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Home My WebLink AboutNC0024406_Report_20190716(� DUKE ENERGY July 8, 2019 Certified Mail # 7015 0640 0006 5098 8218 (1 copy) Sergei Chernikov North Carolina Division of Water Resources WQ Permitting Section — NPDES 1617 Mail Service Center Raleigh, NC 27699-1617 Belews Creek Steam Station 3195 Pine Hall Rd Belews Creek, NC 27009 RECEIVED/NCDEQ/DWR JUL 1 61019 Water Quality Permitting Section o: 336.445.0644 f: 336.445.0423 Subject: Belews Creek Steam Station Study Plan to Support a Clean Water Act §316(a) Demonstration — Final Dear Sergei Chernikov, On June 27, 2019, Ryan Fawcett, Scott Fletcher, and Maverick Raber of Duke Energy met with Jeff DeBerardinis of NCDEQ, via teleconference, to provide responses to NCDEQ and USEPA comments and discuss the study plan, in accordance with Part I, Condition A. (24.) of our National Pollutant Discharge Elimination System (NPDES) Permit No. NC0024406. Enclosed is the Final Study Plan to Support a Clean Water Act §316(a) Demonstration that incorporates comments based on that discussion. Duke Energy will conduct the one-year study during the 2020 calendar year, beginning January 1, 2020. If there are any questions, please contact either: Mr. Maverick Raber (Environmental Science Manager) 980.875.2021, maverick. raber@duke-energy.com Ms. Brenda Johnson (Belews Environmental Professional) 336.445.0634, Brenda.Johnson2@duke- enersy.com 1 certify, under penalty of law, that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties forsubmitting false information, including the possibility of fines and imprisonment for knowing violations. Reggie Anderson Station Manager STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION RECEIVED/ NCDEQ/ DWR JUL 16 'A19 Water Quality Permitting Section July 8, 2019 CODUKE ) ENERGY, STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION Contents 1 Introduction........................................................................................................................1 1.1 Background...............................................................................................................................1 1.2 Environmental Monitoring History.............................................................................................1 1.3 Thermal Permit History..............................................................................................................2 2 Purpose.............................................................................................................................2 3 Study Goals....................................................................................................................... 3 4 Study Plan.........................................................................................................................3 4.1 Thermal Analysis....................................................................................................................... 3 4.2 Limnology.................................................................................................................................. 4 4.3 Habitat Formers.........................................................................................................................4 4.4 Planktonic Communities............................................................................................................4 4.5 Benthic Macroinvertebrate Community.....................................................................................4 4.5.1 Mussel Community Survey........................................................................................... 4 4.6 Fish Community.........................................................................................................................5 4.6.1 Electrofishing................................................................................................................ 5 4.6.2 Gill Nets........................................................................................................................5 4.6.3 Analysis........................................................................................................................ 6 4.7 Other Vertebrate Wildlife...........................................................................................................6 4.8 Endangered Species................................................................................................................. 6 5 Reference Lake..................................................................................................................7 6 Data Management.............................................................................................................7 7 Study Timeline and Reporting............................................................................................ 8 8 References........................................................................................................................8 9 Figures and Tables..........................................................................................................10 Tables Table 1. Belews Creek Steam Station 316(a) Demonstration Study Plan Summary .................................11 Table 2. Belews Lake Water Quality and Water Chemistry Monitoring Variables......................................12 Table 3. Representative Important Species (RIS) in Belews Lake.............................................................12 Figures Figure 1. Belews Lake 316(a) study areas (labeled with bold letters and delineated with solid black lines) and sample locations..................................................................................................10 STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION 1 Introduction 1.1 Background Belews Creek Steam Station (BCSS) is a two -unit, coal-fired electric generating plant located in Stokes County, North Carolina, approximately 15 miles northeast of Winston-Salem. The station sits adjacent to Belews Lake, an impoundment of Belews Creek, West Belews Creek and East Belews Creek, part of the Dan River (Roanoke) watershed (Figure 1). The reservoir, impounded primarily to supply once -through condenser cooling water (CCW), first reached full pond in 1973 after the dam was completed in 1970. BCSS Unit 1 began commercial operation in August 1974 followed by Unit 2 operation in December 1975. Each 1,245.6-megawatt Unit is cooled by CCW pumped at a maximum rate of 33.1 m3/s (1,170 cubic feet per second [cfs]). Historically, BCSS has been operated as a baseload generating station. Belews Lake has a surface area of 15.63 km2 and is relatively deep for a piedmont reservoir (14.6 m mean depth). The watershed, however, is comparatively small (197 km2) with an average drainage flow of 2.8 m3/s (99 cfs). Low inflows, combined with evaporative loss from the station results in a long average retention time of 1,500 days. The shoreline is mostly steep, buffered primarily by undeveloped forest with sparse residential development. Much of the nutrient load from the watershed is sequestered in the upper reaches of Belews Lake. As a result, there is a productivity gradient from the upper Lake (Areas I, J and K) to the lower Lake (Areas B, C, D and E; Figure 1). 1.2 Environmental Monitoring History Duke Energy has performed or sponsored environmental monitoring on Belews Lake since dam construction was completed in 1970. The initial study, performed from 1970 — 1977, included three years prior to full pond being reached, one year at full pond before station operation, and three years after the station began operation (Weiss and Anderson 1978). This study evaluated water quality and chemistry, phytoplankton, zooplankton, and benthic macroinvertebrates. The North Carolina Wildlife Resource Commission (NCWRC) surveyed the Belews Lake fishery for sport fish potential during the same time period, from 1971-1978 (Van Horn 1978). By 1975, substantial declines in fish populations and recruitment became evident in lower Belews Lake, and it was determined that selenium loading from BCSS ash basin sluicing into the lake, exacerbated by the long retention time, was inhibiting fish reproduction (Harrell et al. 1978). Environmental studies were restructured to monitor effects of selenium on Belews Lake biota and water quality. These lake recovery sampling programs evolved over time and new sampling programs were created when BCSS redirected its regulated ash basin discharge to the Dan River in October 1985. Belews Lake biota began to recover once this redirection occurred (Duke Power Company 1996). Over the past several decades, environmental monitoring on Belews Lake has focused on water quality/chemistry, benthic macroinvertebrates, and fisheries. Water quality and water chemistry samples have been collected on at least a semi-annual basis since 1977. Annual cove rotenone surveys were performed from 1977 — 1994 to sample littoral fish populations (Duke Power Company 1996). Semi-annual or annual electrofishing surveys began in 1983 and STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION continue through the present. From 1991-2016, benthic macroinvertebrate community samples were collected. Starting in 1996, lake environmental data were submitted to North Carolina Department of Environmental Quality (NCDEQ) during each National Pollutant Discharge Elimination System (NPDES) permit cycle. The NCWRC has also conducted several fisheries surveys and research projects on Belews Lake over the years (Hining 2003, 2005a, 2005b; Hodges 2012). 1.3 Thermal Permit History BCSS operates under NPDES permit no. NC0024406. The initial permit was issued by the State of North Carolina in 1970 prior to development of the Clean Water Act (CWA) and associated §316(a) requirements for a thermal variance. The initial permit granted BCSS a temperature variance that stated daily average ambient water temperatures shall not exceed 320C at the dam discharge as a result of BCSS operations. North Carolina's Division of Water Resources (DWR) issued BCSS a new NPDES permit in 2012, and stated in Section A. (15.), "The thermal variance granted by the State of North Carolina terminates on expiration of the NPDES permit. Should the permittee wish a continuation of its thermal variance beyond the term of this permit, reapplication for such continuation shall be submitted in accordance with 40 CFR Part 125, Subpart H and Section 122.21 (1)(6)... The temperature analysis and the balanced and indigenous study plan shall conform to the specifications outlined in 40 CFR Part 125 Subpart H and the Environmental Protection Agency's (EPA) draft 316a Guidance Manual, dated 1977." Upon review of the 2011-2015 BCSS 316(a) report submitted to the State in 2016, North Carolina Department of Environment and Natural Resources (NCDENR) commented that the report did not satisfy the 2012 permit requirements specified in Section A. (15.). To address these comments and continue operating under a thermal variance, the new 2019 NPDES five- year permit for BCSS requests in Section A. (24.) a 1-year comprehensive 316(a) Demonstration study, performed in accordance to specifications in 40 CFR Part 125 Subpart H and the EPA's 1977 draft 316(a) Guidance Manual. 2 Purpose In accordance with NPDES permit no. NC0024406, Section A. (24.), Duke Energy will conduct an initial, comprehensive one-year Demonstration study on Belews Lake to support a request for a thermal variance for BCSS under §316(a) of the CWA. The purpose of this Study Plan is to describe the thermal analysis as well as the biological sampling required that will give Duke Energy the opportunity to apply for and acquire an alternative effluent thermal limitation. STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION 3 Study Goals The two primary goals of this 316(a) study are to: 1. Perform a thermal analysis of Belews Lake and 2. Demonstrate the protection and propagation of a balanced, indigenous community (BIC) in Belews Lake through biological surveys. Data collected during this study will be evaluated against four primary BIC criteria defined in 40 CFR 125.71. The four criteria state that BICs are biotic communities typically characterized by: a. Having diversity and representative trophic levels within expectations, b. The ability to self -sustain through successful reproduction and recruitment over seasonal changes, c. Having adequate food items, and d. A lack of domination by pollution tolerant species. Representative Important Species (RIS) have been chosen and will be used as part of the assessment due to numerous species being present in Belews Lake. The RIS will be used to indicate a BIC exists within Belews Lake. The NCWRC and the NCDEQ support the species selected as RIS (Kin Hodges, personal communication, June 29, 2018 and Jeff DeBerardinis, personal communication, April 8, 2019). 4 Study Plan The following describes the study components of the proposed Belews Lake 316(a) Demonstration study. Table 1 displays the different sampling programs, locations and frequencies for the year -long study period. 4.1 Thermal Analysis A rigorous temperature sampling program in Belews Lake was conducted in 2017 (January — December) in anticipation of the upcoming temperature analysis requirement within the 316(a) Demonstration. Monthly water quality profiles (measurements from surface to bottom at 1 m intervals) were collected at twelve locations in Belews Lake, along with continuous in situ temperature profile loggers at five of the locations (Figure 1). These continuous loggers recorded temperature hourly and were deployed from the surface down to 20 m (or lake bottom, whichever was less) at 2 m intervals, with the exception of location 416.0 near the dam. Continuous loggers were deployed deeper (down to lake bottom, 36 m) at 416.0 to document thermal stratification formation during summer and subsequent mixing in autumn. Monthly profile data and hourly temperature data collected from the continuous loggers, along with historical profile data and hourly BCSS intake and discharge temperatures (provided STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION through internal Duke Energy sources) will provide the data required to perform a thermal analysis of Belews Lake. Vertical profiles, time -series graphs, surface/transect contour graphs, thermal plume extent (i.e., ambient boundary), degree of stratification, intake temperature and other potential parameters may be used to display different seasonal conditions in the lake. Species -specific heat -tolerance data can be overlaid with these displays (e.g., surface and cross -sectional avoidance areas by species), which will help determine if any fish migrations barriers may exist related to the thermal discharge. Spatial analysis of the surface thermal plume in Belews Lake during winter and summer worst - case scenarios will be produced from archived satellite imagery. Satelytics Inc. will provide these images from Landsat 7 Band 6 (thermal; = 10.4-12.5 µm) satellites. Thermal resolution will be reported at 1 °C. 4.2 Limnology Data from Duke Energy's existing in situ water quality and water chemistry monitoring program will be incorporated into the 316(a) Demonstration to address any potential water quality/chemistry interactions with the thermal effluent (e.g., dissolved oxygen, chlorophyll a, etc.) and how those interactions may affect the Lake's biotic community. A list of variables in the sampling program can be found in Table 2. 4.3 Habitat Formers One qualitative (presence/absence) habitat former (aquatic vegetation) survey will be conducted in the summer during the year -long comprehensive study. Presence and spatial distribution will be recorded for all visible aquatic vegetation species (submerged, floating and emergent). Observations will be mapped and overlaid with thermal plume displays to determine if aquatic vegetation distributions are influenced by the thermal discharge. 4.4 Planktonic Communities Phytoplankton and zooplankton are low potential impact (LPI) biotic categories. Narrative assessments of these components will be made and included within the framework of the Belews Lake BIC utilizing scientific literature and historical planktonic data collected from Belews Lake (Weiss and Anderson 1978). The validity of using a narrative approach can be found in the most recent 316(a) review by Coutant (2013). 4.5 Benthic Macroinvertebrate Community Like phytoplankton and zooplankton, benthic macroinverteb rates are LPI. The narrative assessment will include assessed using scientific literature and historical data (Duke Energy 2005, 2011, 2015; Duke Power Company 1996, 2000; Weiss and Anderson 1978). 4.5.1 Mussel Community Survey Qualitative (timed/distance) mussel surveys will be conducted once during the Demonstration period according to Duke Energy procedure FSH-867.0 (on file with NCDEQ). All native mussel species will be considered RIS (Table 3). The goal will be to complete two timed surveys within STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION each fisheries study location (12 total surveys, see section 4.6 below; Figure 1; Table 1), each survey encompassing 4.0 person -hours of search time or at least a distance of 200 m. Survey site locations, substrate descriptions, species identifications, relative abundance (Catch -Per - Unit -Effort [CPUE]), individual length measurements and survey technique (e.g., tactile search using surface air supply, snorkeling and bathyscope) will be recorded for each location site. Descriptive statistics will be used to analyze results. Results will be mapped using GIS techniques. 4.6 Fish Community Fisheries surveys will be performed during the Demonstration to evaluate for BIC. As stated above, a BIC should be diverse and contain different trophic levels, be self-sustaining year to year, not be dominated by pollution -tolerant species and contain adequate food items. Fish species selected to be RIS are listed in Table 3. 4.6.1 Electrofishing Boat electrofishing surveys will be conducted according to standard fisheries methods (Zale et al. 2012) and Duke Energy procedure FSH-250.05. Sampling will be done quarterly (every three months), and four timed transects (approximately 1000 seconds of effort per transect) will be performed in each study location, totaling 24 transects lake wide (Figure 1; Table 1). Transects will be sampled during the day with a Smith -Root GPP Electrofisher mounted on a Smith -Root boat, using pulsed DC current. Transects will be established parallel to the shoreline and be designed to ensure no overlap with other transects will occur. Boat crews will consist of a driver and two netters on the bow. Species identification, enumeration and individual total length (nearest millimeter) and weight (nearest gram) will be recorded for fish collected in each transect. Fish will also be inspected for parasites and any deformities. If fish are not identifiable in the field they will be preserved and taken back to the lab for identification. Water quality measurements (temperature, conductivity, dissolved oxygen and pH) will be taken at each transect with a calibrated probe to evaluate environmental conditions at the time of collection. 4.6.2 Gill Nets Experimental gill nets will be deployed according to Duke Energy procedure FSH-252.03 during each quarterly electrofishing survey to select for bottom -orienting and pelagic fish. Gill nets will be 8' deep and 100' long with four incremental, 25' sections per net (1", 2", 3" and 4" monofilament stretch length). Two gill nets will be set in each study location for two net nights, totaling four net nights every quarter per location (24 total net nights lake wide). Every study location will have three or four potential gill net locations (Figure 1; Table 1), two of which will be randomly selected each net night. Nets will be set on lake bottom approximately perpendicular to the shoreline with the 1" stretch section nearest to shore. After each net night the fish will be removed and the net re -set or stored on the boat. Individual fish will be identified, enumerated, measured and inspected using the same methods described for fish collected during electrofishing (see above). STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION 4.6.3 Analysis Data analysis will consist of total taxa numbers and biomass (fish only), mean CPUE calculations, spatial comparisons of RIS, length distributions, species pollution tolerance, trophic guild and hybrid complexes. Comparisons will be made among locations using one-way ANOVA with the conservative Bonferroni multiple -comparison procedure (a = 0.1) and analysis of similarity (ANOSIM) and related community level analyses. Simple means, standard deviations and ranges may also be reported. Biological community indices such as Shannon's Diversity Index and Species Richness will be an additional data assessment tool. Primer 7 and Sigma Plot will be utilized for biological data analyses, and GIS will primarily be utilized for graphic displays. 4.7 Other Vertebrate Wildlife In addition to aquatic biota, Duke Energy will conduct observations regarding "other vertebrate wildlife" (wildlife) that are associated with aquatic habitats and/or rely on the waters for foraging, reproduction, and other life functions (e.g., waterfowl, bald eagles, aquatic mammals, amphibians). According to the USEPA 1977 316(a) Technical Guidance Document, most sites in the United States will likely be considered ones of LPI for other vertebrate wildlife simply because thermal discharge plumes should not generally impact large or unique populations of wildlife (e.g., waterfowl concentrations, eagle wintering areas). Exceptions to sites classified as LPI would be those few sites where the discharge might affect protected, RIS, or threatened and endangered wildlife. Observations for wildlife will be conducted by qualified Duke Energy staff at sampling sites similar in general location to those being conducted for the fisheries study component (Braun 2005; Heyer et. al., 1994; Wilson et.al., 1996). The observations will also be conducted in the same time period (i.e., month, season) as the fisheries fieldwork. Observations will be augmented by literature reviews of pertinent information (e.g., USFWS listed species county list, USFWS Information for Planning and Construction database, facility -specific reports) which will enable Duke Energy to prepare rationale regarding why the site should be considered one of low potential impact or an exception to that. Observations will be conducted for aquatic wildlife species or species that use the Belews aquatic system during activities such as foraging for fish or other life function activities. During this Demonstration, Duke Energy will not be documenting wildlife species that do not fit the criteria mentioned above (e.g., white-tailed deer, most songbirds and wild turkeys). 4.8 Endangered Species Wildlife surveys (Section 4.7 above) will include an assessment of presence/absence of threatened and endangered terrestrial species that may inhabit or potentially use the area near BCSS (e.g., bald eagle). Information regarding the protected and federally listed terrestrial species will be obtained via the United States Fish and Wildlife Service's (USFWS) Stokes, Rockingham, and Forsyth Counties, NC county -wide list (USFWS 2014). Mussel surveys will also be utilized to detect any threatened and endangered mussel species. Scientific literature, 0 STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION federal and state surveys and listings, and Natural Heritage Program database element occurrences will be reviewed or queried for other protected aquatic species that may occur in Belews Lake. Lastly, the NCWRC will be consulted for additional input. 5 Reference Lake If available, additional reference locations are valuable in a 316(a) Demonstration (Coutant 2013). Mayo Reservoir is an impoundment of Mayo Creek in Person County, North Carolina, approximately 65 miles ENE of Belews Lake. Reaching full pond in 1983, it was originally created to supply make-up cooling water to Mayo Steam Electric Plant (MP). Although Mayo Reservoir is smaller and shallower than Belews Lake (1,133 ha compared to 1,563 ha and average depth of 9.0 m to 14.6 m, respectively), it is a good candidate as a reference lake for several reasons listed below: 1. Mayo Reservoir receives little to zero thermal input from MP due to cooling towers, 2. has a similar but less severe legacy issue with selenium loading to the lake, 3. is in the same basin as Belews Lake (Roanoke River basin), 4. has similar productivity and nutrient load to Belews Lake (low to moderate), 5. has a similarly long retention time (1,100 days compared to 1,500 days for Belews Lake), 6. is buffered by similar land use patterns (mostly undeveloped forest), and 7. was recently found to have a "relatively balanced and stable fish community" by NCDWR (2018). Consistent monitoring has been occurring on Mayo Reservoir since 1983 and continues through the present (Duke Energy Progress 2017). Water quality and water chemistry are currently collected bi-monthly (six times per year) and fisheries data are collected through shoreline electrofishing four times a year in April, May, October and November. In addition, experimental gill nets identical to those used in Belews Lake will be deployed during fisheries surveys in 2019 and 2020. These environmental reference data from Mayo Reservoir will be compared with data collected from Belews Lake during the 316(a) Demonstration. Indices to be compared between lakes may include pollution tolerant species percentages, species trophic level percentages, Species Richness, Shannon Diversity Index and others, as well as water quality and chemistry parameters. 6 Data Management All data collected by Duke Energy for the BCSS 316(a) Demonstration will be digitally recorded and uploaded into Duke Energy's EQuIS database for retrieval and analysis. Internal QA/QC STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION processes will be established to ensure accuracy of data being submitted to the EQuIS database. 7 Study Timeline and Reporting The BCSS NPDES permit has an effective date of March 25, 2019, with a due date of August 22, 2019 for the final draft of the 316(a) Demonstration Study Plan. The BCSS 316(a) Demonstration will commence January 1, 2020 and will be conducted for one year. According to the NPDES Permit, study results will be presented in a report to NCDEQ within 120 days of monitoring completion (May 1, 2021) for application of a 316(a) variance. 8 References Braun, C. E., editor. 2005. Techniques for Wildlife Investigations and Management. Sixth edition. The Wildlife Society. Bethesda, MD. Coutant, C. 2013. Considerations and requirements for biological determinations related to thermal discharges. Special Report No. 13-02. National Council for Air and Stream Improvement. August 2013. Duke Energy. 2005. Assessment of balanced and indigenous populations in Belews Lake. NPDES No. NC0024406. Duke Power Company, Huntersville, NC. Duke Energy. 2011. Assessment of balanced and indigenous populations in Belews Lake. NPDES No. NC0024406. Duke Power Company, Huntersville, NC. Duke Energy. 2015. Assessment of balanced and indigenous populations in Belews Lake. NPDES No. NC0024406. Duke Power Company, Huntersville, NC. Duke Energy Progress. 2017. Mayo Steam Electric Plant 2016 Environmental Monitoring Report. NPDES No. NC0038377. Duke Energy Progress, Raleigh, NC. Duke Power Company. 1996. Assessment of balanced and indigenous populations in Belews Lake. NPDES No. NC0024406. Duke Power Company, Huntersville, NC. Duke Power Company. 2000. Assessment of balanced and indigenous populations in Belews Lake. NPDES No. NC0024406. Duke Power Company, Huntersville, NC. Harrel, R. D., R. L. Fuller and T. J. Edwards. 1978. An investigation of the fish community of Belews Lake North Carolina. DukePWR/78-07. Duke Power Company, Charlotte NC. Heyer, W. R., M. Donnelly, R. McDiarmid, L. Hayek, and M. Foster, editors. 1994. Measuring and Monitoring Biological Diversity. Standards Methods for Amphibians. Smithsonian Institution Press. Washington and London. 8 STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION Hining, K. 2003. Characteristics of the black and white crappie populations in Belews Lake, 2001-2002. North Carolina Wildlife Resource Commission, Division of Inland Fisheries. Raleigh, NC. Hining, K. 2005a. Characteristics of the black and white crappie populations in Belews Lake, 2004. North Carolina Wildlife Resource Commission, Division of Inland Fisheries. Raleigh, NC. Hining, K. 2005b. Comparison of day and night electrofishing for largemouth and smallmouth bass in three North Carolina reservoirs. North Carolina Wildlife Resource Commission, Division of Inland Fisheries. Raleigh, NC. Hodges, K. 2012. Belews Lake largemouth bass survey, 2007-2009. North Carolina Wildlife Resource Commission, Division of Inland Fisheries. Raleigh, NC. NCDWR. Review of Progress Energy, Mayo Electric Generation Plant (NC 0038377) Environmental Monitoring Report (Letter). May 24, 2018. USFWS. 2014. Endangered Species, Threatened Species, Federal Species of Concern, and Candidate Species. New Hanover County, NC. Raleigh Ecological Field Office. Van Horn, S. L. 1978. Development of the sport fish potential of an industrial cooling lake. North Carolina Wildlife Resource Commission, Division of Inland Fisheries. Raleigh, NC. Weiss, C. M. and T. P. Anderson. 1978. Belews Lake: a summary of a seven year study (August 1970-June 1977) to assess environmental effects of a coal-fired power plant on a cooling pond. ESE No. 475. Department of Environmental Sciences and Engineering, UNC Chapel Hill. Chapel Hill, NC. Wilson, D., F. R. Cole, J. Nichols, R. Rudran, and M. Foster, editors. 1996. Measuring and Monitoring Biological Diversity. Standards Methods for Mammals. Smithsonian Institution Press. Washington and London. Zale, A. V., D. L. Parrish and T. M. Sutton, editors. 2012. Fisheries Techniques, third edition. American Fisheries Society. Bethesda, MD. 9 STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION 9 Figures and Tables 1- • Belews Lake J —� Stokes County North Carolina o � 418.3 411.0 -D ED Ash Basin 418.0 0 Belews Creek Steam Station — ❑ 0 0 408.0 410.5 E F 410.0 .eR4 408.1 408.2 I G H 0 I 0 5 i 1 1 2 Miles i I I 0 0.75 1.5 3 Kilometers 0 f 419.3 Hwy 65 419.2 N 416.0 412.0 C Sampling Locations: O Water Quality Profiles + Continuous Temp. Loggers o Electrofishing o Gill Nets O Mussels —Hwy 158 405.0 K �> DUKE FNFRC�Y Figure 1. Belews Lake 316(a) study areas (labeled with bold letters and delineated with solid black lines) and sample locations. 10 STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION Table 1. Belews Creek Steam Station 316(a) Demonstration Study Plan Summary. PROGRAM FREQUENCY LOCATION Limnology Water Quality Quarterly 416.0, 411.0, 412.0, 418.0, 410.5, 410.0, 408.0, 408.1, 408.2, 419.3, 419.2, 405.0 Water Chemistry I" Quarter, 31 Quarter 416.0, 411.0, 412.0, 418.0, 418.3, 410.0, 408.2, 419.3, 419.2, 405.01 Chlorophyll a I" Quarter, 31 Quarter 416.0, 411.0, 412.0, 418.0, 418.3, 410.0, 408.2, 419.3, 419.2, 405.0 Habitat Formers Aquatic Vegetation Once during summer Lake -wide littoral zone Mussel survey Once during summer 12 transects, 2 each at 6 locations 412.0, 418.0, 410.0, 408.0, 408.2, 419.2 Fisheries Electrofishing Quarterly 24 transects, 4 each at 6 locations i 412.0, 418.0, 410.0, 408.0, 408.2, 419.2 Gill nets Quarterly 2x 100ft experimental nets at 6 locations 412.0, 418.0, 410.0, 408.0, 408.2, 419.2 Other Wildlife Observation Once during summer One observation at 6 location vicinities 412.0, 418.0, 410.0, 408.0, 408.2, 419.2 No metals collected except at locations D_3_418.3 and J_2_419.2. IN STUDY PLAN TO SUPPORT A CLEAN WATER ACT §316(a) DEMONSTRATION BELEWS CREEK STEAM STATION Table 2. Belews Lake Water Quality and Water Chemistry Monitoring Variables. Water Quality Temperature pH Dissolved oxygen Specific conductivity Chlorophyll a Water Chemistry Metals (total) Nutrients Arsenic Ammonia nitrogen Copper Nitrite -nitrate nitrogen Mercury (Low Level) Total Kjeldhal nitrogen Selenium Total phosphorus Zinc Orthophosphate Total organic carbon Ions Calcium Alkalinity (TIP) Chloride Magnesium Total Hardness Sulfate Physical Total dissolved solids Turbidity Table 3. Representative Important Species (RIS) in Belews Lake. Fish Common Name Gizzard Shad Channel Catfish Redbreast Sunfish Bluegill Redear Sunfish Spotted Bass Largemouth Bass Mussels Any native species collected Scientific Name Dorosoma cepedianum Ictalurus punctatus Lepomis auritus Lepomis macrochirus Lepomis microlophus Micropterus punctulatus Micropterus salmoides 12