| Site Characterization for Remediation |
| Project |
Contaminants of Concern |
Location |
| Abandoned Mine Lands Initiative |
Metals |
Animas River, CO;
Boulder River, MT |
| Alternative Landfill Cover Assessment |
Landfill Leachate |
Fort Carson, CO |
| Assessing Bottom Sediments as a Source of Mercury Contamination |
Mercury, Methylmercury |
Camp Far West Reservoir, California |
| Biodegradation of Charcoal Production Wastes |
Waste Waters, Hydrocarbons |
Kingsford, Michigan |
| Borehole-Geophysical Monitoring of Steam-Injection Remediation Technology |
Chlorinated Slovents, Trichloroethane (TCE), Tetrachloroethylene (PCE) |
Loring Air Force Base, Maine |
| Borehole-Geophysical Monitoring of a Blast-Fracture Extraction Trench |
Chlorinated Solvents |
Loring Air Force Base, Maine |
| Borehole-Geophysical Monitoring of a Contaminated Fractured Rock Aquifer |
Pesticides, Chlorinated Solvents, Heavy Metals, Benzene |
Storrs, Connecticut |
| Can Trees Clean Up Ground Water? Phytoremediation of Trichloroethene-Contaminated Ground Water at Air Force Plant 4, Fort Worth, Texas |
Chlorinated Solvents (trichloroethene [TCE]) |
Air Force Plant 4, Fort Worth, Texas (adjacent to the Naval Air Station Fort Worth [formerly Carswell Air Force Base], Fort Worth, Texas) |
| Delineating Discharge Areas of Contaminant Plumes with Diffusion Samplers |
Chlorinated Solvents, Volatile organic compounds (VOCs), Trichloroethene (TCE), Tetrachloroethene (PCE) |
Johns Pond, Cape Cod, Massachusetts |
| Evaluating How Downstream Tailings Deposits Impact the Effectiveness of Remediation Plans |
Metals, Acidic Water |
Upper Arkansas River, Colorado |
| Evaluation of Selenium Remediation Plans |
Waste Waters |
California Central Valley
San Francisco Bay, CA |
| Geochemical and Microbiological Processes that Affect Migration and Natural Attenuation of Chlorinated Solvents in Fractured Sedimentary Rock |
Chlorinated Solvents (trichloroethene [TCE]) |
Naval Air Warfare Center (NAWC) Research Site, West Trenton, New Jersey |
| Geophysical Monitoring of the Use of a Biostimulation Technology to Remediate Contaminated Ground Water |
Chlorinated Solvents, Trichloroethene (TCE) |
Naval Industrial Reserve Ordinance Plant (NIROP), Fridley, Minnesota |
| Lake Coeur d'Alene Remediation Assessment |
Metals |
Lake Coeur d'Alene, ID |
| Landfill Leachate Mobilizes Arsenic Bound in Aquifer Sediments: Saco, Maine |
Arsenic, Landfill Leachate |
Saco, Maine |
| Mercury Transport in the Carson River Basin |
Metals |
Lahontan Reservoir, NV
Carson River, NV |
| Natural Attenuation of Chlorinated Ethenes in a Seasonally Cold Environment, Fairbanks, Alaska |
Chlorinated Solvents (trichloroethene TCE), Hydrocarbons |
Alaska Department of Transportation and Public Facilities Peger Road Operations and Maintenance Facility, Fairbanks, Alaska |
| Natural Attenuation of Wood Preservatives in Ground Water |
Wood preservatives (creosote and pentachlorophenol [PCP]), Dioxins |
Pensacola, Florida |
| Natural Attenuation of a Crude-Oil Spill |
Hydrocarbons, Crude Oil |
Cass Lake, MN |
| Nickel Cycling in the South San Francisco Bay |
Metals |
San Francisco Bay, CA |
| Phosphorus Plume Remediation |
Waste Waters |
Massachusetts Military Reservation, Cape Cod, MA |
| Phytoremediation in the Desert? |
Chlorinated Solvents, Radioactive |
Amargosa Desert Research Site, NV |
| Processes that Control the Natural Attenuation of Chlorinated Solvents, Picatinny Arsenal |
Chlorinated Solvents (trichloroethene [TCE]) |
Picatinny Arsenal, New Jersey |
| Quanitfying Natural Attenuation at the Plume Scale |
Hydrocarbons, Gasoline |
Galloway Township, NJ;
Laurel Bay, SC |
| Quantifying Subsurface Biodegradation |
Landfill Leachate, Chlorinated Solvents, Metals |
Norman Municipal Landfill, Norman, OK |
| RDX Biodegradation Assessment |
RDX (Royal Demolition eXplosive, hexahydro-1,3,5-trinitro-1,3,5-triazine) |
Naval Submarine Base Bangor, Washington |
| Remediating Some of the World's Most Acidic Waters at the Iron Mountain Superfund Site--A Tough Challenge for Scientists |
Metals (cadmium, copper, lead, mercury, zinc, and iron), Acidic Water |
Iron Mountain, Redding (Shasta County), CA |
| Summitville Mine and its Downstream Effects |
Metals, Cyanide |
Summitville, CO |
| Vapor Extraction Optimization |
Hydrocarbons |
Galloway Township, NJ |
| Yolo Bypass Studies |
Metals, Mercury, Loss of Habitat is also a Major Issue |
Yolo Bypass, Sacramento, CA Cache Creek, CA |
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There are 30 items listed in the above table.
