Banisteria, Number 49, pages 3-14 ©2017 Virginia Natural History Society Biotic Condition and Species Composition of the Fish Community of Big Moccasin Creek, Scott and Russell Counties, Virginia Michael J. Pinder Aquatic Operations Virginia Department of Game and Inland Fisheries 2206 South Main Street, Suite C Blacksburg, Virginia 24060 Charles F. Saylor Tennessee Valley Authority (Retired) 516 Vista Drive Clinton, Tennessee 37716 ABSTRACT We analyzed species composition and index of biotic integrity (IBI) of the fish assemblages of Big Moccasin Creek (BMC), Scott and Russell counties, Virginia. A total of 11,933 individuals representing 36 species was collected at 10 sites. Largescale Stoneroller (Campostoma oligolepis), Tennessee Shiner (Notropis leuciodus), and Warpaint Shiner (Luxilus coccogenis) were the most abundant species. Two previously known but rare species, Stonecat {Noturus flavus) and Blotchside Logperch (Percina burtoni), were found to be extant in the system. IBI scores ranged from 40 (fair) to 50 (good). With the exception of the uppermost station, the highest scores were found in the lower half of the creek. Our survey indicates that BMC is mostly in fair condition, which indicates a loss in species richness, skewed trophic structure, and lack of top carnivores. Additional restoration efforts need to be focused on this system to protect and restore its ecological health. Key words: fish assemblage, index of biotic integrity, endemic, Holston, restoration. INTRODUCTION could have served this purpose. BMC is known to contain 42 native and two introduced fish species As part of the Tennessee River Basin, the Holston (VDGIF FWIS, 2016). Additionally, it has one of the few River originates in southwestern Virginia from three populations of Stonecat (Noturus flavus) in the NFHR headwater tributaries - the North, Middle, and South drainage, and supports a relict population of Blotchside Forks. Among these, the North Fork Holston River Logperch (.Percina burtoni), a rare endemic darter. (NFHR) is the longest and historically supported the Index of biotic integrity (IBI) monitoring is a highest fish diversity with over 72 species. In the late 19th standard methodology to assess the environmental and early 20th centuries, industrial-related chemical spills quality of rivers and streams using structural and in the upper reaches resulted in catastrophic fish kills functional characteristics of the fish communities downstream (Jenkins & Burkhead, 1994). Although (Lyons, 1992). IBI can be used to assess long-term there are currently less than 64 fish species known from changes in the health of a river body because the NFHR in Virginia, this loss could have been even it is sensitive to water quality and physical habitat greater if it were not for larger tributaries that provided disturbances (Karr et al., 1986). It uses multiple metrics unpolluted refugia during these events (Jenkins & that reflect a range of relationships to environmental Burkhead, 1994). Of the few, large feeders within the factors. Each metric is scored 1-poor, 3-intermediate, or NFHR drainage, Big Moccasin Creek (BMC), a warm- 5-good depending on how it compares to a component of water stream that enters at the lower section of the river, a minimally-disturbed reference fish community within 4 BANISTERIA NO. 49, 2017 the same ecoregion and similar drainage area (Karr et al., dolomites, and shales in the lowlands and sandstones on 1986). Although no single metric can be used to the mountains. Land use is 54% forest, 37% agriculture, determine overall stream health, they can be used and 7% residential (Wickham et al., 2014). The individually to interpret and explain results (Plafkin et remaining 2% is open water and wetlands. Agriculture, al., 1989). The final score is determined by tallying all in the form of pasture and row crops, is mostly confined metrics to indicate the level of stream ecological health. to the valley and along the mainstem. Most of the The integrity classes include: 60-58 (Excellent), 52-48 mountainous regions are forested, while the residential (Good), 44-40 (Fair), 34-28 (Poor), and 22-12 (Very areas are concentrated in Gate City and Weber City, Poor). Scott County, in the lower 5 km of BMC. The Tennessee Valley Authority (TVA) has been monitoring streams and rivers using IBI techniques in the Fish Sampling Upper Tennessee drainage since the early 1990s (Matthews & Malone, 2016). Their IBI criteria are We sampled a total of 10 sites at base-flow developed by the Tennessee Department of Health and conditions between 14 July and 16 September 2009 Environmental Conservation [TDHEC] (1996), which (Fig. 1; Table 1). Sites were primarily selected to be an are specifically applicable to the Upper Tennessee River equal distance apart from each other between the mouth drainage. The results of TVA’s IBI assessment indicate and the headwaters. In order to collect representative fish BMC is an impaired system; however, this is based on diversity at each site, locations were adjusted to ensure sporadic and limited sampling. Between 1994 and 2007, the presence of multiple meso-habitats (i.e., pools, TVA sampled four sites of which only one was sampled riffles, and runs). Landowner permission was the final for more than two years. Their most consistently criterion for site selection. The average distance between sampled site was at river kilometer (RKm) 6.1, which sites was 9.4 km (± 0.85 SE). was visited in 1994, 1997, 2002, and 2007. Total We used standardized TVA methods for conducting IBI scores averaged 42 (fair), with a low of IBI fish sampling. For riffles and runs, we used a Smith- 38 (poor/fair) in 1997 and a high of 46 (fair/good) in Root gas-powered SR-24 backpack unit and seine net 2002. The lowest scored metrics during this period were (1.5 m x 3 m). Most sampling occurred 3 m upstream of related to a decrease in sunfish, suckers, and piscivores the seine net that was placed perpendicular to stream and an increase in omnivores. These low ratings may flow forming a 9 m2 quadrat. If needed, quadrat size was indicate impairment to the fish community due to adjusted and noted for smaller habitat areas. Quadrats sedimentation in the form of siltation and excessive were placed at the downstream end of the habitat unit and nutrients. Possible sources of these impairments in the subsequent quadrats were adjacent to or upstream of the BMC watershed include cattle production, forestry, and previous sample. No quadrat was sampled more than urban development. once and the number of quadrats sampled at any Our main objective was to use IBI methodology particular habitat unit was a function of its size. Once a to assess BMC by sampling multiple sites over habitat was completely covered, we would move one field season. The secondary objective was to provide upstream to find and sample the same habitat type. While a cursory examination of the fish distribution and turning over substrate to dislodge benthic species, fish composition of BMC. Information gathered would be were collected in a single pass that covered the entire useful as a baseline reference of stream health and for the quadrat. evaluation of future restoration efforts. The goal of the TVA sampling design was to maximize fish species richness by rigorously sampling MATERIALS AND METHODS all available habitats. Three quadrats were sampled in each habitat type. If an additional species was collected, Study Area we would reset our sampling effort to zero and three additional quadrats would be sampled in the same habitat BMC originates at Hansonville, Russell County, type. We would continue sampling using this technique Virginia, and flows southwest for 88 km between until no additional species were found in each habitat Moccasin Ridge to the north and Clinch Mountain to the type. Except for shoreline sampling, this method does south before emptying into the North Fork Holston River not have a predetermined distance but is extremely upstream of Weber City, Scott County, Virginia. The intensive ensuring most habitats and fish species are watershed area of BMC is 245.45 km2, which is represented in the sample. In all fish sampling techniques approximately 14% of the total NFHR basin. The entire (electrofishing, seine hauling, and shoreline), fish BMC watershed is within the Ridge and Valley species were identified, counted, and recorded before Physiographic Province and is comprised of limestone, being released downstream of each quadrat. Fish were PINDER & SAYLOR: BIG MOCCASIN CREEK FISHES 5 Fig. 1. Fish sampling sites on Big Moccasin Creek, Scott and Russell counties, Virginia. also noted for disease, parasites, and hybridization. person electroshocking and another with a dip net As a result of capture inefficacy and difficulty moving in an upstream direction to avoid turbidity in identification, fish less than 20 mm were caused by disturbing the stream bottom. Two 46 m considered young of year and were not recorded (Karr et sections were sampled at each site. An additional 46 m al., 1986). reach was sampled if a new species was captured at Seine hauling was used to sample low velocity the site. Voucher specimens are housed at the TVA habitats such as pools, deep runs, and backwaters. ichthyological facility, Norris, TN. The area of each quadrat sampled was determined by the length of the seine net and the distance it was hauled. Biotic Condition Two individuals pulled an open seine (1.5 m x 3 m) while a third individual followed to free the seine net from The IBI is comprised of 12 metrics that are used to obstacles (i.e., logs, rocks, etc.). Each haul was reflect fish community structure and function including terminated by beaching the seine net on shore or by native species richness, taxonomic composition, trophic curling the ends and rapidly lifting it midstream. structure, pollution tolerance, abundance, and condition Shoreline sampling, which often overlapped the (Table 2). Most metrics are scored based on their other three habitats, was conducted last. The sample species/drainage area relationship (Plafkin et al., 1989). effort for shoreline sampling was 1 m from the bank edge The native status and ecological information detailed in for a distance of 46 m at each site. The beginning point Table 3 is derived from Pflieger (1975), Smith (1979), typically started near the lowermost sampled habitat. Lee et al. (1980), Etnier & Starnes (1993), and Jenkins Shoreline sampling consisted of a minimum of one & Burkhead (1994). 6 BANISTERIA NO. 49, 2017 Table 1. Sampling sites on Big Moccasin Creek, Scott and Russell counties, Virginia. River Km above Basin Site confluence County Quadrangle Sample date Coordinates area (km2) 1 0.64 Scott Kingsport 14 July 2009 36.6111 243.46 -82.5497 2 7.08 Scott Gate City 14 July 2009 36.6476 206.16 -82.5532 3 15.93 Scott Gate City 15 July 2009 36.6814 191.14 -82.5231 4 30.58 Scott Hilton 15 July 2009 36.6926 160.32 -82.4605 5 40.55 Scott Hilton 16 July 2009 36.7090 148.41 -82.4172 6 48.76 Scott Hilton 14 Sept 2009 36.7136 135.71 -82.3791 7 58.74 Russell Mendota 14 Sept 2009 36.7376 108.52 -82.3230 8 68.72 Russell Moll Creek 15 Sept 2009 36.7595 90.13 -82.2723 9 79.50 Russell Hansonville 15 Sept 2009 36.7870 68.89 -82.2118 10 85.29 Russell Hansonville 16 Sept 2009 36.7930 30.04 -82.1766 Table 2. Metrics used in calculating Index of Biotic Integrity for sampling sites on Big Moccasin Creek, Scott and Russell counties, Virginia are based on those developed by Karr (1981) and modified by the Tennessee Department of Health and Environmental Conservation (1996) for the Tennessee River drainage. Scoring criteria for each sampling site is as a function of its drainage area. Score Metric Site 1 3 5 Number of native fish species 1 <15 15-28 >28 2 <14 14-27 >27 3 14 14-26 >26 4-5 <13 13-25 >25 6 <13 13-24 >24 7 <12 12-23 >23 8 <12 12-22 >22 9 <11 11-20 >20 10 <9 9-16 >16 Number of native darter species 1-3 <3 3-4 >4 4-5 <2 2-4 >4 6-9 <2 2-3 >3 10 <2 2 >2 Number of native sunfish species (less Micropterus spp.) All <2 2 >2 Number of native sucker species All <2 2 >2 Number of intolerant species 1-7 <2 2-3 >3 8-10 <2 2 >2 PINDER & SAYLOR: BIG MOCCASIN CREEK FISHES 7 Table 2 (continued). Score Metric Site 1 3 5 Percentage of tolerant species 1 >27 27-13 <13 2 >27 27-14 <14 3 >28 28-14 <14 4-5 >29 29-14 <14 6 >29 29-15 <15 7 >30 30-15 <15 8 >31 31-16 <16 9 >32 32-16 <16 10 >36 36-18 <18 Percentage of individuals as omnivores and stonerollers 1 >30 30-15 <15 2 >31 31-16 <16 3 >32 32-16 <16 4 >33 33-16 <16 5 >33 33-17 <17 6 >34 34-18 <18 7 >35 35-18 <18 8 >37 37-18 <18 9 >39 39-19 <19 10 >44 44-22 <22 Percentage of individuals as specialized insectivores 1 <25 25-50 >50 2 <24 24-48 >48 3 24 24-47 47 4 23 23-46 46 5 <23 23-45 >45 6 <22 22-43 >43 7 <21 21-42 >42 8 <20 20-41 >41 9 <19 19-39 >39 10 <16 16-31 >31 Percentage of individuals as piscivores All <2 2-4 >4 Percentage of individuals as hybrids All >1 1-0 <0 Percentage of individual species with disease, tumors, All >5 5-2 <2 fin damage, and other anomalies Catch rate (average number of fish/300 ft2 [28.7 m2]) 1 <15 15-29 >29 sampling unit 2 <15 15-31 >31 3 <16 16-31 >31 4 <16 16-33 >33 5 <17 17-33 >33 6 <18 18-36 >36 7 <18 18-36 >36 8 <19 19-38 >38 9 <21 21-41 >41 10 <26 26-52 >52 BANISTERIA NO. 49, 2017 Table 3. Fish species collected in Big Moccasin Creek, Scott and Russell counties, Virginia, with designations for native status, trophic guild, family group, and pollution tolerance for the Tennessee River drainage. Native status and ecological information are presented by Pflieger (1975), Smith (1979), Lee et al. (1980), Etnier & Starnes (1993), and Jenkins & Burkhead (1994). Scientific name_Native Trophic guild_Family group_Tolerance Rhynichthys obtusus Yes Specialized Insectivore Cyprinidae Campostoma oligolepis Yes Herbivore Cyprinidae —- Nocomis micropogon Yes Omnivore Cyprinidae —- Phenocobius uranops Yes Specialized Insectivore Cyprinidae Hybopsis amblops Yes Specialized Insectivore Cyprinidae Intolerant Cyprinella galactura Yes Insectivore Cyprinidae Cyprinella spiloptera Yes Insectivore Cyprinidae Tolerant Luxilus coccogenis Yes Specialized Insectivore Cyprinidae Intolerant Luxilus chrysocephalus Yes Omnivore Cyprinidae Tolerant Notropis micropteryx Yes Specialized Insectivore Cyprinidae Notropis leuciodus Yes Specialized Insectivore Cyprinidae Intolerant Notropis photogenis Yes Specialized Insectivore Cyprinidae Notropis telescopus Yes Specialized Insectivore Cyprinidae Intolerant Notropis volucellus Yes Specialized Insectivore Cyprinidae — Notropis sp. Yes Specialized Insectivore Cyprinidae — Pimephales notatus Yes Omnivore Cyprinidae — Hypentelium nigricans Yes Insectivore Catostomidae Intolerant Catostomus commersoni Yes Omnivore Catostomidae Tolerant Moxostoma duquesnei Yes Insectivore Catostomidae Intolerant Moxostoma ery thru rum Yes Insectivore Catostomidae — Ameiurus natalis Yes Omnivore Ictaluridae Tolerant Noturus flavus Yes Insectivore Ictaluridae — Cottus baileyi Yes Insectivore Cottidae — Cottus carolinae Yes Insectivore Cottidae — Ambloplites rupestris Yes Piscivore Centrarchidae Intolerant Micropterus dolomieu Yes Piscivore Centrarchidae MIcropterus salmoides Yes Piscivore Centrarchidae Lepomis auritus No Insectivore Centrarchidae —- Lepomis megalotis Yes Insectivore Centrarchidae ____ Lepomis macrochirus Yes Insectivore Centrarchidae —- Percina burtoni Yes Specialized Insectivore Percidae Etheostoma simoterum Yes Specialized Insectivore Percidae — Etheostoma blennioides Yes Specialized Insectivore Percidae Etheostoma zonale Yes Specialized Insectivore Percidae Etheostoma rufilineatum Yes Specialized Insectivore Percidae Etheostoma flabellare Yes Specialized Insectivore Percidae Intolerant Species richness and composition metrics includes and toxins (Karr et al., 1986). In streams impacted by number of darter, sunfish, sucker, and intolerant species chemical and physical degradation, darter, sunfish, and percentage of tolerant species. Darter and sucker sucker, and intolerant species will decrease in number. species are sensitive to degradation in benthic habitats In contrast, tolerant species, such as Green Sunfish where they feed and spawn. Similarly, sunfish are (Lepomis cyanellus) and Creek Chub (Semotilus sensitive to impacts in pools and the lack of instream atromaculatus), will increase and can become dominant cover (Karr et al., 1986). Tolerance is related to a in disturbed systems (Plafkin et al., 1989). species’ susceptibility to siltation, low dissolved oxygen, Trophic structure is based on adult feeding patterns PINDER & SAYLOR: BIG MOCCASIN CREEK FISHES 9 such as herbivores, omnivores, insectivores, and (1986) “Number of individuals in a sample” is used piscivores (Karr et al., 1986). The TDHEC (1996) metric to evaluate population abundance. The TDHEC (1996) “Percentage of individuals as omnivores and metric uses number of fish/300 ft2 or 28.7 m2. Depending stonerollers” is a variation from Karr et al. (1986) that on the region and stream size, density of individuals is uses “Proportion of individuals as omnivores.” Owing to expected to decline as integrity decreases (Plafkin et al., their varied diet of plants and animals, omnivores are 1989). tolerant to changes in their food base caused by Fish condition metrics are determined by individuals environmental degradation (Lyons, 1992). Stonerollers that are hybrids and those with disease and other (Campostoma spp.) are primarily herbivores feeding on anomalies within the fish community. Karr et al. (1989) algae and sometimes detritus (Jenkins & Burkhead, indicate that hybridization can increase in degraded 1994). A disproportionately high abundance of stone¬ systems, a result of altered reproductive isolation among rollers in the fish community can be an indicator of species. Hybrids can be difficult to detect, especially for elevated algae growth caused by increased nutrients in a minnows and darters (Karr et al., 1986). Fish exhibiting system (TDHEC, 1996). The TDHEC (1996) metric an excessive amount of diseases, parasites, fin damage, “Percentage of individuals as specialized insectivores” is and other anomalies can be indicative of environmental a variation from the Karr et al. (1986) metric “Proportion degradation. The most frequent and easily observed of individuals as insectivorous cyprinids.” Specialized parasite in these systems is a trematode (Neascus sp.) insectivores, including both cyprinids and darters, infection that appears as black spots on the fins and body respond negatively to a decrease in their invertebrate (Post, 1987). TVA IBI assessment protocols require food sources because of habitat degradation (Plafkin more than five spots on an individual fish to have a et al., 1989). The “Percentage of individuals as disease diagnosis (TDHEC, 1996). piscivores” metric represents top carnivores that feed on Fish data from each site are pooled and entered fish and crayfish (Karr et al., 1986). These species will separately into S survey, a TVA developed software decline as habitat degrades, which in turn impacts their program. Final data are provided in an Excel Microsoft food source. spreadsheet. Descriptions of each IBI ranking class are The “Catch rate” metric or as defined by Karr et al. detailed in Table 4. Table 4. Biotic integrity classes used in assessing fish communities along with general descriptions of their attributes (Karr et al., 1986). Class Attributes IBI Range Excellent Comparable to the best situations without influence of man; all regionally 58-60 expected species for the habitat and stream size, including the most intolerant forms, are present with full array of age and sex classes; balanced trophic stmcture. Good Species richness somewhat below expectation, especially due to loss of most 48-52 intolerant forms; some species with less than optimal abundances or size distribution; trophic structure shows some signs of stress. Fair Signs of additional deterioration include fewer intolerant forms, more skewed trophic 40-44 stmcture (e.g., increasing frequency of omnivores); older age classes of top predators may be rare. Poor Dominated by omnivores, pollution-tolerant forms, and habitat generalists; few top 28-34 carnivores; growth rates and condition factors commonly depressed; hybrids and diseased fish often present. Very Poor Few fish present, mostly introduced or tolerant forms; hybrids common; disease, 12-22 parasites, fin damage, and other anomalies regular. No fish Repetitive sampling fails to turn up any fish. 10 BANISTERIA NO. 49, 2017 RESULTS as piscivores,” and “Percentage of individuals with disease, tumors, fin damage, and Species Composition and Distribution other anomalies.” There were no differences in “Number of intolerant species” and “Percentage of A total of 11,933 specimens representing 36 species individuals as specialized insectivores” between sites of six families was captured (Table 5). The most that scored “good” and “fair.” Only a minimal difference dominant families were Cyprinidae and Percidae with 16 was found between these categories for “Number of and six species, respectively. The three most abundant darter species.” species were Largescale Stoneroller {Campo stoma oligolepis), Tennessee Shiner (Notropis leucoidus), and DISCUSSION Warpaint Shiner (Luxilius coccogenis). The rarest species (three individuals or less) were Stargazing BMC is mostly in fair condition, which indicates loss Minnow (Phenocobius uranops). Mimic Shiner in species richness, skewed trophic structure, and lack of {Notropis volucellus). Golden Redhorse {Moxostoma top predators (Lyons, 1992). Throughout the creek, erythrurum), Stonecat (Noturus flavus), Longear Sunfish omnivores and stonerollers comprised over 45% of the (Lepomis megalotis), Bluegill (L. macrochirus), and total fish collected indicating a possible impairment to Blotchside Logperch {Percina burtoni). All species were the food base allowing species to flourish that can live native except Redbreast Sunfish (L. auritus). on broad diets (Lyons, 1992). Stonerollers alone The average number of species per site was 20.8 comprised 32% of the total fish collected and their high (range 18-26). Many species were found only at the abundance may be a result of elevated algal growth, a lowermost station, including Stargazing Minnow, primary diet component (Jenkins & Burkhead, 1994). Spotfin Shiner {Cyprinella splioptera), Highland Shiner Cattle production is the dominant agricultural use in the {Notropis micropteryx), Sawfin Shiner {Notropis sp.), BMC watershed, and is therefore the most likely source Silver Shiner {Notropis photogenis), and Longear of the nitrogen and phosphorus that contributes to algal Sunfish. The greatest abundance was recorded at growth. The other widespread indicator of stress was the Site 8, which was dominated (50%) by Largescale lack of native sunfish species - a possible result of Stoneroller. degraded pool habitat and insufficient instream cover (Karr et al., 1986). Biotic Condition Biotic integrity generally decreased from the lower to upper reaches of BMC. The most obvious indicators Metric scores and integrity class for each site are of impairment in the upper reaches were the loss detailed in Table 6. The most frequent metric scores for of suckers and piscivores. Many sucker species are all sites was “5” (N=65), followed by “3” (N=35) and long-lived and their absence may be indicative of “1” (N=20). The total scores of individual metrics across chronic chemical and physical habitat degradation all sites ranged from 14 to 50. The highest score of 50 (Karr et al., 1986). Piscivores are considered top was shared by “Percentage of tolerant species” and predators, and thus require a trophically-robust, diverse “Percentage of individuals as hybrids”, which scored “5” fish community to sustain their populations (Karr et al., at all sites. The two lowest scores were “Number of 1986). If this food base is stressed, piscivore numbers native sunfish species” at 14 and “Percentage of will diminish as observed in BMC. Lastly, disease and individuals as omnivores and stonerollers” at 18. All other anomalies are more prevalent in the upper portions other metrics ranged between 30 and 46. of BMC providing further evidence of an impaired IBI site scores averaged 45 (range 40-50). Of the 10 system. sites sampled, five were ranked “fair” and five as While BMC does show signs of stress, the system “good.” The “good” sites averaged 48.4 (range 48-50), is also resilient. In particular, intolerant, specialized while “fair” sites averaged 41.6 (range 40-46). Pour insectivores, and darter species had metric scores that of the five sites that ranked “good” were located in indicate they are in good condition. All three metrics the lower half of BMC. In contrast, all except one “fair” include species that are highly sensitive to poor water site were located in the upper half. The metric scores of quality and increases in siltation and turbidity (Karr “5”, “3” and “1” were distributed 37, 16, and 7 for et al., 1986). Specialized insectivores, which include “good” sites and 27, 20, and 13 for “fair” sites, darters, are indirectly affected by impacts to their food respectively. base by the same perturbations (Robertson et al., 2006). In comparing individual metrics between the “good” The continued presence of these sensitive species may and “fair” sites, “good” sites had higher scores for indicate that the degraded conditions in BMC are not “Number of sucker species,” “Percentage of individuals beyond recovery. PINDER & SAYLOR: BIG MOCCASIN CREEK FISHES 11 Table 5. Distribution and abundance of fishes collected in Big Moccasin Creek, Scott and Russell counties, Virginia. Nomenclature follows Page et al. (2013). Site Common name Scientific name 1 2 3 4 5 6 7 8 9 10 Total W. Blacknose Dace Rhynichthys obtusus 2 14 48 64 Largescale Stoneroller Campostoma oligolepis 147 19 46 280 225 300 748 814 111 469 3825 River Chub Nocomis micropogon 12 12 59 38 65 70 44 53 32 3 388 Stargazing Minnow Phenocobius uranops 3 - - - - - - - - - 3 Bigeye Chub Hybopsis amblops - - - 2 5 11 33 4 41 1 97 Whitetail Shiner Cyprinella galactura 21 11 55 38 36 69 23 28 4 29 314 Spotfin Shiner Cyprinella spiloptera 28 - - - - - - - - - 28 Warpaint Shiner Luxilus coccogenis 60 124 186 89 177 152 105 94 60 5 1052 Striped Shiner Luxilus chrysocephalus 47 23 40 157 121 144 93 55 176 135 991 Highland Shiner Notropis micropteryx 10 - - - - - - - - - 10 Tennessee Shiner Notropis leuciodus 89 178 173 169 170 271 146 139 273 5 1613 Silver Shiner Notropis photogenis 5 - - - - - - - - - 5 Telescope Shiner Notropis telescopus 81 82 42 82 59 162 38 155 147 35 883 Mimic Shiner Notropis volucellus 1 1 - - - - - - - - 2 Sawfin Shiner Notropis sp. 22 - - - - - - - - - 22 Bluntnose Minnnow Pimephales notatus - - - 37 5 7 4 11 21 119 204 Northern Hogsucker Hypentelium nigricans 10 4 3 34 31 28 31 24 22 1 188 Black Redhorse Moxostoma duquesnei 1 2 5 6 14 23 4 1 - 5 61 Golden Redhorse Moxostoma erythrurum - 1 - - - - - - - - 1 White Sucker Catostomus commersoni - - - 1 - - - - - 6 7 Yellow Bullhead Ameiurus natalis - - 2 1 - 1 - 1 1 2 8 Stonecat Noturus flavus - - 3 - - - - - - - 3 Black Sculpin Cottus baileyi - - - - 124 - 20 63 106 37 350 Banded Sculpin Cottus carolinae 18 35 41 8 - - - - - - 102 Rock Bass Ambloplites rupestris 19 16 9 59 36 18 6 17 45 18 243 Smallmouth Bass Micropterus dolomieu 9 8 12 4 5 8 6 11 6 3 72 Largemouth Bass Micropterus salmoides - - - 1 - - - - - 3 4 Redbreast Sunfish Lepomis auritus 16 2 4 15 6 18 2 - - 34 97 Longear Sunfish Lepomis megalotis 1 - - - - - - - - - 1 Bluegill Lepomis macrochirus 2 - - - - 1 - - - - 3 Blotchside Logperch Percina burtoni - 1 - - 2 - - - - - 3 Snubnose Darter Etheostoma simoterum 5 3 3 16 34 1 23 27 124 52 288 Greenside Darter Etheostoma blennioides 15 13 3 28 38 3 21 4 7 - 132 Banded Darter Etheostoma zonale 3 - - 6 9 - 4 - - - 22 Redline Darter Etheostoma rufilineatum 40 18 27 74 83 50 48 45 21 15 421 Fantail Darter Etheostoma flabellare 1 - - 18 41 3 28 69 97 172 429 Number of Specimens 666 553 713 1163 1286 1342 1427 1615 1971 1197 11933 Species Richness 26 19 18 23 21 21 20 19 19 22 36 12 BANISTERIA NO. 49, 2017 Table 6. Index of biotic integrity scores on sites sampled on Big Moccasin Creek, Scott and Russell counties, Virginia. Metrics are based on those developed by Karr (1981) and modified by the Tennessee Department of Health and Environmental Conservation (1996) for the Tennessee River Drainage. Site Metrics 1 2 3 4 5 6 7 8 9 10 Number of native species 3 3 3 3 3 3 3 3 3 5 Number of darter species 5 3 3 5 5 3 5 5 5 5 Number of native sunfish species 5 1 1 1 1 3 1 1 1 1 (less Micropterus spp.) Number of sucker species 3 5 3 5 3 3 3 3 1 5 Number of intolerant species 5 3 3 5 5 5 5 5 5 5 Percentage of tolerant species 5 5 5 5 5 5 5 5 5 5 Percentage of individuals 1 5 3 1 3 1 1 1 1 1 as omnivores and stonerollers Percentage of individuals 5 5 5 3 5 5 3 3 5 3 as specialized insectivores Percentage of individuals 5 5 3 5 3 1 1 1 3 3 as piscivores Percentage of individuals 5 5 5 5 5 5 5 5 5 5 as hybrids Percentage of individuals with 5 5 5 5 5 5 3 5 1 5 disease, tumors, fin damage, and other anomalies Catch rate 3 3 3 5 5 5 5 5 5 5 IBI total score 50 48 42 48 48 44 40 42 40 48 Integrity class Good Good Fair Good Good Fair Fair Fair Fair Good One of the most useful aspects of the IBI method demonstrate a slight improvement, but during TVA is its ability to determine trends (Karr et al., 1986). sampling at their Slabtown site in 2012 the score dropped Unfortunately, none of our sampling sites were located to 42 (fair), and in 2017 declined to 40 (fair) (J.M. exactly at the sites selected by TVA for long-term Mollish, TVA pers. comm.), which could indicate that monitoring. The closest would be their site at RKm 6.1 ecological health in this system continues to degrade. (Slabtown), which was one kilometer downstream of our BMC continues to contain a rich diversity of site 2. TVA has monitored this site four times between freshwater fish species despite demonstrating signs of 1994 and 2007. Their scores have ranged from 38 impairment. Our survey confirmed that 36 of the 42 (poor/fair) in 1997 to 46 (fair/good) in 2007 (Matthews species previously collected in BMC are still present & Malone, 2016). Our score of 48 (good) may (Angermeier & Smoger, 1993; Jenkins & Burkhead,