works Treating Domestic Sewage or Any Other Sewage Sludge or Wastewater Treatment Device or System Used in the Storage, treatment, recycling, or Reclamation of Municipal or Domestic Sewage with a Design Flow of 1.0 MGD or More or Required to Have an Approved Pretreatment P ro g ram ...........................................................................................................................................................

SECTOR U. FOOD AND KINDRED PRODUCTS Ul 201X M eat Products .................................................................................................................................................

U2 202X D airy Products .................................................................................................................................................

U3 203X Canned, Frozen and Preserved Fruits, Vegetables and Food Specialties ............................................................................................... ...... "..........................................

U4 204X Grain M ill Products .................................................................................................................................. T SS U5 205X Bakery Products ............................................................................................................................ ...............

U6 206X Sugar and Confectionery Products U7 207X Fats and O ils ............................................................................................................... BO D ;C O D ;TSS;N +N U8 208X Beverages ........................................................................................................................................................

U9 209X M iscellaneous Food Preparations and K indred Products ................................................................................

NA 21X X Tobacco Products ............................................................................................................................................

SECTOR V. TEXTILE MILLS, APPAREL, AND OTHER FABRIC PRODUCT MANUFACTURING VI 22X X Textile M ill Products ........................................................................................... ..................................

V2 23XX Apparel and Other Finished Products Made From Fabrics and Sim ilar M aterials ...........................................................................................................................................

SECTOR W. FURNITURE AND FIXTURES NA 25X X Furniture and Fixtures ....................................................................................................................................

NA 2434 W ood K itchen Cabinets ..................................................................................................................................

SECTOR X. PRINTING AND PUBLISHING NA 2 7 3 2 B o o k P rin tin g ..................................................................................................................................................

NA 2752 Commercial Printing, Lithographic ................................................................................................................

NA 2754 Commercial Printing, Gravure ........................................................................................................................

NA 2759 Commercial Printing, Nor Elsewhere Classified ............................................................................................

NA 2796 Platemaking and Related Services ..................................................................................................................

SECTOR Y. RUBBER, MISCELLANEOUS PLASTIC PRODUCTS, AND MISC. MANUFACTURING INDUSTRIES Yl 301X Tires and Inner Tubes ................................................................................................................................ Zn Y1 302X Rubber and Plastics Footwear .................................................................................................................... Zn Y1 305X Gaskets, Packing, and Sealing Devices and Rubber and Plastics ......................................................... Zn Hose and Belting YI 306X Fabricated Rubber Products, Not Elsewhere Classified .................................... Zn Y2 308X M iscellaneous Plastics Products .....................................................................................................................

Subsector SIC Activity Represented Parameters Y2 393X M usical Instrum ents ........................................................................................................................................

Y2 394X D olls, Toys, G am es, and Sporting and Athletic Goods ..................................................................................

Y2 395X Pens, Pencils, and Other A rtists' M aterials ...............................................................................................

Y2 396X Costume Jewelry, Costume Novelties, Buttons, and M iscellaneous N otions, Except Precious M etal .............................................................................................

Y2 399X M iscellaneous M anufacturing Industries ........................................................................................................

SECTOR Z. LEATHER TANNING AND FINISHING NA 311X Leather Tanning and Finishing .......................................................................................................................

NA NA Facilities that Make Fertilizer Solely From Leather Scraps an d L eath er Du st ............................................................................................................................................

SECTOR AA. FABRICATED METAL PRODUCTS AAI 3429 Hardware, Not Elsewhere Classified ...................................................................................... Zn;N+N;Fe;A!

AAI 3441 Fabricated Structural Metal .............. ............................ ............ Zn;N+N;Fe;A!

AA1 3442 Metal Doors, Sash, Frames, Molding, and Trim ..................................................................... Zn;N+N;Fe;AI AA1 3443 Fabricated Plate Work (Boiler Shops) .................................................................................... Zn;N+N;Fe;AI AA1 3444 Sheet Metal W ork ................................................................................................................... Zn;N+N;Fe;A!

AA1 3451 Screw Machine Products ......................................................................................................... Zn;N+N;Fe;A!

AA1 3452 Bolts, Nuts, Screws, Rivets, and W ashers .............................................................................. Zn;N+N;Fe;AI AA1 3462 Iron and Steel Forgings ........................................................................................................... Zn;N+N;Fe;A!

AA1 3471 Electroplating, Plating, Polishing, Anodizing, and Coloring .................................................. Zn;N+N;Fe;A!

AA1 3494 Valves and Pipe Fittings, Not Elsewhere Classified ............................................................... Zn;N+N;Fe;AI AAI 3496 Miscellaneous Fabricated W ire Products ................................................................................ Zn;N+N;Fe;AI AA1 3499 Fabricated Metal Products, Not Elsewhere Classified ............................................................ Zn;N+N;Fe;AI AAl 391X Jewelry, Silverware, and Plated Ware .................................................................................... Zn;N+N;Fe;AI AA2 3479 Coating, Engraving, and Allied Services ........................................................................................... Zn;N+N SECTOR AB. TRANSPORTATION EQUIPMENT, INDUSTRIAL OR COMMERCIAL MACHINERY NA 35XX Industrial and Commercial Machinery (except 357X Computer and O ffi ce E q u ip m ent) .......................................................................................................................................................

NA 37XX Transportation Equipment (except 373X Ship and Boat Building and R ep a irin g ......................................................................................................................................................................

SECTOR AC. ELECTRONIC, ELECTRICAL. PHOTOGRAPHIC, AND OPTICAL GOODS NA 36XX Electronic and Other Electrical Equipment and Components, E xcept C omputer E quipm ent ......................................................................................................................................

NA 38XX Measuring, Analyzing, and Controlling Instruments; Photographic, Medical, and Optical Goods; Watches and Clocks .............................................................................

NA 357 X C o m pu te r a n d O ffi c e E q u ip m e n t ................................................................................................................................. .......................................................................................................

Section C: STANDARD PROVISIONS

1. Duty to Comply The facility operator must comply with all of the conditions of this General Permit. Any General Permit noncompliance constitutes a violation of the Clean Water Act (CWA) and the Porter-Cologne Water Quality Control Act and is grounds for (a) enforcement action for (b) General Permit termination, revocation and reissuance, or modification or (c) denial of a General Permit renewal application.

The facility operator shall comply with effluent standards or prohibitions established under Section 307(a) of the CWA for toxic pollutants within the time provided in the regulations that establish these standards or prohibitions, even if this General Permit has not yet been modified to incorporate the requirement.

2. General Permit Actions This General Permit may be modified, revoked and reissued, or terminated for cause. The filing of a request by the facility operator for a General Permit modification, revocation and reissuance, or termination, or a notification of planned changes or anticipated noncompliance does not stay any General Permit condition.

If any toxic effluent standard or prohibition (including any schedule of compliance specified in such effluent standard or prohibition) is promulgated under Section 307(a) of the CWA for a toxic pollutant which is present in the discharge and that standard or prohibition is more stringent than any limitation on the pollutant in this General Permit, this General Permit shall be modified or revoked and reissued to conform to the toxic effluent standard or prohibition, and the facility operator so notified.

3. Need to Halt or Reduce Activity not a Defense It shall not be a defense for a facility operator in an enforcement action that it would have been necessary to halt or reduce the general permitted activity in order to maintain compliance with the conditions of this General Permit.
4. Duty to Mitigate The facility operator shall take all responsible steps to minimize or prevent any discharge in violation of this General Permit which has a reasonable likelihood of adversely affecting human health or the environment.
5. Proper Operation and Maintenance The facility operator at all times shall properly operate and maintain any facilities and systems of treatment and control (and related appurtenances) which are installed or used by the facility operator to achieve compliance with the conditions of this General Permit and with the requirements of storm water pollution prevention plans (SWPPPs). Proper operation and maintenance also include adequate laboratory controls and appropriate quality assurance procedures.

Proper operation and maintenance may require the operation of backup or auxiliary facilities or similar systems installed by a facility operator when necessary to achieve compliance with the conditions of this General Permit.

6. Property Rights This General Permit does not convey any property rights of any sort, or any exclusive privileges, nor does it authorize any injury to private property or any invasion of personal rights, nor any infringement of Federal, State, or local laws or regulations.
7. Duty to Provide Information The facility operator shall furnish the Regional Water Quality Control Board (Regional Water Board), State Water Resources Control Board (State Water Board),

U.S. Environmental Protection Agency (U.S. EPA), or local storm water management agency, within a reasonable time specified by the agencies, any requested information to determine compliance with this General Permit. The facility operator shall also furnish, upon request, copies of records required to be kept by this General Permit.

8. Inspection and Entry The facility operator shall allow the Regional Water Board, State Water Board, U.S. EPA, and local storm water management agency, upon the presentation of credentials and other documents as may be required by law, to:
a. Enter upon the facility operator's premises where a regulated facility or activity is located or conducted or where records must be kept under the conditions of this General Permit;
b. Have access to and copy at reasonable times any records that must be kept under the conditions of this General Permit;
c. Inspect at reasonable times any facilities or equipment (including monitoring and control equipment) that are related to or may impact storm water discharge or authorized non-storm water discharge; and
d. Conduct monitoring activities at reasonable times for the purpose of ensuring General Permit compliance.
9. Signatory Requirements
a. All Notices of Intent (NOIs) submitted to the State Water Board shall be signed as follows:

(1) For a corporation: by a responsible corporate officer. For the purpose of this section, a responsible corporate officer means: (a) a president,, secretary, treasurer, or vice-president of the corporation in charge of a principal business function, or any other person who performs similar policy or decision-making functions for the corporation; or (b,) the manager of the facility if authority to sign documents has been assigned or delegated to the manager in accordance with corporate procedures; (2) For a partnership or sole proprietorship: by a general partner or the proprietor, respectively; or (3) For a municipality, State, Federal, or other public agency: by either a principal executive officer or ranking elected official. The principal executive officer of a Federal agency includes the chief executive officer of the agency or the senior executive officer having responsibility for the overall operations of a principal geographic unit of the agency (e.g.,

Regional Administrators of U.S. EPA).

b. All reports, certifications, or other information required by the General Permit or requested by the Regional Water Board, State Water Board, U.S. EPA, or local storm water management agency shall be signed by a person described above or by a duly authorized representative. A person is a duly authorized representative only if:

(1) The authorization is made in writing by a person described above and retained as part of the SWPPP.

(2) The authorization specifies either. an individual or a position having responsibility for the overall operation of the regulated facility or activity, such as the position of manager, operator, superintendent, or position of equivalent responsibility or an individual or position having overall responsibility for named position.)

(3) If an authorization is no longer accurate because a different individual or position has responsibility for the overall operation of the facility, a new authorization must be attached to the SWPPP prior to submittal of any reports, certifications, or information signed by the authorized representative.

10. Certification Any person signing documents under Provision 9. above shall make the following certification:

"I certify under penalty of law that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to ensure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment for knowing violations."

11. Reporting Requirements
a. Planned changes: The facility operator shall give advance notice to the Regional Water Board and local storm water management agency of any planned physical alteration or additions to the general permitted facility. Notice is required under this provision only when the alteration or addition could significantly change the nature or increase the quantity of pollutants discharged.
b. Anticipated noncompliance: The facility operator will give advance notice to the Regional Water Board and local storm water management agency of any planned changes at the permitted facility which may result in noncompliance with General Permit requirements.
c. Compliance schedules: Reports of compliance or noncompliance with or any progress reports on interim and final requirements contained in any compliance schedule of this General Permit shall be submitted no later than 14 days following each scheduled date.
d. Noncompliance reporting: The facility operator shall report any noncompliance at the time monitoring reports are submitted. The written submission shall contain (1) a description of the noncompliance and its cause; (2) the period of noncompliance, including exact dates and times, and if the noncompliance has not been corrected, the anticipated time it is expected to continue; and (3) steps taken or planned to reduce and prevent recurrence of the noncompliance.
12. Oil and Hazardous Substance Liability Nothing in this General Permit shall be construed to preclude the institution of any legal action or relieve the facility operator from any responsibilities, liabilities, or penalties to which the facility operator is or may be subject under Section 311 of the CWA.
13. Severability The provisions of this General Permit are severable; and if any provision of this General Permit or the application of any provision of this General Permit to any circumstance is held invalid, the application of such provision to other circumstances and the remainder of this General Permit shall not be affected thereby.
14. Reopener Clause This General Permit may be modified, revoked, and reissued, or terminated for cause due to promulgation of amended regulations, receipt of U.S. EPA guidance concerning regulated activities, judicial decision, or in accordance with 40 CFR 122.62, 122.63, 122.64, and 124.5. This General Permit may be reopened to modify the provisions regarding authorized non-storm water discharges specified in Section D. Special Conditions.
15. Penalties for Violations of General Permit Conditions.
a. Section 309 of the CWA provides significant penalties for any person who violates a General Permit condition

implementing Sections 301, 302, 306, 307 308, 318, or 405 of the CWA, or any General Permit condition or limitation implementing any such section in a General Permit issued under Section 402. Any person who violates any General Permit condition of this General Permit is subject to a civil penalty not to exceed

$25,000 per day of such violation, as well as any other appropriate sanction provided by Section 309 of the CWA.

b. The Porter-Cologne Water Quality Control Act also provides for civil and criminal penalties in some cases greater than those under the CWA.
16. Availability A copy of this General Permit shall be~maintained at the facility and be available at all times to the appropriate facility personnel and to Regional Water Board and local agency inspectors.
17. Transfers This General Permit is not transferable from one facility operator to another facility operator nor may it be transferred from one location to another location. A new facility operator of an existing facility must submit an NOI in accordance with the requirements of this General Permit to be authorized to discharge under this General Permit.
18. Continuation of Expired General Permit This General Permit continues in force and effect until a new general permit is issued or the State Water Board rescinds the General Permit. Facility operators authorized to discharge under the expiring general permit are required to file an NOI to be covered by the reissued General Permit.
19. Penalties for Falsification of Reports Section 309(c) (4) of the CWA provides that any person who knowingly makes any false material statement, representation, or certification in any record or other document submitted or required to be maintained under this General Permit, including reports of compliance or noncompliance shall, upon conviction, be punished by a fine of not more than $10,000 or by imprisonment for not more than two years, or by both.

Attachment 1 FACILITIES COVERED BY THIS GENERAL PERMIT Industrial facilities include Federal, State, municipally owned, and private facilities from the following categories:

1. FACILITIES SUBJECT TO STORM WATER EFFLUENT LIMITATIONS GUIDELINES, NEW SOURCE PERFORMANCE STANDARDS, OR TOXIC POLLUTANT EFFLUENT STANDARDS (40 Code of Federal Regulations (CFR) SUBCHAPTER N). Currently, categories of facilities subject to storm water effluent limitations guidelines are Cement Manufacturing (40 CFR Part 411), Feedlots (40 CFR Part 412), Fertilizer Manufacturing (40 CFR Part 418),

Petroleum Refining (40 CFR Part 419), Phosphate Manufacturing (40 CFR Part 422), Steam Electric (40 CFR Part 423), Coal Mining (40 CFR Part 434), Mineral Mining and Processing (40 CFR Part 436), Ore Mining and Dressing (40 CFR Part 440), and Asphalt Emulsion (40 CFR Part 443).

2. MANUFACTURING FACILITIES: Standard Industrial Classifications (SICs) 24 (except 2434), 26 (except 265 and 267), 28 (except 283 and 285) 29, 311, 32 (except 323), 33, 3441, and 373.
3. OIL AND GAS/MINING FACILITIES: SICs 10 through 14 including active or inactive mining operations (except for areas of coal mining operations meeting the definition of a reclamation area under 40 CFR 434.11(1) because of performance bond issued to the facility by the appropriate Surface Mining Control and Reclamation Act (SMCRA) authority has been released, or except for area of non-coal mining operations which have been released from applicable State or Federal reclamation requirements after December 17, 1990);

oil and gas exploration, production, processing, or treatment operations; or transmission facilities that discharge storm water contaminated by contact with or that has come into contact with any overburden, raw material, intermediate products, finished products, by-products, or waste products located on the site of such operations.

Inactive mining operations are mined sites that are not being actively mined but which have an identifiable facility operator. Inactive mining sites do not include sites where mining claims are being maintained prior to disturbances associated with the extraction, beneficiation, or processing of mined material; or sites where minimal activities are undertaken for the sole purpose of maintaining a mining claim.

4. HAZARDOUS WASTE TREATMENT, STORAGE, OR DISPOSAL FACILITIES:

Includes those operating under interim status or a general permit under Subtitle C of the Federal Resource, Conservation, and Recovery Act (RCRA).

5. LANDFILLS, LAND APPLICATION SITES, AND OPEN DUMPS: Sites that receive or have received industrial waste from any of

the facilities covered by this General Permit, sites subject to regulation under Subtitle D of RCRA, and sites that have accepted wastes from construction activities (construction activities include any clearing, grading, or excavation that results in disturbance of five acres or more).

6. RECYCLING FACILITIES: SICs 5015 and 5093. These codes include metal scrapyards, battery reclaimers, salvage yards, motor vehicle dismantlers and wreckers, and recycling facilities that are engaged in assembling, breaking up, sorting, and wholesale distribution of scrap and waste material such as bottles, wastepaper, textile wastes, oil waste, etc.
7. STEAM ELECTRIC POWER GENERATING FACILITIES: Includes any facility that generates steam for electric power through the combustion of coal, oil, wood, etc.
8. TRANSPORTATION FACILITIES: SICs 40, 41, 42 (except 4221-25), 43, 44, 45, and 5171 which have vehicle maintenance shops, equipment cleaning operations, or airport deicing operations. Only those portions of the facility involved in vehicle maintenance (including vehicle rehabilitation, mechanical repairs, painting, fueling, and lubrication) or other operations identified herein that are associated with industrial activity.
9. SEWAGE OR WASTEWATER TREATMENT WORKS: Facilities used in the storage, treatment, recycling, and reclamation of municipal or domestic sewage, including land dedicated to the disposal of sewage sludge that are located within the confines of the facility with a design flow of one million gallons per day or more or required to have an approved pretreatment program under 40 CFR Part 403. Not included are farm lands, domestic gardens, or lands used for sludge management where sludge is beneficially reused and which are not physically located in the confines of the facility, or areas that are in compliance with Section 405 of the Clean Water Act.
10. MANUFACTURING FACILITIES WHERE INDUSTRIAL MATERIALS, EQUIPMENT, OR ACTIVITIES ARE EXPOSED TO STORM WATER:

SICs 20, 21, 22, 23, 2434, 25, 265, 267, 27, 283, 285, 30, 31 (except 311), 323, 34 (except 3441), 35, 36, 37 (except 373), 38, 39, and 4221-4225.

Attachment 2 STORM WATER CONTACTS FOR TIE STATE AND REGIONAL WATER BOARDS See Storm Water Contacts at:

http://www.waterboards.ca.gov/waterissues/programs/stormwater/contact.shtml

Attachment 3 NOTICE OF INTENT (NOI)

INSTRUCTIONS TO COMPLY WITH STATE WATER RESOURCES CONTROL BOARD WATER QUALITY ORDER NO. 97-03-DWQ NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM (NPDES)

GENERAL PERMIT NO. CAS000001 Who Must Submit The facility operator must submit an NOI for each industrial facility that is required by U.S. Environmental Protection Agency (U.S.EPA) regulations to obtain a storm water permit. The required industrial facilities are listed in Attachment 1 of the General Permit and are also listed in 40 Code of Federal Regulations Section 122.26(b) (14).

The facility operator is typically the owner of the business or operation where the industrial activities requiring a storm water permit occur. The facility operator is responsible for all permit related activities at the facility.

Where operations have discontinued and significant materials remain on site (such as at closed landfills), the landowner may be responsible for filing an NOI and complying with this General Permit. Landowners may also file an NOI for a facility if the landowner, rather than the facility operator, is responsible for compliance with this General Permit.

How and Where to Apply The completed NOI form, a site map, and appropriate fee must be mailed to the State Water Resources Control Board (State Water Board) at the following address:

State Water Resources Control Board Division of Water Quality P.O. Box 1977 Sacramento, CA 95812-1977 Attn: Storm Water Permitting Unit Please Note: Do not send the original or copies of the NOI submittal to the Regional Water Quality Control Board (Regional Water Board). The original NOI will be forwarded to the Regional Water Board after processing.

Do not send a copy of your Storm Water Pollution Prevention Plan (SWPPP) with your NOI submittal. Your SWPPP is to be kept on site and made available for review upon request.

When to ADDly Facility operators of existing facilities must file an NOI in accordance with these instructions by March 30, 1992. Facility operators of new facilities (those beginning operations after March 30, 1992) must file an NOI in accordance with these instructions at least 14 days prior to the beginning of operations.

Once the completed NOI, site map, and appropriate fee have been submitted to the State Water Board, your NOI will be processed and you will be issued a receipt letter with a Waste Discharge Identification (WDID) Number. Please refer to this number when you contact either the State or Regional Water Boards.

Fees The total annual fee is $1008.00. Checks should be made payable to:

SWRCB Change of Information If the information provided on the NOI or site map changes, you should report the changes to the State Water Board using an NOI form.Section I of the line-by-line instructions includes information regarding changes to the NOI.

Questions If you have any questions completing the NOI, please call the appropriate Regional Water Board (Attachment 2) or the State Water Board at (916) 341-5538.

NOI LINE-BY-LINE INSTRUCTIONS Please type or print your responses on the NOI. Please complete the NOI form in its entirety and sign the certification.

Section I--NOI STATUS Check box "A" if this is a new NOI registration.

Check box "B" if you are reporting changes to the NOI (e.g., new contact person, phone number, mailing address). Include the facility WDID #. Highlight all the information that has been changed.

Please note that a change of information does not apply to a change of facility operator or a change in the location of the facility. These changes require a Notice of Termination (NOT) and submittal of a new NOI and annual fee. Contact the State Water Board or Regional Water Boards for more information on the NOT Form and instructions.

Regardless of whether you are submitting a new or revised NOI, you must complete the NOI in its entirety and the NOI must be signed.

Section II--Facility Operator Information Part A: The facility operator is the legal entity that is responsible for all permit related compliance activities at the facility. In most cases, the facility operator is the owner of the business or operation where the industrial activity occurs.

Give the legal name and the address of the person, firm, public organization, or any other entity that is responsible for complying with the General Permit.

Part B: Check the box that indicates the type of operation.

Section III--Facility Site Information Part A: Enter the facility's official or legal name and provide the address. Facilities that do not have a street address must provide cross-streets or parcel numbers. Do not include a P.O. Box address in Part A.

Part B: Enter the mailing address of the facility if different than Part A. This address may be a P.O.

Box.

The contact person should be the plant or site manager who is familiar with the facility and responsible for overseeing compliance of the General Permit requirements.

Part C: Enter the total size of the facility in either acres or square feet. Also include the percentage of the site that is impervious (areas that water cannot soak into the ground, such as concrete, asphalt, and rooftops).

Part D: Determine the Standard Industrial Classification (SIC) code which best identifies the industrial activity that is taking place at the facility. This information can be obtained by referring to the Standard Industrial Classification Manual prepared by the Federal Office of Management and Budget which is available at public libraries. The code you determine should identify the industrial activity that requires you to submit the NOI. (For example, if the business is high school education and the activity is school bus maintenance, the code you choose would be bus maintenance, not education.)

Most facilities have only one code; however, additional spaces are provided for those facilities that have more than one activity.

Part E: Identify the title of the industrial activity that requires you to submit the NOI (e.g., the title of SIC Code 2421 is Sawmills and Planing Mills, General). If you cannot identify the title, provide a description of the regulated activity(s).

Section IV--Address for Correspondence Correspondence relative to the permit will be mailed occasionally.

Check the box which indicates where you would like such correspondence delivered. If you want correspondence sent to another contact person or address different than indicated in Section II or Section III then include the information on an extra sheet of paper.

Section V--Billing Address Information To continue coverage under the General Permit, the annual fee must be paid. Use this section to indicate where the annual fee invoices should be mailed. Enter the billing address if different than the address given in Sections II or III.

Section VI--Receiving Water Information Provide the name of the receiving water where storm water discharge flows from your facility. A description of each option is included below.

1. Directly to waters of the United States: Storm water discharges directly from the facility to a river, creek, lake, ocean, etc. Enter the name of the receiving water (e.g.,

Boulder Creek).

2. Indirectly to waters of the United States: Storm water discharges over adjacent properties or right-of-ways prior to discharging to waters of the United States.

Enter the name of the closest receiving water (e.g.,

Clear Creek).

Section VII--Implementation of Permit Requirements Parts A and B: Check the boxes that best describe the status of the Storm Water Pollution Prevention Plan (SWPPP) and the Monitoring Program.

Part C: Check yes or no to questions 1 through 4. If you answer no to any question, you need to assign a person to these tasks immediately.

As a permit holder you are required to have an SWPPP and Monitoring Program in place prior to the beginning of facility operations.

Failure to do so is in direct violation of the General Permit. Do not send a copy of your SWPPP with your NOI submittal.

Please refer to Sections A and B of the General Permit for additional information regarding the SWPPP and Monitoring Program.

Section VIII--Site Map Provide a "to scale" drawing of the facility and its immediate surroundings. Include as much detail about the site as possible.

At a minimum, indicate buildings, material handling and storage areas, roads, names of adjacent streets, storm water discharge points, sample collection points, and a north arrow. Whenever

possible limit the map to a standard size sheet of paper (8.5" x 11" or 11" x 17"). Do not send blueprints unless you are sending one page and it meets the size limits as defined above.

A location map may also be included, especially in cases where the facility is difficult to find, but are not to be submitted as a substitute for the site map. The location map can be created from local street maps and U.S. Geological Survey (USGS) quadrangle maps, etc.

A revised site map must be submitted whenever there is a significant change in the facility layout (e.g., new building, change in storage locations, boundary change, etc.).

Section IX--Certification This section should be read by the facility operator. The certification provides assurances that the NOI and site map were completed by the facility operator in an accurate and complete fashion and with the knowledge that penalties exist for providing false information. It also requires the Responsible Party to certify that the provisions in the General Permit will be complied with.

The NOI must be signed by:

For a Corporation: a responsible corporate officer (or authorized individual).

For a Partnership or Sole Proprietorship:. a general partner or the proprietor, respectively.

For a Municipality, State, or other non-Federal Public Agency:

either a principal executive officer or ranking elected official.

For a Federal Agency: either the chief or senior executive officer of the agency.

State of California State Water Resources Control Board NOTICE OF INTENT TO COMPLY WITH THE TERMS OF THE GENERAL PERMIT TO DISCHARGE STORM WATER ASSOCIATED WITH INDUSTRIAL ACTIVITY (WO ORDER No. 97-03-DWQ)

(Excluding Construction Activities)

SECTION I. NOI STATUS (please check only one box)

A. [ ] New Permittee B. [ ] Change of Information WDID # I I I I I I I I I I I 1 SECTION I1. FACILITY OPERATOR INFORMATION (See instructions)

A. NAME: IPhone:

Mailing Address:

I I I I I II I I I I I I I I I I I I I I I I I I I I I I I City: State: Zip Code:

I I II I I I I I I I I I I I I I I I I I I I I I_ I I I I I I -- I I I I I Contact Person:

B. OPERATOR TYPE:

(check one) 1.[ ]Private Individual 2.[ ]Business 3.[ ]Municipal 4.[ ]State 5.[ ]Federal 6.[ ]Other SECTION III. FACILITY SITE INFORMATION A. FACILITY NAME Phone:

I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I -- I I I I -- I I I I I Facility Location: County:

I I I I I I I I I IIII I I I I I I I I I I I I I I I I I I I I I I I I I I Il 1 1 I11I II I Il City: State: Zip Code:

I II II I I I I I I I I I I I I I I 7I C IA I I I I 1 1--I 1 1 1 1 B. MAILING ADDRESS:

I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I City: State: Zip Code:

I I I I I I I I I I I I I I I I I I I I I I I I I_ I I I I I I -- I I I I I Contact Person:

II I I I I I I I I I I I I I I I I I I I I I I I I I I I I D. SIC CODE(S) OF REGULATED ACTIVITY: E. REGULATED ACTIVITY (describe each SIC code):

1. 1 I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I
2. 1 I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I
3. 1 I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I FOR STATE USE ONLY:

SECTION IV. ADDRESS FOR CORRESPONDENCE I_1 Facility Operator Mailing Address (Section II) 11 Facility Mailing Address (Section III,B.) II Both SECTION V. BILLING ADDRESS INFORMATION SEND BILL TO: [ ]Facility Operator Mailing Address (Section II) [ ]Facility Mailing Address (Section I11,B.) [ ]Other (enterinformation below)

Name: Phone:

Mailing Address:

I I I I I IIIIII li iII I IIII l i lI I II I I I City: State: Zip Code:

I I -I I I I I I I I I I I I I I I I I I I I I I I_ I I I I I I-- I I I I Contact Person:

I II I I I I I I I I I I I I I I I I I I I I I I I I I I SECTION VI. RECEIVING WATER INFORMATION Your facility's storm water discharges flow: (check one) [ ] Directly OR [ Indirectly to waters of the United States.

Name of receiving water: I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I (river, lake, stream, ocean, etc.)

SECTION VII. IMPLEMENTATION OF PERMIT REQUIREMENTS_

A. STORM WATER POLLUTION PREVENTION PLAN (SWPPP) (check one)

[] A SWPPP has been prepared for this facility and is available for review.

A SWPPP will be prepared and ready for review by (enter date): / /

B. MONITORING PROGRAM (check one)

A Monitoring Program has been prepared for this facility and is available for review.

A Monitoring Program will be prepared and ready for review by (enter date): I /

C. PERMIT COMPLIANCE RESPONSIBILITY Has a person been assigned responsibility for:

1. Inspecting the facility throughout the year to identify any potential pollution problems? .................................... ....... ............ .. .......... ...... YES NO
2. Collecting storm water samples and having them analyzed? .................................................................................................................. YES NO
3. Preparing and submitting an annual report by July 1 of each year? ....................................................................................................... YES NO
4. Eliminating discharges other than storm water (such as equipment or vehicle wash-water) into the storm drain ................................ YES NO SECTION VIII. SITE MAP I HAVE ENCLOSED A SITE MAP YES[ ] A new NOI submitted without a site map will be rejected.

SECTION IX. CERTIFICATION "Icertify under penalty of law that this document and all attachments were prepared under my direction and supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate and complete.

I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment. In addition, I certify that I have read the entire General Permit, including all attachments, and agree to comply with and be bound by all of the provisions, requirements, and prohibitions of the permit, including the development and implementation of a Storm Water Pollution Pervention Plan and a Monitoring Program Plan will be complied with."

Printed Name:

Signature: Date

Title:

Attachment 4 DEFINITIONS

1. "Best Management Practices" ("BMPs") means schedules of activities, prohibitions of practices, maintenance procedures, and other management practices to prevent or reduce the pollution of waters of the United States. BMPs also include treatment measures, operating procedures, and practices to control facility site runoff, spillage or leaks, sludge or waste disposal, or drainage from raw material storage. BMPs may include any type of pollution prevention and pollution control measure necessary to achieve compliance with this General Permit.
2. Clean Water Act (CWA) means the Federal Water Pollution Control Act enacted by Public Law 92-500 as amended by Public Laws95-217, 95-576,96-483, and 97-117; 33 USC. 1251 et seq.
3. "Facility" is a collection of industrial processes discharging storm water associated with industrial activity within the property boundary or operational unit.
4. "Non-Storm Water Discharge" means any discharge to storm sewer systems that is not composed entirely of storm water.
5. "Significant Materials" includes, but is not limited to: raw materials; fuels; materials such as solvents, detergents, and plastic pellets; finished materials such as metallic products; raw materials used in food processing or production; hazardous substances designated under Section 101(14) of Comprehensive Environmental Response, Compensation, and Liability Act (CERLCA); any chemical the facility is required to report pursuant to Section 313 of Title III of Superfund Amendments and Reauthorization Act (SARA); fertilizers; pesticides; and waste products such as ashes, slag, and sludge that have the potential to be released with storm water discharges.
6. "Significant Quantities" is the volume, concentrations, or mass of a pollutant that can cause or threaten to cause pollution, contamination, or nuisance; adversely impact human health or the environment; and/or cause or contribute to a violation of any applicable water quality standards for the receiving water.
7. "Significant Spills" includes, but is not limited to:

releases of oil or hazardous substances in excess of reportable quantities under Section 311 of the CWA (see 40 CFR 110.10 and 117.21) or Section 102 of CERCLA (see 40 CFR 302.4).

8. "Storm water" means storm water runoff, snow melt runoff, and storm water surface runoff and drainage. It excludes infiltration and runoff from agricultural land.
9. "Storm Water Associated with Industrial Activity" means the discharge from any conveyance which is used for collecting and conveying storm water and which is directly related to manufacturing, processing; or raw materials storage areas at an industrial plant. The term does not include discharges from facilities or activities excluded from the NPDES program. For the facilities identified in Categories 1 through 9 of Attachment 1 of this General Permit, the term includes, but is not limited to, storm water discharges from industrial plant yards; immediate access roads and rail lines used or traveled by carriers of raw materials; manufactured products, waste material, or by-products used or created by the facility; material handling sites; refuse sites; sites used for the application or disposal of process wastewaters (as defined at 40 CFR Part 401); sites used for the storage and maintenance of material handling equipment; sites used for residual treatment, storage, or disposal; shipping and receiving areas; manufacturing buildings; storage areas (including tank farms) for raw materials, and intermediate and finished products; and areas where industrial activity has taken place in the past and significant materials remain and are exposed to storm water.

For the facilities identified in Category 10 of Attachment 1 of this General Permit, the term only includes storm water discharges from all areas listed in the previous sentence where material handling equipment or activities, raw materials, intermediate products, final products, waste materials, by-products, or industrial machinery are exDosed to storm water.

Material handling activities include the: storage, loading and unloading, transportation, or conveyance of any raw material, intermediate product, finished product, by-product, or waste product. The term excludes areas located on plant lands separate from the plant's industrial activities, such as office buildings and accompanying parking lots as long as the drainage from the excluded areas is not mixed with storm water drained from the above described areas. Industrial facilities (including industrial facilities that are federally, State, or municipally owned or operated that' meet the description of the facilities listed in this paragraph) include those facilities designated under 40 CFR 122.26(a) (1)(v).

Attachment 5 ACRONYM LIST BAT Best Available Technology Economically Achievable BCT Best Conventional Pollutant Control Technology BMPs Best Management Practices CERCLA Comprehensive Environmental Response, Compensation, and Liability Act of 1980 (Federal Superfund)

CFR Code of Federal Regulations CWA Clean Water Act General Permit General Industrial Activities Storm Water Permit GMP Group Monitoring Plan NEC No Exposure Certification NOI Notice of Intent NOT Notice of Termination NPDES National Pollutant Discharge Elimination System O&G Oil and Grease RCRA Resource, Conservation, and Recovery Act Regional Water Board Regional Water Quality Control Board RQ Reportable Quantity SARA Superfund Amendments and Reauthorization Act of 1986 SIC Standard Industrial Classification SMCRA Surface Mining Control and Reclamation Act SPCC Spill Prevention Control and Countermeasures State Water Board State Water Resources Control Board SWPPP Storm Water Pollution Prevention Plan TOC Total Organic Carbon TSS Total Suspended Solids U.S. EPA U.S. Environmental Protection Agency WDID Waste Discharger Identification WDRs Waste Discharge Requirements

State of California State Water Resources Control Board NOTICE OF INTENT TO COMPLY WITH THE TERMS OF THE GENERAL PERMIT TO DISCHARGE STORM WATER ASSOCIATED WITH INDUSTRIAL ACTIVITY (WQ ORDER No. 97-03-DWQ)

(Excluding Construction Activities)

SECTION I. NOI STATUS (please check only one box)

A. [X] New Permittee B. [ ] Change of Information WDID # I I I I I I I I I I I I

-SECTION II. FACILITY OPERATOR INFORMATION (See instructions)

A. NAME: Phone:

PG&E DIABLO CAYON POWER PLANT 805-545-6000 Mailing Address:

P.O. BOX 56 City: State: Zip Code:

AVILA BEACH CA 93424 Contact Person:

JAMES R. BECKER B. OPERATOR TYPE:

(check one) 1.[x] Private 2.[ ]City 3.[ ]County 4.[ ]State 5.[ ]Federal.,,, 6.[, ]Special District 7.[ ]Gov. Combo SECTION III. FACILITY SITE INFORMATION A. FACILITY NAME Phone:

DIABLO CANYON POWER PLANT 805-545-6000 Facility Location: County:

9 mi. NAN of AVILA BEACH SAN LUIS OBISPO State: Zip Code:

AVILA BEACH CA 93424 B. MAILING ADDRESS:

P.O. BOX 56 City: State: Zip Code:

AVILA BEACH CA 93424 Contact Person:

JAMES R. BECKER C. FACILITY INFORMATION (check one) I Total Size of Site: Acres Sq. Ft.I Percent of Site Impervious (including rooftops) 1 585 [x] 1 ] 30 %

D. SIC CODE(S) OF REGULATED ACTIVITY: E. REGULATED ACTIVITY (describe each SIC code):

1 . 49 1 1 1 I I I I I I I I I I I I I I I I I I I I I I I I 2.1 1I I I I I I I I I I I I I I I I I I I I I I I I I I I 3 .1 I I I I I I I I I I I I I I I I I I I I I I I I I I I I FOR STATE USE ONLY

(: (n-- ý R VLr5)y

SECTION IV. ADDRESS FOR CORRESPONDENCE

__I Facility Operator Mailing Address (Section II) IXi Facility Mailing Address (Section III, B.) II Both SECTION V. BILLING ADDRESS INFORMATION SEND BILL TO: [ ]Facility Operator Mailing Address (Section II) IX]Facility Mailing Address (Section III, B.) ))Other (enterinformation below)

Name: Phone:

I I I I I I I I I I I I I I I I I I I I I I I I I I I I II- I I I -I I- I I I Mailing Address:

City:

I I I I I I I I I I I I I I I I I I I I I I I I j State:

Zip Code:

I t I I I I- I I I I Contact Person:

I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I SECTION VI. RECEIVING WATER INFORMATION Your facility's storm water discharges flow: (check one) [X] Directly OR ] Indirectly to waters of the United States.

Name of receiving water: PACIFIC OCEAN (river, lake, stream, ocean, etc.)

SECTION VII. IMPLEMENTATION OF PERMIT REQUIREMENTS A. STORM WATER POLLUTION PREVENTION PLAN (SWPPP) (check one)

(x] A SWPPP has been prepared for this facility and is available for review.

[ ] A SWPPP will be prepared and ready for review by (enter date): / /

B. MONITORING PROGRAM (check one)

[X] A Monitoring Program has been prepared for this facility and is available for review.

A Monitoring Program will be prepared and ready for review by (enter date): / /

C. PERMIT COMPLIANCE RESPONSIBILITY Has a person been assigned responsibility for:

1. Inspecting the facility throughout the year to identify any potential pollution problems? .............................................................. X YES __ NO
2. Collecting storm water sam ples and having them analyzed? ...................................................................................................... X YES __ NO
3. Preparing and submitting an annual report by July 1 of each year? ............................................................................................. X YES __ NO
4. Eliminating discharges other than storm water (such as equipment or vehicle wash-water)into the storm drain? ............ X YES NO SECTION VIII. REGULATORY STATUS (Go to Section IX if not applicable)

A. WASTE DISCHARGE REQUIREMENT ORDER NUMBER: I I I I I I I I. B. NPDES PERMIT CA 0003751 SECTION IX. SITE MAP I HAVE ENCLOSED A SITE MAP YES[ X A new NOI submitted without a site map will be rejected.

SECTION X. CERTIFICATION "I certify under penalty of law that this document and all attachments were prepared under my direction and supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the Information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted Is, to the best of my knowledge and belief, true, accurate and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment. In addition, I certify that the provisions of the permit, including the development and implementation of a Storm Water Pollution Prevention Plan and a Monitoring Program Plan, will be complied with."

Printed Name: \AMES R EC Signat't ____ c.----- Date -~7 ). o:

Title:

VICE PRESIDENT - DIABLO CANYON OPEPATIONS AND STATION DIRECTOR CULP-Y

Winston H. lickox Secretaryfor Environmental

-11e Division of Water Quality 1001 I1 Streel - Sacramento, California 95814 - (916) 341-5536 Mailing Address: P.O. Box 1977 - Sacramento, California o95812-1977 FAX '916) 341-5543

  • Internet Address: htt_7://www.swrcb.ca.gov 0

Gray Davis Governor Protection, IAMES R. BEKW R

/dc aj Diablo Canyon Oporations Tuesday, July 08, 2003 and Station Director James R Becker oCp JUL 2 2 2003 P G & E Diablo Canyon Power Plant U Cjj~ A~A FWd t4 PO Box 56 Avila Beach, CA 93424-0056 Copy to RECEIPT OF YOUR NOTICE OF INTENT The State Water Resources Control Board (State Water Board) has received and processed your NOTICE OF INTENT TO COMPLYWITH THE TERMS OF THE GENERAL PERMIT TO DISCHARGE STORM WATER ASSOCIATED WITH INDUSTRIAL ACTIVITY. Accordingly, you are required to comply with the permit requirements.

The WDID identification number is: 3 401018248.

Please use this number in any future communications regarding this permit.

FACILITY DESCRIPTION OPERATOR: P G & E Diablo Canyon Power Plant FACILITY: Diablo Canyon Power Plant COUNTY: San Luis Obispo FACILITY LOCATION: 9 mi NW of Avila Beach Avila Beach, CA 93424-When the operator changes (i. e. the business was bought or transferred), a new Notice of Intent (NOI), site map, and fee must be submitted by the new operator. As the previous operator, you are required to submit a Notice of Termination (NOT) to the Regional Water Board stating that your facility is not being operated by you and that you no longer need to be covered by the General Permit. Unless notified, you will continue to be invoiced for the annual fee each October.

If you have any questions regarding permit requirements, please contact your Regional Water Board at (805) 549-3147 Please visit the storm water web page at www.swrcb.ca.gov/stormwtr/index.html to obtain storm water related information and forms.

Sincerely, Storm Water Section Division of Water Quality Enclosure CaliforniaEnvironmentalProtectionAgency Recycled Paper (C(DFly

OCalifornia Regional Water Quality Control Board Winston H. Hickox Central Coast Region Gray Davis

,cretaryfor Internet Address: http://www.swrcb.ca.gov/-rwqcb3 Zl,/" 5 Governor

_nvironmnental 895 Aerovista Place, Suite 101, San Luis Obispo, California 93401 Protection Phone (805) 549-3147 . FAX (805) 543-0397 July 30, 2003 io2-Mr. Rick Hernandez Diablo Canyon Power Plant P.O. Box 56 Avila Beach, CA 93424

Dear Mr. Hernandez:

GENERAL INDUSTRIAL STORM WATER PERMIT COVERAGE FOR PACIFIC GAS AND ELECTRIC (PG&E) DIABLO CANYON POWER PLANT, 7 MILES NORTHWEST OF AVILA BEACH, SAN LUIS OBISPO COUNTY; WDID# 3 401018248 PG&E Diablo Canyon Power Plant obtained coverage under the General Industrial Storm Water Permit on July 8, 2003 in anticipation of the reissuance of its National Pollutant Discharge Elimination System (NPDES) permit on July 10, 2003. Since the NPDES permit was not adopted on July 10, 2003, the PG&E Diablo Canyon Power Plant continues to operate under NPDES permit No. CA000375 1/Order No.

90-09, which contains storm water discharge requirements.

The Regional Board intends to regulate the discharge of storm water from the PG&E Diablo Canyon Power Plant under Order No. 90-09 until a revised NPDES permit is reissued. The Regional Board does not hold the PG&E Diablo Canyon Power Plant responsible for complying with the terms of the General Industrial Storm Water Permit until the date of the revised NPDES permit adoption.

If you have any questions regarding this matter, please call Jennifer Bitting at (805) 549-3334.

Sincerely, S:\wb\coastalwatershed\staff\michaelthomas\pg&e\newpermit\stormwater.ltr CaliforniaEnvironmentalProtectionAgency FD-)y 0 Recycled Paper co LF

/

Pacific Gas and Electric Company Diablo Canyon Power Plant PC.Box 56 Avila Beach; CA 93424 800.545.6000 PG&E Letter DCL-2006-556 Certified Return Receipt

  1. 7004-1160-0002-8155-6305 November 09, 2006 Roger Briggs Executive Officer California Regional Water Quality Control Board Central Coast Region 895 Aerovista, Suite #101 San Luis Obispo, CA 93401-7906 Storm Water Management at Pacific Gas & Electric Company (PG&E) Diablo Canyon Power Plant (DCPP)

Dear Mr. Briggs:

On October 11t 2006, PG&E met with Peter von Langen, David Innis, Jennifer Bitting, and David Schwartzbart of your staff to discuss DCPP's storm water management program. PG&E's current NPDES permit (No. CA000375 1/Order 90-09) contains storm water discharge requirements and describes DCPP site outfalls specific to storm water runoff. In anticipation of NPDES permit renewal in 2003, DCPP submitted a Notice of Intent (NO]) to the State Water Resources Control Board to obtain coverage for site storm water discharges under the State General Industrial Storm Water Permit (General Permit). However, the NPDES permit was not renewed, and the Regional Board issued a letter on July 30, 2003 indicating that DCPP's storm water would continue to be covered under the existing Order 90-09 until a revised NPDES permit is adopted.

With the ongoing delay in NPDES permit renewal, DCPP has continued to make efforts to improve its storm water management program, following the requirements of the State's General Permit program. At our October 11th meeting, DCPP staff, in coordination with your staff, agreed to the following:

1) Effective as of October 12t" 2006, implement monitoring for industrial site storm water discharges in accordance with General Permit requirements. DCPP will "visually observe and collect samples of storm water from all drainage areas that represent the quality and quantity of the facility's storm water discharges" and perform sample analysis in accordance with General Permit Section B.5.c.

subparts i-iii.

2) Complete a written site Storm Water Pollution Prevention Plan (SWPPP), and implement the plan effective December 15th 2006.
3) Submit an Annual Report for Industrial Storm Water Discharges commencing with the 2006-2007 reporting period due July let 2007.
4) During the ongoing period prior to adoption of a revised NPDES Permit for DCPP (and termination of existing Order 90-09), in the event a conflict arises between Order 90-09 and the provisions of the General Permit, DCPP shall defer to the directives of Order 90-09.

C"-(aFl

PG&E Letter DCL-2006-556 Mr. Briggs, CCRWQCB November 09, 2006 Page 2 If you have any questions or concerns regarding this matter, or require additional information, please contact Bryan Cunningham of my staff at (805) 545-4439.

Sincerely, James R. Bed er Vice President- Diablo Canyon Operationsand Station Director 2006556/bkc/kmo cc: Michael Thomas Assistant Executive Officer CCRWQCB 895 Aerovista, #101 San Luis Obispo, CA 93401-7906 Peter von Langen Environmental Scientist CCRWQCB 895 Aerovista, #101 San Luis Obispo, CA 93401-7906 California Department of Fish and Game 20 Lower Ragsdale, Suite 100 Monterey, California 93490 Resident Inspector, Terry Jackson U.S. Nuclear Regulatory Commission Diablo Canyon Power Plant 104/5 Regional Administrator U.S. Nuclear Regulatory Commission Region IV 611 Ryan Plaza Dr., Suite 400 Arlington, TX 76011-4005 Director, Division of Reactor Projects U.S. Nuclear Regulatory Commission Region IV 611 Ryan Plaza Dr., Suite 400 Arlington, TX 76011-4005 U.S. Nuclear Regulatory Commission Document Control Desk Washington, D.C. 20555