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Journal of Environmental Science and Health, Part A
Toxic/Hazardous Substances and Environmental Engineering
Volume 50, 2015 - Issue 5: Facing the Challenges – Research on Shale Gas Extraction
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ARTICLES

Well water contamination in a rural community in southwestern Pennsylvania near unconventional shale gas extraction

Shyama K. AlawattegamaCenter for Environmental Research and Education, Duquesne University, Pittsburgh, Pennsylvania, USA
,
Tetiana KondratyukDepartment of Biological Sciences, Duquesne University, Pittsburgh, Pennsylvania, USA
,
Renee KrynockCenter for Environmental Research and Education, Duquesne University, Pittsburgh, Pennsylvania, USA
,
Matthew BrickerCenter for Environmental Research and Education, Duquesne University, Pittsburgh, Pennsylvania, USA
,
Jennifer K. RutterCenter for Environmental Research and Education, Duquesne University, Pittsburgh, Pennsylvania, USA
,
Daniel J. BainDepartment of Geology and Planetary Science, University of Pittsburgh, Pittsburgh, Pennsylvania, USA
&
John F. StolzCenter for Environmental Research and Education, Duquesne University, Pittsburgh, Pennsylvania, USA;Department of Biological Sciences, Duquesne University, Pittsburgh, Pennsylvania, USACorrespondence[email protected]
 show all
Pages 516-528 | Published online: 03 Mar 2015

References

  • Swistock, B.R.; Clemens, S.; Sharpe, W.E. Drinking water quality in rural Pennsylvania and the effect of management practices. The Center for Rural Pennsylvania: Harrisburg, PA, 2009.
  • Swistock, B.R.. Gas well drilling and your private water supply. Penn State College of Agricultural Sciences Cooperative Extension: Harrisburg, PA, 2010.
  • Boyer, E.W.; Swistock, B.R.; Clark, J.; Madden M.; Rizzo, D.E. The impact of Marcellus gas drilling on rural drinking water supplies. The Center for Rural Pennsylvania: Harrisburg, PA, 2012.
  • Sloto, R.A. Baseline groundwater quality from 20 domestic wells in Sullivan County, Pennsylvania, 2012. U.S. Geological Survey Scientific Investigations Report 2013-5085; Reston, VA, 2013.
  • Groundwater Protection Council (GWPC), Modern Shale Gas Development in the United States: A Primer, prepared for the U.S. Department of Energy, National Energy Technology Laboratory (NETL) 2009.
  • U.S. Environmental Protection Agency. Study of the potential impacts of hydraulic fracturing on drinking water resources: progress report. EPA601R-12011, 2012.
  • Gregory, K.; Vidic, R.; Dzombak, D. Water management challenges associated with the production of shale gas by hydraulic fracturing. Elements 2011, 7, 181–186.
  • Vidic, R.D.; Brantley, S.L.; Vandenbossche, J.M.; Yoxtheimer, D.; Abad, J.D. Impact of shale gas development on regional water quality. Science 2013, 340, 1235009.
  • Vengosh, A.; Warner, N.; Jackson, R.; and Darrah, T. The effects of shale gas exploration and hydraulic fracturing on the quality of water resources in the United States. Procedia Earth and Planetary Science 3013, 7, 863–866.
  • Vengosh, A., Jackson, R.B., Warner, N.; Darrah, T.H.; and Kondash, A. A critical review of the risks to water resources from unconventional shale gas development and hydraulic fracturing in the United States. Environ. Sci. Tech. 2014, 48(15), 8334–8348.
  • Harrison, S. Evaluating system for ground-water contamination hazards due to gas- well drilling on the glaciated Appalachian Plateau. Ground Water 1983, 21, 689–700.
  • Harrison, S. Contamination of aquifers by over pressuring the annulus of oil and gas wells. Ground Water 1985, 23, 317–324.
  • Osborn S.G., Vengosh A.; Warner N. R.; and Jackson, R.B. Methane contamination of drinking water accompanying gas-well drilling and hydraulic fracturing. P. Nat. Acad. Sci. 2011, 108, 8172–8176.
  • Warner, N.R.; Jackson, R.B.; Darrah, T.H.; Osborn, S.G.; Down, A., Zhao, K., White, A. and Vengosh, A. Geochemical evidence for possible natural migration of Marcellus formation brine to shallow aquifers in Pennsylvania. P. Nat. Acad. Sci. 2012, 109, 11961–11966.
  • Myers, T. Potential contamination pathways from hydraulically fractured shale to aquifers. Ground Water 2012, 50, 872–882.
  • Saiers, J.E. and Barth, E. Potential contaminant pathways from hydraulically fractured shale aquifers. Ground Water 2012, 50, 826–826.
  • Jackson, R.B.; Vengosh, A.; Darrah, T.H.; Warner, N.R.; Down, A.; Poreda, R.J.; Osborn, S.G.; Zhao, K.; and Karr, J.D. Increased stray gas abundance in a subset of drinking water wells near Marcellus shale gas extraction. P. Nat. Acad. Sci. 2013, 110, 11250–11255.
  • Kang, M. CO2, Methane, and Brine Leakage Through Subsurface Pathways: Exploring Modeling, Measurement, and Policy Options. PhD Dissertation, Princeton University. 2014. 131 p.
  • Ingraffea, A.R.; Wells, M.T.; Santoro, R.L.; and Shonkoff, S.B.C. Assessment and risk analysis of casing and cement impairment in oil and gas wells in Pennsylvania, 2000–2012. P. Nat. Acad. Sci. 2014, 111(30), 10955–10960.
  • Chapman, M.J.; Gurley, L.N. and Fitzgerald, S.A. Baseline well inventory and groundwater-quality data from a potential shale gas resource area in parts of Lee and Chatham Counties, North Carolina, October 2011- August 2012. U.S. Department of Interior and U.S. Geological Survey, Data Series 861. 2014.
  • Richardson, G.B. Geology and Mineral Resources of the Butler and Zelienople Quadrangles Pennsylvania, Geological Survey Bulletin 873. United States Department of Interior. United States Printing Office, 1936.
  • History of Butler County, Pennsylvania, 1895. R.C. Brown Co. http://www.rootsweb.ancestry.com/~pabutler/1895/ (accessed Nov 2014).
  • Associated Press. Connoquenessing WESA Pittsburgh NPR Station, 2012. Available at http://wesa.fm/post/connoquenessing-water-ok (accessed Nov 2014).
  • Khan, N. 2014. A day in the life of a water bank. Available at http://publicsource.org/investigations/day-life-of-water-bank#.VGy5h4elpL0 ( accessed May 2014).
  • Frazier, R. 2014. Fracking and groundwater contamination? It's complicated. Allegheny Front. Available at http://www.alleghenyfront.org/story/fracking-and-groundwater-contamination-its-complicated. ( accessed Jul 2014).
  • U.S. Environmental Protection Agency Method 300.0 Determination of inorganic anions by ion chromatography. Available at http://water.epa.gov/scitech/methods/cwa/bioindicators/upload/2007_07_10_methods_method_300_0.pdf. 2007 (accessed Jun 2014).
  • Kondratyuk, T.; Eastham, J.L.; Rutter, J.K.; Bain, D.J.; Basu, P.; Stolz, J.F. Application of anion analysis for chemical characterization of fluids associated with Marcellus Shale gas extraction. Appl. Geochem. 2015, in press.
  • U.S. Environmental Protection Agency Method 200.8 Determination of trace elements in waters and wastes by inductively coupled plasma – mass spectrometry. http://water.epa.gov/scitech/method/scwa/bioindicators/upload/2007_07_10_methods_method_200_8.pdf. 2007 ( accessed Jun 2014).
  • U.S. Environmental Protection Agency. Protocol for Developing Pathogen TMDLs. EPA 841-R-00-002. Office of Water (4503F), United States Environmental Protection Agency, Washington, DC, 2001.
  • Pennsylvania Spatial Data Access (PASDA) and Pennsylvania Geospatial Data Clearinghouse. Available at http://www.pasda.psu.edu/ ( accessed Jun 2014).
  • Pennsylvania Department of Conservation and Natural Resources (PA DCNR) Available at http://www.dcnr.state.pa.us (accessed Jun 2014).
  • Pennsylvania Department of Environmental Protection (PA DEP) Available at http://www.depweb.state.pa.us/portal/server.pt/community/dep_home/5968 (accessed Jun 2014).
  • Lytle, W.S. Oil fields of the greater Pittsburgh region. Mineral Resource Report 70. Pennsylvania Geological Survey, Harrisburg PA. 1976.
  • U.S. Fish and Wildlife Service. National Wetlands Inventory. Wetlands mapper. Available at http://www.fws.gov/wetlands/data/mapper.HTML ( accessed Oct 2014.)
  • Citizen Marcellus Shale Commission. Marcellus Shale: A Citizens View. Pennsylvania Budget and Policy Center: Harrisburg, PA. 2011. 69 p.
  • Blauch, M.; Myers, R.; Moore, T.; and Houston, N. Marcellus Shale post-frac flowback waters - where is all the salt coming from and what are the implications? Society of Petroleum Engineers International 2009. SPE 125740.
  • Palmerton Group PADEP Frac flow-back water study: presence of inorganics. Available at http://www.palmertongroup.compdfPADEP%20Frac%20Flow_Back%20Water%20Study_%20Presence%20of%20Ino-rganics.pdf, ed. 2010 ( accessed Jun 2014).
  • Chapman, E.C.; Capo, R.C.; Stewart, B.W.; Kirby, C.S.; Hammack, R.W.; Schroeder, K.T.; and Edenborn, H. M. Geochemical and strontium isotope characterization of produced waters from Marcellus shale natural gas extraction. Envir. Sci. Tech. 2011, 46, 3545–3553.
  • Balaba, R.S., and Smart, R.B. Total arsenic and selenium analysis in Marcellus shale, high-salinity water, and hydrofracture flowback wastewater. Chemosphere 2012, 89, 1437–1442.
  • Rowan, E.L.; Engle, M.A.; Kirby, C.S.; and Kraemer, T.F. Radium content in oil-and gas-field produced waters in the Northern Appalachian Basin (USA): summary and discussion of data. U.S. Geological Survey Scientific Investigations Report 2011-5135; Reston, VA, 2011.
  • Brown, V.J. Radionuclides in fracking waste water: managing a toxic blend. Environ. Health Perspect. 2014, 122, A50–55.
  • Swistock, B.R.; Sharpe, W.E.; Clark, J. A. Water tests: What do the numbers mean? Penn State Cooperative Extension. College of Agricultural Sciences. University Park, The Pennsylvania State University, 2003.
  • Zimmerman, T.M.; Zimmerman, M.L., and Lindsey, B.D. Relation between selected well-construction characteristics and occurrence of bacteria in private household-supplly wells, Southcentral and Southeastern Pennsylvania. U.S. Geological Survey Water Resources Investigations Report 01-4206, 2001.
  • Davis, S.N.; Whittemore, D.O.; Fabryka-Martin, J. Uses of Chloride/Bromide ratios in studies of potable water. Groundwater 1998, 36(2), 338–350.
  • Cartwright, I.; Weaver, T.R.; Fifield, L.K. Cl/Br ratios and environmental isotopes as indicators of recharge variability and groundwater flow: An example from the southeast Murray Basin, Australia. Chem. Geol. 2006, 231, 38–56.
  • Leybourne, M.I.; Goodfellow, W.D. Br/Cl ratios and O, H, C, and B isotope constraints on the origin of saline waters from eastern Canada. Geochem. Cosmochem. Acta. 2007, 71, 2209–2223.
  • Alcala, F.J. and Custodio, E. Using the ClBr ratio as a tracer to identify the origin of salinity in aquifers in Spain and Portugal. J. Hydrol. 2008, 359, 189–207.
  • Katz, B.G.; Eberts, S.M.; and Kauffman, L.J. Using ClBr ratios and other indicators to assess potential impacts of groundwater quality from septic systems: A review and examples from principal aquifers in the United States. J. Hydrol. 2011, 39, 151–166.
  • Haluszczak, L.O.; Rose, A.W.; and Kump, L.R. Geochemical evaluation of flowback brine from Marcellus gas wells in Pennsylvania, USA. App. Geochem. 2013, 28, 55–61.
  • U.S. Environmental Protection Agency. National Primary Drinking Water Regulations. EPA 816-F-09-004; US EPA: Washington, DC, 2009.
  • Crossgrove, J. and Zheng, W. Manganese toxicity upon overexposure. NMR Biomed. 2014, 17, 544–553.
  • Aschner, M.; Erikson, K.M.; Herrero Hernandez, E.; and Tjalkens, R. Manganese and its role in Parkinson's disease: From transport to neuropathology. Neuromol. Med. 2009, 11(4), 252–266.
  • Wasserman, G.A.; Liu, X.; Parvez, F.; Ahsan, H.; Levy, D.; Factor-Litvak, P.; Kline, J.; van Geen, A.; Slavkovich, V.; Lolacono, N.J.; Cheng, Z.; Zheng, Y.; and Graziano, J.H. Water manganese exposure and children's intellectual function in Araihazar, Bangladesh. Environ. Health Persp. 2006, 114(1), 124–129.
  • Khan, K.; Wasserman, G.A.; Liu, X.; Ahmed, E.; Parvez, F.; Slavkovich, V.; Levy, D.; Mey, J.; van Geen, A.; Graziano, J.H.; and Factor-Litvak, P. Manganese exposure from drinking water and children's academic achievement. NeuroToxicology 2012, 33, 91–97.
  • PA DEP Little Connoquenessing Creek watershed TMDL Butler County. Technical Report. PA DEP: Harrisburg PA, 2009.
  • Oremland, R.S. Biogeochemistry of methanogenic bacteria. In Biology of Anaerobic Microorganisms; Zehnder, A.J.B., Ed. John Wiley and Sons; Hoboken NJ. 1988. 641–690.
  • Molofsky, L.J.; Conner, J.A.; Farhat, S.K.; Wylie, A.S. Wagner, T. Methane in Pennsylvania water wells unrelated to Marcellus Shale fracturing. Oil Gas J. 2011, 109, 54–67.
  • Molofsky, L.J.; Conner, J.A.; Wylie, A.S.; Wagner, T.; Farhat, S.K. Evaluation of methane sources in groundwater in Northeastern Pennsylvania. Groundwater 2013, 51, 333–349.
  • Engelder, T.; Lash, G.G.; Uzcategui, R.S. Joint sets that enhance the production of Middle and Upper Devonian gas shales of the Appalachian Basin. AAPG Bull. 2009. 95, 1399–1422.

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