Braidwood Station Kankakee River Fish Monitoring Program, 2010

ML14030A279
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Site:	Braidwood
Issue date:	12/31/2011
From:	HDR Engineering
To:	Exelon Nuclear, Office of Nuclear Reactor Regulation
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ML14030A308	List: ML14030A264 ML14030A266 ML14030A267 ML14030A268 ML14030A269 ML14030A273 ML14030A274 ML14030A275 ML14030A276 ML14030A278 ML14030A279 ML14030A280 ML14030A284 ML14030A285 ML14030A286 ML14030A287 ML14030A288 ML14030A289 ML14030A290 ML14030A291 ML14030A292 ML14030A293 ML14030A294 ML14030A295 RS-14-029, Annual Report on the Meteorological Monitoring Program at the Braidwood Nuclear Power Station 2008 RS-14-029, Annual Report on the Meteorological Monitoring Program at the Braidwood Nuclear Power Station 2009 RS-14-029, Annual Report on the Meteorological Monitoring Program at the Braidwood Nuclear Power Station 2011 RS-14-029, Annual Report on the Meteorological Monitoring Program at the Braidwood Nuclear Power Station 2012 RS-14-029, Braidwood Station Kankakee River Fish Monitoring Program, 1991-2013 - Tables Requested by the NRC to Describe the Number of Fish Caught by Sampling Gear and Species at Each Monitoring Location RS-14-029, Braidwood Station Kankakee River Fish Monitoring Program, 2010 RS-14-029, Braidwood Station, 2011 Benthos Monitoring and Historical Fish and Benthos Comparisons RS-14-029, Braidwood Station, Kankakee River Fish Monitoring Program, 2012 RS-14-029, Employment and Land Requirements for Alternatives to Byron Units 1 and 2 and Braidwood Units 1 and 2 - Lr Chapter 7 Energy Alternatives RS-14-029, Final Report: Characterization of Unionid Communities Near the Braidwood Nuclear Station Kankakee River Discharge Location RS-14-029, Final Report: Unionid Relocation Near the Braidwood Nuclear Station Kankakee River Discharge Location RS-14-029, Investigations to Determine Presence of State-Listed Species of Fish and Freshwater Mussels in the Kankakee River Near the Braidwood Nuclear Station Warmwater Discharge Channel RS-14-029, Monthly Report on the Meteorological Monitoring Program at the Braidwood Nuclear Generating Station RS-14-029, Plan Completion Report for the VB 1 Area RS-14-029, Plan Completion Report for the VB 2/3 and Pond Area RS-14-029, Plan Completion Report for the VB 4 Area RS-14-029, Plan Completion Report for the VB 6 Area RS-14-029, Plan Completion Report for the VB 7 Area RS-14-029, Standard Operating Procedures for Braidwood Station'S Fisheries Monitoring Program in the Kankakee River and Horse Creek RS-14-029, Status of Fish Communities and Sport Fishery in the Kankakee River and Tributary Streams: 2005 Basin Survey RS-14-029, Transmittal of Annual Report on the Meteorological Monitoring Program at the Braidwood Nuclear Power Station 2010 RS-14-029, Transmittal of Application for an Incidental Take Permit for Threatened or Endangered Species and Conservation Plan
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BRAIDWOOD STATION KANKAKEE RIVER FISH MONITORING PROGRAM, 2010 Prepared for EXELON NUCLEAR Warrenville, Illinois HDR Engineering, Inc.Environmental Science & Engineering Consultants 10207 Lucas Road Woodstock, Illinois 60098 Copyright 2011 by EXELON CORPORATION ALL RIGHTS RESERVED ACKNOWLEDGMENTS The field work and data analysis for this project was conducted by HDR Engineering, Inc.(HDR). Flow data for the Kankakee River near Wilmington, Illinois was obtained from the United States Geological Survey's (USGS 05527500) internet web site (www.usgs.gov).

This report was prepared by HDR and reviewed by Exelon Nuclear. Particular appreciation is extended to Jeremiah Haas and the environmental staff at Braidwood Station for their cooperation and assistance.

HDR Engineering, Inc.

ABSTRACT Forty-three species of fish representing 13 families were collected from the Kankakee River and Horse Creek in 2010. Neither the river redhorse (Moxostoma carinatum), currently listed as threatened in Illinois (Illinois Endangered Species Protection Board, 2009) or the pallid shiner (Notropis amnis), currently listed as endangered in Illinois, were collected in 2010. However, an unidentified lamprey species was collected during one of the electrofishing sampling efforts. This represents the first time that a lamprey species (Petromyzontidae) has been observed during the long-term monitoring program near Braidwood Station. Electrofishing and seining efforts resulted in the collection of 3798 fish weighing 173.1 kg. Spotfin shiner (23.0%), longear sunfish (16.0%), bluntnose minnow (15.7%), bullhead minnow (10.5%), largemouth bass (6.3%), and sand shiner (5.6 %) were the most common species collected.

Eight (0.21%) of the 3798 fish collected exhibited some form of external anomaly. Lesions (40.0%), eroded fins (30.0%), and anchor worm (30.0%) accounted for all of the ten anomalies observed.

Tumors, malformations, fish lice, leeches, black spot, and cysts were not observed on any of the 3798 fish collected in 2010. The low incidence of DELT (Deformities, Eroded fins, Lesions, and Tumors) anomalies noted during these studies continues to indicate that the fish assemblage in this portion of the Kankakee River is in very good condition during the August sampling period.Mean relative weights (Wr) of fish within the study area ranged from 87.2 for bigmouth buffalo to 115.1 for gizzard shad. With the possible exception of a few individuals, the remaining fish that were collected were in good to excellent condition during the August sampling period. The species most commonly afflicted with anomalies were channel catfish, rock bass, and freshwater drum (2 individuals each). The highest percentage of fish with anomalies occurred at Location IL where one (0.85 %) of the 118 fish examined exhibited some form of external anomaly.Spawning success and population structure were evaluated for four selected species. Recruitment for longear sunfish, smallmouth bass, and rock bass appeared to be weak in 2010 based on ii HDR Engineering, Inc.

seining and electrofishing data. In contrast, largemouth bass recruitment appeared to be very strong. As a point of interest, due to recent stocking efforts in the Kankakee River by the Illinois Department of Natural Resources, twenty walleye measuring from 135 to 586 mm in total length were collected during the 2010 sampling program. Seventeen of these fish (85.0%) were most likely Age 0 fish that measured from 135 to 193 mm. The remaining three fish measured 276, 439, and 586 mm, respectively.

Based on length frequency data, at least four age classes of walleye were collected during 2010.No identifiable change in the fish community has occurred due to the operation of the Braidwood Station intake and discharge.

Fish communities sampled in the vicinity of the intake and discharge have occasionally resulted in the capture of fewer species than those observed at the other locations.

Variability in the catch rate, species diversity, and condition of fish by location appears to be related to differences in habitat rather than Station operation.

In particular, extensive beds of aquatic macrophtyes have. developed near the Station in recent years, which can influence the ability to capture fish and perhaps alter species composition over time. Based on visual observations, there was a substantial decline in aquatic macrophytes within the study area during August 2009 and 2010 compared to 2007-2008.

The reduction in aquatic vegetation in 2009 and 2010 likely influenced the numbers and composition of the fish collected, primarily sunfish species and other taxa that utilize this habitat for spawning and protection against predation.

HDR Engineering, Inc.

TABLE OF CONTENTS Page No.ACKNOWLEDGEMENTS ABSTRACT ii TABLE OF CONTENTS iv LIST OF TABLES LIST OF FIGURES vii 1.0 Introduction 1-1 2.0 Methods 2-1 2.1 Electrofishing 2-1 2.2 Seining 2-4 2.3 Sample Processing 2-4 2.4 Water Quality Measurements 2-4 2.5 Diversity Index 2-5 2.6 Relative Weights 2-5 3.0 Results and Discussion 3-1 3.1 Species Occurrence 3-1 3.2 Relative Abundance and CPE 3-1 3.3 Historical Comparison 3-12 3.4 Length-Frequency Distribution 3-14 3.5 Community Characteristics 3-23 3.5.1 Diversity 3-23 3.5.2 Anomalies 3-23 3.5.3 Relative Weight 3-29 3.6 Physicochemical Data 3-31 4.0 Summary 4-1 5.0 References Cited 5-1 iv HDR Engineering, Inc.

LIST OF TABLES Table No. Title Page No.2-1 Fish Sampling Locations in the Kankakee River Near Braidwood Station. 2-2 2-2 Intercept (a) and Slope (b) Parameters for Standard Weight (Wr)Equations with Minimum Lengths Recommended for Application.

2-7 3-1 Fish Taxa Collected from the Kankakee River and Horse Creek in the Braidwood Station Aquatic Monitoring Area -Braidwood Station, 1977-2010.

3-2 3-2 Total Catch of Pallid Shiner and River Redhorse Collected During the Braidwood Station Aquatic Monitoring Program -Braidwood Station, 1977-2010.

3-5 3-3 Total Catch by Method for Fish Species Collected from the Kankakee River and Horse Creek -Braidwood Station, 2010. 3-6 3-4 Fish Captured by Electrofishing in the Kankakee River and Horse Creek -Braidwood Station, 2010. 3-9 3-5 Total Catch of Fish Collected from the Kankakee River and Horse Creek -Braidwood Station, 1977-2010.

3-1 1 3-6 Percent Composition by Total Abundance and Rank of Dominant Fish Species Collected by Electrofishing and Seining from all Stations in the Kankakee River and Horse Creek -Braidwood Station, 2008-2010.

3-13 3-7 Percent Composition by Biomass and Rank of Dominant Fish Species Collected by Electrofishing and Seining from all Stations in the Kankakee River and Horse Creek -Braidwood Station, 2008-2010.

3-15 3-8 Mean Diversity Indices for the Catch of Fish at Each Location Collected by Electrofishing

-Braidwood Station, 1977-2010.

3-24 v HDR Engineering, Inc.

LIST OF TABLES (Continued)

Table No. Title Page No.3-9 Mean Diversity Indices for the Catch of Fish at Each Location Collected by Seining -Braidwood Station, 1977-2010.

3-26 3-10 Number of Anomalies Associated with Fish Collected at Each Sampling Location on the Kankakee River and Horse Creek -Braidwood Station, 2010. 3-28 3-11 Mean Relative Weights of Fish Collected from the Kankakee River and Horse Creek Near Braidwood Station -August 2010. 3-30 vi HDR Engineering, Inc.

LIST OF FIGURES Figure No. Caption Page No.1-1 Fish Sampling Locations in the Kankakee River Near Braidwood Station. 1-2 2-1 Illustration of Electrofishing Boat Path During Sampling in the Braidwood Station Monitoring Area. 2-3 3-1 Length-Frequency Distribution of Rock Bass Collected from the Kankakee River and Horse Creek, August 2010. 3-17 3-2 Length-Frequency Distribution of Longear Sunfish Collected from the Kankakee River and Horse Creek, August 2010. 3-18 3-3 Length-Frequency Distribution of Smallmouth Bass Collected from the Kankakee River and Horse Creek, August 2010. 3-20 3-4 Length-Frequency Distribution of Largemouth Bass Collected from the Kankakee River and Horse Creek, August 2010. 3-22 3-5 Monthly Mean, Maximum and Minimum Kankakee River Flows Recorded by the USGS Gauging Station Near Wilmington, Illinois, January 1981 Through September 2010. 3-32 vii HDR Engineering, Inc.

1.0 INTRODUCTION

Construction of the Braidwood Nuclear Generating Station and its associated riverside intake and discharge structures provided an opportunity to gather fisheries information from the Kankakee River near the Station. These studies were initiated to determine the effects of construction and plant operation on the river. Units I and II began commercial operation on 29 July and 17 October, 1988, respectively.

The Kankakee River is a seventh order stream that encompasses a drainage area of approximately 13,400 km 2 (Healy 1979). The geology, hydrology, and water quality of the Kankakee River combine to form a diversity of habitats and aquatic life, creating one of the finest rivers in Illinois (Smith 1971, Skelly & Sule 1983, Brigham et al. 1984). The river is a scenic, cultural, recreational and industrial resource (Barker et al. 1967, Graham et al. 1984) that has remained relatively unaltered while still meeting the needs of the public, municipalities, and private interests.

The Braidwood Station Aquatic Monitoring Area, near Custer Park, Will County, Illinois, consists of a 2.5-km reach of the Kankakee River and its tributary, Horse Creek (Figure 1-1) and is located 23.5 km upstream from the confluence of the Kankakee and Des Plaines Rivers (Kwak 1991). The monitoring program in the Kankakee River and Horse Creek near the intake and discharge structures was initiated by Westinghouse Electric Corporation in October 1972 and continued through March 1973. A report, issued 30 November 1973, discussed results and projections of construction impact. Results were also discussed in the Braidwood Station Environmental Report and the Braidwood Final Environmental Statement.

The Illinois Natural History Survey annually conducted sampling near Braidwood Station from 1977 through 1990, excluding 1980 when no sampling occurred.

In 1991 and 1992, the program was continued by Lawler, Matusky & Skelly Engineers (LMS), using a modified sampling design that included a reduction of electrofishing effort by one-half (LMS 1992). The sampling program was conducted for one year by Environmental Science & Engineering in 1993. Following 1993, LMS again conducted sampling on the Kankakee River from 1994 to 2004. In 2005, LMS 1-1 HDR Engineering, Inc.

I 5L STATION I I ,,(11 3 I "PARK II FIGURE 1-1. FISH SAMPLING LOCATIONS IN THE KANKAKEE RIVER NEAR I ~BRAID WOOD STATION.1-2 merged with HDR Engineering Incorporated (HDR). Sampling has been conducted by HDR since 2005. The summer sampling program near Braidwood Station has remained relatively unchanged since 1991. This continuing database allows documentation of environmental changes, the resulting response of the fish community, and an estimation of the environmental quality of the river.The objectives of the 2010 program were to: 1. Evaluate the year-to-year changes in the fish populations of the Kankakee River, including their annual reproduction, recruitment, and condition.

2. Provide a basis for examining the effects of Station operation, if any, on the Kankakee River and Horse Creek fishery.1-3 HDR Engineering, Inc.

2.0 METHODS 2.1 Electrofishing Electrofishing was conducted using a boat-mounted boom-type electrofisher utilizing a 5000 watt, 230 volt AC, 10.amp, three-phase Model GDP-5000 Multiquip generator equipped with volt/amp meters and a safety-mat cutoff switch. The electrode array consisted of three pairs of stainless steel cables (1.5 m long, 6.5 mnn in diameter) arranged 1.5 m apart and suspended perpendicular to the longitudinal axis of the boat 1.5 m off the bow. Each of the three electrodes was powered by one of the phases. Electrofishing samples were collected on 2-3 August during the first sampling effort and on 16-17 August during the final survey period.Sampling was conducted at five locations in the Kankakee River and at one site in Horse Creek (Location 2). Each sampling location (except for Location 2) consists of two stations, designated by the location number and "R" or "L", indicating the right or left side of the river as one looks upstream (Figure 1-1 & Table 2-1). Electrofishing was conducted along the shoreline on each side of the river at Locations 1, 3, 4, 5, and 6. At Locations 1, 5, and 6, each station [(L)eft and (R)ight banks] was electrofished for 30 minutes. Because of the close proximity of Locations 3 and 4, sampling boundaries for those locations were smaller and sampling duration was reduced accordingly to 15 minutes. In Horse Creek, the entire width of the stream was electrofished for 30 minutes from its mouth to a point approximately 75 m (250 ft) upstream.

Electrofishing was conducted such that the first "run" at each location was in a downstream direction through the middle of the shocking zone. The second "run" was conducted in an upstream direction, adjacent to the first "run" and as close to the bank as water depth allowed. The third "run", if necessary, was made in a downstream direction outside of, but adjacent to, the two previous runs (Figure 2-1). Sampling was restricted to the hours between one-half hour after sunrise to one-half hour before sunset.2-1 HDR Engineering, Inc.

TABLE 2-1 FISH SAMPLING LOCATIONS IN THE KANKAKEE RIVER NEAR BRAIDWOOD NUCLEAR STATION LOCATION DESCRIPTION 1 Approximately 1000 m upstream of the Station's cooling pond make-up water intake structure.

This sampling transect is not influenced by intake or discharge of cooling pond water.2 Located in Horse Creek from its confluence with the Kankakee River up to 300 m upstream, or as far as water depth and obstructions allow.Horse Creek represents a potential fish spawning area for Kankakee River fishes.3 Located in the area of Braidwood Station's intake structure.

4 Located in the area of Braidwood Station's discharge structure.

This area may be affected by thermal and chemical discharges from the cooling pond.5 Located approximately 300 m downstream form the discharge structure.

This site represents near-field recovery from possible impacts associated with discharge from the cooling pond, 6 Located approximately 1.6 km downstream from the discharge structure, this location represents far-field recovery from possible impacts associated with discharge from the cooling pond.2-2 UPSTREAM BOUNDARY-N-EF BOAT THIRD RUN FIRST RUN SECOND RUN I r CURRENT DIRECTION DOWNSTREAM BOUNDARY FIGURE 2-1. ILLUSTRATION OF ELECTROFISHING BOAT PATH DURING SAMPLING IN THE BRAIDWOOD STATION MONITORING AREA.2-3 2.2 Seining Shoreline seining was used as a second collection method at each of the eleven stations described previously (Figure 1-1 and Table 2-1). Seine samples were collected on 3-4 August during the first sampling effort and on 18 August during the final survey period. Seine dimensions were 25 ft by 4 ft of 3/16-inch ace mesh, with a 4-ft by 4-ft bag of 3/16-inch ace mesh. Two seine hauls were made at each station during each sampling effort. Each haul was made in a upstream direction covering approximately 30 meters of shoreline, with the second haul being conducted upstream of the first. Seine collections were performed concurrently with electrofishing sampling, but not at the same stations during the same day. Seining was restricted to the hours commencing one-half hour after sunrise to one-half hour before sunset.2.3 Sample Processing All fish were identified to the lowest positive taxonomic level and enumerated.

For each gear type, up to 25 individuals of a species were measured for total length (umm) and weight (g) at each station. Any remaining individuals of that species were counted and weighed en masse. Minnow species (excluding carp) were counted and weighed en masse. Specimens that could not be positively identified in the field were returned to the laboratory for identification.

References used to facilitate identification included Pflieger (1975), Smith (1979), and Trautman (1981). All fish were also examined externally for evidence of disease, parasites, abnormalities, and emaciation.

A voucher collection of fish species identified during the study has been compiled and stored at Exelon Nuclear's Quad Cities Station.2.4 Water Quality Measurements Three physicochemical parameters (temperature, dissolved oxygen [DO], and pH) were measured in conjunction with the sampling program. These data were collected at each station prior to each sampling effort. Additionally, conductivity was measured prior to each electrofishing collection.

All of the physicochemical measurements were taken at mid-depth in the water column.Temperature

(°C), dissolved oxygen (ppm), and conductivity (gtmnhos) were measured using an 2-4 HDR Engineering, Inc.

YSI Model 85 handheld oxygen, conductivity, salinity, and temperature meter. A Cole-Parmer pH Tester1 was used to determine pH. All instruments were calibrated prior to each sampling event.2.5 Diversity Index Diversity indices (Shannon 1948) were computed for electrofishing and seine collections taken at each location and were compared with those calculated in previous years. Shannon-Wiener's Diversity Index was calculated for each fish species using: j=n n H,,-- ' 10_ j-n n where: Ho = the symbol for the amount of diversity in a group of S species.ni = the number of individuals of the i~h species in the sample.n = the total number of individuals in the sample.s = the total number of species in the sample.2.6 Relative Weights Condition indices are frequently used as indicators of physiological well-being.

One of the more traditional approaches to the assessment of condition uses the Fulton-type (Anderson and Gutreuter 1983) condition factor (K). As indicators of physiological well-being, condition index values should reflect proximate body composition of individual fish, e.g., lipid content, protein content, caloric content, etc. (Murphy et al. 1991). Stange and Pelton (1987) found little relationship between K and fat percentage in composite samples of forage fishes. However, strong correlations have been demonstrated between relative weight (Wr) and proximate fat content in several species (Murphy et al. 1991). Thus, W, is a reliable index of fat reserves in these species and, as such, is a useful indicator of short-term growth potential or potential for 2-5 HDR Engineering, Inc.

resistance to nutritional stress. Most Illinois State agencies, including the Illinois Department of Natural Resources (IDNR) and the Illinois Natural History Survey (INHS), currently utilize W, as the preferred measure of condition.

Development of the W, index (Wege and Anderson 1978) represents a refinement of the relative condition factor concept which allows for interpopulational comparisons by making the standard weight-length regression species-specific rather than population-specific or state-specific.

Relative weight is calculated as: W I= X 100 W., I where: W = measured weight W, = the length-specific standard weight predicted by a weight-length regressionconstructed to represent the species as a whole Length specific standard weight functions are in the form: logo W, = a + (b X log,,, total length)I where: a = the Y intercept b = the slope Murphy et al. (1991) published relative weight equations for 26 species. Equations used in this report to calculate W, (Table 2-2) are the same as those proposed in that publication.

Minimum lengths of fish for these calculations are included in this table and are necessary for most species 2-6 H:DR Engineering, Inc.

TABLE 2-2 INTERCEPT (a) AND SLOPE (b) PARAMETERS FOR STANDARD WEIGHT (Wr)EQUATIONS WITH MINIMUM TOTAL LENGTHS RECOMMENDED FOR APPLICATIONa INTERCEPT SLOPE MINIMUM REFERENCES OR SPECIES (a) (b) LENGTH (mm) DEVELOPER Gizzard shad Rainbow trout Brook trout Chinook salmon Northern pike Common carp Bigmouth buffalo Smallmouth buffalo River carpsucker White sucker Channel catfish Flathead catfish Striped bass White bass Hybrid bass Largemouth bass Smallmouth bass Rock bass Bluegill Green sunfish Black crappie White crappie Walleye Sauger Yellow perch Freshwater drum-5.376-5.194-5.085-4.661-5.369-4.418-4.956-5.069-4.754-5.070-5.649-5.156-4.924-5.066-5.201-5.316-4.983-4.883-5.374-4.814-5.618-5.642-5.453-5.446-5.386-5.433 3.170 3.098 3.043 2.901 3.059 2.859 3.092 3.092 2.952 3.060 3.243 3.082 3.007 3.081 3. 139 3.191 3.055 3.083 3.316 3.056 3.345 3.332 3.180 3.157 3.230 3.208 180 200 130 200 100 280 280 280 280 280 150 115 115 150 180 100 80 80 100 100 150 70 100 100 Anderson & Gutreuter (1983)Anderson (1980)Whelan & Taylor (1984)Halseth et al. (1990)Willis (1989)Stephen (1978)Stephen (1978)Stephen (1978)Stephen (1978)Anderson (1980)Anderson (1980)D. Laue Brown & Murphy (1991)Brown & Murphy (1991)Brown & Murphy (1991)Wege & Anderson (1978)Anderson (1980)Marteney (1983)Hillman (1982)D. Gabelhouse, Jr. (1984a)Neumann & Murphy (1992)Neumann & Murphy (1992)Murphy et al. (1990)Guy et al. (1990)Willis et al. (1991)M. Brown i I I' From Murphy et al. 1991.I 2-7 because: 1) the accuracy in weighing fish decreases markedly for individuals shorter than the established minimum length, and 2) minimum lengths represent the length at which the variance to mean ratio for log,, sharply increases (Murphy et al. 1991).2-8 HDR Engineering, Inc.

3.0 RESULTS AND DISCUSSION 3.1 Species occurrence.

Eighty-three species of fish representing 19 families have been collected from the Kankakee River and Horse Creek from 1977 through 2010 (Table 3-1). No threatened or endangered species were collected in 2010. However, river redhorse (Moxostoma carinatum), currently listed as threatened (Illinois Endangered Species Protection Board 2009), and pallid shiner (Notropis amnis), currently listed as endangered in Illinois, have been collected on an irregular basis during most years of this sampling program. Since 1990, the number of river redhorse collected (14 specimens) during these studies has declined substantially from those observed in the 1970's and 1980's (357 specimens).

Based on these data, river redhorse has become much less abundant in the Kankakee River near Braidwood Station during recent years.All but two (99.5%) of the 373 river redhorse collected since 1977 have been captured by electrofishing, while 68.7% of the 568 pallid shiners collected have been captured by minnow seine (Table 3-2).A single Petromyzontidae (lamprey) species was observed during one of the electrofishing sampling efforts in 2010. However, the fish was lost overboard before it could be identified to species. This represents the first time that an individual from this family has been collected during this long-term monitoring program. The lamprey measured approximately 150 mm (6 inches) in length. The specimen was most likely attached to fish that was dipped and brought into the boat during the 17 August electrofishing effort at Location 6R.3.2 Relative Abundance and CPE. Electrofishing and seining efforts in 2010 resulted in the capture of 3798 fish representing 43 species and 13 families (Table 3-3). Spotfin shiner was the most abundant species collected, representing 23.0% (874 individuals) of the total catch by number. Longear sunfish (16.0%), bluntnose minnow (15.7%), bullhead minnow (10.5%), largemouth bass (6.3%), and sand shiner (5.6%) were the only other species to individually comprise more than 5% of the numerical catch. Electrofishing and seining biomass was dominated by carp (29.7%), channel catfish (18.3%), smallmouth bass (8.7%), largemouth bass (6.0%), and freshwater drum (5.5%).3-1 HDR Engineering, Inc.

TABLE 3-1 FISH TAXA COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK IN THE BRAIDWOOD STATION AQUATIC MONITORING AREA Braidwood Station -1977-2010 QVTWNTWWT~

NTAMI?C "XM N N A N41P Petromyzontidae Lampreys Lepisosteidae Lepisosteus osseus Amiidae Amia calva Anguillidae Anguilla rostrata Clupeidae Dorosoma cepedianum Dorosoma petenense Salmonidae Onchorhynchus mykiss Umbridae Umbra limi Esocidae Esox americanus Esox lucius Cyprinidae Carassius auratus Cyprinella lutrensis Cyprinella spilopterus Cyprinus carpio Campostoma anomalum Notropis buccatus Notropis amnis Hybopsis dorsalis Luxilis chrysocephalus Lythrurus umbratilis Nocomis biguttatus Notemigonus crysoleucas Notropis atherinoides Notropis buchanani Notropis stramineus Notropis rubellus Notropis volucellus Opsopoeodus emiliae Phenacobius mirabilis Pimephales notatus Pimephales promelas Pimephales vigilax Scardinius erthropthalmus Semotilus atromaculatus Longnose gar Bowfin American eel Gizzard shad Threadfin shad Rainbow trout Central mudminnow Grass pickerel Northern pike Goldfish Red shiner Spotfin shiner Common carp Central stoneroller Silverjaw minnow Pallid shiner Bigmouth shiner Striped shiner Redfin shiner Hornyhead chub Golden shiner Emerald shiner Ghost shiner Sand shiner Rosyface shiner Mimic shiner Pugnose minnow Suckermouth minnow Bluntnose minnow Fathead minnow Bullhead minnow Rudd Creek chub 3-2 TABLE 3-1 (Continued)

FISH TAXA COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK IN THE BRAIDWOOD STATION AQUATIC MONITORING AREA Braidwood Station -1977-2010 qiCTFNTWIiU NANME COMMON N A M-Catostomidae Ictiobus bubalus Ictiobus cvprinellus Ictiobus niger Carviodes carpio Carpiodes cvprinus Moxostoma anisurum Moxostoma carinatum Moxostoma duquesnei Moxostoma ervthrurum Moxostoma macrolepidotum Hvpentelium ni.zricans Catostomus commersoni Minvtreina melanops Erimvzon oblonzus Erimvzon sucetta Ictaluridae Ameiurus melas Amneiurus natalis An4eiurus nebulosus Ictalurus punctalus Noturus /lavus Noturuss zvrinus Aphredoderidae Aphredoderus savanus Cvprinodontidae Fundulus notatus Poeciliidae Gambusia affinis Atherinidae Labidesthes sicculus Pereichthvidae Morone chrwyops Morone mississiauiensis Morone americana Centrarchidae Micropterus dolomieu Micropterus salmoides Lepomis cvanellus Lepomis zibbosus Lepomis zulosus Lepomis humilis SmalImouth buffalo Bimmouth buffalo Black buffalo River carpsucker Quillback Silver redhorse River redhorse Black redhorse Golden redhorse Shorthead redhorse Northern hop sucker White sucker Spotted sucker Creek chubsucker Lake chubsucker Black bullhead Yellow bullhead Brown bullhead Channel catfish Stonecat Tadpole madtom Pirate perch Blackstrive toominnow Mosquitofish Brook silverside White bass Yellow bass White perch Smallmouth bass Largemouth bass Green sunfish Pumpkinseed Warmouth Orangespotted sunfish 3-3 TABLE 3-1 (Continued)

FISH TAXA COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK IN THE BRAIDWOOD STATION AQUATIC MONITORING AREA Braidwood Station -1977-2010 5q(CTENTTFTC NAMIF COMMMN NA NXV Lepomis inacrochirus Lepomis me-alotis Lepornis microlophus Ambloplites rupestris Poinoxis annularis Pornoxis nizromnaculatus Percidae Sander vitreum Perca flavescens Percina caprodes Percina maculata Percina phoxocephala Etheostoma caeruleum Etheostoma microperca Etheostonia ni-rum Etheostoma zonale Sciaenidae Aplodinotus jzrunniens Bluegill Lonzear sunfish Redear sunfish Rock Bass White crappie Black crappie Walleve Yellow perch Logperch Blackside darter Slenderhead darter Rainbow darter Least darter Johnny darter Banded darter Freshwater drum 3-4 TABLE 3-2 TOTAL CATCH OF PALLID SHINER AND RIVER REDHORSE COLLECTED DURING THE BRAIDWOOD STATION AQUATIC MONITORING PROGRAM Braidwood Station -1977-2010 PALLID SHINER RIVER REDHORSE SHOCK SEINE SHOCK SEINE Year No. CPE3 No. CPEb No. CPE' NO. CPEb 1977 0 0.00 0 0.00 69 3.45 1 0.02 1978 0 0.00 1 0.02 10 0.50 0 0.0(3 1979 0 0.0(0 9 0.20 46 2.30 0 0.00 1981 0 0.00 3 0.07 26 1.30 0 0.00 1982 0 0.00 2 0.05 10 0.50 0 0.00 1983 0 0.00 I (3.02 4 0.20 0 ()X)1984 0 0.00 49 1.11 5 0.25 0 O.(X)1985 1 0.05 15 0.34 18 0.90 0 0ON(3 1986 0 0.00 4 0.09 102 5.10 1 0.02 1987 0 0.00 0 0.00 17 0.85 0 0.00 1988 03 0.00 0 0(00 9 0.45 0 0.00 1989 0 0.00 0 0.00 I1 0.55 (0 (0.00 1990 2 0.10 12 0.27 30 1.50 (3 0.00 1991 0 0.00 152 3.45 1 0.12 0 0.00 1992 3 0.33 27 0.61 0 0.00 0 0.00 1993 0 0.00 0 0.00 5 0.56 0 0.00 1994 5 0.56 4 0.09 2 0.22 0 0.00 1995 9 1.00 10 0.23 0 0.00 (0 0.011 1996 12 1.33 22 0.50 1 0.11 0I 0.00 1997 1 0.12 20 0.45 1 0.12 0 0.00 1998 7 0.78 3 0.07 0 0.00 0 0.00 I1999 82 9.11 2 0.05 1 0.11 0 0.00 2000 8 0.89 12 0.27 0 0.00 ( 0.(X)2001 15 1.67 12 0.27 0 0.00 0 0.00 20012 5 0.56 2 0.05 0 0.00( 0 0.1.X)2003 8 0.90 10 0.23 1 0. 11 (0 O(X)2004 8 0.90 7 0.16 0 0.00 0 0.00 2005 7 0.78 5 0.11 0 0.00 0 00.)11 2006 2 0.22 6 0.14 0 0.00 0 0.00 2007 1 0.11 0 0.00 0 0.0(0 0 0.00 2008 2 0.24 0 0.00 1 0.12 01 0.1)0 2(09 0 0.00 0 0.00 1 0.11 0 0.00 2010 0 0.00 0 0.00 0 0.00 0 0.00 Totais 178 0,41' 390 0.28' 371 0.85' 2 <0.01'Based on 20.00-hours of effort from 1977-1990; 8.45 hours5.208333e-4 days <br />0.0125 hours <br />7.440476e-5 weeks <br />1.71225e-5 months <br /> in 1991: 9.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> from 1992-1996.

1998-2002.

2004-2007 and 2009-2010:

and 8.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> in 1997 and 2008 and 8.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> of effort in 2003 (all three due to a fallen tree in Horse Creek).hBased on 44 seine hauls.'Based on 438.20 total hours of effort."Based on 1408 total seine hauls.3-5 TABLE 3-3 TOTAL CATCH BY METHOD FOR FISH SPECIES COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -2010 ELECTROFISHING SEINING TOTAL TAXON NUMBER WEIGHT NUMBER WEIGHT NUMBER WEIGHT No. % (g) % No. % (g) % No. % (g) %Lamprey spp.Longnose gar Gizzard shad Grass pickerel Northern pike Carp Hornyhead chub Ghost shiner Redfin shiner Striped shiner Rosyface shiner Spotfin shiner Sand shiner Fathead minnow Blunmose nmnnow Bullhead minnow Carpsucker spp.River carpsucker Quillback Smallmouth buffalo Bigmouth buffalo Northern hog sucker Sported sucker Redhorsw spp.Silver redhorse Golden redhorse Tadpole madtom 40 1 3 15 2 191 74 6 349 159 1 13 3 1 1 1 2 31 78 14<0.1 10 <0.1<0.1 31 <0.1 1.9 1027 0.6<0.1 40 <0.1 0.1 2910 1.7 0.7 51.328 30.5 1 18 0.1 1.1 0.1 0.1 0.4 44 1.0 39 0.9 6 0.1 2 <0.1 34 0.8 7 0.1 9.1 3.5 0.3 16.5 7.5<0.1 0.6 0.1<0.1<0.1<0.1 0.1 1.5 3.7 0.7 3 478 133 21 733 331 1 6317 1215 1500 2300 728 1934 84 8255 6883<0.1 0.3 0.1<0.1 0.4 0.2<0.1 3.7 0.7 0.9 1.4 0.4 1.1<0.1 4.9 4.1 4 0.2 12 0.3 2 0.1 4 0.1 683 40.4 1614 35.9 140 8.3 270 6.0 4 0.2 13 0.3 246 14.6 534 11.9 238 14.1 520 11.6 1 0.1 10 0.2 1 2 58 1 3 15 1 1 7 4 4 874 214 10 595 397 1 13 4 1 1 1 2 46 80 14 1<0.1 0.1 1.5<0.1 0.1 0.4<0.1<0.1 0.2 0.1 0.1 23.0 5.6 0.3 15.7 10.5<0.1 0.3 0.1<0.1<0.1<0.1 0.1 1.2 2.1 0.4<0.1 10 75 1066 40 2910 51,328 6 2 34 12 7 2092 403 34 1267 851 1 6317 1225 1500 2300 728 1934 117 8319 6883 7<0.1<0.1 0.6<0.1 1.7 29.7<0.1<0.1<0.1<0.1<0.1 1.2 0.2<0.1 0.7 0.5<0.1 3.7 0.7 0.9 1.3 0.4 1.1 0.1 4.8 4.0<0.1 15 2 0.9 0.1 33 0.7 64 1.4 1 0.1 7 0.2 mm mm m m = ýI K=1 W=m --ý owl -mm Rom-ao TABLE 3-3 (Continued).

TOTAL CATCH BY METHOD FOR FISH SPECIES COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -2010 ELECTROFISHING SEINING TOTAL TAXON NUMBER WEIGHT NUMBER WEIGHT NUMBER WElgIGH No. % (g) % No. % (g) % No. % (g) %Channel catfish 19 0.9 31,672 18.8 11 0.7 17 0.4 30 0.8 31,689 18.3 Blackstripe toprninnow 3 0.1 11 < 0.1 8 0.5 12 0.3 II 0.3 23 < 0.1 Brook silverside 7 0.3 12 < 0.1 21 1.2 23 0.5 28 0.7 35 < 0 I Yellow bass I < 0. 1 8 < 0.1 I < 0.1 8 < 0. 1 Sunfish spp. 17 0.8 21 < 0.1 49 29 60 1.3 66 1.7 81 < 0.1 Rock bass 87 4.1 4573 2.7 2 0.1 23 0.5 89 2.3 4596 2.6 Green sunfish 51 2.4 604 0.4 6 0.4 55 1.2 57 1.5 659 0.4 Orangespotied sunfish 35 1.7 154 0.1 13 0.8 46 1.0 48 1.3 200 0.1 Bluegill 67 3.2 1493 0.9 18 1.1 97 2.2 85 2.2 1590 0.9 Longear sunfish 541 25.7 5716 3.4 65 3.8 473 10.5 606 16.0 6189 3.6 Smallmouth bass 50 2.4 15,083 8.9 4 0.2 16 0.4 54 1.4 15,099 8.7 Largemouth bass 192 9.1 10,115 6.0 48 2.8 297 6.6 240 6.3 10,412 6.0 White crappie I < 0.1 4 < 0.1 27 1.6 86 1.9 28 0.7 90 0.1 Black crappie I < 0.1 48 < 0. 1 1 0.1 3 0.1 2 0.1 51 < 0.1 Johnny darter 12 0.6 Is < 0.1 28 1.7 33 0.7 40 1.1 48 < 0.1 Logperch 3 0.1 10 < 0.1 12 0.7 27 0.6 15 0.4 37 < 0.1 Blackside darter 7 0.3 13 < 0.1 II 0.7 21 0.5 18 0.5 34 < 0.1 Banded darter 1 <0.1 I < 0.1 1 0.1 1 <0.1 2 0.1 2 <0.1 Walleye 20 0.9 3289 2.0 20 0.5 3289 1.9 Freshwater drum 7 0.3 9460 5.6 7 0.2 9460 5.5 Totals 2109 168,564 1689 4496 3798 173,060 Total taxa 42 33 47 Total species 38 31 43 Electrofishing efforts collected 2109 individuals representing 38 species (Table 3-3). The catch was dominated by longear sunfish, which comprised 25.7% of all fish captured.

Bluntnose minnow (16.5%), largemouth bass (9.1%), spotfin shiner (9.1%), and bullhead minnow (7.5%), were the only other species to numerically comprise more than 5% of the total catch. Excluding gizzard shad, centrarchids dominated the catch comprising 50.4% of the electrofishing catch and were represented by nine species. Cyprinids (including carp) comprised 38.5% of the catch (seven species), catostomids 7.0% (eight species), and percids 2.1% (five species) of all fish collected.

Electrofishing biomass was dominated by carp, which constituted 30.5% of the 168.6 kg collected.

Other species that individually contributed more than 5 % of the total biomass included channel catfish (18.8%), smallmouth bass (8.9%), largemouth bass (6.0%), and freshwater drum (5.6%). Rough fish (carp and sucker species) accounted for 47.8% (80.5 kg) of the total electrofishing biomass collected.

The mean electrofishing catch-per-effort (CPE) for fish collected at all locations combined was 234.3 fish/hr (Table 3-4). This value is higher than the 33-yr average of 176.3 fish/hr (Table 3-5)and well within the range of values reported since 1977. Electrofishing CPE's since 1994 have been higher than those reported during the earlier years of these studies (1977-1993).

Electrofishing CPE has ranged from 35.2 fish/hr in 1982 to 486.3 fish/hr in 2002. In 2010, CPE by location ranged from 76.0 fish/hr at Location IR to 576.0 fish/hr at Location 3L.A total of 1689 fish representing 31 species and nine families was collected by seine in 2010.(Table 3-3). Spotfin shiner was the dominant species collected, comprising 40.4% (683 individuals) of all fish captured.

The second most abundant species taken was bluntnose minnow (14.6 %), followed by bullhead minnow (14.1%), and sand shiner (8.3 %). Total biomass of fish taken by seine was 4.5 kg. Taxa collected by minnow seine that individually comprised greater than 5% of the total catch by weight included spotfin shiner (35.9%), bluntnose minnow (11.9%), bullhead minnow (11.6%), longear sunfish (10.5%), largemouth bass 6.6%), and sand shiner (6.0%).Haul seining mean CPE for all locations combined in 2010 was 38.4 fish/seine haul. This value is lower than the 33-yr average of 58.0 fish/seine haul (Table 3-5). CPE's of fish collected by 3-8 HDR Engineering, Inc.

um amm W m m LU NOM so ia -I a% u"m TABLE 3-4 FISH CAPTURED BY ELECTROFISHING IN THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -2010 TAXON IL IR 2a 3Lb 3Rb 4Lb 4Rb 5L' 5R' 6L 6W TOTALC %Lamprey spp.Longnose gar Gizzard shad Grass pickerel Northern pike Carp Rosyface shiner Spotfin shiner Sand shiner Fathead minnow Bluntnose minnow Bullhead minnow Carpsucker spp.River carpsucker Quillback Smallmouth buffalo Bigmouth buffalo Northern hog sucker Spotted sucker Redhorse spp.Silver redhorse Golden redhorse Channel catfish Blackstripe topminnow Brook silverside I I I 3 2 9 15 7 1 1 2 1 1 1 2 3 4 1 i I <0.1 I <0.1 ,0 1.9 1 <0.1 3 0.1 5 0.7 6 3 1 I 18 1 1 13 22 9 14 1 2 7 25 3 12 17 13 4 3 8 1 60 10 22 10 1 40 2 1 6 6 4 2 76 29 5 1 57 47 12 2 2 86 5 65 11 39 I1 5 1 2 1 1 I 2 0.1 191 9.1 74 3.5 6 0.3 349 16.5 159 7.5 1 <0.1 13 0.6 3 0.1 1 <0.1 1 <0.1 I <0.1 2 0.1 31 1.5 78 3.7 14 0.7 19 0.9 3 0.1 7 0.3 I 1 2 5 1 1 3 7 1 1 60 2 6 2 2 2 3 4 3 3 1 2 3 4 1 I 1 i 1 1 1 6 7 3 4 I 1 3 2 I I

-M EM --a M E MM R TABLE 3-4 (Continued).

FISH CAPTURED BY ELECTROFISHING IN THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -2010 0 TAXON IL IRa 22 3Lb 3Rb 4Lb 4Rb 5L' 5R" 6LU 6R1 TOTAL %Yellow bass I 1 <0.1 Sunfish spp. 2 1 5 1 1 2 5 17 0.8 Rock bass 6 2 12 16 8 12 21 8 2 87 4.1 Green sunfish 2 10 7 6 3 8 1 4 6 4 51 2.4 Orangespotted sunfish -1 7 2 6 7 6 6 35 1.7 Bluegill 2 7 8 18 8 12 3 1 6 2 67 3.2 Longear sunfish 23 24 49 157 30 66 22 6 67 75 22 541 25.7 Smallmouth bass 4 1 9 1 9 4 11 1 5 5 50 2.4 Largemouth bass 9 15 18 20 9 11 19 57 18 10 6 192 9.1 White crappie 1 1 <0. I Black crappie 1 1 <0.1 Johnny darter 2 4 1 2 3 12 0.6 Logperch 1 2 3 0.1 Blackside darter 1 4 1 1 7 0.3 Banded darter I 1 <0. I Walleye 14 5 1 20 0.9 Freshwater drum 1 I 1 1 1 2 7 0.3 Total fish 102 76 236 288 124 214 159 176 308 245 181 2109 Total Taxa 18 15 19 22 18 21 22 14 28 20 16 42 CPE (fish/hr) 102.0 76.0 236.0 576.0 248.0 428.0 318.0 176.0 308.0 245.0 181.0 234.3 Based on 1.00 hrs effort.Based on 0.50 hrs effort.Based on 9.0 hrs effort.

TABLE 3-5 TOTAL CATCH OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -1977-2010 ELECTROFISHING YEAR 1977 1978 1979 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 No.2417 2329 1391 2050 703 1024 1471 2633 2599 2478 4008 3617 2545 1825 1012 1578 1930 2007 3220 3657 2401 2431 2250 3994 4377 2834 1500 2247 2428 2148 2279 1753 2109 77,245 CPEa 120.9 116.5 69.6 102.5 35.2 51.2 73.6 131.7 130.0 123.9 200.4 180.9 127.3 216.0 112.4 175.3 214.4 223.0 357.8 430.2 266.8 270.1 250.0 443.8 486.3 323.9 166.7 249.7 269.8 238.7 268.1 194,8 234.3 176.3'SEINING No. CPEb 10,576 240.4 1387 31.5 3039 69.1 1221 27.8 369 8.4 1166 26.5 1455 33.1 7278 165.4 968 22.0 2256 51.3 2050 46.6 1489 33.8 1770 40.2 3185 72.4 2163 49.2 477 10.8 1276 29.0 1382 31.4 5570 126.5 3193 72.6 2538 57.7 942 21.4 4200 95.5 2185 49.7 3548 80.6 3316 75.4 1373 31.2 3118 70.9 1619 36.8 3525 80.1 1591 36.2 2352 53.5 1689 38.4 TOTALS 12.993 3716 4430 3271 1072 2190 2926 9911 3567 4734 6058 5106 4315 5010 3175 2055 3206 3389 8790 6850 4939 3373 6450 6179 792P5 6150 2873 5365 4047 5673 3870 4105 3798 TOTALS 84.266 58.0O 161,511'Based on 20.0 hrs of electrofishing effort from 1977-1990:8.45 hours5.208333e-4 days <br />0.0125 hours <br />7.440476e-5 weeks <br />1.71225e-5 months <br /> of effort in 1991; 9.00 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> of effort from 1992-1996, 1998-2002, 2004-2007, and 2009-2010; 8.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> of effort in 1997 and 2008; and 8.75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> of effort in 2003.hBased on 44 seine hauls.'Based on 438.2 total hours of electrofishing effort.'Based on 1452 total seine hauls.3-11 minnow seine have been highly variable on an annual basis ranging from 8.4 fish/seine haul in 1982 to 240.4 fish/seine haul in 1977.An observation made during recent years is that an increasing proportion of the Kankakee River has been populated by large beds of aquatic macrophtyes.

This is noteworthy because the extensive vegetation that has occurred throughout much of the study area during recent years (particularly 2005-2007) has had an effect on sample collections, sampling efficiency, and perhaps species utilization of these areas when compared to previous years (HDR/LMS 2006-2008 and HDR 2009). However, in 2009, 2010, and to a lesser extent 2008, the development of aquatic macrophtyes in the Kankakee River was much less than observed in 2005, 2006, and 2007. River flows in 2009 and 2010 were higher for a longer period of time in the spring and early summer than those observed during 2005-2007.

Development of aquatic macrophtyes may have been inhibited by the higher, more turbid flows that occurred in 2009 and 2010.3.3 Historical Comparison Based on sampling efforts conducted during the last three years (2007-2010), the relative abundance of spotfin shiner, bullhead minnow, bluntnose minnow, longear sunfish, and sand shiner, have remained relatively high (Table 3-6). In addition, silver redhorse, bluegill, largemouth bass, and gizzard shad abundance seems to be increasing.

Rock bass has also been commonly collected since 2008. All of the species listed in Table 3-6 are relatively common to abundant in this portion of the Kankakee River near Braidwood Station.In 2010, spotfin shiner was the most abundant species collected (Table 3-6), followed by longear sunfish, bluntnose minnow, bullhead minnow, and largemouth bass. Cyprinids accounted for four of the top 10 species collected.

Cyprinids, gizzard shad, and centrarchids (Appendix Table B- 1) have typically dominated catches of fish in the Kankakee River. The percent contribution of non-cyprinid species to the catch from 1996-2010 has generally decreased because of the large numbers of cyprinids and/or gizzard shad that have been captured.

Although not reflected in the percent contribution to the catch, the numbers of non-cyprinid species collected from 1996-2010 have generally been similar to those observed during most years.3-12 HDR Engineering, Inc.

TABLE 3-6 PERCENT COMPOSITION BY TOTAL ABUNDANCE AND RANK OF DOMINANT FISH SPECIES COLLECTED BY ELECTROFISHING AND SEINING FROM ALL STATIONS IN THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -2008-2010 YEAR SPECIES 2010 2009 2008 Spotfin shiner 23.0 (1)' 29.6(1)' 15.1 (2)Longear sunfish 16.0 (2) 6.3 (5) 16.8(1)Bluntnose minnow 15.7 (3) 10.9 (3) 12.0 (3)Bullhead minnow 10.5 (4) 17.3 (2) 9.4 (4)Largemouth bass 6.3(5) 2.1(11) 2.7(12)Sand shiner 5.6(6) 7.8(4) 7.1 (5)Rock bass 2.3 (7) 2.1(12) 3.5 (7)Bluegill 2.2(8) 2.6(9) 1.7(16)Silver redhorse 2.1 (9) 0.7(13) 0.4(21)Gizzard shad 1.5 (10) 0.3(18) 0.9(16)'Numbers in parenthesis represent species rank.3-13 Since 1993, carp has been the dominant species collected in terms of total biomass, except in 1999 when gizzard shad ranked first, in 2004 when smallmouth bass ranked first, and in 2009 when golden redhorse ranked first (Table 3-7 and Appendix Table B-2). Smallmouth bass, carp, and either golden or silver redhorse have all been substantial contributors to the total weight of fish collected (ranking from first to fifth) during the last ten years. As was the case from 2005 through 2010, channel catfish can also contribute heavily to the total biomass collected during some years. Historically, the percent composition by biomass of dominant fish species collected by electrofishing and seining has been relatively consistent during most years. Dominant taxa collected during this period include carp, gizzard shad, channel catfish, smallmouth bass, redhorse species, carpsucker species, and longear sunfish.A review of historical trends in total catch can be useful for evaluating the stability and long term productivity of a fishery. Catches of fish have exhibited considerable variability from year to year during the Braidwood Monitoring program (Table 3-5). Since 1994, the catch-per-effort of fish has been higher than most previous years. The decline in the numbers of fish collected from 1991 through 1995 was attributed to a reduction in the sampling program beginning in 1991, which decreased electrofishing effort by more than half (LMS 1996). In addition, the number of fish collected during any given year is influenced by seine collections, which can be highly variable between years. During years that produce large numbers of fish in seine collections (primarily minnows and small sunfish species), total catch is typically high. Conversely, when seine catches are low, the total number of fish collected is also generally low. Electrofishing CPE in 2010 (234.38 fish/hr) was higher than the 33-yr mean of 176.3 fish/hr. Electrofishing CPE in 2010 was within the range of values reported since 1995 and slightly higher than all of the values reported during the 1977 through 1995 sampling period. The 2010 seining CPE of 38.4 fish/haul was less than the 33-yr mean of 58.0 fish/haul.

Seining CPE's have varied markedly during the 33 years of sampling, ranging from 8.4 fish/haul in 1982 to 240.4 fish/haul in 1977.3.4 Length Frequency Distributions.

Length-frequency distributions were used to estimate age groups of four dominant species (rock bass, longear sunfish, smallmouth bass, and largemouth bass) collected from the Kankakee River.Age groups can be separated and identified as peaks in a standard length-frequency histogram; 3-14 HDR Engineering, Inc.

TABLE 3-7 PERCENT COMPOSITION BY BIOMASS AND RANK OF DOMINANT FISH SPECIES COLLECTED BY ELECTROFISHING AND SEINING FROM ALL STATIONS IN THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -2008-2010 YEAR SPECIES 2010 2009 2008 Carp 29.7(1)' 12.8(3) 26.7(1)Channel catfish 18.3 (2) 18.6 (2) 16.3 (2)Smallmouth bass 8.7 (3) 5.6(4) 8.4(4)Largemouth bass 6.0 (4) 4.7 (6) 1.2 (14)Freshwater drum 5.5 (5) 5.0 (5) 3.5 (6)Silver redhorse 4.8(6) 3.6(7) 6.1(5)Golden redhorse 4.0(7) 25.5 (1)" 14.7 (3)River carpsucker 3.7(8) 2.8(9) 2.6(10)Longear sunfish 3.6(9) 1.4(16) 3.2(8)Rockbass 2.6(10) 2.0(11) 3.3(7)'Numbers in parenthesis represent species rank.3-15 I however, small sample size, differential growth between sexes of the same species, and/or the lack of well-defined breaks in length categories of older fish, hampers accurate interpretation of older age-classes.

Eighty-nine fish measuring from 33 to 210 mm in total length are included in the length-frequency analysis of rock bass (Figure 3-1). Based on this information, at least four or five age classes of fish were collected.

Only one (1.1 %) Age 0 rock bass measuring 33 mm in TL was collected in 2010. Peaks in the length frequency histogram occurred at 70-100 mm (Age 1), 120-150 mm (Age 2), and from 160-190 mm (Age 3). The four fish larger than 200 mm were most likely Age 4 fish. Recruitment of Age 0 rock bass was weak in 2010 based on these data. In contrast, the 2007 (Age 3), 2008 (Age 2), and 2009 (Age 1) year-classes appear to be moderate to relatively strong based on data collected in 2010.The length-frequency of 421 longear sunfish measuring from 34 to 132 mm is presented in Figure 3-2. Two hundred ninety-two (69.4%) of the 421 fish that were measured ranged from 30 to 80 mm in total length (primarily Age 1), while the remaining 129 fish (30.6%) measured from 80 to 140 mm in total length. The majority of these fish were Age 2, but a few of the largest individuals may have been Age 3.Recruitment of longear sunfish appeared to be weak in 2010 based upon the relatively few Age 0 fish (<50 mm) observed in the length frequency histogram.

Similar results were noted for this species from 2005-2009 when recruitment was also reported be relatively weak based on information collected during electrofishing and seining sampling efforts. However, during 2005 (HDR/LMS 2006) and 2007 (HDR/LMS 2008) relatively large numbers (1666 and 1081 fish, respectively) of young-of-year fish measuring less than 50 mm in total length were identified only as sunfish species. Because species assignment to these very small fish is likely to contribute an unknown margin of error, only fish larger than 40 or 50 mm in total length were identified to species. Based on historical data, a large portion of these fish were longear sunfish. Longear sunfish has been the most abundant sunfish species taken during most previous years of sampling.If this assumption is correct, recruitment of this species in 2005 and 2007 would have been strong. The large contribution of Age 1 longear sunfish to the catch in 2006 and'2008 appears to validate the assumption that the majority of these unidentified Age 0 sunfish were indeed longear 3-16 HDR Engineering, Inc.

iss so= low= -ý -m -A -n --No=-- -0~w10-0, I0 -I I I I I I .I I I I I I I I I I I m IT I? OP T 2 i2 1 t T 6 C.o C o 3 6D al.(n ~ L I ( t,- Go 0) 0 0 0 C5 0 a aDa TOTAL LENGTH (mm)FIGURE 3-1. LENGTH-FREQUENCY DISTRIBUTION FOR ROCK BASS COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.

on=RB -o s s --E m m-m -m -150 --125 0.100-.0 w N 75-U)w Z 50 Go*'~e4W .,-"-~~ '~<~-I~~k Longear sunfish N = 421 m 25-0-~'.~ ~~r r~ ~ ~ --.----..-

.~~~ ~~-~~**j ~.C)a C') Ct)v 6 cl)II 8) 0)0)Co 6 CD 0)(3) 0l) 0) 0r)0 CG o) 0 6 6 6 -3) 0 o2 TOTAL LENGTH (mm)FIGURE 3-2. LENGTH-FREQUENCY DISTRIBUTION FOR LONGEAR SUNFISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.

sunfish. Similar results have been noted during almost all previous years of this long-term data base. Recruitment of longear sunfish has been classified as strong to very strong during most years of these studies. This is not surprising because longear sunfish is one of the most abundant species found in this section of the Kankakee River. However, only two small young-of-year fish were classified as sunfish species in 2009 and only 16 were classified as sunfish species in 2010.However, Age I fish were the major component of the catch in 2010, which suggest that the low numbers of YOY fish captured in 2009 may have been attributed to gear bias, unfavorable sampling conditions, or some other unknown factor.The vigorous rooted aquatic plant growth that had occurred within the Kankakee River during the past few years (primarily 2005-2007) had been conducive to the survival of longear sunfish and other small fish species by affording protection from predators.

Weed growth was much less extensive in 2010, 2009, and to a lesser extent in 2008, which may explain the decline in young-of-year sunfish species captured during recent years. Reduced spawning habitat and increased predation could explain the decline of numbers collected.

In contrast, only one fish (0.2%) larger than 130 mm was collected.

Becker (1983) states that relatively few longear sunfish live to be older than Age 4. This may account for the low occurrence of longear sunfish greater than 150 mm in total length that have been collected during these studies.Fifty-four smallmouth bass were collected during 2010. Specimens ranged in length from 49 to 434 rimm (Figure 3-3). Several age classes of fish were represented in the catch, with peaks in the length frequency histogram occurring at 70 mm (Age 0), from 130 to 190 mm (Age 1), from 200 to 250 mm (Age 2), and from 260 to 320 mm (Age 3). Young-of-year smallmouth bass were strong contributors to the catch from 1994-1999, 2001-2004, and again in 2007, 2008, and 2009.However, only a relatively small portion of the smallmouth bass collected in 2000 and 2005 were Age 0 (LMS 2001 and HDR/LMS 2006). In 2006, Age 0 smallmouth bass made a moderate contribution to the total catch (HDR/LMS 2007), but the Age 0 fish that were collected were smaller than those captured during most previous years. As a result, these fish may have incurred higher mortality than would have been expected if they had been larger and in better condition to survive predation and over-wintering mortality.

In 2007, only 15 (4.5%) Age I smallmouth bass measuring from 120 to 200 mm were collected, suggesting that the recruitment and survival of the 2006 year class in this portion of the Kankakee River was indeed weak in 2006. Recruitment of 3-19 HDR Engineering, Inc.

-a -m mo -m ma -W -A ON -a -ý mo (. Smallmouth bass 6- N=54 0'n 4-Z 2-0 0 0 0 0 0 0 0 6 6 6 6----, 0 '7. --0--D 0 m I 0 0 TOTAL LENGTH (mm)FIGURE 3-3. LENGTH-FREQUENCY DISTRIBUTION OF SMALLMOUTH BASS COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.

smallmouth bass in 2010 also appeared weak based on the three fish < 100 mm TL captured by electrofishing and seining efforts in 2010.An additional grouping of smallmouth bass in the 2010 length-frequency histogram occurs from 340 to 400 mm (Age 4 or Age 5). Only two (3.7%) fish larger than 400 mm were collected in 2010. These fish were most likely Age 5 or older. Although in 2010, peaks in the length-frequency histogram of smallmouth bass > 100 mm in total length can be difficult to distinguish because of the small sample size (49 specimens), the 2005-2010 year classes (Ages 0-5) all appear to be represented in the catch.Two hundred twenty-five largemouth bass, measuring from 50 to 474 mm in total length, were collected in 2010 (Figure 3-4). Based upon the fish collected during 2010, at least four or five age classes of largemouth bass were included in the catch. One hundred seventy-two (76.4%)largemouth bass less than 100 mm in total length were captured in 2010, while 44 (19.6%) fish from 100 to 210 mm were collected.

The remaining nine fish (4.0%) ranged from 310 to 470 mm. During most years, either Age 0 and/or Age 1 largemouth bass have dominated the catch, while relatively few fish older than Age 2 have been collected.

Notable in the length frequency histogram for 2010 is the absence of any fish measuring from 210 to 310 mm. This indicates that few, if any, largemouth bass from the 2007 (Age 3) or 2008 (Age 2) year-classes were collected.

Recruitment of largemouth bass in the Kankakee River near Braidwood Station appeared to be very strong in 2010 based on the data collected by electrofishing and seining.In addition to those four species, 20 walleye measuring from 135 to 586 mm in total length were collected in 2010. Seventeen (85%) of these fish measured from 135 to 193 mm and were Age 0, while one 276 mm fish was Age 1. The last two fish measured 439 and 586 mm, respectively.

The 439 mm walleye was most likely Age 3 and the 586 mm individual was most likely Age 5.At least four age classes of walleye were included among the 20 fish captured in 2010.3-21 HDR Engineering, Inc.

om m ,- -om m -m --m -- m ------40-a.-0 , 30-oi Largemouth bass NN =225 20- t.z 10-o77 , ... ....... ...,n r- o6 ,6 6. 6 a o a° o o c TOTAL LENGTH (mm)FIGURE 3-4. LENGTH-FREQUENCY DISTRIBUTION OF LARGEMOUTH BASS COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.

3.5 COMMUNITY CHARACTERISTICS 3.5. 1 Diversity Mean diversity indices were calculated for each of the 11 individual electrofishing and seining locations in 2010. Electrofishing diversity values ranged from 2.33 at Location 5L to 3.53 at Location 5R (Table 3-8). The average diversity index for all locations in 2010 was 3. 11. This value is slightly higher than most years reported since 1977. The mean diversity index has ranged from 2.36 in 1982 to 3.74 in 2005. It should be noted that the average diversity indices were not calculated using weighted means, but are simply means of means. They should therefore be viewed with some degree of caution.Mean diversity indices for each location sampled by seining ranged from 1.44 at Location 5L to 3.23 at Location 3L (Table 3-9). Diversity indices in the Kankakee River appear to reflect habitat quality and the flow characteristics at each location during the time of collection, rather than any affect associated with the Braidwood Station intake or blowdown.

Average seining diversity indices (all locations) by year has ranged from 1.08 in 1983 to 2.97 in 2001. The average seining diversity index of 2.49 in 2010 is well within the range of values reported during the 33 years of this long-term sampling program.3.5.2 Anomalies In 2010, eight (0.21%) of the 3798 fish collected from the Kankakee River and Horse Creek exhibited some form of external anomaly (Table 3-10). Two of the eight fish were channel catfish, two were rock bass, two were freshwater drum, one was a northern hog sucker, and one was a largemouth bass. Two fish exhibited multiple anomalies.

The northern hog sucker exhibited eroded fins and lesions and one of the two rock bass with anomalies also exhibited eroded fins and lesions. In total, five species were noted to exhibit at least one type of external anomaly. During previous studies (1991-2009), fish with external anomalies have comprised from 0.1% of the fish examined in 2001 to 4.9% of the fish examined in 1993. The majority of fish during those years were afflicted with eroded fins, parasitic leeches, cysts, or anchor worm.In 2010, anchor worm (Lernaea spp.) was the only parasite observed and accounted for three 3-23 HDR Engineering, Inc.

Is on RO --il Ra -m -y~y ME= Emsm -un ;s TABLE 3-8 MEAN DIVERSITY INDICES FOR THE CATCH OF FISH AT EACH LOCATION COLLECTED BY ELECTROFISHING Braidwood Station -1977-2010 YEAR I L IR 2 3L 3R 4L 4R 5L 5R 6L 6R MEAN ALL LOCATIONS (L, 1977 3.31 2.89 1978 3.12 2.51 1979 3.04 2.83 1981 3.16 3.20 1982 2.65 2.31 1983 2.72 2.91 1984 2.55 2.82 1985 2.66 2.89 1986 3.09 3.29 1987 2.93 2.97 1988 3.22 2.90 1989 3.05 2.97 1990 3.36 3.09 1991 2.76 3.23 1992 2.97 2.58 1993 3.33 2.68 1994 3.05 2.81 1995 3.57 3.36 1996 3.44 3.62 1997 2.19 3.84 3.15 3.02 3.23 3.29 3.24 3.31 2.93 3.61 3.05 3.45 3.52 2.92 2.88 1.79 2.14 2.71 4.02 3.12 3.24 3.17 2.68 2.56 2.75 2.72 3.11 2.84 2.15 2.26 2.63 2.28 2.35 2.42 2.44 3.56 2.87 3.17 2.74 2.34 2.14 3.04 2.61 3.15 2.69 2.82 2.58 2.63 2.22 2.33 2.90 2.22 2.52 2.98 3.28 2.83 2.80 2.73 2.38 3.14 2.91 2.55 2.87 2.11 2.13 2.38 2.23 3.04 2.75 2.86 2.60 2.73 2.87 2.82 2.86 2.50 3.22 2.80 3.31 2.75 2.65 2.90 1.93 1.66 2.53 2.77 2.84 2.71 2.43 3.29 3.09 3.01 2.97 2.93 3.20 3.28 3.60 3.61 3.33 2.92 3.29 3.53 2.73 3.04 2.90 3.04 3.26 3.39 2.59 3.86 3.40 2.64 3.60 3.37 3.12 3.58 3.40 2.05 3.31 3.73 3.05 3.38 1.17 2.46 2.40 3.33 3.19 2.51 3.68 3.47 2.03 2.32 3.13 3.37 3.51 2.57 3.11 1.50 3.22 3.09 3.07 3.01 3.16 2.79 2.32 2.64 2.88 2.97 2.60 2.80 3.40 2.53 2.61 2.52 2.66 3.59 3.37 1.38 2.94 2.42 2.94 2.86 2.23 2.42 2.68 3.10 3.18 2.50 2.86 3.06 2.83 2.74 3.20 2.11 2.18 3.19 3.28 2.65 3.16 2.88 2.92 3.10 2.36 2.58 2.57 2.93 3.08 2.84 2.89 3.07 2.94 2.65 2.78 2.82 2.96 3.24 3.22 2.66 EM Em mm Em am, m= m m ,smmm wmo _ s smummm TrABLE 3-8 (Continued)

MEAN DIVERSITY INDICES FOR THE CATCH OF FISH AT EACH LOCATION COLLECTED BY ELECTROFISHING Braidwood Station -1977-2010 YEAR IL IR 2 3L 3R 4L 4R 5L 5R 6L 6R MEAN ALL LOCATIONS 1998 3.76 3.34 2.07 3.33 3.36 2.50 1.68 3.06 2.70 2.61 3.18 2.87 1999 2.85 3.50 3.28 3.33 3.63 3.23 3.45 2.84 2.82 3.35 2.96 3.20 2000 3.14 3.23 3.22 2.69 3.11 2.76 3.17 3.44 2.66 3.50 3.15 3.10 2001 2.91 3.56 3.47 3.05 3.00 3.04 3.31 3.17 3.64 3.55 3.02 3.25 2002 3.64 3.74 3.12 3.66 3.07 3.48 3.23 3.57 3.90 3.56 3.15 3.47 2003 3.43 3.62 3.38 2.50 3.10 2.91 2.76 3.37 3.14 3.04 2.69 3.08 2004 3.72 3.15 3.55 2.55 3.08 2.31 3.21 3.51 3.84 3.09 3.25 3.21 2005 3.88 3.92 4.13 3.99 3.56 3.78 3.12 3.76 3.52 4.15 3.31 3.74 2006 3.56 2.53 3.40 2.29 2.57 2.68 3.65 2.97 3.33 3.40 2.92 3.03 2007 3.73 3.12 3.44 3.92 3.65 3.78 3.77 4.01 3.35 4.03 3.89 3.71 2008 3.42 2.53 3.86 2.61 3.45 3.25 3.12 3.60 3.87 3.13 3.69 3.32 2009 2.60 2.88 3.38 3.57 3.63 3.20 3.13 2.53 3.45 3.27 3.08 3.16 2010 3.46 3.06 3.35 2.66 3.51 3.13 3.38 2.33 3.53 2.90 2.90 3.11 TABLE 3-9 MEAN DIVERSITY INDICES FOR THE CATCH OF FISH AT EACH LOCATION COLLECTED BY SEINING Braidwood Station -1977-20 10 YEAR IL 1R 2 3L 3R 4L 4R 5L 5R 6L 6R MEAN ALL LOCATIONS 1977 1978 1979 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 2.52 2..21 2.71 1.56 2.15 1.47 2.00 1.85 1.80 1.95 2.25 1.82 1.51 1.10 1.63 1.19 1.11 0.76 1.29 1.05 1.11 2.17 2.69 2.80 1.53 2.24 1.26 1.83 2.34 2.62 1.23 2.30 1.78 2.20 1.64 1.35 1.54 1.28 1.06 1.87 1.90 1.76 1.80 1.67 0.99 1.08 1.37 0.00 2.71 3.31 3.00 3.29 2.30 2.04 2.78 2.42 2.52 3.02 2.00 2.76 2.81 1.45 1.81 2.14 0.91 0.46 1.83 1.84 1.75 1.72 1.87 1.89 1.84 2.02 2.38 0.52 2.47 3.17 2.43 2.90 2.16 2.19 1.31 0.78 0.00 0.23 0.71 2.05 0.87 1.35 2.00 1.86 0.51 2.13 1.15 0.73 3.08 2.91 2.97 2.69 2.89 2.15 1.39 1.69 2.42 1.73 1.73 1.17 0.72 0.82 0.95 0.82 1.07 0.22 2.42 2.53 1.44 1.46 1.67 2.25 1.81 1.40 2.03 2.16 1.22 0.51 2.39 2.35 2.84 1.53 1.61 0.66 1.47 2.78 3.16 2.02 2.52 2.59 2.98 2.38 2.55 2.49 2.81 2.72 2.39 2.26 1.99 2.19 2.49 2.24 2.64 2.25 2.80 2.63 3.46 1.58 2.86 3.01 3.49 1.53 2.66 2.24 2.26 2.88 2.30 2.08 1.86 3.07 1.74 2.27 2.64 2.28 3.22 2.28 2.59 2.73 3.00 2.94 2.51 2.49 2.60 1.29 1.29 1.67 0.80 0.47 0.84 1.32 2.34 1.45 0.96 2.05 2.48 2.29 1.51 1.26 2.94 3.02 2.62 3.21 2.50 2.33 2.33 2.61 0.81 1.55 1.32 2.99 1.74 1.52 1.90 2.48 2.03 2.03 0.93 1.41 2.61 2.83 2.78 2.92 2.52 1.84 1.96 1.97 1.18 1.08 1.21 2.37 1.71 1.93 1.87 2.02 1.68 2.15 1.90 1.18 2.75 2.79 2.69 2.63

-= -f -U =a -m mm --m en Am amaUAO X TABLE 3-9 (Continued)

MEAN DIVERSITY INDICES FOR THE CATCH OF FISH AT EACH LOCATION COLLECTED BY SEINING Braidwood Station -1977-2010 YEAR IL IR 2 3L 3R 4L 4R 5L 5R 6L 6R MEAN ALL LOCATIONS 1998 3.23 2.60 1.50 2.00 3.11 2.34 1.04 2.21 1.83 2.25 1.77 2.17 1999 2.16 1.92 2.15 1.81 1.14 2.87 1.97 2.22 2.60 2.32 2.55 2.16 2000 2.25 1.27 1.21 2.45 0.56 2.13 1.97 2.10 2.45 1.59 2.29 1.84 2001 3.09 2.63 3.02 2.76 2.62 3.09 3.32 2.95 3.05 3.39 2.80 2.97 2002 2.93 2.80 2.46 3.02 2.64 3.39 2.84 3.04 3.31 2.76 2.80 2.91 2003 1.29 2.29 2.44 2.68 1.67 2.35 2.99 2.84 3.09 2.79 2.61 2.46 2004 3.39 2.77 3.22 2.94 1.48 2.82 2.78 2.73 3.01 3.15 2.40 2.79 2005 2.18 2.31 2.90 2.50 3.15 2.76 2.23 2.75 1.85 2.51 1.53 2.43 2006 1.91 1.56 2.52 3.08 2.10 2.73 2.66 2.58 2.09 2.52 2.71 2.40 2007 3.44 3.16 2.69 2.56 3.23 3.10 2.24 3.05 2.52 2.97 3.30 2.93 2008 1.46 3.07 2.76 3.04 2.09 2.93 2.74 2.84 3.40 2.88 2.99 2.74 2009 1.65 1.92 2.04 3.02 1.96 1.53 2.23 1.93 2.21 2.38 2.65 2.14 2010 2.02 2.26 1.99 3.23 2.31 2.48 2.87 1.44 3.21 2.92 2.69 2.49..-.d EM ~ ~ -M mM MM La -E -s an --M E-~ -gm w OM TABLE 3-10 NUMBER OF ANOMALIES ASSOCIATED WITH FISH COLLECTED AT EACH SAMPLING LOCATION ON THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -2010 SAMPLING LOCATION ANOMALY IL IR 2 3L 3R 4L 4R 5L 5R 6L 6R TOTAL Eroded fin 1 1 1 3 Lesions 1 1 1 1 4 Anchor worm 1 2 3 (Lernaea spp.)Total Anomalies 1 0 2 1 0 2 1 0 1 2 0 10 Total Fish 118 118 386 347 292 308 368 560 623 446 232 3798 Percent' (0.85) (0.0) (0.52) (0.29) (0.0) (0.65) (0.27) (0.0) (0.16) (0.45) (0.0) (0.26)N)Percent of total fish sampled with external anomalies by location.

(30.0%) of the 10 total anomalies noted. Anchor worm was noted on two of the freshwater drum and one of the rock bass taken during electrofishing sampling.DELT (Deformities, Eroded fins, Lesions, or Tumors) anomalies were noted on five (0.13 %) of the 3798 fish collected.

Lesions occurred on four individuals and eroded fins (fin rot) occurred on three individuals.

As noted in the previous paragraph, one rock bass and one northern hog sucker exhibited both eroded fins and lesions (five fish with seven total DELT anomalies).

Tumors, malformations, fish lice, leeches, cysts, and black spot were not observed on any of the fish examined in 2010. The numbers of fish noted with external anomalies by location were all low with the greatest number of fish (2) with anomalies occurring at Location 2 in Horse Creek (0.52% of all fish examined), Location 4L (0.65% of all fish examined), and Location 6L (0.45% of all fish examined).

The highest percentage of fish with anomalies occurred at Location IL where one (0.85%) of the 118 fish observed exhibited some form of external anomaly. The low percentage of individuals with DELT anomalies noted in 2010 indicates that the resident fish assemblage in this portion of the Kankakee River was in good condition (as defined by Karr, 1981) during the August sampling period.3.5.3 Relative Weight Inherent in the development of the W, equations used to calculate Wr is the objective of modeling the growth form of a species for fish in better-than-average condition.

A mean W, value close to 100 (90-110) over a range of size groups may reflect optimal health and utilization of food resources for a given population (Anderson and Gutrueter 1983). When relative weight values are considerably less than 100, problems may exist in food availability and/or feeding relationships.

A total of 215 fish (15 species) that met the minimum length criteria of the W, equations was collected (Table 3-11 and Appendix Table C-I). Of the 15 species collected, only eight were represented by more than 10 individuals.

Relative weights by species, as well as by individuals within a species, were highly variable.

Mean relative weight by species ranged from 87.2 for bigmouth buffalo to 115.1 for gizzard shad. Several factors can influence W,, including sample size, fish size, sex, food availability, competition, and spawning condition.

With the possible 3-29 HDR Engineering, Inc.

TABLE 3-11 MEAN RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKE RIVER AND HORSE CREEK NEAR BRAIDWOOD STATION -AUGUST 2010 SPECIES No. (Wr) RANGE Gizzard shad 3 115.1 100.5 -129.2 Carp 15 89.0 76.4- 104.5 River carpsucker 8 106.6 85.2 -131.0 Bigmouth buffalo 1 87.2 87.2 Smallmouth buffalo I 110.0 110.0 Channel catfish 19 92.3 63.2- 110.7 Northern pike 3 87.4 73.8 -100.6 Rock bass 49 106.4 84.4 -130.7 Bluegill 25 108.5 70.5 -140.0 Green sunfish 15 103.4 76.7 -135.0 Smallmouth bass 34 99.9 71.9- 117.6 Largemouth bass 21 110.5 85.3 -139.8 Black crappie 1 95.9 95.9 Walleye 13 91.0 68.2- 113.6 Freshwater drum 7 106.2 96.1- 113.0 3-30 exceptions of the one bigmouth buffalo, three northern pike, and perhaps the 15 carp that were collected (W, = 87.2, 87.4, and 89.0, respectively), the remaining species examined appeared to reflect optimal health and utilization of food resources based upon the relative weights of fish that were collected during the August 2010 Braidwood Fish Monitoring Program. Twelve of the 15 species examined exhibited a W, score of greater than 90.0 and eight species (gizzard shad, river carpsucker, smailmouth buffalo, rock bass, bluegill, green sunfish, largemouth bass, and freshwater drum) scored greater than 100.3.6 Physicochemical Data Water quality data recorded in conjunction with fish sampling was measured at each location prior to every sample collection (Appendix Tables A-I to A-4). During August 2010, water temperature ranged from 24.9 °C at Location 3L on August 4 to 29.0 °C at Location 4R (the Braidwood Station discharge) on August 3. Water temperatures were slightly warmer during the second sampling period. Dissolved oxygen ranged from 5.2 to 17.0 ppm, pH from 7.9 to 8.5, and conductivity from 433 to 659 .imhos/cm.

With the exception of the relatively high dissolved oxygen readings that were recorded on August 3, the physicochemical data collected in 2010 was similar to values reported during earlier years of these studies. Each of the measured water quality parameters observed were within the range of values capable of supporting a healthy fishery.Since 1981, mean monthly discharge for the Kankakee River (Site Number 05527500) has been calculated from flow data recorded by the United States Geological Survey (USGS) near Wilmington, Illinois (Figure 3-5 and Appendix Table A-5). Based on preliminary data, the mean monthly river flows for January and June 2010 Were substantially higher than the mean monthly flows for all years combined (January 1981- August 2009). In contrast, the mean monthly river flow for September 2010 was one of the lowest reported since 1981. Mean monthly river flows for the remaining months in 2010 were all similar to or slightly less than the mean for all years combined.

These data should be viewed with caution because the current water year's data is still preliminary.

October through December 2010 preliminary mean monthly river flows were not available when this report was being prepared.3-31 HDR Engineering, Inc.

-a um =a_ mm__oKma=

fl --4 35000V ...- ... ..... ... .30000 25000-4-. Minimum---- Maximum-A--Mean 2010--.. _Series5..20000) 15000 U, ul 41o w-0[] i 10000 5000 0 JAN FEB MAR APR MAY JUN JUL AUG SEP MONTH FIGURE 3-5.MONTHLY MEAN, MAXIMUM AND MINIMUM KANKAKEE RIVER FLOWS RECORDED BY THE USGS GAUGING STATION NEAR WILMINGTON, ILLINOIS, JANUARY 1981 THROUGH SEPTEMBER 2010.(MEAN DOES NOT INCLUDED PROVISIONAL DATA OF SEPTEMBER 2009 -AUGUST 2010).

Mean monthly river flow (excluding provisional data) since 1981 has averaged 6007 cfs (Appendix Table A-5). Highest mean monthly river flows have occurred during March and April, while the lowest flows have occurred during the months of August through October. River flows in 2010 ranged from 1010 cfs in September to 16,266 cfs in January.With the exception of the August 4 sampling date, river flow during each sampling date in 2010 was similar to or below the 29-yr mean August monthly average of 2525 cfs (Appendix Table A-5). Preliminary flow data for the three sampling dates during the first sampling period on August 2, 3, and 4, were 2480, 2380, and 5650 cfs, respectively.

The increased flow observed on August 4 was the result of a strong thunderstorm that produced heavy wind and rainfall during the evening of August 3. River flows dropped quickly within a few days following this event. Flow data for the three sampling dates during the second sampling period on August 16, 17, and 18, were 1370, 1250, and 1180 cfs, respectively.

River flows were higher during the first sampling period in August 2010 when compared to the second sampling period. River flows in the Kankakee River can be highly variable over a relatively short period of time.3-33 HDR Engineering, Inc.

4.0

SUMMARY

1. Forty-three species of fish representing 13 families were collected from the Kankakee River and Horse Creek during the Braidwood Station Aquatic Monitoring Program in August 2010.2. No pallid shiner or river redhorse were collected during the 2010 fisheries surveys in the Kankakee River near Braidwood Station. Pallid shiner is currently listed as endangered, while the river redhorse is currently listed as threatened in Illinois.

No other protected species were observed in 2010.3. A total of 3798 fish weighing 173.1 kg was collected during electrofishing and seining efforts in 2010.4. Spotfin shiner (23.0%), longear sunfish (16.0%), blunmose minnow (15.7%), bullhead minnow (10.5%), largemouth bass (6.3%), and sand shiner (5.6%) were the most abundant species collected in 2010.5. Carp (29.7%), channel catfish (18.3%), smallmouth bass (8.7%), largemouth bass (6.0%)and freshwater drum (5.5%) comprised 68.2% of the total biomass (173.1 kg) sampled during electrofishing and seining efforts in 2010.6. Electrofishing resulted in the capture of 2109 fish representing 38 species. Longear sunfish was the most abundant species observed, accounting for 25.7% of all fish collected, followed by bluntnose minnow (16.5%), largemouth bass (9.1%), spotfin shiner (9.1%), and bullhead minnow (7.5%). Electrofishing biomass was dominated by carp, which constituted 30.5% of the 168.6 kg collected.

Carp and sucker species accounted for 47.8% of the total electrofishing biomass. Electrofishing CPE was 234.3 fish/hr in 2010, which is higher than the 33-yr average of 176.3 fish/hr.7. Thirty-one species were among the 1689 fish collected in seine samples. Spotfin shiner dominated the catch comprising (40.4%) of all fish collected, followed by bluntnose minnow (14.6%), bullhead minnow (14.1%), and sand shiner (8.3%). Seining biomass (4.5 kg) was dominated by cyprinid species with spotfin shiner comprising 35.9%, bluntnose minnow 11.9%, bullhead minnow 11.6%, longear sunfish 10.5%, largemouth bass 6.6%, and sand shiner 6.0% of the total biomass collected.

No other species individually comprised more than 5% of the total biomass collected.

Seining CPE in 2010 (38.4 fish/haul) was less than the 33-yr mean of 58.0 fish/haul.

Fewer sunfish species were collected in 2009 and 2010 than during most recent years, which may be attributed to the decline in aquatic vegetation observed throughout the entire sampling area.8. The mean diversity index of fish collected by electrofishing for all locations combined in 2010 was 3.11, which is slightly higher than most years reported since 1977. The mean diversity index for electrofishing has ranged from 2.36 in 1982 to 3.74 in 2005. The mean diversity index of fish collected by seining in 2010 was 2.49, which is well within the range of values reported since 1977. The mean seining diversity index has ranged from 1.08 in 1983 to 2.97 in 2001.4-1 HDR Engineering, Inc.

9. Only eight (0.21%) of the 3798 fish collected in 2010 exhibited some form of external anomaly. Lesions (40.0%), eroded fins (30.0%), and anchor worm (30.0%) accounted for all of the ten anomalies observed.

Tumors, malformations, fish lice, black spot, leeches, and cysts were not observed in 2010. Two of the eight fish afflicted were channel catfish, two were rock bass, two were freshwater drum, and one specimen each of northern hog sucker and largemouth bass was also observed with an external anomaly.The largest percentage (0.85 %) of fish collected with anomalies was observed at Location IL. The very low incidence of DELT (Deformities, Eroded fins, Lesions, and Tumors)anomalies observed in 2010, which occurred on only five (0.13%) of the 3798 fish examined, continues to indicate that the fish assemblage in this portion of the Kankakee* River is in good condition during the August sampling period.10. Mean relative weights (Wr) of fish near the Braidwood Station ranged from 87.2 for bigmouth buffalo (one individual) to 115.1 for gizzard shad. With the exception of a few individuals, fish collected in the Kankakee River during the August sampling period were in good to excellent condition.

Eight species (gizzard shad, river carpsucker, smallmouth buffalo, rock bass, green sunfish, bluegill, largemouth bass, and freshwater drum)exhibited mean relative weight scores of more than 100.11. Based on length frequency data collected by electrofishing and seining sampling efforts in 2010, recruitment of rock bass, longear sunfish, and smallmouth bass appeared to be weak in this portion of the Kankakee River, while largemouth bass recruitment appeared to be very strong.4-2 HDR Engineering, Inc.

5.0 REFERENCES

CITED Anderson, R.O. and S.J. Gutreuter.

1983. Length, Weight, and Associated Structural Indices. In (Nielsen L.A. and D.L. Johnson, eds.) Fisheries Techniques.

Southern Printing Company, Inc., Blacksburg, Virginia.

pp. 283-300.Barker, B., J.B. Carlisle, and R. Nyberg. 1967. Kankakee River Basin Study, a Comprehensive Plan for Water Resource Development.

Bureau of Water Resources, Department of Public Works, Springfield, Illinois.Becker, G.C. 1983. Fishes of Wisconsin.

The University of Wisconsin Press. Madison, Wisconsin.

Brigham, W.U., L. Suloway, J.M. Kasprowicz, and M.J. Wetzel. 1984. Survey of Kankakee River Mussels (Mollusca:

Unionidae) at Site of Proposed Sewer Project, City of Kankakee, Kankakee County, Illinois.

Technical Report, Faunistics and Insect Identification, Illinois Natural History Survey, Champaign, Brown, M.L. and Murphy, B.R. 1991. Standard Weights for Striped Bass, White Bass, and Hybrid Striped Bass. N. Am. J. Fish. Manage. 11:451-467.

Environmental Science & Engineering.

1993. Kankakee River Fish Monitoring Program Braidwood Station 1993. Report to Commonwealth Edison Company, Chicago, Illinois.Gablehouse, D.W., Jr. 1984a. A Length-Categorization System to Assess Fish Stocks. N. Am. J.Fish. Manage. 4:273-285.

Graham, R.J., R.W. Larimore, and W.F. Dimond. 1984. Recreational Fishing in the Kankakee River, Illinois.

Illinois Natural History Survey Biological Note 120.HDR Engineering, Inc. 2009. Braidwood Station Kankakee River Fish Monitoring Program, 2008.Report to Commonwealth Edison Company, Chicago, Illinois.HDR Engineering, Inc. 2010. Braidwood Station Kankakee River Fish Monitoring Program, 2009.Report to Commonwealth Edison Company, Chicago, Illinois.HDR/LMS 2006. Braidwood Station Kankakee River Fish Monitoring Program, 2005. Report to Commonwealth Edison Company, Chicago, Illinois.HDR/LMS 2007. Braidwood Station Kankakee River Fish Monitoring Program, 2006. Report to Commonwealth Edison Company, Chicago, Illinois.HDR/LMS 2008. Braidwood Station Kankakee River Fish Monitoring Program, 2007. Report to Commonwealth Edison Company, Chicago, Illinois.Healy, R.W. 1979. River Mileage and Drainage Areas for Illinois Streams Vol. 2, Illinois River Basin. U.S. Geological Survey Water-Resources Investigations79-111. Champaign, Illinois.5-1 HDR Engineering, Inc.

Illinois Endangered Species Protection Board. 2009. 2009 Checklist of Endangered and Threatened Animals and Plants of Illinois.

Illinois Department of Natural Resources, Springfield, Illinois 22 pp.Karr, J.R. 1981. Assessment of Biotic Integrity Using Fish Communities.

Fisheries 6:21-27.Kwak, T.J. 1991. Ecological Characteristics of a Northern Population of the Pallid shiner.Transactions of the American Fisheries Society 120:106-115.

Lawler, Matusky and Skelly Engineers (LMS). 1992. Braidwood Station Kankakee River Fish Monitoring Program, 1991. Report to Commonwealth Edison Company, Chicago, Illinois.Lawler, Matusky and Skelly Engineers (LMS). 1996. Braidwood Station Kankakee River Fish Monitoring Program. 1995. Report to Commonwealth Edison Company, Chicago, Illinois.Lawler, Matusky and Skelly Engineers (LMS). 1999. Braidwood Station Kankakee River Fish Monitoring Program, 1998. Report to Commonwealth Edison Company, Chicago, Illinois.Lawler, Matusky and Skelly Engineers (LMS). 2001. Braidwood Station Kankakee River Fish Monitoring Program, 2000. Report to Commonwealth Edison Company, Chicago, Illinois.Lawler, Matusky and Skelly Engineers (LMS). 2005. Braidwood Station Kankakee River Fish Monitoring Program, 2004. Report to Commonwealth Edison Company, Chicago, Illinois.Murphy, B.R., D.W. Willis, and T.A. Springer.

1991. The Relative Weight Index in Fisheries Management:

Status and Needs. Fisheries 16(2):28-30.

Pflieger, W.L. 1975. The Fishes of Missouri.

Missouri Department of Conservation.

Jefferson City, Missouri.Shannon, C.E. 1948. A Mathematical Theory of Communication.

Bell System Technical Journal 27:379-423, 623-656.Skelly, T.M. and M.J. Sule. 1983. The Pallid Shiner, Notropis amnis Hubbs and Greene, a Rare Illinois Fish. Transactions of the Illinois State Academy of Science 76:131-138.

Skelly, T.M. and S.M. Pescitelli.

1981. [Section 4]. Adult and Juvenile Fishes of the Kankakee River and Horse Creek. Construction and Preoperational Aquatic Monitoring Program for the Kankakee River. Braidwood Station Fourth Annual Report. Ill. Nat. Hist. Sur. Urbana, Illinois.Smith, P.W. 1971. Illinois Streams. A Classification Based on Their Fishes and an Analysis of Factors Responsible for Disappearance of Native Species. Illinois Natural History Survey Biological Note 76.Smith, P.W. 1979. The Fishes of Illinois.

University of Illinois Press, Urbana, Illinois.

314 pp.5-2 HDR Engineering, Inc.

Stange, R.J. and J.C. Pelton. 1987. Nutrient Content of Clupeid Forage Fishes. Trans. Am. Fish.Soc. 116:60-66.

Trautman, M.B. 1957. The Fishes of Ohio with Illustrated Keys. Ohio State University Press, Columbus, Ohio. 683 p.Trautman, M.B. 1981. The Fishes of Ohio. Ohio State Press in Collaboration with the Ohio Sea Grant Program Center for Lake Erie Area Research.

782 pp.Wege, G.J. and R.O. Anderson.

1978. Relative Weight (Wr): A New Index of Condition for Largemouth Bass. Pages 79-91. In (G.D. Novinger and J.G. Dillard, eds.) New Approaches to the Management of Small Impoundments.

North Central Division, American Fisheries Society, Special Publication 5.5-3 HDR Engineering, Inc.

APPENDIX A PHYSICOCHEMICAL DATA LIST OF TABLES Table No. Title Page No.A-1 Ancillary Measurements Recorded Concurrently with Electrofishing Samples from the Kankakee River and Horse Creek, August 2-3, 2010. A-1 A-2 Ancillary Measurements Recorded Concurrently with Electrofishing Samples from the Kankakee River and Horse Creek, August 16-17, 2010. A-2 A-3 Ancillary Measurements Recorded Concurrently with Seining Samples from the Kankakee River and Horse Creek, August 3-4,2010. A-3 A-4 Ancillary Measurements Recorded Concurrently with Electrofishing Samples from the Kankakee River and Horse Creek, August 18, 2010. A-4 A-5 Mean Monthly Discharge (ft 3 lsec) in the Kankakee River Near Wilmington, Illinois, 1981-2010.

A-5 HDR Engineering, Inc.

cm u IB Em N mm M g= u w to TABLE A-I ANCILLARY MEASUREMENTS RECORDED CONCURRENTLY WITH ELECTROFISHING SAMPLES FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -August 2-3, 2010 PARAMETER 1LO 1RV 24 3Lb 3RW 4Lb 4Ra 5Lb 5Rb 6Lb 6Rb Time 1410 1500 1355 1315 1700 1230 1740 1140 1045 0850 0955 Temperature

(°C) 25.5 25.6 26.0 25.4 25.7 25.6 29.0 25.4 26.4 26.2 26.3 Dissolved oxygen (ppm) 16.0 15.9 8.5 8.6 17.0 7.5 16.5 6.8 7.0 7.2 6.3 pH 8.3 8.3 8.4 8.2 8.4 8.2 8.3 8.1 8.1 8.2 8.1 Conductivity (pmhos/cm) 536 541 579 526 521 525 598 524 529 502 524'Samples collected on August 2, 2010.bSamples collected on August 3, 2010.

TABLE A-2 ANCILLARY MEASUREMENTS RECORDED CONCURRENTLY WITH ELECTROFISHING SAMPLES FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -August 16-17, 2010 PARAMETER 1L1 11R 28 3Lb 3Rb 4Lb 4Rb 5Lb 5Rb 6Lb 6Rb Time 1605 1520 1600 1210 1130 1300 1055 0915 0955 0815 0720 Temperature

(°C) 27.5 26.8 27.6 26.3 26.5 26.8 27.7 26.5 27.5 26.6 26.9 Dissolved oxygen (ppm) 7.5 6.5 8.0 5.9 5.7 7.2 6.1 6.2 7.3 6.4 6.1 pH 7.9 8.0 8.5 8.0 8.1 8.1 8.1 8.1 8.1 8.0 8.2 Conductivity (pmhos/cm) 619 613 610 619 611 619 646 608 615 608 616'Samples collected on August 16, 2010.bSamples collected on August 17, 2010." L" " ",- w. La" 6.iia 6" Lwa U" "" "" "-ia4 k-L" Ew- ow gum Sa MOM us- E 2= 94 ma m_TABLE A-3 ANCILLARY MEASUREMENTS RECORDED CONCURRENTLY WITH SEINING SAMPLES FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -August 3-4, 2010 PARAMETER 1L' 1 Ra 2& 3 Lb 31R8 4Lb 4R` 5Lb 5Rb 6Lb 6Rb Time 1415 1440 1500 0850 1550 0920 1615 0945 1015 0805 1045 Temperature (0 C) 25.5 26.3 26.6 24.9 26.2 25.0 27.7 25.2 26.2 25.8 26.0 Dissolved oxygen (ppm) 7.9 9.5 8.1 5.3 11.2 5.2 8.8 6.0 5.6 6.2 5.9 pH 8.2 8.3 8.3 8.1 8.3 8.1 8.2 8.1 8.2 8.1 8.1 Conductivity (A.rnhos) 521 523 560 435 515 433 598 444 513 507 515'Samples collected on August 3, 2010.bSamples collected on August 4, 2010.

TABLE A-4 ANCILLARY MEASUREMENTS RECORDED CONCURRENTLY WITH SEINING SAMPLES FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -August 18, 2010 PARAMETER IL IR 2 3L 3R 4L 4R 5L 5R 6L 6R Time 1420 1440 1515 1345 1400 1330 1300 1200 1230 1115 1145 Temperature

(°C) 26.9 25.4 25.8 27.6 26.9 26.2 26.5 26.6 25.9 25.7 25.5 Dissolved oxygen (ppm) 6.0 5.4 8.8 7.0 6.3 6.4 6.0 6.4 5.8 6.2 5.5 pH 8.2 8.2 8.2 8.2 8.2 8.2 8.2 8.2 8.2 8.3 8.2 Conductivity (pimlhos) 657 636 619 632 626 633 659 628 641 599 629 man -on= -a -mu u G ri I B 8=TABLE A-5 MEAN MONTHLY DISCHARGE (ftl/sec)

IN THE KANKAKEE RIVER NEAR WILMINGTON, ILLINOIS Braidwood Station 1981 -2010 YEAR JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC MEAN 1981 2025 4148 4124 9038 15810 12510 6809 5775 5141 4649 3613 4335 6663 1982 5247 11180 22730 10340 5752 5684 4013 2331 1173 1084 5742 18150 7951 1983 5585 6594 5788 11680 14320 4536 4190 1380 914 1402 2340 11210 5994 1984 2229 11740 13430 9309 11210 6695 2610 1323 832 1661 3744 5842 6051 1985 8104 9273 17780 11810 3232 2602 1477 2102 1462 2379 15530 9610 7279 1986 3565 5865 6447 4353 7370 8941 6268 1655 1321 7820 4585 6796 5581 1987 3675 5984 4261 4965 7270 6179 2272 1692 1580 1579 1810 8991 4354 1988 7882 5615 5208 9074 2852 997 467 451 729 1380 4180 4394 3768 1989 6483 4291 5372 6554 4387 8271 3677 2090 9075 3094 3447 2390 5093 1990 5499 11660 15440 6689 9927 4872 6434 5793 3068 8879 11260 14940 8871 1991 16220 9839 14960 10930 9917 5017 1252 757 839 2114 6405 7306 7296 1992 4098 6291 6132 5424 2695 2441 4081 2387 3036 2643 11540 7024 4816 1993 17270 6036 13800 14420 6606 14320 12710 3871 14370 15570 9215 8659 11570 1994 5813 7811 8031 11890 6147 4753 5062 2505 1778 1360 4219 6415 5648> 1995 7699 3448 6960 11590 12300 6797 3300 3302 950 934 4026 1931 5436 1996 2217 1859 2777 4008 11210 13260 9389 5600 1666 1856 3146 6081 5422 1997 6031 13660 13360 6217 6374 13990 4245 4047 1836 1265 1653 3031 6476 1998 10240 7889 16620 11740 13230 8657 6792 3002 1058 1082 1115 1378 7067 1999 5501 7517 7079 10930 7010 6008 2424 851 544 754 712 1493 4402 2000 1166 1631 2794 4218 4105 7598 6700 1536 850 1144 1804 1599 3095 2001 1738 13190 7986 5691 3442 7695 2343 1186 1261 9202 5535 6438 5642 2002 4051 10920 10380 11490 15700 4786 1794 2309 813 822 969 1207 5604 2003 1359 1184 2018 3708 7492 3793 12720 2648 1608 1568 5477 5707 4274 2004a 4210 2078 6593 4525 4485 11030 2479 3568 3819 1633 5846 10120 5032 20058 17490 10460 5486 5247 2899 1932 811 1193 843 1106 1556 1556 4215 20068 4548 3430 6125 6767 6146 3330 2622 2063 2940 4838 4763 4763 4361 20078 12450 4838 12550 8701 5166 2545 1360 4568 2901 1840 2583 8558 5672 20082 33001 21586 8891 7795 5301 9415 2223 2041 11596 4584 4109 16287 10569 20098 13486 11448 14812 9084 9328 4905 2032 1188 1449b 3966 7590 6695 7165 20108 16266 5275 8634 5699 8328 12501 3281 1948 1010 e e c Mean" 7548 7637 9239 8213 7644 6674 4226 2525 2786 3152 4676 6650 6007 bData taken from US Army Corp of Engineers website.Numbers in bold characters represent provisional river flow data.C c ata not available at time of printing.Mean calculated from January 1981 to August 2009 (does not include provisional data collected from September 2009 through August 2010).

APPENDIX B HISTORICAL CATCH DATA LIST OF TABLES Table No. Title Page No.B-1 Percent of Total Catch of the Five Dominant Species Collected from the Kankakee River and Horse Creek, 1978-20 10. B-1 B-2 Percent Biomass of Total Catch of the Five Dominant Species Collected from the Kankakee River and Horse Creek, 1978-2010. B-4 HDR Engineering, Inc.

TABLE B-1 PERCENT OF TOTAL CATCH OF THE FIVE DOMINANT SPECIES COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -1978-2010 1978 Gizzard shad 16.1 Bluntnose minnow 15.1 Longear sunfish 9.4 Sand shiner 7.3 Smallmouth bass 6.5 Total 69.7 1982 Smallmouth bass 9.3 Golden redhorse 7.7 Striped shiner 7.7 Green sunfish 7.0 Rosyface shiner 6.5 Total 38.2 1985 Bluntnose minnow 23.8 Spotfin shiner 13.5 Striped shiner 8.9 Smallmouth bass 6.6 Golden redhorse 6.5 Total 59.3 1988 Smallmouth bass 21.4 Gizzard shad 15.8 Longear sunfish 7.8 Rosyface shiner 6.8 Blunmose minnow 6.5 Total 58.3 1991 Gizzard shad 24.3 Spotfin shiner 17.1 Bluegill 13.6 Bullhead minnow 9.7 Bluntnose minnow 6.6 Total 71.3 1979 Spotfin shiner 23.5 Blunmose minnow 18.4 Sand shiner 11.1 Smallmouth bass 5.6 Rock bass 4.8 Total 63.4 1983 Striped shiner 18.0 Spotfin shiner 11.6 Bluntnose minnow 9.8 Smallmouth bass 8.4 Sand shiner 7.5 Total 54.7 1986 Blunmose minnow 20.8 Longear sunfish 13.1 Golden redhorse 9.3 Rock bass 7.5 Smallmouth bass 6.3 Total 57.0 1989 Longear sunfish 19.4 Smallmouth bass 12.2 Blunmose minnow 10.5 Rock bass 5.5 Green sunfish 5.4 Total 53.0 1992 Spotfin shiner 31.1 Striped shiner 9.7 Smallmouth bass 9.5 Bluntnose minnow 8.4 Longear sunfish 6.9 Total 65.6 1981 Spotfin shiner 10.2 Golden redhorse 9.8 Bluntnose minnow 7.7 Shorthead redhorse 6.8 Rock bass 6.1 Total 40.6 1984 Spotfin shiner 14.3 Striped shiner 9.5 Bullhead minnow 8.2 Green sunfish 7.9 Smallmouth bass 7.7 Total 47.6 1987 Spotfin shiner 21.9 Blunmose minnow 13.2 Longear sunfish 10.4 Gizzard shad 6.0 Bullhead minnow 5.8 Total 57.3 1990 Gizzard shad 36.2 Longear sunfish 13.6 Spotfin shiner 5.6 Golden redhorse 5.2 Rock bass 4.8 Total 65.4 1993 Longear sunfish 20.8 Gizzard shad 12.0 Rock bass 8.6 Smallmouth bass 6.4 Spotfin shiner 6.1 Total 53.9 B-1 TABLE B-I (Continued)

PERCENT OF TOTAL CATCH OF THE FIVE DOMINANT SPECIES COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -1978-2010 1994 Golden redhorse 26.6 Gizzard shad 11.0 Striped shiner 10.9 Blftlnose minnow 9.9 Sand shiner 6.8 Total 65.2 1997 Gizzard shad 38.5 Bluntnose minnow 17.2 Sand shiner 7.6 Spotfin shiner 7.2 Longear sunfish 3.9 Total 74.4 2000 Spotfin shiner 39.1 Blunmose minnow 20.3 Bullhead minnow 12.5 Longear sunfish 8.9 Sand shiner 5.1 Total 85.9 2003 Carp 24.0 Longear sunfish 16.3 Bluntnose minnow 11.8 Sporfin shiner 10.2 Bullhead minnow 8.9 Total 71.2 1995 Blunmose minnow 24.6 Gizzard shad 15.1 Bluegill 10.8 Longear sunfish 8.4 Bullhead minnow 8.3 Total 67.2 1998 Blunmose minnow 34.7 Gizzard shad 26.2 Longear sunfish 7.3 Sand shiner 4.1 Bluegill 3.4 Total 75.7 2001 Blunmose minnow 21.1 Bullhead minnow 14.0 Spotfin shiner 13.2 Longear sunfish 11.4 Sand shiner 8.4 Total 85.9 2004 Spotfin shiner 16.8 Longear sunfish 13.4 Bluntnose minnow 12.8 Sand shiner 7.9 Orangespotted sunfish 5.7 Total 56.6 1996 Blunosose minnow 30.0 Bullhead minnow 11.2 Carp 9.2 Sand shiner 8.9 Spotfin shiner 8.2 Total 67.5 1999 Blunmose minnow 23.1 Bullhead minnow 19.2 Spotfin shiner 6.9 Longear sunfish 6.4 Gizzard shad 5.6 Total 61.2 2002 Bluntnose minnow 20.2 Striped shiner 13.5 Bullhead minnow 12.4 Brook silverside 7.1 Sporfin shiner 7.1 Total 60.3 2005 Blunmnose minnow 12,5 Spotfin shiner 9.1 Sand shiner 6.8 Smallmouth bass 5.9 Brook silverside 5.5 Total 39.8 I 11 I]I I I I I I I I B-2 TABLE B-1 (Continued)

PERCENT OF TOTAL CATCH OF THE FIVE DOMINANT SPECIES COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -1978-2010 2006 Longear sunfish 35.7 Blunmose minnow 16.8 Spotfin shiner 7.4 Gizzard shad 6.6 Rock bass 4.2 Total 70.7 2009 Spotffm shiner 29.6 Bullhead minnow 17.3 Blunmose minnow 10.9 Sand shiner 7.8 Longear sunfish 6.3 Total 71.9 2007 Brook silverside 20.9 Bullhead minnow 8.9 Longear sunfish 7.0 Bluntnose minnow 6.3 Smailmouth bass 5.8 Total 48.9 2010 Spotfin shiner 23.0 Longear sunfish 16.0 Bluntnose minnow 15.7 Bullhead shiner 10.5 Largemouth bass 6.3 Total 71.5 2008 Longear sunfish 16.8 Spotfin shiner 15.1 Bluntnose minnow 12.0 Bullhead minnow 9.4 Sand shiner 7.1 Total 60.4 B-3 TABLE B-2 PERCENT BIOMASS OF TOTAL CATCH OF THE FIVE DOMINANT SPECIES COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -1978-2010 1978 Carp 22.6 Quillback 15.4 Smallmouth bass 12.9 Golden redhorse 9.7 Silver redhorse 9.1 Total 69.7 1982 Carp 26.9 Silver redhorse 17.6 Golden redhorse 11.7 Smallmouth bass 10.0 Quillback 9.3 Total 75.5 1985 Smallmouth bass 25.9 Golden redhorse 16.7 Quillback 13.5 Carp 9.3 Rock bass 8.2 Total 73.6 1988 Golden redhorse 25.3 Smallmouth bass 13.5 Gizzard shad 12.6 Carp 10.3 Quillback 9.9 Total 71.6 1991 Carp 29.9 Gizzard shad 18.6 Golden redhorse 12.1 Silver redhorse 9.6 Quillback 7.7 Total 77.9 1979 Golden redhorse 14.9 Smallmouth bass 14.9 Carp 14.1 Rock bass 9.6 Quillback 9.3 Total 62.8 1983 Quillback 36.0 Carp 16.5 Golden redhorse 11.6 Smallmouth bass 8.1 Silver redhorse 5.5 Total 77.7 1986 Golden redhorse 26.6 Quillback 13.3 Rock bass 9.9 Smallmouth bass 9.2 Gizzard shad 7.1 Total 66.1 1989 Carp 25.2 Golden redhorse 15.7 Smallmouth bass 12.8 Rock bass 7.2 River redhorse 6.5 Total 67.4 1992 Smallmouth bass 22.0 Carp 17.4 Gizzard shad 9.6 Channel catfish 9.4 Golden redhorse 8.6 Total 67.0 1981 Shorthead redhorse 21.0 Golden redhorse 18.3 Carp 15.6 Smallmouth bass 7.9 Rock bass 5.2 Total 68.0 1984 Quillback 28.2 Golden redhorse 18.8 Silver redhorse 13.4 Smallmouth bass 9.6 Northern hogsucker 7.6 Total 77.6 1987 Golden redhorse 16.6 Smallmouth bass 15.1 Gizzard shad 14.1 Quillback 13.4 Rock bass 9.4 Total 68.6 1990 Golden redhorse 21.6 Carp 16.6 River redhorse 13.0 Quillback 10.8 Silver redhorse 7.1 Total 69.1 1993 Carp 19.2 Golden redhorse 16.5 Silver redhorse 13.3 Smallmouth bass 12.2 Quillback 10.9 Total 72.1 fi'A i!B-4 TABLE B-2 (Continued)

PERCENT BIOMASS OF TOTAL CATCH OF THE FIVE DOMINANT SPECIES COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK Braidwood Station -1978-2010 1994 Carp 49.5 Golden redhorse 12.1 Silver redhorse 6.1 Channel catfish 5.3 Smallmouth bass 4.5 Total 77.5 1997 Carp 27.0 Silver redhorse 24.4 Gizzard shad 14.3 Golden redhorse 7.7 Smallmouth bass 6.3 Total 79.7 2000 Carp 23.4 Smallmouth bass 10.8 Gizzard shad 8.7 Channel catfish 8.5 Golden redhorse 8.5 Total 59.9 2003 Carp 24.0 Longear sunfish 16.3 Bluntnose minnow 11.8 Spotfin shiner 10.2 Bullhead minnow 8.9 Total 71.2 1995 Carp 38.1 Smallmouth bass 8.8 Silver redhorse 8.1 Golden redhorse 5.9 Bigmouth buffalo 5.4 Total 66.3 1998 Carp 30.8 Silver redhorse 13.5 Gizzard shad 11.8 Golden redhorse 9.6 Smallmouth bass 6.3 Total 72.0 2001 Carp 43.3 Smallmouth bass 15.0 Gizzard shad 7.2 Golden redhorse 6.7 Longear sunfish 4.8 Total 59.9 2004 Smallmouth bass 20.1 Carp 16.9 Longear sunfish 11.6 Gizzard shad 10.1 Silver redhorse 7.7 Total 66.4 1996 Carp 30.3 Quillback 11.4 Golden redhorse 9.9 Smallmouth bass 8.2 Gizzard shad 6.2 Total 66.0 1999 Gizzard shad 19.0 Carp 14.0 Golden redhorse 14.0 Silver redhorse 12.3 Smallmouth bass 7.2 Total 66.5 2002 Carp 29.8 Smallmouth bass 18.2 Golden redhorse 6.6 Gizzard shad 5.7 Channel catfish 5.5 Total 65.8 2005 Carp 25.2 Smallmouch bass 16.1 Channel catfish 12.0 Northern hog sucker 6.9 Golden redhorse 6.5 Total 66.7 B-5 TABLE B-2 (Continued)

I'I I PERCENT BIOMASS OF TOTAL CATCH OF THE FIVE DOMINANT SPECIES COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK 2006 Carp 31.6 Gizzard shad 14.4 Channel catfish 12.6 Smallmouth bass 9.2 Golden redhorse 8.8 Total 76.6 2009 Golden redhorse 25.5 Channel catfish 18.6 Carp 12.8 Smallmouth bass 5.6 Freshwater drum 5.0 Total 67.5 Braidwood Station -1978-2010 2007 Carp 31.4 Golden redhorse 14.2 Channel catfish 12.6 Smallmouth bass 9.1 River carpsucker 6.9 Total 74.2 2010 Carp 29.7 Channel catfish 18.3 Smallmouth bass 8.7 Largemouth bass 6.0 Freshwater drum 5.5 Total 68.2 2008 Carp 26.7 Channel catfish 16.3 Golden redhorse 14.7 Smallmouth bass 8.4 Silver redhorse 6.1 Total 72.2 I1 I I*1 I I I I J B-6 APPENDIX C RELATIVE WEIGHTS LIST OF TABLES Table No. Title Page No.C-1 Relative Weights of Fish Collected from the Kankakee River and Horse Creek, August 2010. C-1 HDR Engineering, Inc.

TABLE C-I RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.GIZZARD SH4AD Alpha = -5.376 Beta = 3.170 Minimum Length -180 3L At Intake, Left Bank No. TL(mm)1 241 Location Average Wgt (gm)173 Wr 115.63 115.63 Wr 129.15 SR Near Field Recorvery, Right Bank No. TL (mm)1 234 Wgt (gm)176 Location Average 129.15 6L Far Field Recovery, Left Bank No. TL (mm)1 314 wgt (gin)348 1 .100.53 Location Average TAXON AVERAGE 100.53 COMMON CARP Alpha --4.418 Beta = 2.)IL Above Intake, Left Bank No.1 2 3 4 5 6 TL (mm)649 652 694 672 675 715 wgt***. 115.10 ****859 Minimum Length -280 (gin) wr 3200 76.37 3800 89.51 4400 86.70 4050 87.50 4900 104.52 5200 94.09 IR Above Intake, Right Bank Location Average No. TL(mm)1 620 2 623 3 659 89.78 Wgt (gin)3100 3450 3700 Wr 84.32 92.55 84.53 Location Average 87.13 2 Horse Creek No. TL (mm)1 391 Wgt (gin)928 Wr 94.30 Location Average 94.30 C-1 TABLE C-1 (Continued)

,4-RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010. 3 COMMON CARP Alpha --4.418 Beta -2.859 Minimum Length = 280 3R At Intake, Right Bank No. TL Wgt (gin)4R Discharge Area, Right Bana 1 555 Location Average No. TL(mm)2 496 Location Average No. TL(mm)1 711 Location Average No. TL(mm)1 617 2250 Wr 83.99 Wgt (gm)1550 I I 83.99 Wr 79.79]79.79 SL Near Field Recovery, Left Bank Wgt (gin)5400 Wr 99.29 99.29 SR Near Field Recorvery, Right Bank Wgt (gm)3100 Wr 85.49 Location Average 85.49 6R Far Field Recovery, Right Bank No. TL (mm)1 543 wgt (gm)2300 Wr 91.40 Location Average TAXON AVERAGE 91.40*... 88.96 *-*RIVER CARPSUCKER Alpha --4.754 Beta -2.952 Minimum Length -200 4R Discharge Area, Right Bank No. TL (mm)1 284 2 321 3 376 4 380 5 399 6 428 Wgt (gin)370 453 703 733 890 880 Wr 120.23 102.54 99.77 100.83 106.00 85.20 102.43 Wr 131.01 107.59 Location Average 6L Far Field Recovery, Left Bank No.1 2 C-2 TL (mm)399 433 Wgt (gm)1100 1150 TABLE C-1 (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER-AND HORSE CREEK, AUGUST 2010.RIVER CARPSUCKER 6L Far Field Recovery, Left Bai Alpha -4.754 Beta = 2.952 nk No. TL(mm) Wgt(gm)Minimum Length = 200 Wr Location Average TAXON AVERAGE 119.30**** 106.65 **-*BIGMOUTH BUFFALO Alpha =5R Near Field Recorvery, Right Bank-4.956 Beta -3.092 No. TL(mm) Wgt(gm)1 512 2300 Location Average Minimum Length = 280 Wr 87.23 87.23 TAXON AVERAGE*=** 87.23 ****SMALLMOUTH BUFFALO 4R Discharge Area, Right Bank Alpha --5.069 Beta -3.092 No. TL(mm) Wgt(gm)1 450 1500 Location Average Minimum Length -280 Wr 109.99 109.99 TAXON AVERAGE**** 109.99 ****CHANNEL CATFISH IL Above Intake, Left Bank Alpha = -5.649 Beta -3.243 No. TL(mm) Wgt(gm)1 535 1550 2 621 2600 3 365 413 4 431 768 5 444 791 6 587 1900 7 603 1950 Location Average C-3 Minimum Length = 280 Wr 98.01 101.39 90.25 97.89 91.56 88.93 83.65 93.10 TABLE C-I (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.q I CHANNEL CATFISH Alpha --5.649 Beta -3.243 Minimum Length -280 1R Above Intake, Right Bank No. TL(mm) Wgt(gm)1 652 2 479 Location Average 2700 1000 Wr 89.90 90.50 90.20 2 Horse Creek No. TL(mm)1 486 2 602 Wgt (gm)1050 2050 Wr 90.66 88.41 3R At Intake, Right Bank 4R Discharge Area, Right Bank Location Average No. TL~mm)1 607 2 689 Location Average No. TL(mm)1 551 Location Average No. TL(mm)1 457 2 481 3 526 4 627 Location Average Wgt (gm)2100 3500 Wr 88.17 97.44 92.81 Wgt (gm)1100 89.54 Wr 63.22 I'I 63.22 SR Near Field Recorvery, Right Bank Wgt (gm)1050 1000 1450 2400 Wr 110.68 89.29 96.87 90.71 I II 6R Far Field Recovery, Right Bank No. TL (mm)1 589 Wgt (gm)2300 96.89 Wr6.106.47 Location Average TAXON AVERAGE 106.47*.*. 92.32 -*j]I NORTHERN PIKE Alpha --5.369 Beta = 3.059 Minimum Length -100 I SR Near Field Recorvery, Right Bank No.1 C-4 TL (mm)577 Wgt (gin)1050 Wr 87.85 1TABLE C-i (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.NORTHERN PIKE Alph.SR Near Field Recorvery, Right Bank a -5.369 Beta = 3.059 Minimum Length = 100 No. TL(mm) Wgt(gm)Wr Location Average 87.85 6L Far Field Recovery; Left Bank No. TL(rm) Wgt(gm)1 722 1750 2 264 110 Wr 73.7S 100.63 Location Average 87.19 TAXON AVERAGE Alpha = -4.883 Beta = 3.C**** 87.41*)83 Minimum Length = 100 ROCK BASS iL Above Intake, Left Bank No. TL (mm)1 109 2 109 3 196 Location Average No. TL(mm)1 156 Location Average No. TL(mm)Wgt (gm)22 26 170 Wr 87.91 103.89 111.28 101.03 1R Above Intake, Right Bank Wgt (gin)82 Wr 108.50 108.50 2 4Horse Creek 1 2 3 4 5 6 7 8 9 10 11 125 140 171 174 199 118 124 131 163 176 198 Wgt (gm)49 63 100 114 164 35 39 48 91 133 206 Wr 128.36 116.37 99.69 107.72 102.44 109.51 104.72 108.82 105.16 121.32 130.69 Location Average 112.26 3L At Intake, Left Bank No. TL(mm) Wgt(gm)1 126 40 C-5 Wr 102.24 TABLE C-I (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.ROCK BASS Alpha = -4.883 Beta -3.083 Minimum Length = 100 3L At Intake, Left Bank No. TL(mm) Wgt(gin)2 169 100 3 202 184 4 131 42 5 133 51 6 135 50 7 154 62 8 176 ill 9 180 130 10 186 124 Location Average No. TL(mm) Wgt(gm)Wr 103.38 109.75 95.21 110.34 103.31 85.36 101.25 110.65 95.39 101.69 Wr 115.78 99.53 110.08 105.83 111.24 108.49 I 3R At Intake, Right Bank 1 2 3 4 5 169 204 207 210 147 112 172 199 200 70 Location Average 4L Discharge Area, Left Bank No. TL(mm) Wgt(gm)Wr 1 2 3 4 5 6 110 121 150 166 100 182 23 38 74 81 20 116 89.35 110.04 110.49 88.49 104.24 95.42 99.67 Location Average No. TL(mm)SR Near Field Recorvery, Right Bank 1 2 3 4 5 6 7 126 133 137 137 143 146 186 Wgt (gin)45 53 50 54 57 62 154 Wr 115.02 114.67 98.73 106.63 98.62 100.62 118.47 ii II¶1 I I I?1 I I I Location Average 107.54 6L Far Field Recovery, Left Bank No. TL (mm) Wgt (jm)1 2 3 4 C-6 128 139 100 141 52 61 21 58 Wr 126.61 115.19 109.45 104.81 TABLE C-1 (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.ROCK BASS Alpha = -4.883 Beta = 3.083 Minimum Length -100 6L Far Field Recovery, Left Bank No. TL(mm) Wgt(gm)Wr Location Average 114.01 6R Far Field Recovery, Right Bank No. TL(mm) Wgt(gm)1 142 59 2 140 51 Wr 104.32 94.20 Location Average TAXON AVERAGE 99.26 106.35 ...*BLUEGILL SUNFISH Alpha = -5.374 Beta -3.316 Minimum Length = 80 2 Horse Creek No.1 2 3 4 5 6 TL(mm)179 82 103 120 141 168 Wgt (gm)138 11 21 37 70 110 Wr 110.51 117.27 105.11 111.59 123.68 108.71 112.81 Wr 99.58 74.63 95.95 75.71 78.82 3L At Intake, Left Bank Location Average No. TL(mm)1 136 2 82 3 82 4 85 5 109 Location Average No. TL(mm)1 95 2 90 Wgt (gm)50 7 9 8 19 84.94 4L Discharge Area, Left Bank Wgt (gm)9 Wr 71.99 70.47 Location Average 71.23 4R Discharge Area, Right Bank No. TL(mm)1 147 2 124 3 132 C-7 Wgt (gm)91 32 62 Wr 140.03 86.57 136.32 TABLE C-1 (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.]I I BLUEGILL SUNFISH Alpha --5.374 Beta -3.316 Minimum Length -80 4R Discharge Area, Right Bank No. TL(mm)4 157 S 159 6 184 Location Average Wgt (gin)143 82 168 Wr 176.90 97.27 122.79 126.65 Wr 112.36 I 5L Near Field Recovery, Left Bank No. TL(mm) Wgt(gm)1 93 16 Location Average 112.36 I J I I ii 6L Far Field Recovery, Left Bank No. TL(em)1 87 2 116 3 134 4 107 Wgt (gm)14 33 57 28 Wr 122.65 111.37 119.23 123.52 6R Far Field Recovery, Right Bank Location Average No. TL(mm)1 164 Location Average TAXON AVERAGE Wgt (gin)112 119.19 ,r I 119.89*...* 108.52 -- II GREEN SUNFISH Alpha --4.814 Beta -3.056 Minimum Length -80 IL Above Intake, Left Bank No. TL(mm) Wgt(gm)1 84 12 Wr 102.94 Location Average 102.94 I I I I.1 IR Above Intake, Right Bank NO.1 2 3 TL (mm)80 81 107 Wgt (gin)9 8 21 Wr 89.62 76.69 85.98 Location Average C-8 84.10 I TABLE C-1 (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER U AND HORSE CREEK, AUGUST 2010.GREEN SUNFISH Alpha --4.814 Beta -3.056 Minimum Length = 80 2 Horse Creek No. TL(mm) Wgt(gm)1 110 28 2 93 19 3 100 20 4 171 106 Wr 105.36 119.42 100.70 103.58 Location Average 107.26 3L At Intake, Left Bank No. TL(mm) Wgt(gm) Wr 1 110 22 82.78 Location Average 82.78 3R At Intake, Right Bank No. TLhmm) Wgt(gm)1 114 40 2 105 30 Wr 134.95 130.13 132.54 Wr 96.74 Location Average SR Near Field Recorvery, Right Bank No. TL(mnm) Wgt(gm)1 88 13 Location Average 96.74 6L Far Field Recovery, Left Bank No. TL(mm) Wgt (gm)1 93 19 2 107 28 Wr 119.42 114.65 117.03 Wr 87.81 Location Average 6R Far Field Recovery, Right Bank No. TL(mm) Wgt(gm)1 86 11 Location Average TAXON AVERAGE 87.81.*.* 103.38 * ...LARGEMOUTH BASS 2 Horse Creek Alpha --5.528 Beta -3.273 Minimum Length = 150 No. TL(mm) Wgt(gm) Wr 1 176 80 120.65 2 187 69 85.33 C-9 TABLE C-1 (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.LARGEMOUTH BASS Alpha --5.528 Beta -3.273 Minimum Length -150 I I I I I 2 Horse Creek No.3 4 5 6 TL (mm)203 181 193 382 Wgt (gm)122 63 105 881 Wr 115.33 86.69 117.10 105.17 105.04 Location Average 3L At Intake, Left Bank No. TLi(mm)1 323 2 374 Wgt (gin)426 836 Wr I 88.06 106.95 97,51.Location Average 3R At Intake, Right Bank No. TL(mm)1 199 2 474 3 314 4 341 5 374 Wgt (gm)102 1700 436 610 992 Location Average 4R Discharge Area, Right Bank No.1 2 3 TL (mm)179 355 162 Wgt (gin)98 819 60 Mr 102.91 100.14 98.86 105.59 126.91 106.88 Wr 139.84 124.28 118.69 127.60 Wr 121.08 S I Location Average]I'I SR Near Field Recorvery, Right Bank No. TL (mm)1 165 Wgt (gin)65 Location Average 6L Far Field Recovery, Left Bank No. TL(mm)1 364 Wgt (gin)871.121.08 Wr .121.77 Location Average 121.77 ii 6R Far Field Recovery, Right Bank No. TL (mm)1 163 wgt (gin)59 Wr 114.38 Location Average C-10 114.38 il

'I TABLE C- I (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.LARGEMOUTH BASS A1l 6R Far Field Recovery, Right Bank pha --5.528 Beta -3.273 Minimum Length -150 No. TL(mm) Wgt(gm)Wr TAXON AVERAGE*** 110.51 *-*SMALLMOUTH BASS Alpha = -4.983 Beta = 3.055 Minimum Length = 180 IL Above Intake, Left Bank No. TL(mm) Wgt(gm)1 287 358 2 300 381 3 363 624 4 392 1002 Wr 106.67 99.16 90.71 115.18 102.93 Wr Location Average IR Above Intake, Right Bank No. TL(mm) Wgt(gm)1 396 1000 111.44 Location Average 111.44 2 Horse Creek No. TL(mm) Wgt(gm)1 207 118 2 210 ill 3 284 346 4 434 963 5 289 336 6 352 504 Wr 95.41 85.89 106.46 81.11 98.02 80.49 Location Average 91.23 3L At Intake, Left Bank No. TL(mn) Wgt(gm)1 228 164 Wr 98.71 Location Average 98.71 3R At Intake, Right Bank No. TL (mm) Wgt (gm)1 2 3 4 5 6 7 228 142 296 359 349 624 270 261 275 274 318 462 340 561 Wr 85.47 97.34 102.29 93.72 93.02 100.63 99.61 C-I1 TABLE C- I (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.I.SMALI2OUTH BASS Alpha = -4.983 Beta = 3.055 Minimum Length -180 3R At Intake, Right Bank No. TL(mm) Wgt(gml 4L Discharge Area, Left Bank 4R Discharge Area, Right Bank Location Average No. TL(mm)1 268 Location Average NO. TL(mm)1 180 2 229 3 246 4 310 5 419 6 183 7 186 Wgt (gm)247 Wr 90.73 96.01 90.73 Wgt (gm)58 198 220 450 1050 82 98 Wr 71.87 117.59 104.98 105.95 98.47 96.61 109.87 I.1 I Location Average 100.76 SL Near Field Recovery, Left Bank No. TL(mm) Wgt(gm) Wr 1 290 354 102.18 Location Average 102.18 SR Near Field Recorvery, Right Bank No. TL(mm) Wgt(gm) Wr 1 213 138 102.25 Location Average 102.25 6L Far Field Recovery, Left Bank No. TL(mm) Wgt(gm)1 306 458 2 362 691 3 242 223 4 283 370 5 387 947 Wr 112.20 101.30 111.88 115.08 113.21 Location Average TAXON AVERAGE 110.73 I I'I j'I I]§1 I I*=.. 99.87 -.C-12 TABLE C-1 (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.BLACK CRAPPIE 3L At Intake, Left Bank Alpha = -5.618 Beta = 3.345 Minimum Length -100 No. TL(mm) Wgt(gm) Wr 1 154 48 95.94 Location Average TAXON AVERAGE 95.94 WALLEYE Alpha = -5.453 Beta = 3.: 2 Horse Creek No.2 3 4 5 6 7 8 9 TL (mm)150 155 159 160 151 171 193 276 586 Wgt**.* 95.94 *-*LBO Minimum Length = 150 (gm) Wr 20 68.24 32 98.38 36 102.06 32 88.93 34 113.59 46 103.47 57 87.26 173 84.91 1800 80.60 Location Average 91.94 3R At Intake, Right Bank No. TL(mm) Wgt(gm)1 152 30 2 157 25 3 159 32 Wr 98.14 73.79 90.72 Location Average 87.55 6L Far Field Recovery, Left Bank No. TL (mm)1 439 Wgt (gm)826 Wr 92.67 Location Average TAXON AVERAGE 92.67**== 90.98 * *FRESHWATER DRUM IR Above Intake, Right Bank Alpha --5.433 Beta = 3.208 Minimum Length = 100 No. TL(mm) Wgt(gm) Wr 1 454 1250 101.41 C-13 TABLE C-1 (Continued)

RELATIVE WEIGHTS OF FISH COLLECTED FROM THE KANKAKEE RIVER AND HORSE CREEK, AUGUST 2010.FRESHWATER DRUM Alpha --5.433 Beta -3.208 Minimum Length -100 IR Above Intake, Right Bank No. TLImm) Wgt(gm)Location Average Wr 101.41 Wr 104.33 2 Horse Creek No. TL(mm I 1 521 Wgt (gm)2000 Location Average 104.33 A1 3L At Intake, Left Bank No. TL(mm)1 526 Wgt (gin)1900 Wr 96.12 Location Average 96.12 3R At Intake, Right Hank No. TL(mm) Wgt(gm)I 1 351 Location Average 610 112.98 4R Discharge Area, Right Bank No. TL (mam)1 419 Wgt (gin)1050 112.98 Wr 110.19 Location Average 6L Far Field Recovery, Left Bank No.1 2 TL(mm)445 459 Wgt (gm)1300 1350 110.19 Wr 112.46 10S.74 109.10 I Location Average TAXON AVERAGE*..* 106.18 ***I I I]C-14