U.S. Geological Survey Environmental Health Mission Area Bibliography

Site Remediation

Research associated with the monitoring or assessment of site remediation activities

This section of the bibliography has 288 online publications.
A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | R | S | T | U | W | Y | Z

A

Adams, R.H., Cerecedo-López, R.A., Alejandro-Álvarez, L.A., Domínguez-Rodríguez, V.I., and Nieber, J.L., 2016, Treatment of water-repellent petroleum-contaminated soil from Bemidji, Minnesota, by alkaline desorption: International Journal of Environmental Science and Technology, v. 13, no. 9, p. 2249-2260, doi:10.1007/s13762-016-1058-4.

Aiken, G.R., Gilmour, C.C., Krabbenhoft, D.P., and Orem, W., 2011, Dissolved organic matter in the Florida Everglades--Implications for ecosystem restoration: Critical Reviews in Environmental Science and Technology, v. 41, no. Supplement 1, p. 217-248, doi:10.1080/10643389.2010.530934.

Alpers, C.N., Fleck, J.A., Marvin-DiPasquale, M., Stricker, C.A., Stephenson, M., and Taylor, H.E., 2014, Mercury cycling in agricultural and managed wetlands, Yolo Bypass, California--Spatial and seasonal variations in water quality: Science of the Total Environment, v. 484, no. 1, p. 276-287, doi:10.1016/j.scitotenv.2013.10.096.

Andraski, B.J., 1997, Soil-water movement under natural-site and waste-site conditions--A multiple-year field study in the Mojave Desert, Nevada: Water Resources Research, v. 33, no. 9, p. 1901-1916, 97WR01502, doi:10.1029/97WR01502.

Andraski, B.J., 1996, Properties and variability of soil and trench fill at an arid waste-burial site: Soil Science Society of America Journal, v. 60, no. 1, p. 54-66, doi:10.2136/sssaj1996.03615995006000010011x (Corection).

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., and Prudic, D.E., 1997, Soil, plant, and structural considerations for surface barriers in arid environments--Application of results from studies in the Mojave Desert near Beatty, Nevada, in Barrier Technologies for Environmental Management, Summary of a workshop: Washington, D.C., National Academy Press, p. 68-78.

Andraski, B.J., Prudic, D.E., and Nichols, W.D., 1995, Waste burial in arid environments--Application of information from a field laboratory in the Mojave Desert, southern Nevada: U.S. Geological Survey Fact Sheet FS-179-95, 4 p.

Andraski, B.J., Sandstrom, M.W., Michel, R.L., Radyk, J.C., Stonestrom, D.A., Johnson, M.J., and Mayers, C.J., 2003, Simplified method for detecting tritium contamination in plants and soil: Journal of Environmental Quality, v. 32, no. 3, p. 988-995, doi:10.2134/jeq2003.0988.

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.

Archfield, S.A., and LeBlanc, D.R., 2005, Comparison of diffusion- and pumped-sampling methods to monitor volatile organic compounds in ground water, Massachusetts Military Reservation, Cape Cod, Massachusetts, July 1999-December 2002: U.S. Geological Survey Scientific Investigations Report 2005-5010, 53 p.

Atekwana, E.A., Mewafy, F.M., Abdel Aal, G., Werkema, D.D., Revil, A., and Slater, L.D., 2014, High-resolution magnetic susceptibility measurements for investigating magnetic mineral formation during microbial mediated iron reduction: Journal of Geophysical Research--Biogeosciences, v. 119, no. 1, p. 80-94, doi:10.1002/2013JG002414.

B

Baehr, A.L., and Fischer, J.M., 1996, Overview of research on the transport, microbial degradation, and remediation of hydrocarbons at a subsurface gasoline-spill site in Galloway Township, New Jersey, 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. 1-6.

Baesman, S.M., Oremland, R.S., and Miller, L.G., 2005, A bioreactor for the oxidation of the fumigant methyl bromide: U.S. Patent No. 6,916,446.

Barber, L.B., and Keefe, S.H., 1999, Evolution of a ground-water sewage plume after removal of the 60-year-long source, Cape Cod, Massachusetts--Changes in the distribution of dissolved oxygen, boron, and organic carbon, 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. 261-270.

Barber, L.B., Leenheer, J.A., Noyes, T.I., and Stiles, E.A., 2001, Nature and transformation of dissolved organic matter in treatment wetlands: Environmental Science and Technology, v. 35, no. 24, p. 4805-4816, doi:10.1021/es010518i.

Bekins, B., Rittmann, B.E., and MacDonald, J.A., 2001, Natural attenuation strategy for groundwater cleanup focuses on demonstrating cause and effect: Eos, v. 82, no. 5, p. 53, 57-58.

Bekins, B.A., 2019, Natural Attenuation in Source Zone and Groundwater Plume - Bemidji Crude Oil Spill, access date 6/17/2019, 2019 (Page Version ID: 12809).

Bekins, B.A., Cozzarelli, I.M., Erickson, M.L., Steenson, R.A., and Thorn, K.A., 2016, Crude oil metabolites in groundwater at two spill sites: Groundwater, v. 54, no. 5, p. 681-691, doi:10.1111/gwat.12419 (pdf).

Borch, T., Campbell, K., and Kretzschmar, R., 2009, How electron flow controls contaminant dynamics: Environmental Science and Technology, v. 44, no. 1, p. 3-6, doi:10.1021/es903264z.

Borch, T., Kretzschmar, R., Kappler, A., Cappellen, P.V., Ginder-Vogel, M., Voegelin, A., and Campbell, K., 2009, Biogeochemical redox processes and their Impact on contaminant dynamics: Environmental Science and Technology, v. 44, no. 1, p. 15-23, doi:10.1021/es9026248.

Borden, R.C., Tillotson, J.M., Ng, G.-H.C., Bekins, B.A., Kent, D.B., and Curtis, G.P., 2015, Extent and persistence of secondary water quality impacts after enhanced reductive bioremediation: Department of Defense Strategic Environmental Research and Development Program (SERDP) Technical Report SERDP Project ER-2131.

Bradley, P.M., 2012, Perils of categorical thinking--“Oxic/anoxic” conceptual model in environmental remediation: Remediation Journal, v. 22, no. 3, p. 9-18, doi:10.1002/rem.21317.

Bradley, P.M., 2011, Reinterpreting the importance of oxygen-based biodegradation in chloroethene-contaminated groundwater: Ground Water Monitoring and Remediation, v. 31, no. 4, p. 50-55, doi:10.1111/j.1745-6592.2011.01344.x.

Bradley, P.M., 2009, Potential for microbial degradation of cis-dichloroethene and vinyl chloride in streambed sediment at the U.S. Department of Energy, Kansas City Plant, Missouri, 2008: U.S. Geological Survey Scientific Investigations Map 2009-5137, 12 p.

Bradley, P.M., and Chapelle, F.H., 2010, Biodegradation of chlorinated ethenes (Chap. 3), in Stroo, H.F., and Ward, C.H., eds., In Situ Remediation of Chlorinated Solvent Plumes: Springer New York, p. 39-67, ISBN:978-1-4419-1401-9.

Bradley, P.M., and Chapelle, F.H., 2004, Chloroethene biodegradation potential in the "lower" contaminant plume, River Terrace RV Park, Soldotna, Alaska: U.S. Geological Survey Open-File Report 2004-1427.

Bradley, P.M., and Chapelle, F.H., 2004, Chloroethene biodegradation potential, ADOT/PF Peger Road Maintenance Facility, Fairbanks, Alaska: U.S. Geological Survey Open-File Report 2004-1428.

Bradley, P.M., Chapelle, F.H., Landmeyer, J.E., and Schumacher, J.G., 1997, Potential for intrinsic bioremediation of a DNT-contaminated aquifer: Ground Water, v. 35, no. 1, p. 12-17, doi:10.1111/j.1745-6584.1997.tb00054.x.

Bradley, P.M., Dinicola, R.S., and Landmeyer, J.E., 2000, Natural attenuation of 1,2-Dichloroethane by aquifer microorganisms under Mn(IV) reducing conditions, in Wichramanayake, G.B., Gavaskar, A.R., and Kelley, M.E., eds., Natural Attenuation Considerations and Case Studies--Second International Conference on Remediation of Chlorinated and Recalcitrant Compounds, Monterey, Calif., May 22-25, 2000: Columbus, Ohio, Battelle Press, p. 169, ISBN:978-1574770988 (Contact The Conference Group Inc. for information on the availability of the proceedings.).

Bradley, P.M., Journey, C.A., and Clark, J., 2016, Effect of wastewater treatment facility closure on endocrine disrupting chemicals in a coastal plain stream: Remediation Journal, v. 26, no. 2, p. 9-24, doi:10.1002/rem.21455.

Bradley, P.M., Journey, C.A., Kirshtein, J.D., Voytek, M.A., Lacombe, P.J., Imbrigiotta, T.E., Chapelle, F.H., Tiedeman, C.J., and Goode, D.J., 2012, Enhanced dichloroethene biodegradation in fractured rock under biostimulated and bioaugmented conditions: Remediation, v. 22, no. 2, p. 21-32, doi:10.1002/rem.21308.

Bradley, P.M., and Morganwalp, D.W., 2013, Rethinking the limits of oxygen-based biodegradation--More oxygen than we think: U.S. Geological Survey, access date 10/20/2016, 2016

Bradley, P.M., Singletary, M.A., and Chapelle, F.H., 2007, Chloroethene dechlorination in acidic groundwater--Implications for combining Fenton's treatment with natural attenuation: Remediation Journal, v. 18, no. 1, p. 7-19, doi:10.1002/rem.20149.

Briggs, M., Lane, J.W., and Buxton, H.T., 2014, Improved approach for quantifying subsurface contamination: U.S. Geological Survey, access date 10/19/2016, 2016

C

Campbell, K.M., Alpers, C.N., Nordstrom, D.K., Blum, A., and Williams, A., 2013, Characterization and remediation of iron(III) oxide-rich scale in a pipeline carrying acid mine drainage at Iron Mountain Mine, California, USA, in Brown, A., Figueroa, L., and Wolkersdorfer, C., eds., Annual International Mine Water Association Conference--Reliable Mine Water Technology, Golden, Colo., August 5-9, 2013: Denver, Colo., Publication Printers, p. 287-294, ISBN:9780615793856.

Campbell, K.M., Davis, J.A., Bargar, J., Giammar, D., Bernier-Latmani, R., Kukkadapu, R., Williams, K.H., Veramani, H., Ulrich, K.U., Stubbs, J., Yabusaki, S., Figueroa, L., Lesher, E., Wilkins, M.J., Peacock, A., and Long, P.E., 2011, Composition, stability, and measurement of reduced uranium phases for groundwater bioremediation at Old Rifle, CO: Applied Geochemistry, v. 26, Supplement, p. S167-S169, doi:10.1016/j.apgeochem.2011.03.094.

Campbell, K.M., and Morganwalp, D.W., 2013, Improving subsurface uranium cleanup methods: U.S. Geological Survey, access date 10/20/2016, 2016

Campo, K.W., and Hess, K.M., 1999, Evolution of a ground-water sewage plume after removal of the 60-year-long source, Cape Cod, Massachusetts--Fate of volatile organic compounds, 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. 271-284.

Chapelle, F., Bradley, P., and Casey, C., 2004, Accelerated cleanup follows Fenton's ISCO and substrate addition: Technology News and Trends, no. December 2004.

Chapelle, F.H., 2004, A mass balance approach to monitored natural attenuation, in Proceedings of the Fourth International Conference on Remediation of Chlorinated and Recalcitrant Compounds, Monterey, Calif., May 24-28, 2004: Columbus, Ohio, Battelle Press, (Contact The Conference Group Inc. for information on the availability of the proceedings.).

Chapelle, F.H., 1999, Bioremediation of petroleum hydrocarbon-contaminated ground water--The perspectives of history and hydrogeology: Ground Water, v. 37, no. 1, p. 122-132, doi:10.1111/j.1745-6584.1999.tb00965.x.

Chapelle, F.H., 1995, Bioremediation--Nature's way to a cleaner environment: U.S. Geological Survey Fact Sheet FS-O54-95, 2 p.

Chapelle, F.H., and Bradley, P.M., 1999, Selecting remediation goals by assessing the natural attenuation capacity of ground-water systems, 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. 7-19.

Chapelle, F.H., Bradley, P.M., and Casey, C.C., 2005, Behavior of a chlorinated ethene plume following source-area treatment with Fenton's Reagent: Ground Water Monitoring and Remediation, v. 25, no. 2, p. 1-12, doi:10.1111/j.1745-6592.2005.0020.x.

Chapelle, F.H., Landmeyer, J.E., and Bradley, P.M., 2002, Identifying the distribution of terminal electron-accepting processes (TEAPS) in ground-water systems, in Workshop on Monitoring Oxidation-Reduction Processes for Ground-Water Restoration, Workshop Summary, Dallas, Texas, April 25-27, 2000: U.S. Environmental Protection Agency EPA/600/R-02/002, p. 5-18 (Alternate document URL).

Chapelle, F.H., and Morganwalp, D.W., 2013, Natural attenuation accelerates pump-and-treat cleanup of TCE in fractured rock: U.S. Geological Survey, access date 10/20/2016, 2016

Chapelle, F.H., Robertson, J.F., Landmeyer, J.E., and Bradley, P.M., 2000, Methodology for applying monitored natural attenuation to petroleum hydrocarbon-contaminated ground-water systems with examples from South Carolina: U.S. Geological Survey Water-Resources Investigations Report 00-4161, 47 p (A 3 1/2" disk is included).

Chapelle, F.H., Thomas, L.K., Bradley, P.M., Rectanus, H.V., and Widdowson, M.A., 2012, Threshold amounts of organic carbon needed to initiate reductive dechlorination in groundwater systems: Remediation Journal, v. 22, no. 3, p. 19-28, doi:10.1002/rem.21318.

Chapelle, F.H., Widdowson, M.A., Brauner, J.S., Mendez, E., and Casey, C.C., 2003, Methodology for estimating times of remediation associated with monitored natural attenuation: U.S. Geological Survey Water-Resources Investigations Report 03-4057, 51 p.

Chattopadhyay, S., and Puls, R.W., 1999, Fate of pathogenic microorganisms in soil, in Alleman, B.C., and Leeson, A., eds., Phytoremediation and Innovative Strategies for Specialized Remedial Applications--Proceedings of the Fifth International In-Situ and On-Site Bioremediation Symposium, San Diego, Calif., April 19--22, 1999: Columbus, Ohio, Battelle Press, p. 163-168, ISBN:1-57477-079-9 (Contact The Conference Group Inc. for information on the availability of the proceedings.).

Cho, H.J., Jaffé, P.R., and Smith, J.A., 1993, Simulating the volatilization of solvents in unsaturated soils during laboratory and field infiltration experiments: Water Resources Research, v. 29, no. 10, p. 3329-3342, 93WR01414, doi:10.1029/93WR01414.

Cho, H.J., Jaffe, P.R., and Smith, J.A., 1991, Design of a field experiment to study the dynamics of trichloroethylene vapors in the unsaturated zone during an infiltration event, 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. 721-725.

Church, S.E., Owen, J.R., von Guerard, P., Verplanck, P.L., Kimball, B.A., and Yager, D.B., 2007, The effects of acidic mine drainage from historical mines in the Animas River watershed, San Juan County, Colorado--What is being done and what can be done to improve water quality?, in DeGraff, J.V., ed., Understanding and responding to hazardous substances at mine sites in the western United States: Boulder, Colo., Geological Society of America, p. 47-83, ISBN:9780813741178.

Connell Hancock, T.L., Costello, A.M., Lidstrom, M.E., and Oremland, R.S., 1998, Strain IMB-1--A novel bacterium for the removal of methyl bromide in fumigated agricultural soils: Applied and Environmental Microbiology, v. 64, no. 8, p. 2899-2563.

Cook, R.L., Landmeyer, J.E., Atkinson, B., Messier, J.P., and Guthrie Nichols, E., 2010, Field Note--Successful establishment of a phytoremediation system at a petroleum-hydrocarbon contaminated shallow aquifer--Trends, trials, and tribulations: International Journal of Phytoremediation, v. 12, no. 7, p. 716-732, doi:10.1080/15226510903390395.

Cornelissen, G., Rutherford, D.W., Arp, H.P.H., Dörsch, P., Kelly, C.N., and Rostad, C.E., 2013, Sorption of pure N2O to biochars and other organic and inorganic materials under anhydrous conditions: Environmental Science and Technology, v. 47, no. 14, p. 7704-7712, doi:10.1021/es400676q.

Cowie, R., Williams, M.W., Wireman, M., and Runkel, R.L., 2014, Use of natural and applied tracers to guide targeted remediation efforts in an acid mine drainage system, Colorado Rockies, USA: Water (Switzerland), v. 6, no. 4, p. 745-777, doi:10.3390/w6040745.

Cozzarelli, I.M., and Lee, K.E., 2015, Ethanol-containing fuel spills enhanced natural trace element release from sediments in an experimental setting: U.S. Geological Survey, access date 03/25/2016, 2016

D

Deitsch, J.J., and Smith, J.A., 1996, Surfactant-enhanced remediation of ground water at Picatinny Arsenal, New Jersey, 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. 355-360.

Deitsch, J.J., and Smith, J.A., 1995, Effect of Triton X-100 on the rate of trichloroethene desorption from soil to water: Environmental Science and Technology, v. 29, no. 4, p. 1069-1080, doi:10.1021/es00004a029.

Delin, G.N., Bekins, B.A., and Buxton, H.T., 2014, Pipeline crude oil spill still a cleanup challenge after 30 years: U.S. Geological Survey, access date 10/26/2015, 2015

Delin, G.N., and Herkelrath, W.N., 2014, Effects of dual-pump crude oil recovery system, Bemidji, Minnesota, USA: Groundwater Monitoring and Remediation, v. 34, no. 1, p. 57-67, doi:10.1111/gwmr.12040.

Dinicola, R.S., Cox, S.E., Landmeyer, J.E., and Bradley, P.M., 2002, Natural attenuation of chlorinated volatile organic compounds in ground water at operable unit 1, Naval Undersea Warfare Center, Division Keyport, Washington: U.S. Geological Survey Water-Resources Investigations Report 02-4119, 115 p.

Dojka, M.J., Hugenholtz, P., Haack, S.K., and Pace, N.R., 1998, Microbial diversity in a hydrocarbon- and chlorinated-solvent-contaminated aquifer undergoing intrinsic bioremediation: Applied and Environmental Microbiology, v. 64, no. 10, p. 3869-3877.

E

Ela, W.P., Sedlak, D.L., Barlaz, M.A., Henry, H.F., Muir, D.C.G., Swackhamer, D.L., Weber, E.J., Arnold, R.G., Ferguson, P.L., Field, J.A., Furlong, E.T., Giesy, J.P., Halden, R.U., Henry, T., Hites, R.A., Hornbuckle, K.C., Howard, P.H., Luthy, R.G., Meyer, A.K., Sáez, A.E., vom Saal, F.S., Vulpe, C.D., and Wiesner, M.R., 2011, Toward identifying the next generation of superfund and hazardous waste site contaminants: Environmental Health Perspectives, v. 119, no. 1, p. 6-10, doi:10.1289/ehp.1002497.

Ewing, R.C., Tierney, M.S., Konikow, L.F., and Rechard, R.P., 1999, Performance assessments of nuclear waste repositories--A dialogue on their value and limitations: Risk Analysis, v. 19, no. 5, p. 933-958, doi:10.1023/A:1007070627983.

F

Ford, R.M., and Harvey, R.W., 2007, Role of chemotaxis in the transport of bacteria through saturated porous media: Advances in Water Resources, v. 30, no. 6-7, p. 1608-1617, doi:10.1016/j.advwatres.2006.05.019.

Fuller, C.C., and Akstin, K.C., 2014, Laboratory studies of biostimulated uranium reduction by ISR aquifer sediments and suboxic remobilization of sequestered uranium (Chapter 3), in Yabusaki, S.B., and others, eds., Assessing the Potential for Biorestoration of Uranium In Situ Recovery Sites: U.S. Nuclear Regulatory Commission NUREG/CR-7167.

Fuller, C.C., Bargar, J.R., Davis, J.a., and Piana, M.J., 2002, Mechanisms of uranium interactions with hydroxyapatite--Implications for groundwater remediation: Environmental Science and Technology, v. 36, no. 2, p. 158-165, doi:10.1021/es0108483.

Fuller, C.C., Barger, J.R., and Davis, J.A., 2003, Molecular-scale characterization of uranium sorption by bone apatite materials for a permeable reactive barrier demonstration: Environmental Science and Technology, v. 37, no. 20, p. 4642-4649, doi:10.1021/es0343959.

Fuller, C.C., Johnson, K.J., Akstin, K.C., Singer, D.M., Yabusaki, S.B., Fang, Y., and Fuhrmann, M., 2014, Uranium sequestration during biostimulated reduction and in response to the return of oxic conditions in shallow aquifers: U.S. Nuclear Regulatory Commission NUREG/CR-7178.

G

Gallegos, T.J., Campbell, K.M., Zielinski, R.A., Reimus, P.W., Clay, J.T., Janot, N., J. R. Bargar, and Benzel, W.M., 2015, Persistent U(IV) and U(VI) following in-situ recovery (ISR) mining of a sandstone uranium deposit, Wyoming, USA: Applied Geochemistry, v. 63, p. 222-234, doi:10.1016/j.apgeochem.2015.08.017.

Gammons, C.H., Grant, T.M., Nimick, D.A., Parker, S.R., and DeGrandpre, M.D., 2007, Diel changes in water chemistry in an arsenic-rich stream and treatment-pond system: Science of the Total Environment, v. 384, no. 1-3, p. 433-451, doi:10.1016/j.scitotenv.2007.06.029.

Godsy, E.M., Warren, E., and Paganelli, V.V., 2003, The role of microbial reductive dechlorination of TCE at the phytoremediation site at the Naval Air Station, Forth Worth, Texas: International Journal of Phytoremediation, v. 5, no. 1, p. 73-87, doi:10.1080/16226510390856484.

Gordon, L.C., and Bekins, B.A., 2016, Crude oil byproducts in groundwater plumes: U.S. Geological Survey News Release, 03/31/2016.

Grabert, V.K., Kaback, D.S., Parker, B.L., Chapman, S.W., Cherry, J.A., Chapelle, F.H., Singletary, M.A., Einarson, M.D., Mackay, D.M., and Bennett, P.J., 2010, News and views (see Combining source-area treatment with MNA--A tale of two sites, by Francis H. Chapelle and Michael A. Singletary): Ground Water, v. 48, no. 6, p. 799-808, doi:10.1111/j.1745-6584.2010.00755.x.

Grégoire, C., and Joesten, P.K., 2006, Use of borehole radar tomography to monitor steam injection in fractured limestone: Near Surface Geophysics, v. 4, no. 6, p. 355-365.

Grégoire, C., Joesten, P.K., and Lane, J.W., 2007, Use of borehole-radar methods to monitor a steam-enhanced remediation pilot study at a quarry at the former Loring Air Force Base, Maine: U.S. Geological Survey Scientific Investigations Report 2006-5191, 35 p.

Grégoire, C., Joesten, P.K., and Lane, J.W., Jr., 2006, Use of borehole radar reflection logging to monitor steam-enhanced remediation in fractured limestone--Results of numerical modelling and a field experiment: Journal of Applied Geophysics, v. 60, no. 1, p. 41-54, doi:10.1016/j.jappgeo.2005.12.006.

Grégoire, C., Joesten, P.K., and Lane, J.W., Jr., 2006, Use of borehole radar reflection logging to monitor steam-enhanced remediation in fractured limestone--Results of numerical modelling and a field experiment: Journal of Applied Geophysics, v. 60, no. 1, p. 41-54, doi:10.1016/j.jappgeo.2005.12.006.

H

Harte, P.T., Konikow, L.F., and Hornberger, G.Z., 2006, Simulation of solute transport across low-permeability barrier walls: Journal of Contaminant Hydrology, v. 85, no. 3-4, p. 247-270, doi:10.1016/j.jconhyd.2006.02.012.

Harvey, C.M., Hare, K.D., Hackman, A., Davenport, G., Haynes, B.A., Helton, A., Lane, W.J., and Briggs, A.M., 2019, Evaluation of stream and wetland restoration using UAS-based thermal infrared mapping: Water, v. 11, no. 8, doi:10.3390/w11081568.

Harvey, J.W., Fuller, C.C., and Conklin, M.H., 1999, Enhanced removal of dissolved manganese in hyporheic zones--Centimeter-scale causes and kilometer-scale consequences, 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. 193-199.

Harvey, M., Briggs, M.A., Dawson, C.B., White, E.A., Fosberg, D., Haynes, A., and Moore, E., 2019, Thermal infrared and photogrammetric data collected by small unoccupied aircraft system for the evaluation of wetland restoration design at Tidmarsh Wildlife Sanctuary, Plymouth, Massachusetts, USA: U.S. Geological Survey Data Release.

Hatzinger, P.B., Böhlke, J.K., and Sturchio, N.C., 2013, Application of stable isotope ratio analysis for biodegradation monitoring in groundwater: Current Opinion in Biotechnology, v. 24, no. 3, p. 542-549, doi:10.1016/j.copbio.2012.11.010.

Hatzinger, P.B., Böhlke, J.K., Sturchio, N.C., and Gu, B., 2011, Guidance manual for forensic analysis of perchlorate in groundwater using chlorine and oxygen isotopic analyses: Environmental Security Technology Certification Program Guidance Document ESTCP Project ER-200509, 99 p.

Henneberry, Y., Kraus, T.E.C., Krabbenhoft, D.P., and Horwath, W.R., 2016, Investigating the temporal effects of metal-based coagulants to remove mercury from solution in the presence of dissolved organic matter: Environmental Management, v. 57, no. 1, p. 220-228, doi:10.1007/s00267-015-0601-2.

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Tindall, J.A., Friedel, M.J., Szmajter, R.J., and Cuffin, S.M., 2005, Part 1--Vadose-zone column studies of toluene (enhanced bioremediation) in a shallow unconfined aquifer: Water, Air, and Soil Pollution, v. 168, no. 1-4, p. 325-357, doi:10.1007/s11270-005-1486-0.

Tindall, J.A., Weeks, E.P., Friedel, M.J., and Nutt, A., 2005, Part 2--A field study of enhanced remediation of toluene in the vadose zone using a nutrient solution: Water, Air, and Soil Pollution, v. 168, no. 1-4, p. 359-389, doi:10.1007/s11270-005-3584-4.

Tolle, S., and Arthur, G.V., 1991, Aquifer restoration under the Clean Water Act, 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. 520-523.

Topping, B.R., Kuwabara, J.S., Athearn, N.D., Takekawa, J.Y., Parchaso, F., Henderson, K.D., and Piotter, S., 2009, Benthic oxygen demand in three former salt ponds adjacent to South San Francisco Bay, California: U.S. Geological Survey Open-File Report 2009-1180, 21 p.

Topping, B.R., Kuwabara, J.S., Garrett, K.K., Takekawa, J.Y., Parchaso, F., Piotter, S., Clearwater, I., and Shellenbarger, G.G., 2013, Internal nutrient sources and nutrient distributions in Alviso Pond A3W, California: U.S. Geological Survey Open-File Report 2013-1128, 17 p.

Topping, B.R., Kuwabara, J.S., Marvin-DiPasquale, M.C., Agee, J.L., Kieu, L.H., Flanders, J.R., Parchaso, F., Hager, S.W., Lopez, C.B., and Krabbenhoft, D.P., 2004, Sediment remobilization of mercury in south San Francisco Bay, California: U.S. Geological Survey Scientific Investigations Report 2004-5196, 57 p.

U

U.S. Geological Survey, 2000, Interim report on the scientific investigations in the Animas River watershed, Colorado to facilitate remediation decisions by the U.S. Bureau of Land Management and the U.S. Forest Service, March 29, 2000 meeting, Denver, Colorado: U.S. Geological Survey Open-File Report 00-245, 34 p.

U.S. Geological Survey, 1999, The USGS Abandoned Mine Lands Initiative--Protecting and restoring the environment near abandoned mine lands: U.S. Geological Survey Fact Sheet 095-99, 2 p.

U.S. Geological Survey, and California Bay Delta Authority, 2003, Delta revival--restoring a California ecosystem: U.S. Geological Survey Open-File Report 03-358, DVD p.

Unruh, D.M., Church, S.E., Nimick, D.A., and Fey, D.L., 2009, Metal contamination and post-remediation recovery in the Boulder River watershed, Jefferson County, Montana: Geochemistry--Exploration, Environment, Analysis, v. 9, no. 2, p. 179-199, doi:10.1144/1467-7873/09-191.

W

Walter, D.A., and LeBlanc, D.R., 1997, Geochemical and hydrologic considerations in remediating phosphorus-contaminated ground water in a sewage plume near Ashumet Pond, Cape Cod Massachusetts: U.S. Geological Survey Open-File Report 97-202, 20 p.

Walton-Day, K., and Mills, T.J., 2015, Hydrogeochemical effects of a bulkhead in the Dinero mine tunnel, Sugar Loaf mining district, near Leadville, Colorado: Applied Geochemistry, v. 62, p. 61-74, doi:10.1016/j.apgeochem.2015.03.002.

Walton-Day, K., Mills, T.J., Amundson, A., Dee, K.T., Relego, M.R., and Borbely, C., 2013, The water-quality effects of a bulkhead installed in the Dinero Mine tunnel, near Leadville, Colorado, in Brown, A., Figueroa, L., and Wolkersdorfer, C., eds., Annual International Mine Water Association Conference--Reliable Mine Water Technology, Golden, Colo., August 5-9, 2013: Denver, Colo., Publication Printers, p. 115-120, ISBN:9780615793856.

Walton-Day, K., Paschke, S.S., Runkel, R.L., and Kimball, B.A., 2007, Using the OTIS solute-transport model to evaluate remediation scenarios in Cement Creek and the Upper Animas River (Chapter E24), in Church, S.E., von Guerard, P., and Finger, S.E., eds., Integrated Investigations of Environmental Effects of Historical Mining in the Animas River Watershed, San Juan County, Colorado: U.S. Geological Survey Professional Paper 1651, v. 2, p. 973-1028.

Walton-Day, K., Rossi, F.J., Gerner, L.J., Evans, J.B., Yager, T.J., Ranville, J.F., and Smith, K.S., 2000, Effects of fluvial tailings deposits on soils and surface- and ground-water quality, and implications for remediation--Upper Arkansas River, Colorado, 1992-1996: U.S. Geological Survey Water-Resources Investigations Report 99-4273, 100 p.

Walton-Day, K., Runkel, R.L., Kimball, B.A., and Bencala, K.E., 1999, 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.

Walton-Day, K., Runkel, R.L., and Morganwalp, D.W., 2012, Evaluating acid mine drainage cleanup strategies: U.S. Geological Survey, access date 10/20/2016, 2016

Wang, D., Bradford, S.A., Harvey, R.W., Gao, B., Cang, L., and Zhou, D., 2012, Humic acid facilitates the transport of ARS-labeled hydroxyapatite nanoparticles in iron oxyhydroxide-coated sand: Environmental Science and Technology, v. 46, no. 5, p. 2738-2745, doi:10.1021/es203784u.

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., Stollenwerk, K.G., Paul, A.P., Maurer, D.K., and Halford, K.J., 2008, In situ arsenic removal in an alkaline clastic aquifer: Applied Geochemistry, v. 23, no. 8, p. 2477-2495, doi:10.1016/j.apgeochem.2008.02.010.

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,

Welty, C., and Baehr, A.L., Joss, C.J., and Dillow, J.J.A., 1991, Use of mathematical programming coupled with a transport model to optimize the design of vapor-extraction systems, 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. 276-279.

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.

Wiedemeier, T.H., Swanson, M.A., Moutoux, D.E., Gordon, E.K., Wilson, J.T., Wilson, B.H., Kampbell, D.H., Haas, P.E., Miller, R.N., Hansen, J.E., and Chapelle, F.H., 1998, Technical protocol for evaluating natural attenuation of chlorinated solvents in ground water: U.S. Environmental Protection Agency Office of Research and Development: EPA/600/R-98/128.

Williams, R.L., Mayer, K.U., Amos, R.T., Blowes, D.W., Ptacek, C.J., and Bain, J.G., 2007, Using dissolved gas analysis to investigate the performance of an organic carbon permeable reactive barrier for the treatment of mine drainage: Applied Geochemistry, v. 22, no. 1, p. 90-108, doi:10.1016/j.apgeochem.2006.09.007.

Windham-Myers, L., Ward, K., Marvin-DiPasquale, M., Agee, J.L., Kieu, L.H., and Kakouros, E., 2013, Biogeochemical implications of episodic impoundment in a restored tidal marsh of San Francisco Bay, California: Restoration Ecology, v. 21, no. 1, p. 124-132, doi:10.1111/j.1526-100X.2011.00849.x.

Wood, W.W., 2005, Nanobots--A new paradigm for hydrogeologic characterization?: Ground Water, v. 43, no. 4, p. 462, doi:10.1111/j.1745-6584.2005.0079.x.

Y

Yabusaki, S.B., Fang, Y., Waichler, S.R., Fuller, C.C., Akstin, K., Long, P.E., and Fuhrmann, M., 2014, Assessing the potential for biorestoration of uranium in situ recovery sites: U.S. Nuclear Regulatory Commission.

Yun, J., Ueki, T., Miletto, M., and Lovley, D.R., 2011, Monitoring the metabolic status of geobacter species in contaminated groundwater by quantifying key metabolic proteins with geobacter-specific antibodies: Applied and Environmental Microbiology, v. 77, no. 13, p. 4597-4602, doi:10.1128/aem.00114-11.

Z

Zhang, P., Johnson, W.P., Piana, M.J., Fuller, C.C., and Naftz, D.L., 2001, Potential artifacts in interpretation of differential breakthrough of colloids and dissolved tracers in the context of transport in a zero-valent iron permeable reactive barrier: Ground Water, v. 39, no. 6, p. 831-840, doi:10.1111/j.1745-6584.2001.tb02471.x.

Zito, P., Ghannam, R., Bekins, B.A., and Podgorski, D.C., 2019, Examining the extraction efficiency of petroleum-derived dissolved organic matter in contaminated groundwater plumes: Groundwater Monitoring and Remediation, v. 0, doi:10.1111/gwmr.12349.


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There are 288 on-line publications in this section of the bibliography. The USGS Environmental Health Mission Area Bibliographic Data Base was last updated on 12/31/19.

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