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Environmental Health - Toxic Substances

Bibliography

Applications of Computer Simulation Models to Solve Contamination Problems

Sorted by Author Sort by Year Sort by Title Sort by Publication Type Only On-Line Reports Search the Toxics Program Bibliography Go to Contents of the Toxics Program Bibliography

This crosscutting topic bibliography is a subcategory of the following bibliography:

A | B | C | D | E | F | G | H | J | K | L | M
N | O | P | R | S | T | U | V | W | X | Y | Z

A

Abarca, E., Carrera, J., Sánchez-Vila, X., and Voss, C.I., 2007,
Quasi-horizontal circulation cells in 3D seawater intrusion: Journal of Hydrology, v. 339, no. 3-4, p. 118-129, doi:10.1016/j.jhydrol.2007.02.017.
Abarca, E., Carrera, J., Voss, C.I., and Sánchez-Vila, F.X., 2002,
Effect of aquifer bottom morphology on seawater intrusion, in Proceedings of 17th Salt Water Intrusion Meeting (SWIM-17), Delft, The Netherlands, May 6-12, 2002: p. 116-126.
Abbott, M.L., Susong, D.D., Krabbenhoft, D.P., and Rood, A.S., 2002,
Mercury deposition in snow near an industrial emission source in the western U.S. and comparison to ISC3 model predictions: Water, Air, and Soil Pollution, v. 139, no. 1-4, p. 95-114, doi:10.1023/A:1015856717964.
Abrams, R.H., and Loague, K., 2000,
A compartmentalized solute transport model for redox zones in contaminated aquifers--1, Theory and development: Water Resources Research, v. 36, no. 8, p. 2001-2013, 2000WR900110, doi:10.1029/2000WR900110.
Abrams, R.H., and Loague, K., 2000,
A compartmentalized solute transport model for redox zones in contaminated aquifers--2, Field-scale simulations: Water Resources Research, v. 36, no. 8, p. 2015--2029, 10.1029/2000WR900111, doi:10.1029/2000WR900111.
Alexander, R.B., Böhlke, J.K., Boyer, E.W., David, M.B., Harvey, J.W., Mulholland, P.J., Seitzinger, S.P., Tobias, C.R., Tonitto, C., and Wollheim, W.M., 2009,
Dynamic modeling of nitrogen losses in river networks unravels the coupled effects of hydrological and biogeochemical processes: Biogeochemistry, v. 93, no. 1-2, p. 91-116, doi:10.1007/s10533-008-9274-8.
Alpers, C.N., and Nordstrom, D.K., 1999,
Geochemical modeling of water-rock interactions in mining environments, in Plumlee, G.S., and Logsdon, M.J., eds., The environmental geochemistry of mineral deposits--Part 1. Processes, methods and health issues: Reviews in Economic Geology, v. 6A, p. 289-324.
Amirbahman, A., Kent, D.B., Curtis, G.P., and Marvin-Dipasquale, M.C., 2013,
Kinetics of homogeneous and surface-catalyzed mercury(II) reduction by iron(II): Environmental Science and Technology, v. 47, no. 13, p. 7204-7213, doi:10.1021/es401459p.
Amos, R.T., and Mayer, K.U., 2006,
Investigating ebullition in a sand column using dissolved gas analysis and reactive transport modeling: Environmental Science and Technology, v. 40, p. 5361-5367, doi:10.1021/es0602501.
Amos, R.T., and Mayer, K.U., 2006,
Investigating the role of gas bubble formation and entrapment in contaminated aquifers--Reactive transport modeling: Journal of Contaminant Hydrology, v. 87, p. 123-154, doi:10.1016/j.jconhyd.2006.04.008.
Anderman, E.R., 1996,
The use of advective-transport observations to improve ground-water flow parameter estimation: Golden, Colorado School of Mines, Department of Geology and Geological Engineering, unpublished Ph.D. thesis, 277 p.
Anderman, E.R., Hill, M.C., and Poeter, E.P., 1994,
Two-dimensional advective transport in nonlinear regression--Sensitivities and uncertainty of plume-front observations, in Warner, J.W., and van der Heijde, P., eds., Proceedings, 1994 Groundwater Modeling Conference, Fort Collins, Colorado, August 10-12, 1994: Fort Collins, Colo., Colorado State University, p. 55-62.
Anderson, D.E., Miller, D.R., Wang, Y.S., Yendol, W.G., and Mierzejewski, K., 1992,
Deposition of aerially applied BT in an oak forest and its prediction with the FSCBG model: Journal of Applied Meteorology, v. 31, p. 1457-1466.
Andraski, B.J., 1996,
Simulated trench studies near Beatty, Nevada-Initial results and implications, in Stevens, P.R., and Nicholson, T.J., eds., Joint U.S. Geological Survey, U.S. Nuclear Regulatory Commission Workshop on research related to low-level radioactive waste disposal, May 4-6, 1993, National Center, Reston, Virginia, Proceedings: U.S. Geological Survey Water-Resources Investigations Report 95-4015, p. 111-118.
Andraski, B.J., 1990,
Water movement and trench stability at a simulated arid burial site for low-level radioactive waste near Beatty, Nevada, in Nuclear Waste Isolation in the Unsaturated Zone, Proceedings, Las Vegas, Nevada, September, 1989: La Grange Park, Ill., American Nuclear Society, p. 166-173.
Angeroth, C.E., Leake, S.A., and Wagner, B.J., 1999,
Preliminary model development of the ground- and surface-water system in Pinal Creek Basin, Arizona, in Morganwalp, D.W., and Buxton, H.T., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the Technical Meeting, Charleston, South Carolina, March 8-12, 1999--Volume 1 of 3--Contamination from Hardrock Mining: U.S. Geological Survey Water-Resources Investigations Report 99-4018A, p. 211-216.
Arai, Y., and Fuller, C.C., 2012,
Effects of sulfate ligand on uranyl carbonato surface species on ferrihydrite surfaces: Journal of Colloid and Interface Science, v. 365, no. 1, p. 268-274, doi:10.1016/j.jcis.2011.09.026.
Asmussen, L.E., and Smith, C.N., 1990,
Study design to investigation and simulate agrichemical movement and fate in ground-water recharge, in Nash, R.G., and Leslie, A.R., eds., Ground water research and sampling design: Washington, D.C., American Chemical Society ACS Symposium Series 465, p. 150-164.

B

Baedecker, M.J., and Cozzarelli, I.M., 1991,
Geochemical modeling of organic degradation reactions in an aquifer contaminated with crude oil, in Mallard, G.E., and Aronson, D.A., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the technical meeting, Monterey, California, March 11-15, 1991: U.S. Geological Survey Water-Resources Investigations Report 91-4034, p. 627-632.
Baedecker, M.J., Cozzarelli, I.M., Siegel, D.I., Bennett, P.C., and Eganhouse, R.P., 1993,
Crude oil in a shallow sand and gravel aquifer--III, Biogeochemical reactions and mass balance modeling in anoxic ground water: Applied Geochemistry, v. 8, no. 6, p. 569-586, doi:10.1016/0883-2927(93)90012-6.
Baehr, A.L., and Baker, R.J., 1995,
Use of a reactive gas transport model to determine rates of hydrocarbon biodegradation in unsaturated porous media: Water Resources Research, v. 31, no. 11, p. 2877-2882, 95WR02077, doi:10.1029/95WR02077.
Baehr, A.L., and Hult, M.F., 1987,
Mathematical modeling of hydrocarbon and oxygen transport coupled with microbial degradation in the unsaturated zone, in Franks, B.J., ed., U.S. Geological Survey Program on Toxic Waste--Ground-Water Contamination--Proceedings of the third technical meeting, Pensacola, Florida, March 23-27, 1987: U.S. Geological Survey Open-File Report 87-109, p. C-27-C-28.
Baker, R.J., and Baehr, A.L., 1996,
Use of column studies and a reactive transport model to measure biodegradation rates of hydrocarbons, in Morganwalp, D.W., and Aronson, D.A., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the technical meeting, Colorado Springs, Colorado, September 20-24, 1993: U.S. Geological Survey Water-Resources Investigations Report 94-4015, v. 1, p. 43-47.
Ball, J.W., Nordstrom, D.K., and Runkel, R.L., 2000,
Reactive and non-reactive transport modeling for Wightman Fork, Summitville Mine, Colorado--Application of the OTIS/OTEQ model to a low-flow synoptic study, in Proceedings from the Fifth International Conference on Acid Rock Drainage, Denver, Colorado, May 21-24, 2000: Littleton, Colo., Society for Mining, Metallurgy, and Exploration, v. 1 of 2, p. 125-134.
Ball, J.W., Runkel, R.L., and Nordstrom, D.K., 2005,
Questa baseline and pre-mining ground-water quality investigation. 12. Geochemical and reactive-transport modeling based on tracer injection-synoptic sampling studies for the Red river, New Mexico, 2001-2002: U.S. Geological Survey Scientific Investigations Report 2005-5149, 78 p.
Ball, J.W., Runkel, R.L., and Nordstrom, D.K., 2004,
Evaluating remedial alternatives for the Alamosa River and Wightman Fork, near Summitville Mine, Colorado--Application of a reactive transport model to low- and high-flow simulations, in Zannetti, P., ed., Environmental Sciences and Environmental Computing: The EnviroComp Institute, v. II, p. 1-54.
Ball, J.W., Runkel, R.L., and Nordstrom, D.K., 2001,
Reactive transport modeling at high-flow - Wightman Fork/Alamosa River, USA, in Cidu, R., ed., Proceedings of the Tenth International Symposium on Water - Rock Interaction, Villasimius, Italy, July 10-15, 2001: A.A. Balkema Publishers, v. 2, p. 1181-1184.
Ball, J.W., Runkel, R.L., and Nordstrom, D.K., 1999,
Transport modeling of reactive and non-reactive constituents from Summitville, Colorado--Preliminary results from the application of the OTIS/OTEQ model to the Wightman Fork/Alamosa River System, in Morganwalp, D.W., and Buxton, H.T., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the Technical Meeting, Charleston, South Carolina, March 8-12, 1999--Volume 1 of 3--Contamination from Hardrock Mining: U.S. Geological Survey Water-Resources Investigations Report 99-4018A, p. 305-311.
Barlow, P.M., and LeBlanc, D.R., 1992,
A study of ground-water flow beneath the Massachusetts Military Reservation, Cape Cod, Massachusetts, Project Description, August 1992: U.S. Geological Survey Open-File Report 92-143, 2 p.
Barnett, M.O., and Kent, D.B., eds., 2008,
Adsorption of Metals by Geomedia II--Variables, Mechanisms, and Model Applications: Amsterdam, Elsevier, Developments in earth and environmental sciences, v. 7, 474 p., ISBN:978-0-444-53212-1,
Bartolino, J.R., and Niswonger, R., 1999,
Numerical simulation of vertical ground-water flux of the Rio Grande from ground-water temperature profiles, Central New Mexico: U.S. Geological Survey Water-Resources Investigations Report 99-4212, 34 p.
Battaglin, W., Hay, L., and Steve, M., 2011,
Simulating the potential effects of climate change in two Colorado basins and at two Colorado ski areas: Earth Interactions, v. 15, no. 22, p. 1-23, doi:10.1175/2011ei373.1.
Battaglin, W.A., 1993,
Use of volume modelling techniques to estimate agricultural chemical mass in groundwater, Minnesota, USA: International Association of Hydrological Sciences, IAHS Publication No. 211, 591-599 p.
Battaglin, W.A., 1992,
Estimation of agricultural chemical mass in ground water by volume modeling techniques: Golden, Colorado School of Mines, M.E. thesis, ER-4284, 157 p.
Battaglin, W.A., and Goolsby, D.A., 1998,
Regression models of herbicide concentrations in outflow from reservoirs in the midwestern USA, 1992-1993: Journal of the American Water Resources Association, v. 34, no. 6, p. 1369-1390, doi:10.1111/j.1752-1688.1998.tb05438.x.
Battaglin, W.A., and Goolsby, D.A., 1997,
Statistical modeling of agricultural chemical occurrence in midwestern rivers: Journal of Hydrology, v. 196, no. 1-4, p. 1-25, doi:10.1016/S0022-1694(97)00011-5.
Battaglin, W.A., and Goolsby, D.A., 1996,
Using GIS and logistic regression to estimate agricultural chemical concentrations in rivers of the midwestern USA, in Kovar, K., and Nachtnebel, H., eds., Application of Geographic Information Systems in Hydrology and Water Resources Management--Proceedings of HydroGIS'96 meeting, Vienna, Austria, April, 1996: International Association of Hydrological Sciences IAHS Publication No. 235, p. 253-260.
Battaglin, W.A., and Goolsby, D.A., 1996,
Using GIS and regression to estimate annual herbicide concentrations in outflow from reservoirs in the midwestern USA, 1992-93, in AWRA Symposium on GIS and Water Resources, Ft. Lauderdale, FL, September 22-26, 1996: American Water Resources Association.
Battaglin, W.A., and Goolsby, D.A., 1996,
Using GIS and regression to estimate annual herbicide concentrations in outflow from reservoirs in the midwestern USA, 1992-93, in Hallam, C.A., Salisbury, H.M., Lanfear, K.J., and Battaglin, W.A., eds., GIS and Water Resources--Proceedings of the American Water Resources Association: American Water Resources Association Technical Publication Series TPS-96-3, p. 89-98.
Battaglin, W.A., Hay, L.E., and Markstrom, S.L., 2012,
Watershed scale response to climate change--East River Basin, Colorado: U.S. Geological Survey Fact Sheet 2011-3126, 6 p.
Battaglin, W.A., Ulery, R.L., Winterstein, T., and Welborn, T., 2003,
Estimating the susceptibility of surface water in Texas to nonpoint-source contamination by use of logistic regression modeling: U.S. Geological Survey Water-Resources Investigations Report 03-4205, 24 p.
Bekins, B.A., E.M., G., and Goerlitz, D.F., 1993,
Modeling steady-state methanogenic degradation of phenols in groundwater: Journal of Contaminant Hydrology, v. 14, no. 3-4, p. 279-294, doi:10.1016/0169-7722(93)90029-R.
Bekins, B.A., Godsy, E.M., and Goerlitz, D.F., 1996,
Modeling steady-state methanogenic degradation of phenols in ground water at Pensacola, Florida, in Morganwalp, D.W., and Aronson, D.A., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the technical meeting, Colorado Springs, Colorado, September 20-24, 1993: U.S. Geological Survey Water-Resources Investigations Report 94-4015, v. 2, p. 843-849.
Bekins, B.A., Godsy, E.M., and Goerlitz, D.F., 1994,
Modeling steady-state methanogenic degradation of phenols in groundwater at Pensacola, Florida, in Symposium on bioremediation of hazardous wastes--Research, development, and field evaluations: Washington, D.C., Office of Research and Development, U.S. Environmental Protection Agency Environmental Research Brief EPA/600/R-94/075, p. 158-163.
Bekins, B.A., Warren, E., and Godsy, E.M., 1998,
A comparison of zero-order, first-order, and Monod biotransformation models: Ground Water, v. 36, no. 2, p. 261-268, doi:10.1111/j.1745-6584.1998.tb01091.x.
Bekins, B.A., Warren, E., and Godsy, E.M., 1997,
Comparing zero and first order approximations to the Monod Model, in Alleman, B.C., and Leeson, A., eds., In Situ and On Site Bioremediation--Procedings of the Fourth International Symposium on In Situ And On-Site Bioremediation, New Orleans, La., April 28-May 1, 1997: Columbus, Ohio, Battelle Press, v. 5, p. 547-552 (Contact The Conference Group Inc. for information on the availability of the proceedings.).
Bencala, K.E., 1985,
Performance of sodium as a transport tracer experimental and simulation analysis, in Subitzky, S., ed., Selected Papers in the Hydrologic Sciences, 1985: U.S. Geological Survey Water-Supply Paper 2270, p. 83-89.
Bencala, K.E., Duff, J.H., Harvey, J.W., Jackman, A.P., and Triska, F.J., 1993,
Modelling within the stream-catchment continuum, in Jakeman, A.J., Beck, M.B., and McAleer, J.J., eds., Modelling Change in Environmental Systems: Wiley, p. 163-187.
Bencala, K.E., Duff, J.H., Harvey, J.W., Jackman, J.P., and Triska, F.J., 1993,
Physical transport influencing biogeochemistry within the stream catchment continuum, in Jakeman, A.J., Beck, M.B., and McAleer, M.J., eds., Modelling change in environmental systems: New York, J. Wiley and Sons.
Benedict, S.T., Conrads, P.A., Feaster, T.D., Journey, C.A., Golden, H.E., Knightes, C.D., Davis, G.M., and Bradley, P.M., 2012,
Data visualization, time-series analysis, and mass-balance modeling of hydrologic and water-quality data for McTier Creek watershed, South Carolina, 2007-2009: U.S. Geological Survey Open-File Report 2011-1209, 32 p.
Besser, J.M., and Leib, K.J., 1999,
Modeling frequency of occurrence of toxic concentrations of zinc and copper in the Upper Animas River, in Morganwalp, D.W., and Buxton, H.T., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the Technical Meeting, Charleston, South Carolina, March 8-12, 1999--Volume 1 of 3--Contamination from Hardrock Mining: U.S. Geological Survey Water-Resources Investigations Report 99-4018A, p. 75-81.
Böhlke, J.K., Antweiler, R.C., Harvey, J.W., Laursen, A.E., Smith, L.K., Smith, R.L., and Voytek, M.A., 2009,
Multi-scale measurements and modeling of denitrification in streams with varying flow and nitrate concentration in the upper Mississippi River Basin, USA: Biogeochemistry, v. 93, no. 1-2, p. 117-141, doi:10.1007/s10533-008-9282-8.
Böhlke, J.K., Smith, R.L., and Miller, D.N., 2006,
Ammonium transport and reaction in contaminated groundwater--Application of isotope tracers and isotope fractionation studies: Water Resources Research, v. 42, W05411, doi:10.1029/2005WR004349.
Bohn-Buxton, D.E., Buxton, H.T., and Eagen, V.K., 1996,
Simulation of ground-water flow paths and traveltime in relation to tritium and aldicarb concentrations in the upper glacial aquifer on the North fork, Long Island, New York: U.S. Geological Survey Open-File Report 95-761, 36 p.
Boland, K.A., 2011,
Modeling of BTEX biodegradation and solute transfer at the Bemidji, Minnesota Crude Oil Spill Site: Bemidji, Minnesota, Bemidji State University, MS Thesis.
Boyer, E.W., Hornberger, G.W., and Bencala, K.E., 1993,
Hydrological controls on the temporal variation of dissolved organic carbon in Deer Creek near Montezuma, Colorado, in McAleer, M., and Jakeman, A., eds., Proceedings of the 10th Biennial Conference of the Modeling and Simulation Society of Australia, December 6-10, 1993: The University of Western Australia, p. 501-506.
Bradford, S.A., Morales, V.L., Zhang, W., Harvey, R.W., Packman, A.I., Mohanram, A., and Welty, C., 2013,
Transport and fate of microbial pathogens in agricultural settings: Critical Reviews in Environmental Science and Technology, v. 43, no. 8, p. 775-893, doi:10.1080/10643389.2012.710449.
Bradley, P.M., ed., 2013,
Current perspectives in contaminant hydrology and water resources sustainability: New York, InTech, 333 p., ISBN:9789535110460,
Bratkovich, A., Dinnel, S.P., and Goolsby, D.A., 1995,
Variability and prediction of freshwater and nitrate fluxes for the Louisiana-Texas shelf--Mississippi and Atchafalaya source functions: Estuaries, v. 17, no. 4, p. 766-778.
Brauner, J.S., and Widdowson, M.A., 1997,
Sequential electron acceptor model for evaluation of in situ bioremediation of petroleum hydrocarbon contaminants in groundwater, in Engineering Foundation Conference on Bioremediation, Palm Coast, Florida, January 21-26, 1996: Annals of the New York Academy of Sciences, v. 829, p. 399-419.
Bredehoeft, J.D., and Konikow, L.F., 1993,
Ground-water models--Validate or invalidate: Ground Water, v. 31, no. 2, p. 178-179, doi:10.1111/j.1745-6584.1993.tb01808.x.
Bredehoeft, J.D., and Konikow, L.F., 1993,
Reply to comment by G. de Marsily, P. Combes, and P. Goblet on "Ground-water models cannot be validated": Advances in Water Resources, v. 15, no. 6, p. 371-372.
Broshears, R.E., Bencala, K.E., Kimball, B.A., and McKnight, D.M., 1992,
Tracer-dilution experiments and solute-transport simulations for a mountain streams, Saint Kevin Gulch, Colorado: U.S. Geological Survey Water-Resources Investigations Report 92-4081, 18 p.
Broshears, R.E., Kimball, B.A., and Runkel, R.L., 1996,
Simulation of reactive transport during a pH modification experiment in a mountain stream affected by acid mine drainage, in Morganwalp, D.W., and Aronson, D.A., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the technical meeting, Colorado Springs, Colorado, September 20-24, 1993: U.S. Geological Survey Water-Resources Investigations Report 94-4015, v. 2, p. 781-788.
Broshears, R.E., Runkel, R.L., and Kimball, B.A., 1994,
Development and application of a reactive solute transport model for trace metals in mountain streams, in Dutton, A.R., ed., Toxic Substances and the Hydrologic Sciences--Proceedings of the conference, Austin, Texas, April 10-13, 1994: Minneapolis, Minn., American Institute of Hydrology, p. 19-34.
Broshears, R.E., Runkel, R.L., Kimball, B.A., Bencala, K.E., and McKnight, D.M., 1996,
Reactive solute transport in an acidic stream--Experimental pH increase and simulation of controls on pH, aluminum, and iron: Environmental Science and Technology, v. 30, no. 10, p. 3016-24, doi:10.1021/es960055u.
Brosten, T.R., Day-Lewis, F.D., Schultz, G.M., Curtis, G.P., and Lane Jr, J.W., 2011,
Inversion of multi-frequency electromagnetic induction data for 3D characterization of hydraulic conductivity: Journal of Applied Geophysics, v. 73, no. 4, p. 323-335, doi:10.1016/j.jappgeo.2011.02.004.
Brown, C.J., Starn, J.J., Stollenwerk, K.G., Mondazzi, R.A., and Trombley, T.J., 2009,
Aquifer chemistry and transport processes in the zone of contribution to a public-supply well in Woodbury, Connecticut, 2002-06: U.S. Geological Survey Scientific Investigations Report 2009-5051, 158 p.
Brown, J.G., 1996,
Movement of metal contaminants in ground water in the Pinal Creek basin, Arizona---Model assessment and simulation of reactive transport: Tucson, University of Arizona, M.S. thesis, 236 p.
Brown, J.G., Bassett, R.L., and Glynn, P.D., 1998,
Analysis and simulation of reactive transport of metal contaminants in ground water in Pinal Creek Basin, Arizona, in Steefel, C.I., and Van Cappellen, P., eds., Special Issue--Reactive Transport Modeling of Natural Systems: New York, Elsevier, Journal of Hydrology, v. 209, p. 225-250.
Brown, J.G., and Glynn, P.D., 2003,
Kinetic dissolution of carbonates and Mn oxides in acidic water--measurement of in situ field rates and reactive transport modeling: Applied Geochemistry, v. 18, no. 8, p. 1225-1239, doi:10.1016/S0883-2927(03)00010-6.
Brown, J.G., Glynn, P.D., and Bassett, R.L., 1999,
Geochemistry and reactive-transport of metal contaminants in ground water, Pinal Creek Basin, Arizona, in Morganwalp, D.W., and Buxton, H.T., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the Technical Meeting, Charleston, South Carolina, March 8-12, 1999--Volume 1 of 3--Contamination from Hardrock Mining: U.S. Geological Survey Water-Resources Investigations Report 99-4018A, p. 141-153.
Brusseau, M.L., and Srivastava, R., 1999,
Nonideal transport of reactive solutes in heterogeneous porous media--4, Analysis of the Cape Cod natural-gradient field experiment: Water Resources Research, v. 35, no. 4, p. 1113-1125, 1998WR900019, doi:10.1029/1998WR900019.
Buchwalter, D.B., Cain, D.J., Clements, W.H., and Luoma, S.N., 2008,
Using biodynamic models to reconcile differences between laboratory toxicity tests and field biomonitoring with aquatic insects: Environmental Science and Technology, v. 42, no. 8, p. 3,117-3,117, doi:10.1021/es703130e.
Buchwalter, D.B., Cain, D.J., Clements, W.H., and Luoma, S.N., 2007,
Using biodynamic models to reconcile differences between laboratory toxicity tests and field biomonitoring with aquatic insects: Environmental Science and Technology, v. 41, no. 13, p. 4,821-4,828, doi:10.1021/es070464y.
Buxton, H.T., and Shernoff, P.K., 1999,
Ground-water resources of Kings and Queens Counties, Long Island, New York: U.S. Geological Survey Water Supply Paper 2498, 113 p (7 plates in pocket).
Buxton, H.T., and Smolensky, D.A., 1999,
Simulation of the effects of development of the ground-water flow system of Long Island, New York: U.S. Geological Survey Water-Resources Investigations Report 98-4069, 57 p.
Buxton, H.T., Smolensky, D.A., and Shernoff, P.K., 1999,
Feasibility of using ground water as a supplemental supply for Brooklyn and Queens, New York: U.S. Geological Survey Water-Resources Investigations Report 98-4070, 33 p.

C

Campbell, K.M., Nordstrom, D.K., and Hay, M.B., 2012,
Kinetic modelling of microbial iron (II) oxidation, iron (III) hydrolysis, and arsenic (III) oxidation in acid waters, in Ng, J.C., and others, eds., Understanding the Geological and Medical Interface of Arsenic, As 2012 --Proceedings of the 4th International Congress on Arsenic in the Environment, Cairns, Australia, July 22-27, 2012: CRC Press, p. 461-462, ISBN:9780415637633.
Carleton, G.B., Welty, C., and Buxton, H.T., 1999,
Design and analysis of tracer tests to determine effective porosity and dispersivity in fractured sedimentary rocks, Newark Basin, New Jersey: U.S. Geological Survey Water-Resources Investigations Report 98-4126-A, 80 p.
Caruso, B.S., Cox, T.J., Runkel, R.L., Velleux, M.L., Bencala, K.E., Nordstrom, D.K., Julien, P.Y., Butler, B.A., Alpers, C.N., Marion, A., and Smith, K.S., 2008,
Metals fate and transport modelling in streams and watersheds--State of the science and USEPA workshop review: Hydrologic Processes, v. 22, no. 19, p. 4011-4021, doi:10.1002/hyp.7114.
Casado-Martinez, M.C., Smith, B.D., Luoma, S.N., and Rainbow, P.S., 2010,
Bioaccumulation of arsenic from water and sediment by a deposit-feeding polychaete (Arenicola marina)--A biodynamic modelling approach: Aquatic Toxicology, v. 98, no. 1, p. 34-43, doi:10.1016/j.aquatox.2010.01.015.
Chang, F.H., Bullert, J., and Denzin, B., 1990,
Effect of environmental parameters on biodegradation of crude oil and model hydrocarbon in groundwater environment, in Flierman, C.B., and Hazen, T.C., eds., Proceedings of the First International Symposium on Microbiology of the Deep Subsurface, Orlando, Fla., January 15-18, 1990: p. 7-53-7-65.
Chang, F.H., Hult, M., and Noben, N.N., 1987,
Quantitative studies of biodegradation of petroleum and some model hydrocarbons in ground water and sediment environments, in Fairchild, D.M., ed., National Conference on Ground-Water Quality and Agricultural Practices--Proceedings of Ground-Water Quality and Agricultural Practices, Norman Okla., May 1-2, 1986: Chelsea, Mich., Lewis Publishers, p. 295-318.
Chang, F.H., Noben, N.N., Brand, D., and Hult, M.F., 1988,
Microbial degradation of crude oil and some model hydrocarbons, in Ragone, S.E., ed., U.S. Geological Survey Program on Toxic Waste--Ground-Water Contamination--Proceedings of the second technical meeting, Cape Cod, Massachusetts, October 21-25, 1985: U.S. Geological Survey Open-File Report 86-481, p. C-33-C-42.
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Modeling the evolution and natural remediation of a ground-water sewage plume, in Morganwalp, D.W., and Buxton, H.T., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the Technical Meeting, Charleston, South Carolina, March 8-12, 1999--Volume 3 of 3--Subsurface Contamination from Point Sources: U.S. Geological Survey Water-Resources Investigations Report 99-4018C, p. 371-381.
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A conceptual chemical process model for sewage contamination of a sand and gravel aquifer, in Franks, B.J., ed., U.S. Geological Survey Program on Toxic Waste--Ground-Water Contamination--Proceedings of the third technical meeting, Pensacola, Florida, March 23-27, 1987: U.S. Geological Survey Open-File Report 87-109, p. B-37-B-42.
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Application of nonlinear regression methods to a ground-water flow model of the Albuquerque Basin, New Mexico: U.S. Geological Survey Water-Resources Investigations Report 98-4172, 90 p.
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Verplanck, P.L., Nordstrom, D.K., and McCleskey, R.B., 2005,
Questa baseline and pre-mining ground-water quality investigation. 20. Water chemistry trends of the Red River, Taos County, New Mexico, with data from selected seeps, tributaries, and snow, 2000-2004: U.S. Geological Survey Scientific Investigations Report 2006-5028.
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Waber, N., and Nordstrom, D.K., 1992,
Geochemical modeling of granitic ground waters at the Stripa site (Sweden) using a mass balance approach, in Kharaka, Y.K., and Maest, A.S., eds., Proceedings of the 7th International Symposium on Water-Rock Interaction, Park City, Utah, July 13-18, 1992: A.A. Balkema, p. 243-246.
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Three-dimensional modeling of solute transport with in situ bioremediation based on sequential electron acceptors: Blacksburg, Virginia Polytechnic Institute and State University, unpublished Ph.D. dissertation, 190 p.
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Solute-transport parameter estimation for an injection experiment at Pinal Creek, Arizona, in Morganwalp, D.W., and Aronson, D.A., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the technical meeting, Colorado Springs, Colorado, September 20-24, 1993: U.S. Geological Survey Water-Resources Investigations Report 94-4015, v. 2, p. 1081-1087.
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Uranium(VI) adsorption to ferrihydrite--Application of a surface complexation model: Geochimica et Cosmochimica Acta, v. 58, no. 24, p. 5465-5478, doi:10.1016/0016-7037(94)90243-7.
Walter, D.A., 2013,
The simulated effects of wastewater-management actions on the hydrologic system and nitrogen-loading rates to wells and ecological receptors, Popponesset Bay watershed, Cape Cod, Massachusetts: U.S. Geological Survey Scientific Investigations Report 2013-5060, 62 p.
Walter, D.A., and LeBlanc, D.R., 2008,
Use of inverse modeling methods to improve ground-water-modeling calibration and evaluate model-prediction uncertainty, Camp Edwards, Cape Cod, Massachusetts: U.S. Geological Survey Scientific Investigations Report 2007-5257.
Walter, D.A., and Masterson, J.P., 2003,
Simulation of advective flow under steady-state and transient recharge conditions, Camp Edwards, Massachusetts Military Reservation, Cape Cod, Massachusetts: U.S. Geological Survey Water-Resources Investigations Report 03-4053, 51 p.
Walter, D.A., Masterson, J.P., and LeBlanc, D.R., 2002,
Simulated pond-aquifer interactions under natural and stressed conditions near Snake Pond, Cape Cod, Massachusetts: U.S. Geological Survey Water-Resources Investigations Report 99-4174, 35 p.
Walter, D.A., Rea, B.A., Stollenwerk, K.G., and Savoie, J., 1995,
Geochemical and hydrologic controls on phosphorus transport in a sewage-contaminated sand and gravel aquifer near Ashumet Pond, Cape Cod, Massachusetts: U.S. Geological Survey Open-File Report 95-381, 89 p.
Walton-Day, K., Kimball, B.A., and Runkel, R.L., 2002,
The use of mass-loading studies and solute transport modeling to assist in the development of TMDL's for streams affected by mine drainage, in Workshop Notebook, Colorado Department of Health and Environment, 10th National Nonpoint Source Monitoring Workshop, Breckenridge, Colorado, September 8-12, 2002, 5 p.
Walton-Day, K., Paschke, S.S., Runkel, R.L., and Kimball, B.A., 2007,
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Walton-Day, K., Runkel, R.L., and Kimball, B.A., 2012,
Using spatially detailed water-quality data and solute-transport modeling to support total maximum daily load development: Journal of the American Water Works Association, v. 48, no. 5, p. 949-969, doi:10.1111/j.1752-1688.2012.00662.x.
Walton-Day, K., Runkel, R.L., Kimball, B.A., and Bencala, K.E., 2000,
Application of the solute-transport models OTIS and OTEQ and implications for remediation in a watershed affected by acid mine drainage, Cement Creek, Animas River basin, Colorado, in Proceedings from the Fifth International Conference on Acid Rock Drainage, Denver, Colorado, May 21-24, 2000: Littleton, Colo., Society for Mining, Metallurgy, and Exploration, p. 389-399.
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Application of the solute-transport models OTIS and OTEQ and implications for remediation in a watershed affected by acid mine drainage, Cement Creek, Animas River Basin, Colorado, in Morganwalp, D.W., and Buxton, H.T., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the Technical Meeting, Charleston, South Carolina, March 8-12, 1999--Volume 1 of 3--Contamination from Hardrock Mining: U.S. Geological Survey Water-Resources Investigations Report 99-4018A, p. 37-46.
Walvoord, M.A., Andraski, B.J., Krabbenhoft, D.P., and Striegl, R.G., 2008,
Transport of elemental mercury in the unsaturated zone from a waste disposal site in an arid region: Applied Geochemistry, v. 23, no. 3, p. 572-583, doi:10.1016/j.apgeochem.2007.12.014.
Walvoord, M.A., and Stonestrom, D.A., 2004,
Enhanced gas-phase transport in a deep unsaturated zone, Amargosa Desert (U.S.A.), in Kovar, K., Hrkal, Z., and Bruthans, J., eds., Proceedings of International Conference on Finite-element Models, MODFLOW, and More, Karlovy Vary, Czech Republic, September 12-16, 2004: IAHS, p. 227-230.
Walvoord, M.A., Striegl, R.G., Prudic, D.E., and Stonestrom, D.A., 2005,
CO2 dynamics in the Amargosa Desert--Fluxes and isotopic speciation in a deep unsaturated zone: Water Resources Research, v. 41, no. 2, W02006, doi:10.1029/2004WR003599.
Wang, P.F., Cheng, R.T., Richter, K., Gross, E.S., and Gartner, J.W., 1998,
Modeling tidal hydrodynamics of San Diego Bay, California: Journal of the American Water Resources Association, v. 34, no. 5, p. 1123-1140, doi:10.1111/j.1752-1688.1998.tb04159.x.
Ward, A.S., Gooseff, M.N., and Singha, K., 2010,
Characterizing hyporheic transport processes--Interpretation of electrical geophysical data in coupled stream-hyporheic zone systems during solute tracer studies: Advances in Water Resources, v. 33, no. 11, p. 1320-1330, doi:10.1016/j.advwatres.2010.05.008.
Warren, E., and Godsy, E.M., 1996,
Modeling breakthrough of nitrogen heterocyclic compounds in laboratory columns containing creosote-contaminated aquifer material, in Morganwalp, D.W., and Aronson, D.A., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the technical meeting, Colorado Springs, Colorado, September 20-24, 1993: U.S. Geological Survey Water-Resources Investigations Report 94-4015, v. 2, p. 851-858.
Waychunas, G.A., Fuller, C.C., Davis, J.A., and Rehr, J.J., 2003,
Surface complexation and precipitate geometry of aqueous Zn(II) sorption on ferrihydrite--II. XANES analysis and simulation: Geochimica et Cosmochimica Acta, v. 67, p. 1031-1043, doi:10.1016/S0016-7037(02)01280-2.
Weatherill, D., Simmons, C.T., Voss, C.I., and Robinson, N.I., 2004,
Testing density-dependent groundwater models--Two-dimensional steady state unstable convection in infinite, finite and inclined porous layers: Advances in Water Resources, v. 27, no. 5, p. 547-562, doi:10.1016/j.advwatres.2004.01.003.
Weeks, E.P., 2005,
Hydrologic properties of coal beds in the Powder River Basin, Montana--II. Aquifer test analysis: Journal of Hydrology, v. 308, p. 242-257, doi:10.1016/j.jhydrol.2004.11.002.
Welch, A.H., Stollenwerk, K.G., Maurer, D.K., and Feinson, L.S., 2003,
In situ arsenic remediation in a fractured, alkaline aquifer, in Welch, A.H., and Stollenwerk, K.G., eds., Arsenic in ground water--Geochemistry and occurrence: Boston, Kluwer Academic Publishers, p. 403-419.
Welch, A.H., and Stollenwerk, K.G., eds., 2003,
Arsenic in ground water--Geochemistry and occurrence: Boston, Kluwer Academic Publishers, 475 p., ISBN:978-1-4020-7317-5,
Wellman, T.P., Shapiro, A.M., and Hill, M.C., 2009,
Effects of simplifying fracture network representation on inert chemical migration in fracture-controlled aquifers: Water Resources Research, v. 45, no. 1, W01416, doi:10.1029/2008WR007025.
Welty, C., Joss, C.J., and Baehr, A.L., 1996,
Optimizing the design of vapor-extraction remediation systems for removal of organic contaminants from the unsaturated zone, in Morganwalp, D.W., and Aronson, D.A., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the technical meeting, Colorado Springs, Colorado, September 20-24, 1993: U.S. Geological Survey Water-Resources Investigations Report 94-4015, v. 1, p. 55-59.
Wemp, A.M., Kueper, B.H., and Falta, R.W., 2011,
Simulating remediation of trichloroethylene in fractured bedrock by thermal conductive heating using TMVOC, in GeoHydro2011--Water and Earth--The Junction of Quaternary Geoscience and Hydrogeology, Proceedings, Quebec City, Canada, August 28-31, 2011: Canadian Quaternary Association and Canadian Chapter of the International Association of Hydrogeologists, p. 8.
Widdowson, M.A., El-Sayed, A., and Landmeyer, J.E., 2008,
Numerical model for the uptake of groundwater contaminants by phreatophytes, in Rico, D.P., Brebbia, C.A., and Esteve, Y.V., eds., Water Pollution IX--WIT Transactions on Ecology and the Environment (papers presented at the Ninth International Conference on Water Pollution: Modelling, Monitoring and Management), Alicante, Spain, June 9-11, 2008: v. 111, p. 371-379, ISBN:9781845641153, doi:10.2495/WP080361.
Widdowson, M.A., Mendez, E., and Chapelle, F.H., 2007,
Estimating cleanup times for groundwater contamination remediation strategies: Journal of the American Water Works Association, v. 99, no. 3, p. 40-42, 44, 46.
Winter, T.C., 1984,
Modeling the interrelationship of ground water and surface water, in Schnoor, J.L., ed., Modeling of total acid precipitation impacts: Boston, Mass., Butterworth Publishers, p. 89-119.
Winter, T.C., and Pfannkuch, H.O., 1984,
Numerical simulation analysis, pt. 2 of Effect of anisotropy and groundwater system geometry on seepage through lakebeds: Journal of Hydrology, v. 75, p. 239-253.
Wood, T.M., Baptista, A.M., Kuwabara, J.S., and Flegal, A.R., 1995,
Diagnostic modeling of trace metal partitioning in South San Francisco Bay: Limnology and Oceanography, v. 40, no. 2, p. 345-358.
Wood, W.W., 1985,
Origin of caves and other solution openings in the unsaturated (vadose) zone of carbonate rocks--A model for C02 generation: Geology, v. 13, p. 822-824.
Woodward, D.F., Farag, A.M., DeLonay, A.J., Cleveland, L.J., Brumbaugh, W.G., and Little, E.E., 1999,
The potential for contaminated ground water to adversely affect chinook salmon under exposure conditions simulating the Hanford Reach of the Columbia River, Washington, USA, in Morganwalp, D.W., and Buxton, H.T., eds., U.S. Geological Survey Toxic Substances Hydrology Program--Proceedings of the Technical Meeting, Charleston, South Carolina, March 8-12, 1999--Volume 2 of 3--Contamination of Hydrologic Systems and Related Ecosystems: U.S. Geological Survey Water-Resources Investigations Report 99-4018B, p. 455-463.
Worrall, F., 2001,
A molecular topology approach to predicting pesticide pollution of groundwater: Environmental Science and Technology, v. 35, no. 11, p. 2282-2287, doi:10.1021/es001593g.
Wright, D.L., Smith, D.V., Abraham, J.D., Hutton, R.S., Bond, E.K., Chi, T.J., Alaeddin, A.A., and Chew, W.C., 2000,
Imaging and modeling new VETEM data, in Noon, D.A., Stickley, G.F., and Longstaff, D., eds., Proceedings of the Eighth International Conference on Ground Penetrating Radar, Gold Coast, Queensland, Australia, May 23-26, 2000: University of Queensland, Cooperative Research Centre for Sensor Signal and Information Processing (CSSIP), p. 146-150.
Wright, D.L., Smith, D.V., Abraham, J.D., Smith, R.T., Cui, T.J., and Chew, W.C., 1999,
New field and modeling results from a simulated waste pit using the enhanced very early time electromagnetic (VETEM) prototype system, in Powers, M.H., Cramer, L., and Bell, R.S., eds., Proceedings of the Symposium on the Application of Geophysics to Engineering and Environmental Problems (SAGEEP '99), Oakland, California, March 14-18, 1999: p. 811-820.

X

Xu, T., Kharaka, Y.K., Doughty, C., Freifeld, B.M., and Daley, T.M., 2010,
Reactive transport modeling to study changes in water chemistry induced by CO2 injection at the Frio-I Brine Pilot: Chemical Geology, v. 271, no. 3-4, p. 153-164, doi:10.1016/j.chemgeo.2010.01.006.

Y

Yager, R.M., Kappel, W.M., and Plummer, L.N., 2007,
Halite Brine in the Onondaga Trough near Syracuse, New York--Characterization and Simulation of Variable-Density Flow: U.S. Geological Survey Scientific Investigations Report 2007-5058, 40 p.
Yager, R.M., Kappel, W.M., and Plummer, L.N., 2007,
Origin of halite brine in the Onondaga Trough near Syracuse, New York State, USA--Modeling geochemistry and variable-density flow: Hydrogeology Journal, v. 15, no. 7, p. 1,321-1,339, doi:10.1007/s10040-007-0186-9.
Yager, R.M., Southworth, S.C., and Voss, C.I., 2008,
Simulation of ground-water flow in the Shenandoah Valley, Virginia and West Virginia, using variable-direction anisotropy in hydraulic conductivity to represent bedrock structure: U.S. Geological Survey Scientific Investigations Report 2008-5002, 55 p.
Yager, R.M., Voss, C.I., and Southworth, S., 2009,
Comparison of alternative representations of hydraulic-conductivity anisotropy in folded fractured-sedimentary rock--Modeling groundwater flow in the Shenandoah Valley (USA): Hydrogeology Journal, v. 17, no. 5, p. 1111-1131, doi:10.1007/s10040-008-0431-x.
Yen, S., Liu, S., and Kolpin, D.W., 1996,
Analysis of nitrate in near-surface aquifers in the midcontinental United States--An application of the inverse hyperbolic sine Tobit model: Water Resources Research, v. 32, no. 10, p. 3003-3011, 96WR02102, doi:10.1029/96WR02102.
Yi, C., Monson, R.K., Zhai, Z., Anderson, D.E., Lamb, B., Allwine, G., Turnipseed, A.A., and Burns, S.P., 2005,
Modeling and measuring the nocturnal drainage flow in a high-elevation, subalpine forest with complex terrain: Journal of Geophysical Research, v. 110, D22303, doi:10.1029/2005JD006282.

Z

Zhang, H., Schwartz, F.W., Wood, W.W., Garabedian, S.P., and LeBlanc, D.R., 1998,
Simulation of variable-density flow and transport of reactive and nonreactive solutes during a tracer test at Cape Cod, Massachusetts: Water Resources Research, v. 34, no. 1, p. 67-82, 97WR02918, doi:10.1029/97WR02918.
Zhu, L., Liu, L., Lane, J.W., Jr., and Day-Lewis, F.D., 2006,
Numerical simulation of EM wave propagation using split-step alternating direction implicit FDTD method, in Proceedings of the Eleventh International Conference on Ground Penetrating Radar (CD-ROM), Columbus, Ohio, June 19-22, 2006.

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