McDevitt, B., McLaughlin, M., Cravotta, C.A. III, Ajemigbitsea, M.A., Van Sice, K.J., Blotevogel, J., Borch, T., and Warner, N.R. (2019) Emerging investigator series: radium accumulation in carbonate river sediments at oil and gas produced water discharges: implications for beneficial use as disposal management: Environmental Science: Processes & Impacts, v. 21, 324-338, https://doi.org/10.1039/c8em00336j.
Charles A Cravotta, III, PhD, PG
Charles "Chuck" Cravotta is a research hydrologist whose projects focus on geochemical and hydrological processes that control water quality, particularly the sources, transport, and attenuation of metals and nutrients in undisturbed and mining-impacted watersheds and aquifers. Results apply to scientific and regulatory programs for the prevention and remediation of aquatic contamination.
Biography
Education
1979 B.A. Environmental Sciences, University of Virginia
1980-82 Continuing education, George Mason University
1986 M.S. Geochemistry and Mineralogy, Pennsylvania State University
1996 Ph.D. Geochemistry and Mineralogy, Pennsylvania State University
Professional Assignments
1987-present: Research Hydrologist, USGS, Pennsylvania Water Science Center, New Cumberland, Pennsylvania
1986-1987: Geochemist, IT Corporation, Monroeville, Pennsylvania
1982-1986: Graduate Teaching and Research Assistant, Geosciences Department, Pennsylvania State University, University Park, Pennsylvania
1979-1982: Geologist, Office of Scientific Publications, Geologic Division, USGS, Reston, Virginia
1979: Geologic Technician, Virginia State Water Control Board, Alexandria, Virginia
Professional Affiliations and Certification
2018-present: Adjunct Instructor, Earth and Environmental Sciences, University of Pittsburgh
2011-2016: Associate Editor, Mine Water and the Environment Journal, International Mine Water Association
2001-2005: Adjunct Assistant Professor of Environmental Engineering, Pennsylvania State University, Harrisburg, Pennsylvania
1995-present: Registered Professional Geologist in Pennsylvania PG-002255-G
Awards and Recognition
The Society for Organic Petrology Dalaway J. Swain Award “Best Refereed Paper”, 2016
Department of Interior Partners in Conservation Award (AMDTreat Development Team), 2013
Top 50 Most-Cited Papers in "Applied Geochemistry" (2006-2011)
Department of Interior Superior Service Award, 2005
Schuylkill County Conservation Professional of the Year Award, 2003
Department of Interior Honor Award, 2000
Pennsylvania Department of Environmental Protection Award for Excellence, 1999
External Research Database
Science and Products
Year Published: 2000
Geochemical investigations by the U.S. Geological Survey on uranium mining, milling, and environmental restoration
Recent research by the U.S. Geological Survey has characterized contaminant sources and identified important geochemical processes that influence transport of radionuclides from uranium mining and milling wastes. 1) Selective extraction studies indicated that alkaline earth sulfates and hydrous ferric oxides are important hosts of 226Ra in uranium...
Landa, Edward R.; Cravotta, Charles A. ; Naftz, David L.; Verplanck, Philip L.; Nordstrom, D. Kirk; Zielinski, Robert A.
Year Published: 1999
Hydrobiogeochemical interactions in 'anoxic' limestone drains for neutralization of acidic mine drainage
Processes affecting neutralization of acidic coal mine drainage were evaluated within 'anoxic' limestone drains (ALDs). Influents had pH???3.5 and dissolved oxygen <2 mg/l. Even though effluents were near neutral (pH 6 and alkalinity acidity), two of the four ALDs were failing due to clogging. Mineral-saturation indices indicated the potential...
Robbins, E.I.; Cravotta, C.A.; Savela, C.E.; Nord, G.L.View Citation
Hydrobiogeochemical interactions in 'anoxic' limestone drains for neutralization of acidic mine drainage; 1999; Article; Journal; Fuel; Robbins, E. I.; Cravotta, III, C. A.; Savela, C. E.; Nord, Jr. , G. L.
Year Published: 1998
Oxic limestone drains for treatment of dilute, acidic mine drainage
Limestone treatment systems can be effective for remediation of acidic mine drainage (AMD) that contains moderate concentrations of dissolved O2 , Fe3+ , or A13+ (1‐5 mg‐L‐1 ). Samples of water and limestone were collected periodically for 1 year at inflow, outflow, and intermediate points within underground, oxic limestone drains (OLDs) in...
Cravotta, Charles A.
Year Published: 1998
Effect of sewage sludge on formation of acidic ground water at a reclaimed coal mine
Data on rock, ground water, vadose water, and vadose gas chemistry were collected for two years after sewage sludge was applied at a reclaimed surface coal mine in Pennsylvania to determine if surface-applied sludge is an effective barrier to oxygen influx, contributes metals and nutrients to ground water, and promotes the acidification of ground...
Cravotta, C.A.View Citation
Effect of sewage sludge on formation of acidic ground water at a reclaimed coal mine; 1998; Article; Journal; Ground Water; Cravotta, III, C. A.
Year Published: 1996
Oxygen transport and pyrite oxidation in unsaturated coal-mine spoil
An understanding of the mechanisms of oxygen (02) transport in unsaturated mine spoil is necessary to design and implement effective measures to exclude 02 from pyritic materials and to control the formation of acidic mine drainage. Partial pressure of oxygen (Po2) in pore gas, chemistry of pore water, and temperature were measured at different...
Guo, Weixing; Cravotta, Charles A.
Year Published: 1995
Use of stable isotopes of carbon, nitrogen, and sulfer to identify sources of nitrogen in surface waters in the Lower Susquehanna River basin, Pennsylvania
Stable isotopes of carbon (C), nitrogen (N), and sulfur (S) in nitrogen sources and nearby samples of topsoil, subsoil, runoff water, and stream water were measured to evaluate the feasibility of using isotopic data to identify nitrogen sources in stream water from forested, agricultural, or suburban land-use areas. Chemical and isotopic...
Cravotta, C.A.Attribution: Pennsylvania Water Science Center, Water Resources, , Region 1: North Atlantic-Appalachian
View Citation
Use of stable isotopes of carbon, nitrogen, and sulfer to identify sources of nitrogen in surface waters in the Lower Susquehanna River basin, Pennsylvania; 1995; OFR; 94-510; Cravotta, C. A., III
Year Published: 1994
Effects of selective handling of pyritic, acid-forming materials on the chemistry of pore gas and ground water at a reclaimed surface coal mine in Clarion County, PA, USA
A change from dragline to “selective handling” mining methods at a reclaimed surface coal mine in western Pennsylvania did not significantly affect concentrations of metals in ground water because oxidation of pyrite and dissolution of siderite were not abated. Throughout the mine, placement of pyritic material near the land surface facilitated...
Cravotta, Charles A.; Dugas, Diana L.; Brady, Keith; Kovalchuck, Thomas E.
Year Published: 1994
Geochemical and geohydrological characteristics of bedrock and spol from two methods of mining at a reclaimed surface coal mine, Clarion County, PA, USA
Two methods of mining caused subtle differences in geochemical and geohydrological characteristics of spoil at a reclaimed surface coal mine in western Pennsylvania. A dragline was used in the southern area of the mine, and bulldozers and front-end loaders were used in the northern area. Mining methods used in the intervening, middle area are...
Cravotta, Charles A.; Brady, Keith; Gustafson-Minnich, Linda C.; DiMatteo, Michael R.
Year Published: 1993
Water-quality data for two surface coal mines reclaimed with alkaline waste or urban sewage sludge, Clarion County, Pennsylvania, May 1983 through November 1989
Water-quality and other hydrologic data for two surface coal mines in Clarion County, Pa., were collected during 1983-89 as part of studies conducted by the U.S. Geological Survey in cooperation with the Pennsylvania Department of Environmental Resources. Water samples were collected from streams, seeps, monitor wells, and lysimeters on a monthly...
Dugas, D.L.; Cravotta, C.A.; Saad, D.A.Attribution: Pennsylvania Water Science Center, Water Resources, , Region 1: North Atlantic-Appalachian
View Citation
Water-quality data for two surface coal mines reclaimed with alkaline waste or urban sewage sludge, Clarion County, Pennsylvania, May 1983 through November 1989; 1993; OFR; 93-115; Dugas, D. L.; Cravotta, C. A., III; Saad, D. A.
Year Published: 1992
Acid base accounting--An improved method of interpreting overburden chemistry to predict the quality of coal-mine drainage
Acidic mine drainage (AMD), which results from the accelerated oxidation of pyrite (FeS2 ) in mined coal and overburden, has contaminated thousands of miles of streams in the Appalachian region of the United States. Acid‐base accounting (ABA), which simplifies the complex hydrogeochemical system through use of a limited number of variables,...
Brady, Keith; Cravotta, Charles A.
Year Published: 1991
Geochemical evolution of acidic ground water at a reclaimed surface coal mine in western Pennsylvania
Concentrations of dissolved sulfate and acidity in ground water increase downflow in mine spoil and underlying bedrock at a reclaimed surface coal mine in the bituminous field of western Pennsylvania. Elevated dissolved sulfate and negligible oxygen in ground water from bedrock about 100 feet below the water table suggest that pyritic sulfur is...
Cravotta, Charles A.
Year Published: 1990
Effectiveness of the addition of alkaline materials at surface coal mines in preventing or abating acid mine drainage--Part 1. Geochemical considerations
The addition of alkaline materials to supplement deficient "neutralization potential" (NP) of mine spoil, and thus to prevent or abate acid mine drainage, has riot been successful at most surface coal mines in Pennsylvania. A basic problem may have been improper accounting for acid‐production potential and thus inadequate addition rates of calcium...
Cravotta, Charles A.; Brady, Keith; Smith, Michael W.; Beam, Richard L.Pre-USGS Publications
Cravotta, C.A. III (2013) Apparent rates of Fe(II) oxidation and associated hydrogeochemical interactions in an extensively mined watershed, Pennsylvania, USA, in Brown A, Figueroa L, Wolkersdorfer Ch (eds) Reliable Mine Water Technology: International Mine Water Association 2013 Symposium, Golden, Colorado, vol I, p. 319-324.
Cravotta, C.A. III, and Geroni, J.N. (2013) Effects of CO2 on pH and oxidation rates of Fe(II) in mining affected waters, in Brown A, Figueroa L, Wolkersdorfer Ch (eds) Reliable Mine Water Technology: International Mine Water Association 2013 Symposium, Golden, Colorado, vol II, p. 949-954.
Han, Y., Wang, G., Cravotta, C.A., III, Hu, W., Bian, Y., Zhang, Z. and Liu, Y., 2013, Hydrogeochemical evolution of Ordovician limestone groundwater in Yanzhou, North China: Hydrological Processes, https://doi.org/10.1002/hyp.9297.
Cravotta, C.A., III, Parkhurst, D.L., Means, B., McKenzie, R., and Arthur, W. (2010) Using the computer program AMDTreat with a PHREEQC titration module to compute caustic quantity, effluent quality, and sludge volume, in International Mine Water Association 2010 Symposium, Sydney, Nova Scotia, Canada.
Cravotta, C.A., III, Parkhurst, D.L., Means, B., McKenzie, R., Morris, H., and Arthur, W. (2010) A geochemical module for “AMDTreat” to compute caustic quantity, effluent quality, and sludge volume, in 2010 National Meeting of the American Society of Mining and Reclamation, Pittsburgh, PA, p. 1413-1436.
Sibrell, P.L., Cravotta, C.A., III, Lehman, W.G., and Reichert, W. (2010) Utilization of AMD sludges from the anthracite region of Pennsylvania for removal of phosphorus from wastewater, in 2010 National Meeting of the American Society of Mining and Reclamation, Pittsburgh, PA, p. 1085-1100.
Cravotta, C.A., III, and Nantz, J.M. (2008) Quantity and quality of stream water draining mined areas of the upper Schuylkill River basin, Schuylkill County, Pennsylvania, 2005-2007. in National Meeting of the American Society of Mining and Reclamation, Richmond VA, New Opportunities to Apply Our Science June 14-19, 2008: American Society of Mining and Reclamation, p. 223-252.
Cravotta, C.A., III, and Trahan, M.K. (1999) Limestone drains to increase pH and remove dissolved metals from acidic mine drainage: Applied Geochemistry, v. 14, no. 5, p 581-606.
Szabo, Zoltan, Stackelberg, P.E., and Cravotta, C.A., III, 2020, Occurrence and geochemistry of Lead-210 and Polonium-210 radionuclides in public-drinking-water supplies from principal aquifers of the United States: Environmental Science & Technology, https://doi.org/10.1021/acs.est.0c00192.