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Home My WebLink About5503_LincolnCoCDLF_GWMR_DIN27923_20160411April 2016 Semi-Annual Monitoring Report Lincoln County Landfill - Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 Prepared for: Lincoln County 5291 Crouse Road Crouse, North Carolina 28033 Prepared by: S&ME, Inc. 9751 Southern Pine Boulevard Charlotte, NC 28273 July 20, 2016 S&ME, Inc. | 9751 Southern Pine Boulevard | Charlotte, NC 28273 | p 704.523.4726 | f 704.525.3953 | www.smeinc.com July 22, 2016 Lincoln County 5291 Crouse Road Crouse, North Carolina 28033 Attention:Mr. Mark Bivins Reference:April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 Dear Mr. Bivins: S&ME Inc. (S&ME) has completed the April 2016 Semi-Annual Monitoring and Reporting for the Lincoln County Landfill. This report presents the results of the first monitoring event of the year for the facility. S&ME appreciates the continued opportunity to provide services to you and Lincoln County. If you have any questions or need additional information regarding this report, please contact us at (704) 523-4726. Sincerely, S&ME, Inc. Amanda Bloom Edmund Q.B. Henriques, L.G. Staff Professional Senior Geologist NC Registration No. 1216 Cc: Jaclynne Drummond, NCDENR – Solid Waste Section April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 ii Table of Contents 1.0 Introduction............................................................................................................1 2.0 Groundwater Levels and Flow............................................................................1 3.0 Analytical Data ......................................................................................................1 3.1 Groundwater Monitoring and Sampling......................................................................1 3.1.1 MSW Area “E” and Phase 1...............................................................................................1 3.1.1.1 Volatile Organic Compounds (VOCs)...........................................................................2 3.1.1.2 Inorganic Constituents (Metals).....................................................................................3 3.1.2 MSW Phase 2......................................................................................................................4 3.1.2.1 Volatile Organic Compounds (VOCs)...........................................................................4 3.1.2.2 Inorganic Constituents (Metals).....................................................................................4 3.1.3 MSW Phase 3......................................................................................................................4 3.1.3.1 Volatile Organic Compounds (VOCs)...........................................................................4 3.1.3.2 Inorganic Constituents (Metals).....................................................................................4 3.1.4 C&D Landfill Phase 1 and 2...............................................................................................5 3.1.4.1 Volatile Organic Compounds (VOCs)...........................................................................5 3.1.4.2 Inorganic Constituents (Metals).....................................................................................5 3.1.4.3 Classical Chemistry Compounds...................................................................................6 3.1.5 Surface Water Locations SW-1 through SW-5...................................................................6 3.1.6 Surface Water Location SW-6.............................................................................................6 3.2 Leachate Sampling............................................................................................................6 4.0 Statistical Analysis................................................................................................7 4.1 Volatile Organic Compounds (VOCs)...........................................................................7 4.2 Total Metals.......................................................................................................................8 5.0 Methane Readings.................................................................................................8 April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 iii Appendices Appendix I – Drawings Appendix II –Tables Appendix III – Well Sampling Logs and Laboratory Reports Appendix IV – Statistical Analysis Procedures Appendix V – Graphs Depicting Concentrations over Time for Wells with a Statistically Significant Increase Appendix VI – Monthly Methane Data (November 2015-April 2016) April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 1 1.0 Introduction S&ME, Inc. (S&ME) was contracted by Lincoln County to provide groundwater, surface water, and leachate monitoring services at the Lincoln County Landfill located at 5291 Crouse Road in Crouse, North Carolina. This semi-annual monitoring event was conducted on April 11 th through 13 th, 2016. This report presents the results of the first semi-annual sampling event for the year 2016 at the facility. The facility’s monitoring network includes one background well (MW-1A), twenty-nine compliance wells, six surface water sample locations, and one leachate sample. The next sampling event is scheduled for October 2016. 2.0 Groundwater Levels and Flow The water table elevations and our interpretation of the groundwater surface expressed as a potentiometric map along with groundwater flow direction are shown on Drawing 1 of 1 in Appendix I. Based upon the groundwater elevations in the vicinity of the landfill, groundwater in this area is projected to flow primarily to the south, with secondary flow toward the southwest and southeast toward tributaries located east and west of the landfills. Groundwater levels for the monitoring wells are presented in Table 1 in Appendix II. The hydraulic gradient (i) in the vicinity of each well was estimated by calculating the vertical difference between the groundwater elevation at each well and one or more nearby contour lines from Drawing 1 of 1. This value was then divided by the horizontal distance measured from the well to the selected groundwater elevation contour line. Groundwater velocity was calculated by multiplying the gradient (i) by the hydraulic conductivity (k) and dividing by the estimated effective porosity (ne) of the aquifer.Table 2 in Appendix II summarizes the groundwater flow rates for the monitoring wells. 3.0 Analytical Data Analytical results for the landfill monitoring wells, surface water samples, and leachate sample are summarized in Tables 4 through 10 in Appendix II. Detections with concentrations greater than the NCAC 2L .0202 Groundwater Quality Standards (2L Standards), NCAC 2B surface water standards (2B Standards), and/or SW GWP Standard are highlighted in gray. Field measurements of pH, conductivity, and temperature are summarized in Table 3 in Appendix II. Well sampling logs containing this information are included in Appendix III. 3.1 Groundwater Monitoring and Sampling 3.1.1 MSW Area “E” and Phase 1 MSW Area “E” and Phase 1 groundwater monitoring well locations were sampled for Appendix I volatile organic compounds (VOCs) and Appendix I metals. In addition to Appendix I VOCs and metals, the groundwater analysis for background monitoring well MW-1A also included inorganic constituents iron and manganese. A summary of the detected analytes associated with this Phase of the landfill is included April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 2 as Table 4 in Appendix II. The groundwater monitoring wells associated with these areas include background well MW-1A, compliance wells MW-8, MW-9, and MW-10R that monitor the abandoned leachate pond, and compliance wells MW-12 through MW-20 that monitor down gradient and side gradient of the unlined MSW landfill Area “E” and the lined MSW landfill identified as Phase 1. Based on the laboratory analytical reports included in Appendix III, 14 VOCs and 14 metals were detected in MSW Area “E” and Phase 1 groundwater monitoring wells during the April 2016 monitoring event. 3.1.1.1 Volatile Organic Compounds (VOCs) Background monitoring well MW-1A had a detection of Chloroform at a concentration of 14 micrograms per liter (µg/L), which is less than the 2L Standard of 70 µg/L. Both Bromoform and Chloroform have historically been detected in monitoring well MW-1A which are commonly associated with chlorinated municipal water. Due to MW-1A’s close proximity to Crouse Road, it is likely the detection of Chloroform in the well is from a leaking nearby municipal water or sewer line. No VOCs were detected in groundwater monitoring wells MW-8, MW-9, MW-10R, MW-12, MW-15, and MW-18 during the April 2016 monitoring event. Monitoring wells MW-13, MW-14, MW-16R, MW-17R, MW-19, and MW-20 contained two or more of the thirteen VOCs detected. Of the VOCs detected, five compounds were detected at concentrations greater than their respective 2L Standard: 1,1-Dichloroethane, Benzene, Methylene Chloride, Tetrachloroethene, and Vinyl Chloride. Please note that groundwater monitoring wells MW-14 and MW-20 had no VOC detections above their respective 2L Standards. The analytical results for groundwater monitoring well MW-13 indicated that 1,1-Dichloroethane, Benzene, Tetrachloroethene, and Vinyl Chloride were detected at concentrations greater than their respective 2L Standards. The results of which are as follows: ♦1,1-Dichloroethane detected at 11 µg/L. 2L Standard is 6 µg/L. ♦Benzene detected at 4.5 µg/L. 2L Standard is 1 µg/L. ♦Tetrachloroethene detected at 3.0 µg/L. 2L Standard is 0.7 µg/L. ♦Vinyl Chloride detected at 0.96 µg/L. 2L Standard is 0.3 µg/L. The results for groundwater monitoring well MW-16R indicated that Benzene and Vinyl Chloride were detected at concentrations greater than their respective 2L Standard. The results of which are as follows: ♦Benzene detected at 7.6 µg/L. 2L Standard is 1 µg/L. ♦Vinyl chloride detected at 3.9 µg/L. 2L Standard is 0.03 µg/L. The results for groundwater monitoring well MW-17R indicated that Benzene and Methylene Chloride were detected at concentrations greater than their respective 2L Standard. The results of which are as follows: ♦Benzene detected at 3.4 µg/L. 2L Standard is 1 µg/L. ♦Methylene Chloride at 27 µg/L. 2L Standard is 5 µg/L. The results for groundwater monitoring well MW-19 indicated that 1,1-Dichloroethane, Benzene, and Tetrachloroethene were detected at concentrations greater than their respective 2L Standard. The results are as follows: April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 3 ♦1,1-Dichloroethane detected at 15 µg/L. 2L Standard is 6 µg/L. ♦Benzene detected at 1.6 µg/L. 2L Standard is 1 µg/L. ♦Tetrachloroethene detected at 2.1 µg/L. 2L Standard is 0.7 µg/L. Groundwater monitoring wells MW-13, MW-14, MW-16R, MW-17R, MW-19 and MW-20 monitor down gradient and side gradient of the of the unlined Area “E” landfill, and the volatile organic constituents detected in these wells are associated with the unlined landfill section. 3.1.1.2 Inorganic Constituents (Metals) The groundwater monitoring wells associated with the MSW Area “E” and Phase 1 landfills had two or more Appendix I metals detected other than groundwater monitoring well MW-20 which only had one Appendix I metal detected. Five constituents were detected at concentrations greater than their respective 2L Standard or SW GWP Standard: Antimony, Arsenic, Cobalt, Thallium, and Vanadium. ♦Antimony was detected at concentrations greater than its SW GWP Standard of 1.4 µg/L in compliance monitoring wells MW-14, and MW-19 at concentrations of 6.99 and 2.97 J µg/L respectively. ♦Arsenic was detected at concentrations greater than its 2L Standard of 10 µg/L in compliance monitoring well MW-13 at a concentration of 13.6 µg/L. ♦Cobalt was detected at concentrations greater than its SW GWP Standard of 1 µg/L in compliance monitoring wells MW-8, MW-12, MW-13, MW-14, MW-16R, and MW-17R at concentrations of 2.38 and 308 µg/L, respectively. ♦Thallium was detected at concentrations greater than its SW GWP Standard of 0.28 µg/L in compliance monitoring wells MW-13, MW-16R and MW-17R at concentrations ranging from 0.558 J to 0.603 J µg/L. ♦Vanadium was detected at concentrations greater than its SW GWP Standard of 0.3 µg/L in compliance groundwater monitoring wells MW-8, MW-9, MW-10R, MW-17R, MW-18, and MW-19 at concentrations ranging from 1.44 J to 9.40 J µg/L. Total metal concentrations in groundwater sampled from wells are often dependent on the turbidity or suspended particulates (from the aquifer formation) retrieved with the groundwater sample. The turbidity is a function of the sampling method, well construction, how the well was developed, and the grain size/consolidation of the lithologic unit sampled. Since the unfiltered samples are acidified in the field at the time of collection, metals contained within the particulates are dissolved into the sample. Thus, the presence of turbidity in groundwater samples can results in elevated (false positive) analytical results for total metal concentrations. Therefore, the presence of elevated total metal concentrations does not necessarily correlate with groundwater impact. Based on historical water quality data, the background well and each of the compliance groundwater monitoring wells have contained at least one total metal at concentrations above the 2L Standards. Metal concentrations in several wells have fluctuated below and above detection limits. In background well MW-1A, beryllium, cadmium, chromium, cobalt, iron, lead, silver, and vanadium have been detected at concentrations above the 2L Standards. Based on this data, it reasonable to infer that the majority of the metals detected within the monitoring wells are either naturally occurring or a product of turbidity during sampling. April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 4 3.1.2 MSW Phase 2 MSW Phase 2 groundwater monitoring well locations were sampled for Appendix I VOCs and Appendix I metals. A summary of the detected analytes associated with this Phase of the landfill is included as Table 5 in Appendix II. The groundwater monitoring wells associated with this Phase are compliance wells MW-21 and MW-24 that monitor side gradient of the landfill and MW-25 and MW-25A that monitor the Phase 2 sump. 3.1.2.1 Volatile Organic Compounds (VOCs) No VOCs were detected in the MSW Phase 2 monitoring wells at a concentration greater than its respective SW GWP Standard during the April 2016 monitoring event. Acetone was detected in monitoring well MW-21, but at a concentration less than its respective SW GWP Standard. 3.1.2.2 Inorganic Constituents (Metals) The groundwater monitoring wells associated with the Phase 2 landfill had four or more Appendix I metals detections. Antimony was detected at a concentration greater than the SW GWP Standard of 1 µg/L in groundwater monitoring well MW-25A. Cobalt was detected a concentrations greater that the SW GWP Standards of 1 µg/L in groundwater monitoring wells MW-21, MW-24, and MW-25A. Vanadium was detected at concentrations greater than the SW GWP Standard of 0.3 µg/L in groundwater monitoring wells MW-21 and MW-25A at concentrations of 2.24 J and 4.07 J µg/L respectively. As previously discussed above, it appears that the majority of the metals detected within the groundwater monitoring wells are either naturally occurring or a product of turbidity during sampling. 3.1.3 MSW Phase 3 MSW Phase 3 groundwater monitoring well locations were sampled for Appendix I VOCs and Appendix I metals. A summary of the detected analytes associated with this phase of the landfill is included in Table 6 in Appendix II. The groundwater monitoring wells associated with this area include compliance wells MW-32R and MW-34 that monitor down gradient and side gradient of the landfill and MW-33/33A and MW-35/35A that monitor the Phase 3 sump locations. 3.1.3.1 Volatile Organic Compounds (VOCs) No VOCs were detected in the MSW Phase 3 monitoring wells during the April 2016 monitoring event. 3.1.3.2 Inorganic Constituents (Metals) The groundwater monitoring wells associated with the Phase 3 landfill had two or more Appendix I metals detected, three of which were detected at concentrations greater than their respective 2L Standard or SW GWP Standard. The detections above standards are as follows: ♦Antimony was detected in groundwater monitoring well MW-33A at a concentration of 3.89 J µg/L, a concentration greater than the SW GWP Standard of 1.4 µg/L ♦Cobalt was detected in groundwater monitoring well MW-34 at 4.43 µg/L, a concentration greater than the SW GWP Standard of 1 µg/L. April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 5 ♦Vanadium was detected in groundwater monitoring wells MW-32R, MW-33A, and MW-35A at a concentration range of 1.47 J to 5.58 J µg/L, concentrations greater than the SW GWP Standard of 0.3 µg/L As previously discussed above, it is inferred that the majority of the metals detected within the groundwater monitoring wells are either naturally occurring or a product of turbidity during sampling. 3.1.4 C&D Landfill Phase 1 and 2 C&D Landfill Phase 1 and Phase 2 groundwater monitoring well locations were sampled for Appendix I VOCs; Appendix I metals plus mercury, manganese, and iron; and four classical chemistry compounds: Chloride, Total Dissolved Solids, Sulfate, and Alkalinity. A summary of the detected analytes associated with the C&D Landfills is included as Table 7 and 8 in Appendix II. The groundwater monitoring wells associated with the C&D landfill include compliance wells MW-26, MW-27, and MW-28 that monitor Phase 1 and MW-29, MW-30, MW-31, and MW-36 that monitor Phase 2. Groundwater monitoring well MW-36 was installed near the C&D compliance boundary as part of the 2013 C&D Assessment. During the April 2016 monitoring event, MW-26 was dry and could not be sampled. 3.1.4.1 Volatile Organic Compounds (VOCs) C&D Landfill groundwater monitoring wells had four VOCs detected during the April 2016 monitoring event, one of which was detected at a concentration greater than their respective 2L Standard. ♦Tetrachloroethene was detected in groundwater monitoring well MW-28 at a concentration of 9.0 µg/L, which is greater than its 2L Standard of 0.7 µg/L. 3.1.4.2 Inorganic Constituents (Metals) The groundwater monitoring wells associated with the C&D landfill had six or more metals detections, and three constituents were detected at concentrations greater than their respective 2L Standard and/or SW GWP Standard. The detections at concentrations greater than standards are as follows: ♦Chromium was detected in groundwater monitoring well MW-36 at a concentration of 27.6 µg/L, which is above the 2L Standard of 10 µg/L. ♦Cobalt was detected in groundwater monitoring wells MW-26, MW-27, MW-28, MW-29, MW-31, MW-36 at a concentrations ranging from 1.65 J to 9.74 µg/L, which are greater than the 2L Standard of 1 µg/L. ♦Iron was detected in groundwater monitoring wells MW-29, MW-30, MW-31, and MW-36 at concentrations ranging from 416 to 22,400 µg/L, which are greater than the 2L Standard of 300 µg/L. ♦Manganese was detected in groundwater monitoring wells MW-26, MW-27, MW-28, MW-29, and MW-36 at concentrations ranging from 75.4 to 679 µg/L, which are greater than the 2L Standard of 50 µg/L. ♦Thallium was detected in ground water monitoring well MW-36 at a concentration of 0.557 J µg/L, which is greater than its SW GWP Standard of 0.28 µg/L. ♦Vanadium was detected in groundwater monitoring wells MW-27, MW-28, and MW-36 at concentrations ranging from 2.0 J to 35.5 J µg/L, which are greater than the SW GWP Standard of 0.3 µg/L. April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 6 As previously discussed above, it appears that the majority of the metals detected within the groundwater monitoring wells are either naturally occurring or a product of turbidity during sampling. Since October 2007, Iron and Manganese have been included in the analysis for the C&D wells, and since April 2008, Iron and Manganese were included in the analysis for the background well MW-1A. Iron and Manganese have been detected in MW-1A in each monitoring event that has included their analysis. 3.1.4.3 Classical Chemistry Compounds Total Dissolved Solids, Chloride, Sulfate, and Alkalinity were analyzed for in the C&D landfill groundwater monitoring wells. The results of the analyses are summarized in Tables 7 and 8 in Appendix II. No constituents were detected at concentrations greater than their respective 2L Standard and/or SW GWP Standard. Lincoln County Landfill has five surface water sampling locations positioned in the tributaries located to the east, south, and west of the landfill as indicated on the attached Drawing 1 of 1 in Appendix I. The original five surface water samples are analyzed for Appendix I VOCs and Appendix I metals plus Mercury, Iron and Manganese. Beginning with the April 2010 sampling event, a sixth (6th) surface water sample location was added to the semi-annual monitoring plan, SW-6. The addition of SW-6 to the monitoring plan was in response to the January 2009 leachate release at the facility. SW-6 is located at the discharge of the lowland area downgradient from the leachate holding tanks as indicated on Drawing 1 of 1. A summary of the detected analytes associated with the surface water samples collected is included as Table 9 in Appendix II. 3.1.5 Surface Water Locations SW-1 through SW-5 Surface water sample analytical result reported: ♦Sample SW-1 had detections of three VOCs associated with chlorinated municipal water. Four metals were also detected at concentrations above the method reporting limit. ♦Samples SW-2, SW-3, SW-4, and SW-5 had no volatile organic compounds detected during the April 2016 monitoring event; whereas, three or more metals were detected in surface water samples from locations SW-1, SW-2, SW-3, SW-4, and SW-5. 3.1.6 Surface Water Location SW-6 Surface water from SW-6 is analyzed for Appendix I VOCs, Appendix I metals, and classic chemistry compounds: Biologic Oxygen Demand (BOD), Chemical Oxygen Demand (COD), Nitrate/Nitrite, Sulfate, Total Suspended Solids (TSS), and Phosphorous. Each detection was less than its respective 2B Standard. 3.2 Leachate Sampling A sample of the leachate from the leachate collection system for the landfill was collected from the lift station prior to leachate entering the on-site leachate holding tanks. The leachate sample was analyzed for Appendix I VOCs, Appendix I metals, BOD, COD, Nitrate/Nitrite, Sulfate, TSS, and Phosphorous. A summary of the detected analytes for the leachate is included as Table 10 in Appendix II. April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 7 4.0 Statistical Analysis S&ME compared the water quality data with the 2L Standards and the SW GWP standards and performed a statistical evaluation of the data. S&ME utilized three statistical methods to evaluate statistically significant increases between the compliance monitoring wells and the background monitoring well (MW- 1A). The first method utilized was a one-way parametric Analysis of Variance (Parametric ANOVA). The parametric ANOVA analysis is recommended by the 1992 guidance document for parameters with fewer than 15% non-detects in a specific well. The second method used was the Kruskal-Wallis non-parametric rank method. The Kruskal-Wallis method is recommended by the 1992 guidance document for parameters that have 15% to 90% non- detects in a specific well. The third method used was an inter-well non-parametric prediction limit. The prediction limit was used for parameters with greater than 90% non-detects in a specific well. The 1992 guidance document recommends this method when a significant portion of the samples are non-detect. Tables 11 through 13 in Appendix II summarize the results of the statistical analysis. Copies of the analytical procedures used to perform the analysis used by the ChemStat software are included in Appendix IV. 4.1 Volatile Organic Compounds (VOCs) One or more volatile organic compounds were found to have a statistical increase over background concentrations in groundwater monitoring wells MW-13, MW-16 (16R), MW-17 (17R), MW-19, and MW- 20 that are located down-gradient from the unlined closed landfill Area “E”. The statistical increases are as follows: ♦1,1-Dichloroethane in groundwater monitoring wells MW-13, MW-16(16R), MW-19 and MW-20. It should be noted that concentrations in MW-13 and MW-16 have decreased over time. ♦1,4-Dichlorobenzene in groundwater monitoring wells MW-13 and MW-16(16R). ♦Acetone in groundwater monitoring well MW-13. It should be noted that concentrations of acetone in MW-13 have varied from detect to non-detect. ♦Benzene in groundwater monitoring wells MW-13 and MW-16(16R). ♦cis-1,2-Dichloroethene in groundwater monitoring wells MW-13, MW-16(16R), MW-19 and MW-20. ♦Chlorobenzene in groundwater monitoring well MW-16(16R). ♦Methylene Chloride in groundwater monitoring wells MW-13, MW-17(17R), MW-19 and MW-20. It is noted that concentrations in MW-13, MW-19 and MW-20 have decreased over time. ♦Tetrachloroethene in groundwater monitoring wells MW-13 and MW-19. ♦Toluene in groundwater monitoring well MW-13. ♦Trichloroethene in groundwater monitoring wells MW-13 and MW-19. ♦Vinyl Chloride in groundwater monitoring wells MW-13 and MW-16(16R). It should be noted that concentrations in MW-16(16R) have decreased over time. ♦Total Xylenes in groundwater monitoring wells MW-13, MW-16(16R), and MW-17(17R). It should be noted that concentrations in MW-16(16R) have varied between detect and non-detect. April 2016 Semi-Annual Monitoring Report Lincoln County Landfill Permit # 55-03 Crouse, North Carolina S&ME Project No. 1356-07-004 July 22, 2016 8 There were no volatile organic compounds with statistically significant increases over background for the Phase 2 and Phase 3 MSW wells. Graphs depicting concentrations over time for constituents with a statistical increase are provided in Appendix V. 4.2 Total Metals Total metal concentrations in groundwater sampled from wells are often dependent on the turbidity or suspended particulates (from the aquifer formation) retrieved with the groundwater sample. The turbidity is a function of the sampling method, well construction, how the well was developed, and the grain size/consolidation of the lithologic unit sampled. Since the unfiltered samples are acidified in the field at the time of sample collection, metals contained within the particulates are dissolved into the water sample. Thus, the presence of turbidity in groundwater samples often results in elevated (false positive) analytical results for total metal concentrations. Therefore, the presence of elevated total metal concentrations does not necessarily correlate with groundwater impact. Based on the historical water quality data, the background well and each of the compliance groundwater monitoring wells (excluding MW-19, 22, 24 and 25) have contained at least one (1) total metal at concentrations above the 2L Standards. The statistical evaluation indicates that ten of the compliance groundwater monitoring wells (MW-8, 10R, 12, 12R, 13, 15, 16R, 17R, 33A, and 34,) contained at least one (1) metal at a statistically significant level higher than the background well. Metal concentrations in several wells have fluctuated between non-detect and detect. In the background well, MW-1A, antimony, beryllium, cadmium, chromium, cobalt, iron, lead, silver, and vanadium have been detected at concentrations above the 2L Standards. Graphs depicting concentrations over time for constituents with a statistical increase are provided in Appendix V. 5.0 Methane Readings Methane Readings are collected from 11 locations on site, including eight methane monitoring wells (MMW-1 through MMW-8) and the scale house, landfill shop, and lift station on site. Methane readings are measured monthly by Lincoln County personnel using a GEM 2000 gas meter. November 2015 through April 2016 methane readings, and a figure showing their locations are located in Appendix VI. Appendices Appendix I – Drawings G G G G G G < < < < < < < < < < < < < < < < < < < < < < < < < < < < MW-8 MW-26 C&D PHASE II C&D PHASE I EXISTING AREA "E"CLOSED LANDFILLEXISTING AREA "D"PHASE IPHASE II PHASE III MW-9(810.03) MW-30(836.8) MW-18(835.2) MW-36(828.56) MW-35(807.61) MW-34(806.29) MW-33(805.96) MW-31(849.81) MW-29(841.07) MW-28(872.27) MW-27(863.15) MW-25(813.19) MW-24(817.76) MW-21(819.04)MW-20(844.88) MW-1A(891.04) MW-15(822.23) MW-14(841.19)MW-13(840.97) MW-12(822.49) MW-32R(812.07) MW-25A(812.69)MW-17R(858.97) MW-16R(862.71) MW-10R(811.42) MW-19(833.06) 830 8 3 5 825 8 4 0 8 4 5 8 2 0 8 5 0 8 1 5 8 5 5 8 6 0 8 1 0 8 6 5 8 7 0 8 7 5 8 8 0 8 8 5 8 9 0 SW-4 SW-5 SW-1 SW-2 SW-3 SW-6 856 86 4 8 5 2 8 4 8 8 4 4 8 3 6 8 3 2 828 824 868 872 87 6 816 884 888 812 892808 804 796 8 9 6 904 9 0 8 912 916 9 2 4 792 788 784 9 2 8 932 9 3 6 864 924 924 904 9 1 6 892 884 7 8 4 936 928 796 8 1 2 9 1 2 824 9 3 6 8 7 6 9 1 2 936 844 868 8 9 2 912 808 7 8 8 9 2 8 848 8 8 8 932 8 6 8 904 856 932 8 8 8 856 892 8 6 8 9 0 8 896 9 0 4 784 8 7 2 872 848 8 5 2 9 0 8 90 8 9 2 4 876 8 8 4 912 8 1 2 892 916 836 924 9 3 2 S H O A L R D C R O U S E R D Y O D E R R D SHIRLEY REYNOLDS LN 0 500 1,000Feet LEGEND <GROUNDWATER MONITOR WELLS G SURFACE WATER SAMPLE GROUNDWATER CONTOURS - 5 FT INTERVAL C&D LANDFILL BOUNDARY MSW BOUNDARY STREAMS 4' CONTOURS ROADS DIRT ROADS SITE ´ 1 G R O U N D W A T E R C O N T O U R M A P - A P R I L 2 0 1 6 L I N C O L N C O U N T Y L A N D F I L L C R O U S E , N O R T H C A R O L I N A 1 3 5 6 -0 7 -0 0 4 1 " = 5 0 0 ' J U L Y 2 0 1 6 FIGURE NO. S C A L E : P R O J E C T N O : D A T E : D R A W N B Y : C H E C K E D B Y : N C E N G . L I C E N S E #F -0 1 7 6 3 2 0 1 S P R I N G F O R E S T R D , R A L E I G H , N C 2 7 6 1 6 W W W .S M E I N C .C O M D R A W I N G N U M B E R : B T R B -2 6 1 2 Appendix II –Tables Latitude Longitude Ground TOC DTW - TOC GW ELEV. (MM/DD/YY)(ft)(ft-MSL) MW-1A Background - - -35.4305188° -081.3550147° - - -929.27 - - - to - - -- - - to - - -- - - to - - -- - - to - - -- - - to - - -- - -38.23 891.04 MW-8 Leachate Lagoon - - -35.4204767°-081.3543964°- - -840.03 - - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -29.20 N/A MW-9 Leachate Lagoon - - -35.4205014°-081.3544769°- - -840.20 - - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -30.17 810.03 MW-10R Leachate Lagoon - - -35.4209399°-081.3538215°- - -834.97 - - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -23.55 811.42 MW-12 Area "E" and Phase 1 - - -35.4229138°-081.3543339°- - -827.57 - - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -5.08 822.49 MW-13 Area "E" and Phase 1 - - -35.4252197°-081.3569120°- - -872.78 - - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -31.81 840.97 MW-14 Area "E" and Phase 1 - - -35.4252431°-081.3570085°- - -871.44 - - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -30.25 841.19 MW-15 Area "E" and Phase 1 - - -35.4232655°-081.3580245°- - -847.86 - - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -25.63 822.23 MW-16R Area "E" and Phase 1 - - -35.4270857°-081.3570696°- - -876.39 - - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -to - - -- - -13.68 862.71 MW-17R Area "E" and Phase 1 07/20/93 35.4262555°-081.3548668°898.14 899.64 0.0 to 20.0 20.0 to 35.0 0.0 to 16.0 16.0 to 18.0 18.0 to 45.5 - - -40.67 858.97 MW-18 Area "E" and Phase 1 - - -35.4246249°-081.3576782°859.20 861.41 - - -to - - -- - -to - - -- - -to - - -- - -to - - -15.2 to 30.2 - - -26.21 835.20 MW-19 Area "E" and Phase 1 - - -35.4247561°-081.3576590°859.95 859.73 - - -to - - -- - -to - - -- - -to - - -- - -to - - -63.0 to 68.0 - - -26.67 833.06 MW-20 Area "E" and Phase 1 - - -35.4256922°-081.3575990°- - -860.00 - - -to - - -- - -to - - -- - -to - - -- - -to - - -10.1 to 25.1 - - -15.12 844.88 MW-21 Phase 2 09/03/99 35.4221305°-081.3579143°853.80 855.91 0.0 to 27.0 27.0 to 42.0 0.0 to 23.0 23.0 to 25.0 25.0 to 42.0 SAP 36.87 819.04 MW-24 Phase 2 09/02/99 35.4219922°-081.3540276°838.95 841.13 0.0 to 14.0 14.0 to 29.0 0.0 to 10.0 10.0 to 12.0 12.0 to 29.0 SAP 23.37 817.76 MW-25 Phase 2 08/31/99 35.4213534°-081.3546541°836.75 838.73 0.0 to 15.0 15.0 to 30.0 0.0 to 11.0 11.0 to 13.0 13.0 to 30.0 SAP 25.54 813.19 MW-25A Phase 2 09/01/99 35.4212848°-081.3547068°836.75 838.84 0.0 to 50.0 50.0 to 60.0 0.0 to 46.0 46.0 to 48.0 48.0 to 60.0 SAP 26.15 812.69 MW-26 C&D Phase 1 09/08/99 35.4273089°-081.3527074°869.11 871.19 0.0 to 6.0 6.0 to 21.0 0.0 to 4.0 4.0 to 5.0 5.0 to 21.0 SAP 13.12 N/A MW-27 C&D Phase 1 09/07/99 35.4278831°-081.3533157°879.03 880.90 0.0 to 10.0 10.0 to 25.0 0.0 to 6.0 6.0 to 8.0 8.0 to 25.0 SAP 17.75 863.15 MW-28 C&D Phase 1 04/01/99 35.4276977°-081.3542728°912.72 915.68 0.0 to 36.0 36.0 to 51.0 0.0 to 32.0 32.0 to 34.0 34.0 to 51.0 SAP 43.41 872.27 MW-29 C&D Phase 2 04/30/02 35.4252895°-081.3534741°877.45 879.97 0.0 to 30.0 30.0 to 45.0 0.0 to 26.0 26.0 to 28.0 28.0 to 45.0 PWR 38.90 841.07 MW-30 C&D Phase 2 05/02/02 35.4259842°-081.3520549°883.72 886.35 0.0 to 45.0 45.0 to 60.0 0.0 to 41.0 41.0 to 43.0 43.0 to 60.0 SAP 49.55 836.80 MW-31 C&D Phase 2 06/19/03 35.4266563°-081.3521999°877.40 879.88 0.0 to 25.0 25.0 to 40.0 0.0 to 21.0 21.0 to 23.0 23.0 to 40.0 PWR 30.07 849.81 MW-32R Phase 3 12/20/04 35.4214589°-081.3583317°825.89 827.25 0.0 to 10.0 10.0 to 25.0 0.0 to 6.0 6.0 to 8.0 8.0 to 25.0 SAP 15.18 812.07 MW-33 Phase 3 12/30/04 35.4208632°-081.3585631°816.33 819.38 0.0 to 7.0 7.0 to 22.0 0.0 to 3.0 3.0 to 5.0 5.0 to 22.0 SAP 13.42 805.96 MW-33A Phase 3 12/30/04 35.4208632°-081.3585631°815.94 818.67 0.0 to 56.5 56.5 to 61.5 0.0 to 52.5 52.5 to 54.5 54.5 to 61.5 ROCK 13.65 805.02 MW-34 Phase 3 12/21/04 35.4202637°-081.3569455°829.82 832.77 0.0 to 17.0 17.0 to 32.0 0.0 to 13.0 13.0 to 15.0 15.0 to 32.0 SAP 26.48 806.29 MW-35 Phase 3 12/28/04 35.4200537°-081.3551088°836.85 839.64 0.0 to 19.0 19.0 to 34.0 0.0 to 15.0 15.0 to 17.0 17.0 to 34.0 SAP 32.03 807.61 MW-35A Phase 3 12/28/04 35.4200537°-081.3551088°836.77 839.83 0.0 to 60.0 60.0 to 65.0 0.0 to 56.0 56.0 to 58.0 58.0 to 65.0 SAP 30.45 809.38 MW-36 C&D Phase 2 06/26/13 35.4252949° -081.3518019° 852.00 854.83 0.0 to 19.5 19.5 to 34.5 0.0 to 9.5 9.5 to 17.7 17.7 to 35.0 SAP 26.27 828.56 Notes: (ft-MSL)Feet Mean Sea Level DTW Depth to Water Sch. 40 Schedule 40 Pipe PWR Partially Weathered Rock (ft-bls)Feet Below Land Surface GW ELEV.Groundwater Elevation 0.010 Slot 0.010-Inch Machine-Slotted Pipe ROCK Bedrock TOC Top of Casing #2 Filter Sand Medium to Fine Grained Silica Sand Neat CementCement Mixture without Bentonite - - -Not Available Ground Ground Surface Bentonite Bentonite Pellets SAP Saprolite DRY No water in well at time of sampling NS Well was not sampled N/A Not Applicable Table 1 Well Construction Summary and Water Level Data Lincoln County Landfill S&ME Project No: 1356-07-004 Well ID Area Monitored Install Date GPS Coordinates Survey Elevations Casing Interval Screen Interval Grout Interval Seal Interval Filter Pack Geology in Screen Interval April 2016 (ft-bls)(ft-bls) 2-inch, SCH. 40, PVC 2-inch, 0.010 Slot, PVC Neatr Cement Bentonite Interval (decimal degrees)(ft-MSL)(ft-bls)(ft-bls)(ft-bls) K n I v Well Hydraulic Cond. Eff. Porosity Gradient Flow Velocity ID (ft/day)(ne)(ft/ft)(ft/yr) MW-1A - - -- - -- - -- - - MW-8 - - -- - -- - -- - - MW-10R - - -- - -- - -- - - MW-12 - - -- - -- - -- - - MW-13 - - -- - -- - -- - - MW-15 - - -- - -- - -- - - MW-16R - - -- - -- - -- - - MW-17R 1.4E+00 17%0.03 79 MW-18 - - -- - -- - -- - - MW-20 - - -- - -- - -- - - MW-21 4.5E-01 23%0.01 6 MW-24 - - -- - -- - -- - - MW-25 1.0E-01 24%0.02 3 MW-26 - - -- - -- - -- - - MW-27 - - -- - -- - -- - - MW-28 3.2E-01 - - -- - -- - - MW-29 8.6E-01 3%0.03 356 MW-30 5.0E+00 24%0.05 403 MW-31 - - -- - -- - -- - - MW-32R 2.6E-01 20%0.02 12 MW-33 3.0E+00 27%0.03 109 MW-34 7.5E+00 21%0.02 242 MW-35 4.9E-01 16%0.01 12 MW-36 3.5E+00 20%0.04 227 Notes: (1) Hydraulic Conductivity was calculated from slug tests performed after well construction. (2) Effective porosity was estimated from soils collected within the saturated portion of screen interval during well construction. (3) Hydraulic gradient calculated by measuring linear feet between selected contour intervals. (4) Seepage velocity v = (K*i)/ne - - -Not Available April 2016 Table 2 Groundwater Flow Data Lincoln County Landfill S&ME Project No: 1356-07-004 Well ID DTW TOC (ft-bls)pH Temp (°C) Conductance (μS) MW-1A 38.23 5.57 6.8 19 MW-8 29.20 5.37 16.2 18 MW-9 30.17 6.67 16.0 44 MW-10R 23.55 6.13 15.6 66 MW-12 5.08 5.62 13.4 136 MW-13 31.81 6.28 17.2 362 MW-14 30.25 6.28 17.2 108 MW-15 25.63 5.36 15.5 43 MW-16R 13.68 6.52 14.8 790 MW-17R 40.67 6.04 17.5 220 MW-18 26.21 6.23 15.2 187 MW-19 26.67 6.25 15.9 129 MW-20 15.12 5.78 15.1 60 MW-21 36.87 5.52 16.3 71 MW-24 23.37 5.38 15.8 222 MW-25 25.54 5.78 15.9 169 MW-25A 26.15 6.31 16.3 84 MW-26 13.12 5.83 14.5 151 MW-27 17.75 5.36 15.5 207 MW-28 43.41 5.16 17.5 44 MW-29 38.90 5.63 16.4 192 MW-30 49.55 5.78 15.9 63 MW-31 30.07 5.33 16.0 46 MW-32R 15.18 5.66 15.1 37 MW-33 13.42 5.88 14.1 80 MW-33A 13.65 7.02 15.9 218 MW-34 26.48 5.02 16.7 73 MW-35 32.03 5.20 16.0 20 MW-35A 30.45 6.57 16.7 51 MW-36 26.27 5.43 15.1 20 Notes: °C degrees celcius μS micro siemems Table 3 April 2016 - Field Parameters in Monitoring Wells Lincoln County Landfill S&ME Project No. 1356-07-004 EPA Appendix I Volatile Organic Compounds Method 8260 (ug/L) NCDENR SWSL 15A NCAC 2L Soild Waste GWP ST MW-1A MW-8 MW-9 MW-10R MW-12 MW-13 MW-14 MW-15 MW-16R MW-17R MW-18 MW-19 MW-20 1,1-Dichloroethane 5 6 NE 11 4.1 J 1.1 J 4.6 J 15 2.8 J 1,4-Dichlorobenzene 1 6 NE 2.8 4.5 2.5 cis-1,2,-Dichloroethene 5 70 NE 2.3 J 8.8 2.3 J 0.92 J 0.57 J Acetone 100 6000 NE 18 J 24 J Benzene 1 1 NE 4.5 7.6 3.4 1.6 Chlorobenzene 3 50 NE 4.7 Chloroform 5 70 NE 14 Methylene Chloride 1 5 NE 0.43 J 27 1.5 0.53 J Tetrachloroethene 1 0.7 NE 3.0 0.56 J 2.1 Toluene 1 600 NE 0.46 J Trichloroethene 1 3 NE 2.1 0.64 J 0.99 J 1.5 Trichlorofluoromethane 1 2000 NE 0.92 J Vinyl chloride 1 0.03 NE 0.96 J 3.9 Xylenes (total)5 500 NE 3.7 J 0.48 J 11 0.97 J EPA Appendix I Metals Method 6010B/6020 (ug/L) Antimony 6 NE 1 0.338 J 0.779 J 6.99 2.79 J Arsenic 10 10 NE 13.6 9.89 J Barium 100 700 NE 26.2 J 69.1 J 28.6 J 70.0 J 183 116 30.0 J 91.6 J 521 171 46.4 J 35.2 J 55.1 J Beryllium 1 NE 4 0.310 J 0.402 J 0.283 J Chromium 10 10 NE 3.66 J 2.43 J 1.52 J 1.75 J 2.20 J 1.48 J Cobalt 10 NE 1 2.38 J 28.9 308 4.19 J 33.7 89.9 Copper 10 1000 NE 1.99 J 4.36 J 2.29 J 3.97 J Iron 300 300 NE 36.3 J Lead 10 15 NE 3.89 J 5.28 J Manganese 50 50 NE 6.23 J Nickel 50 100 NE 4.42 J 17.8 J 3.23 J 11.6 J 25.1 J Thallium 5.5 NE 0.28 0.121 J 0.143 J 0.597 0.558 J 0.603 J 0.113 J Vanadium 25 NE 0.3 9.40 J 1.70 J 3.10 J 1.73 J 1.44 J 1.59 J Zinc 10 1000 NE 13.4 21.4 25.6 23.2 26.5 12.4 Table 4 April 2016 - Detected Analytes in Monitoring Wells for MSW Area “E” and Phase 1 Lincoln County Landfill S&ME Project No. 1356-07-004 EPA Appendix I Volatile Organic Compounds Method 8260 (ug/L) NCDENR SWSL 15A NCAC 2L Soild Waste GWP ST MW-21 MW-24 MW-25 MW-25A Acetone 100 200 NE 50 J EPA Appendix I Metals Method 6010B/6020 (ug/L) Antimony 6 NE 1 1.86 J Barium 100 700 NE 51.9 J 179 267 102 Beryllium 1 NE 4 0.368 J 0.984 J 0.289 J Cadmium 1 2 NE 0.399 J Chromium 10 10 NE 4.21 J Cobalt 10 NE 1 4.11 J 1.39 J 5.15 J Copper 10 1000 NE 3.71 J Nickel 50 100 NE 5.77 J Thallium 5.5 NE 0.28 0.192 J 0.129 J Vanadium 25 NE 0.3 2.24 J 4.07 J Zinc 10 1000 NE 25.0 25.5 20.7 Table 5 April 2016 - Detected Analytes in Monitoring Wells for MSW Phase 2 Lincoln County Landfill S&ME Project No. 1356-07-004 EPA Appendix I Volatile Organic Compounds Method 8260 (ug/L) NCDENR SWSL 15A NCAC 2L Soild Waste GWP ST MW-32R MW-33 MW-33A MW-34 MW-35 MW-35A EPA Appendix I Metals Method 6010B/6020 (ug/L) Antimony 6 NE 1 3.89 J 1.22 J Barium 100 700 NE 23.7 J 46.4 J 5.05 J 304 59.2 J 37.9 J Beryllium 1 NE 4 0.258 J 0.183 J 1.90 0.125 J Cadmium 1 2 NE 0.391 J Chromium 10 10 NE 1.83 J 2.83 J Cobalt 10 NE 1 4.43 J Copper 10 1000 NE 1.77 J 4.39 J 3.73 J Lead 10 15 NE 3.85 J Nickel 50 100 NE 3.22 J Thallium 5.5 NE 0.28 0.267 J Vanadium 25 NE 0.3 5.58 J 1.47 J 2.91 J Zinc 10 1000 NE 15.0 10.8 20.1 7.73 J 5.61 J No Volatile Organic Compounds Detected in Phase 3 During April 2016 Sampling Table 6 April 2016 - Detected Analytes in Monitoring Wells for MSW Phase 3 Lincoln County Landfill S&ME Project No. 1356-07-004 EPA Appendix I Volatile Organic Compounds Method 8260 (ug/L) NCDENR SWSL 15A NCAC 2L Soild Waste GWP ST MW-26 MW-27 MW-28 1,1-Dichloroethane 5 6 NE 0.41 J Acetone 100 6000 NE 4.5 J 9.0 J Tetrachloroethene 1 0.7 NE 9.0 EPA Appendix I Metals Method 6010B/6020 (ug/L) Barium 100 700 NE 153 272 97.8 J Beryllium 1 NE 4 0.639 J 0.194 J Cadmium 1 2 NE 0.910 J Cobalt 10 NE 1 1.73 J 8.59 J 5.28 J Iron 300 300 NE 234 J 70.6 J 100 J Manganese 50 50 NE 75.4 679 141 Nickel 50 100 NE 3.26 J 10.7 J 5.90J Thallium 5.5 NE 0.28 0.140 J Vanadium 25 NE 0.3 7.58 J 2.00 J Zinc 10 1000 NE 4.79 J 14.1 14.5 Classical Chemistry Compounds (mg/L) Chloride NE 250 NE 10.000 17.000 Sulfate as SO4 250 250 NE 4.300 30.000 Total Dissolved Solids NE 500 NE 92.000 130.000 Total Alkalinity NE NE NE 59.000 47.000 17.000 S&ME Project No. 1356-07-004 Lincoln County Landfill April 2016 - Detected Analytes in Monitoring Wells for C&D Phase 1 Table 7 EPA Appendix I Volatile Organic Compounds Method 8260 (ug/L) NCDENR SWSL 15A NCAC 2L Soild Waste GWP ST MW-29 MW-30 MW-31 MW-36 Benzene 1 1 NE 0.64 J EPA Appendix I Metals Method 6010B/6020 (ug/L) Barium 100 700 NE 18.3 J 70.3 J 8.61 J 252 Beryllium 1 NE 4 0.297 J 0.815 J Chromium 10 10 NE 27.6 Cobalt 10 NE 1 1.90 J 1.65 J 9.74 J Copper 10 1000 NE 2.33 J 5.75 J Iron 300 300 NE 12,500 416 3,780 22,400 Lead 10 15 NE 5.08 J Manganese 50 50 NE 266 19.8 J 44.5J 264 Nickel 50 100 NE 4.66 J 3.34 J 18.8 J Thallium 5.5 NE 0.28 0.557 J Vanadium 25 NE 0.3 35.5 Zinc 10 1000 NE 9.25 J 7.53 J 7.97 J 73.8 Classical Chemistry Compounds (mg/L) Chloride NE 250 NE 3.700 J 2.800 J Sulfate as SO4 250 250 NE 5.500 J 3.200 7.300 J Total Dissolved Solids NE 500 NE 90.000 Total Alkalinity NE NE NE 76.000 23.000 S&ME Project No. 1356-07-004 Lincoln County Landfill April 2016 - Detected Analytes in Monitoring Wells for C&D Phase 2 Table 8 EPA Appendix I Volatile Organic Compounds Method 8260 (ug/L) 15A NCAC 2B SW-1 SW-2 SW-3 SW-4 SW-5 SW-6 Bromodichloromethane NE 1.6 Chloroform NE 2.8 J Dibromochloromethane NE 0.69 J EPA Appendix I Metals Method 6010B/6020 (ug/L) Barium 1,000 20.1 J 23.2 J 34.0 J 25.4 J 61.3 J 42.5 J Chromium 180 5.63 J 2.14 J Cobalt NE 1.39 J 27.4 5.32 J Copper 4.8 1.79 J Iron NE 405 672 2,300 356 9,760 Manganese NE 24.35 J 171 44.7 J 25.7 J 1,850 Thallium NE 0.113 J Vanadium NE 8.17 J 3.39 J Zinc 36 8.70 J 7.13 J Classical Chemistry Compounds (mg/L) BOD NE NA NA NA NA NA COD NE NA NA NA NA NA Sulfate NE NA NA NA NA NA Sulfate as SO4 NE NA NA NA NA NA 6.300 J Phosphorous NE NA NA NA NA NA Nitrate as N NE NA NA NA NA NA Nitrate/Nitrite as N NE NA NA NA NA NA Total Suspended Solids NE NA NA NA NA NA 18.000 Total Alkalinity NE NA NA NA NA NA Table 9 April 2016 - Detected Analytes in Surface Water Samples Lincoln County Landfill S&ME Project No. 1356-07-004 EPA Appendix I Volatile Organic Compounds Method 8260 (ug/L) NCDENR SWSL Lift Station EPA Appendix I Metals Method 6010B/6020 (ug/L) Arsenic 10 40.2 Barium 100 605 Chromium 10 8.88 J Cobalt 10 7.40 J Nickel 50 35.6 J Vanadium 25 3.65 J Zinc 10 8.52 J Classical Chemistry Compounds (mg/L) BOD NE 64 COD NE 440 Sulfate as SO4 250 5.600 J Phosphorous NE 0.840 Nitrate as N 10 0.50 J Nitrite as N 1000 0.15 Nitrate/Nitrite as N NE 0.150 J Total Alkalinity NE 1,700 Total Suspended Solids NE 1,300 Table 10 April 2016 - Detected Analytes in Leachate Lincoln County Landfill S&ME Project No. 1356-07-004 No Volatile Organic Compounds Detected in April 2016 Notes: (1) ug/L = micrograms per liter (parts per billion) (2) mg/L = milligrams per liter (parts per million) (3) μS = microSiemens (4) 15A NCAC 2L = North Carolina Groundwater Quality Standards (5) 15A NCAC 2B = North Carolina Surface Water Quality Standards ( (6) GWP ST = Solid Waste Groundwater Protection Standard (7) NE = No established standard (8) Bold and highlighted indicates above 15A NCAC 2L, 15A NCAC 2B, or SW GWP standard (9) Compounds not shown were not detected. (10) SWSL = North Carolina Department of Environmtent and Natural Resources Solid Waste Section Limit established in 2007 (11) NA = Not Analyzed (12) J = Analyte detected is between the Method Detection Limit (MDL) and the SWSL (13) B = Analyte was detected in the associated method blank (14) D = The sample was analyzed at dilution Notes for Tables 4 through 10 S&ME Project No. 1356-07-004 Statistical Percent Analysis Parameter Well ID Non-Detect Method SSI Comments 1,1-Dichloroethane MW-13 2%PA TRUE Concentrations have decreased over time MW-14 52%KW FALSE MW-16R 0%PA TRUE Concentrations have decreased over time MW-17R 0%PA FALSE MW-19 33%KW TRUE MW-20 36%KW TRUE 1,4-Dichlorobenzene MW-13 57%KW TRUE MW-16R 0%PA TRUE MW-17R 0%PA FALSE cis-1,2-Dichloroethene MW-13 49%KW TRUE MW-16R 0%PA TRUE MW-17R 0%PA FALSE MW-19 61%KW TRUE MW-20 66%KW TRUE First SSI in April 2015 Acetone MW-13 52%KW TRUE Concentrations vary from non-detect to detect MW-17R 0%KW FALSE Benzene MW-13 35%KW TRUE MW-16R 0%PA TRUE MW-17R 0%PA FALSE MW-19 67%KW FALSE Chlorobenzene MW-16R 50%KW TRUE Methylene Chloride MW-13 46%KW TRUE Concentrations have decreased over time MW-17R 0%PA TRUE First Detection and First SSI in April 2015 MW-19 49%KW TRUE Concentrations have decreased over time MW-20 49%KW TRUE Concentrations have decreased over time Tetrachloroethene MW-13 50%KW TRUE MW-17R 0%PA FALSE MW-19 52%KW TRUE Toluene MW-13 70%KW TRUE Concentrations vary from non-detect to detect Trichloroethene MW-13 50%KW TRUE MW-14 89%PL FALSE MW-17R 0%PA FALSE MW-19 54%KW TRUE Trichlorofluoromethane MW-19 67%KW TRUE Concentrations vary from non-detect to detect Vinyl Chloride MW-13 63%KW TRUE Non-Detect in April 2015 MW-16R 0%KW TRUE Concentrations have decreased over time Xylenes (Total)MW-13 42%KW TRUE MW-16R 0%PA TRUE Concentrations vary from non-detect to detect MW-17R 0%PA TRUE First Detection and First SSI in April 2015 MW-19 72%KW FALSE Table 11 April 2016 Statistical Analysis for Phase 1 and Area "E" Lincoln County Landfill S&ME Project No. 1356-07-004 Page 1 of 3 Statistical Percent Analysis Parameter Well ID Non-Detect Method SSI Comments Table 11 April 2016 Statistical Analysis for Phase 1 and Area "E" Lincoln County Landfill S&ME Project No. 1356-07-004 Antimony MW-8 93%PL FALSE MW-9 77%KW FALSE MW-14 57%KW FALSE MW-19 59%KW FALSE Arsenic MW-13 48%KW TRUE Concentrations vary from non-detect to detect MW-16R 0%KW TRUE Non-detect in April 2015 Barium MW-8 39%KW FALSE MW-9 36%KW FALSE MW-10R 0%KW TRUE MW-12R 40%KW TRUE MW-13 35%KW TRUE MW-14 46%KW FALSE MW-15 22%KW TRUE MW-16R 0%PA TRUE MW-17R 0%PA FALSE MW-18 33%KW FALSE MW-19 51%KW FALSE MW-20 33%KW FALSE Beryllium MW-8 46%KW TRUE MW-15 40%KW TRUE Concentrations have decreased over time MW-17R 0%KW FALSE Chromium MW-8 32%KW FALSE MW-9 36%KW FALSE MW-10R 50%KW FALSE MW-13 41%KW FALSE MW-16R 0%PA FALSE MW-17R 0%PA FALSE Cobalt MW-8 32%KW TRUE Dry from Apr 2011 to Oct 2013, October 2015 MW-12 30%KW TRUE MW-13 0%PA TRUE MW-14 78%KW FALSE MW-16R 0%PA FALSE MW-17R 0%PA TRUE Copper MW-8 57%KW FALSE MW-14 43%KW FALSE MW-18 56%KW FALSE MW-19 77%KW FALSE Page 2 of 3 Statistical Percent Analysis Parameter Well ID Non-Detect Method SSI Comments Table 11 April 2016 Statistical Analysis for Phase 1 and Area "E" Lincoln County Landfill S&ME Project No. 1356-07-004 Lead MW-8 57%KW FALSE MW-16 50%KW TRUE Non-Detect in April 2015, Detection in October 2015 Nickel MW-12 59%KW FALSE MW-13 48%KW FALSE MW-14 50%KW FALSE MW-16R 50%KW FALSE MW-17R 0%PA FALSE Thallium MW-8 75%KW FALSE MW-12 65%KW FALSE MW-13 46%KW TRUE MW-16R 0%KW FALSE MW-17R 0%PA FALSE MW-18 64%KW FALSE Vanadium MW-8 32%KW FALSE MW-9 60%KW FALSE MW-10R 50%KW FALSE MW-17R 0%KW FALSE MW-18 62%KW FALSE MW-19 79%KW FALSE Zinc MW-8 36%KW FALSE MW-10R 0%KW FALSE MW-12 0%PA TRUE Concentrations have decreased over time MW-14 22%KW FALSE MW-17R 0%KW FALSE MW-19 67%KW FALSE Wells with "R" suffix replace wells with the same MW-# name. This change reset the non-detection counts Page 3 of 3 Statistical Percent Analysis Parameter Well ID Non-Detect Method SSI Comments Acetone MW-21 89%PL FALSE Antimony MW-25A 47%KW FALSE Barium MW-21 33%KW FALSE MW-24 39%KW FALSE MW-25 40%KW TRUE trend of increasing concentration over time MW-25A 33%KW FALSE Beryllium MW-21 53%KW FALSE MW-24 53%KW FALSE MW-25 54%KW FALSE Cadmium MW-25 89%PL FALSE Chromium MW-25A 31%KW FALSE Cobalt MW-21 83%KW FALSE MW-24 86%KW FALSE MW-25A 53%KW FALSE Copper MW-25A 72%KW FALSE Nickel MW-25 69%KW FALSE Thallium MW-24 75%KW FALSE MW-25 89%PL FALSE Vanadium MW-21 69%KW FALSE MW-25A 44%KW FALSE Zinc MW-24 44%KW FALSE MW-25 46%KW FALSE MW-25A 50%KW FALSE Table 12 April 2016 Statistical Analysis for Phase 2 Lincoln County Landfill S&ME Project No. 1356-07-004 Page 1 of 1 Statistical Percent Analysis Parameter Well ID Non-Detect Method SSI Comments Antimony MW-33A 32%KW TRUE Barium MW-32R 0%PA FALSE MW-33 8%PA FALSE MW-33A 24%KW TRUE MW-34 8%PA FALSE MW-35 8%PA FALSE MW-35A 8%PA FALSE Beryllium MW-32R 0%KW FALSE MW-33 44%KW FALSE MW-34 36%KW TRUE MW-35 42%KW FALSE Cadmium MW-33A 88%PL FALSE Chromium MW-32R 0%KW FALSE MW-35A 28%KW FALSE Cobalt MW-34 24%KW TRUE But less than certain historic background concentrations Copper MW-32R 0%KW FALSE MW-33A 36%KW FALSE MW-34 68%KW FALSE Lead MW-32R 0%KW FALSE Nickel MW-34 52%KW FALSE Thallium MW-34 32%KW TRUE Vanadium MW-32R 0%KW FALSE MW-33A 76%KW FALSE MW-35A 24%KW FALSE Zinc MW-32R 0%KW FALSE MW-33A 24%KW FALSE MW-34 20%KW FALSE MW-35 21%KW FALSE MW-35A 36%KW FALSE Table 13 April 2016 Statistical Analysis for Phase 3 Lincoln County Landfill S&ME Project No. 1356-07-004 Page 1 of 1 Notes: (1) SSI = Statistically Significant Increase (2) PA = One Way Parametric Analysis of Variance (Parametric ANOVA) The parametric ANOVA analysis is recommended by the 1992 guidance document for parameters with fewer than 15% non-detects in a specific well. (3) KW = Kruskal Wallis Non-Parametric Rank Analysis The Kruskal-Wallis method is recommended by the 1992 guidance document for parameters that have 15% to 90% non-detects in a specific well. (4) PL = Non-Parametric Inter-Well Prediction Limit Analysis The prediction limit was used for parameters with greater than 90% non-detects in a specific well. The 1992 guidance document recommends this method when a significant portion of the samples are non-detect. Notes for Tables 11 through 13 S&ME Project No. 1356-07-004 Appendix III – Well Sampling Logs and Laboratory Reports Appendix IV – Statistical Analysis Procedures Appendix V – Graphs Depicting Concentrations over Time for Wells with a Statistically Significant Increase 0 10 20 30 40 50 60 70 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date 1,1 - Dichloroethane Phase 1 and Area "E" Wells With SSI MW-13 MW-14 MW-16 MW-19 MW-20 Note: Non-DetectValues are Set at Method DetectionLimits 0 1 2 3 4 5 6 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date 1,4 - Dichlorobenzene Phase 1 and Area "E" Wells With SSI MW-13 MW-16 Note: Non-DetectValues are Set at Method DetectionLimits 0 100 200 300 400 500 600 700 800 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date Acetone Phase 1 and Area "E" Wells With SSI MW-13 Note: Non-DetectValues are Set at Method DetectionLimits 0 10 20 30 40 50 60 70 80 90 100 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Arsenic Phase 1 and Area "E" Wells With SSI MW-13 MW-16 Note: Non-Detect Values are Set at Method DetectionLimits 0 2000 4000 6000 8000 10000 12000 14000 16000 18000 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Barium Phase 1 and Area "E" Wells With SSI MW-15 MW-16 MW-10 MW-12 MW-13 Note: Non-Detect Values are Set at Method DetectionLimits 0 2 4 6 8 10 12 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Benzene Phase 1 and Area "E" Wells With SSI MW-13 MW-16 Note: Non-Detect Values are Set at Method DetectionLimits 0 5 10 15 20 25 30 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Beryllium Phase 1 and Area "E" Wells With SSI MW-15 Note: Non-Detect Values are Set at Method DetectionLimits 0 2 4 6 8 10 12 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/2005 6/5/2008 3/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date cis-1,2-Dichloroethane Phase 1 and Area "E" Wells With SSI MW-13 MW-16 MW-19 MW-20 Note: Non-DetectValues are Set at Method DetectionLimits 0 1 2 3 4 5 6 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Chlorobenzene Phase 1 and Area "E" Wells With SSI MW-16 Note: Non-Detect Values are Set at Method DetectionLimits 0 5 10 15 20 25 30 35 40 45 50 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Chloroethane Phase 1 and Area "E" Wells With SSI MW-13 MW-16 Note: Non-Detect Values are Set at Method DetectionLimits 0 100 200 300 400 500 600 700 800 900 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Cobalt Phase 1 and Area "E" Wells With SSI MW-12 MW-13 MW-17 MW-8 Note: Non-Detect Values are Set at Method DetectionLimits 0 10 20 30 40 50 60 70 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Lead Phase 1 and Area "E" Wells With SSI MW-16 Note: Non-Detect Values are Set at Method DetectionLimits 0 10 20 30 40 50 60 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Methylene Chloride Phase 1 and Area "E" Wells With SSI MW-13 MW-16 MW-19 MW-20 MW-17 Note: Non-Detect Values are Set at Method DetectionLimits 0 1 2 3 4 5 6 7 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Tetrachloroethene Phase 1 and Area "E" Wells With SSI MW-13 MW-19 Note: Non-Detect Values are Set at Method DetectionLimits 0 5 10 15 20 25 30 1/1/19929/27/19946/23/19973/19/200012/14/20029/9/20056/5/20083/2/201111/26/20138/22/20165/19/2019 C o n c e n t r a t i o n (u g /L ) Date Thallium Phase 1 and Area "E" Wells With SSI MW-13 Note: Non-Detect Values are Set at Method DetectionLimits 0 2 4 6 8 10 12 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date Toluene Phase 1 and Area "E" Wells With SSI MW-13 Note: Non-DetectValues are Set at Method DetectionLimits 0 1 2 3 4 5 6 7 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date Trichloroethene Phase 1 and Area "E" Wells With SSI MW-13 MW-19 Note: Non-DetectValues are Set at Method DetectionLimits 0 1 2 3 4 5 6 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date Trichlorofluoromethane Phase 1 and Area "E" Wells With SSI MW-19 Note: Non-DetectValues are Set at Method DetectionLimits 0 5 10 15 20 25 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date Vinyl Chloride Phase 1 and Area "E" Wells With SSI MW-13 MW-16 Note: Non-DetectValues are Set at Method DetectionLimits 0 5 10 15 20 25 30 35 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date Total Xylenes Phase 1 and Area "E" Wells With SSI MW-13 MW-16 MW-17 Note: Non-DetectValues are Set at Method DetectionLimits 0 1000 2000 3000 4000 5000 6000 7000 1/1/1992 9/27/1994 6/23/1997 3/19/2000 12/14/2002 9/9/2005 6/5/2008 3/2/2011 11/26/2013 8/22/2016 5/19/2019 C o n c e n t r a t i o n (u g /L ) Date Zinc Phase 1 and Area "E" Wells With SSI MW-12 Note: Non-DetectValues are Set at Method DetectionLimits 0 5 10 15 20 25 30 35 1/14/2004 5/28/2005 10/10/2006 2/22/2008 7/6/2009 11/18/2010 4/1/2012 8/14/2013 12/27/2014 5/10/2016 9/22/2017 C o n c e n t r a t i o n (u g /L ) Date Antimony Phase 3 Wells With SSI MW-33A Note: Non-DetectValues are Set at Method DetectionLimits 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 1/14/2004 5/28/2005 10/10/2006 2/22/2008 7/6/2009 11/18/2010 4/1/2012 8/14/2013 12/27/2014 5/10/2016 9/22/2017 C o n c e n t r a t i o n (u g /L ) Date Beryllium Phase 3 Wells With SSI MW-34 Note: Non-DetectValues are Set at Method DetectionLimits 0 5 10 15 20 25 30 1/14/2004 5/28/2005 10/10/2006 2/22/2008 7/6/2009 11/18/2010 4/1/2012 8/14/2013 12/27/2014 5/10/2016 9/22/2017 C o n c e n t r a t i o n (u g /L ) Date Cobalt Phase 3 Wells With SSI MW-34 Note: Non-DetectValues are Set at Method DetectionLimits 0 2 4 6 8 10 12 1/14/2004 5/28/2005 10/10/2006 2/22/2008 7/6/2009 11/18/2010 4/1/2012 8/14/2013 12/27/2014 5/10/2016 9/22/2017 C o n c e n t r a t i o n (u g /L ) Date Thallium Phase 3 Wells With SSI MW-34 Note: Non-DetectValues are Set at Method DetectionLimits Appendix VI– Monthly Methane Data (November 2015-April 2016)