Superfund Research Program
The following tables represent the HTML table view of the "Where We Work" map in a format that is accessible. An Excel version is also available for download.
Table of Contents
- Multiproject Center Grants (P42)
- Individual Research Grants (R01)
- Occupational and Safety Training Education Programs on Emerging Technologies Grants (R25)
- Time Sensitive Grants (R21)
- Small Business Innovation Research (SBIR) (R43/44) and Small Business Technology Transfer Research (STTR) (R41/42) Grants
- Hazardous Waste Sites
Multiproject Center Grants (P42)
Number of rows to display:
Individual Research Grants (R01)
Occupational and Safety Training Education Programs on Emerging Technologies Grants (R25)
Time Sensitive Grants (R21)
| Grantee | Project | Funding | City | State |
|---|---|---|---|---|
| University of Arizona | Wildfires and Flash Floods: Using Exposure Science to Identify Rural Arizona Mining Communities at Risk from the Release and Remobilization of Contaminants | 2022-2023 | Tucson | Arizona |
| University of Pittsburgh | Studying AFFF Fate and Exposure to Pursue Outcomes that Restore Trust: SAFE PORT | 2022-2023 |
Small Business Innovation Research (SBIR) (R43/44) and Small Business Technology Transfer Research (STTR) (R41/42) Grants
| Grantee | Project | Funding | City | State |
|---|---|---|---|---|
| Access Sensor Technologies, LLC | AST: On Target Cards for Monitoring Superfund Sites | Phase I: May 2020 - October 2022 | Fort Collins | Colorado |
| AxNano, LLC | Development of a Smart PFAS-Collector for High-Throughput PFAS Detection | Phase I: September 2021 - August 2022 | Danville | Virginia |
| AxNano, LLC | Hydraulic Fracturing of Controlled Release Oxidants for Remediation of Low Permeability Zones | Phase II: September 2019 - August 2022 | Danville | Virginia |
| Biomineral Systems, LLC | Green and Sustainable in situ Remediation of Heavy Metals Contaminated Soils and Aqueous Systems | Phase I: September 2020 - March 2023 | South Bend | Indiana |
| CycloPure, Inc. | Remediation of Perfluorinated Chemicals in Water Using Novel High-Affinity Polymer Adsorbents | Phase II: September 2022 - August 2023 | Skokie | Illinois |
| GlycoSurf, LLC | Bioinspired Green Glycolipids as Fugitive Dust Mitigation Agents | Phase I: May 2022 - April 2023 | Park City | Utah |
| GlycoSurf, LLC | Rhamnolipid-Based Remediation Technologies for Uranium and Rare Earth Element Contamination | Phase II: May 2020 - April 2023 | Park City | Utah |
| MAX-IR LABS, LLC | Infrared Sensor for Screening of Emerging Contaminants in Water | Phase I: June 2022 - January 2023 | Dallas | Texas |
| Microvi Biotechnologies, Inc. | An Agent-Based Modeling Platform for Environmental Biotechnology | Phase II: January 2021 - January 2023 | Hayward | California |
| Microvi Biotechnologies, Inc. | Intensified, High-Rate Reductive Immobilization of Hexavalent Chromium | Phase II: September 2022 - August 2024 | Hayward | California |
| OndaVia, Inc. | Semi-Continuous, On-Line Monitoring of Selenium in Coal-Fired Power Plant Waste Water | Phase II: April 2020 - March 2022 | Hayward | California |
| Picoyune | Plasmonic Sensor and Field Monitor for Mercury | Phase II: September 2022 - August 2023 | Berkeley | California |
| PowerTech Water, LLC | Electrochemical POU Water Purification System | Phase II: May 2022 - April 2024 | Lexington | Kentucky |
| Quantitative Biosciences, Inc. | An Online, Real-Time Microfluidic Biosensor for PFOA and PFOS | Phase I: December 2021 - September 2022 | Solano Beach | California |
| Stemloop, Inc. | A Paper-Based Synthetic Biology Platform for the On-Demand Testing of Water Quality | Phase II: September 2022 - August 2024 | Morton Grove | Illinois |
| Steve Bitterly | Develop a novel phase-change water/fluid purification technology that uses a NASA-validated vapor compression distillation (VCD) | Phase I: January 2022 - June 2023 | Simi Valley | California |
| TDA Research, Inc. | Filtration Media for In-Home PFAS Removal from Drinking Water | Phase I: February 2021 - January 2023 | Wheat Ridge | Colorado |
Hazardous Waste Sites
Number of rows to display:
| Site | City | State | Grantee | Project |
|---|---|---|---|---|
| 35th Avenue | Birmingham | Alabama | University of Alabama at Birmingham | Community Engagement Core |
| Aberdeen Proving Ground (Edgewood Area Site) | Aberdeen | Maryland | University of Maryland-Baltimore County | Development of in-situ Mercury Remediation Approaches Based on Methylmercury Bioavailability |
| Atlantic Wood Industries | Portsmouth | Virginia | Michigan State University | Geochemical Controls on the Adsorption, Bioavailability, Formation, and Long-term Environmental Fate of Polychlorinated Dibenzo-p-Dioxins (PCDDs) |
| Atlantic Wood Site, Elizabeth River | Chesapeake | Virginia | Duke University | Analytical Chemistry Core |
| Atlantic Wood Site, Elizabeth River | Chesapeake | Virginia | Duke University | Mechanisms and Consequences of Evolved Adaptation to Environmental Pollution |
| Atlantic Wood Site, Elizabeth River | Chesapeake | Virginia | Duke University | Neurobehavioral Toxicity Core |
| Atlantic Wood Site, Elizabeth River | Chesapeake | Virginia | Duke University | Persistent Mitochondrial and Epigenetic Effects of Early Life Toxicant Exposure |
| Atlantic Wood Site, Elizabeth River | Chesapeake | Virginia | Duke University | Research Translation Core |
| Atlantic Wood Site, Elizabeth River | Chesapeake | Virginia | Virginia Institute of Marine Science | Impact of Groundwater-Surface Water Dynamics on in situ Remediation Efficacy and Bioavailability of NAPL Contaminants |
| Belleville Industrial Center | Belleville | New Jersey | Microbial Insights, Inc. | Expanding the Tool Box: Environmental Metabolomics Improves Decision Making and Management of Contaminated (Superfund) Sites |
| Berry's Creek | Wood-Ridge Borough | New Jersey | Dartmouth College | Methylmercury Production and Fate in Response to Multiple Environmental Factors |
| Berry's Creek | Wood-Ridge Borough | New Jersey | Duke University | Biogeochemical Framework to Evaluate Mercury Methylation Potential During in-situ Remediation of Contaminated Sediments |
| Berry's Creek | Wood-Ridge Borough | New Jersey | University of Maryland-Baltimore County | Development of in-situ Mercury Remediation Approaches Based on Methylmercury Bioavailability |
| Black Butte Mine | Cottage Grove | Oregon | Oregon State University | Community Engagement Core |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Administrative Core |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Biostatistics and Data Management Core |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Community Engagement Core |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Immobilization of U, As, and Co-occurring Metals in Mine Wastes |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Mechanisms of Immune Dysregulation Produced by Uranium, Arsenic and Metal Mixtures |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Modulation of Uranium and Arsenic Immune Dysregulation by Zinc |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Research Translation Core |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Toxic Metals in Airborne Particulate Matter Originating from Abandoned Uranium Mine (AUM) Sites |
| Blue Gap/Tachee Claim 28 Mine | Blue Gap | Arizona | University of New Mexico | Training Core |
| BoRit Asbestos Site | Ambler | Pennsylvania | University of Pennsylvania | Asbestos Fate, Exposure, Remediation, and Adverse Health Effects |
| Bunker Hill Mining & Metallurgical Complex | Smelterville | Idaho | University of Washington | Community Engagement Core |
| Callahan Mine | Brooksville | Maine | Dartmouth College | Arsenic and Innate Immunity in Human Lung |
| Central City / Clear Creek | Idaho Springs | Colorado | Colorado School of Mines | Investigating Biogeochemical Controls on Metal Mixture Toxicity Using Stable Isotopes and Gene Expressions |
| City of Arcadia, California | Arcadia | California | Microvi Biotechnologies, Inc. | High-throughput Biocatalyst Manufacturing for Environmental Biotechnology |
| Clearview Landfill Portion of the Lower Darby Creek Area (LDCA) of Superfund Site | Darby | Pennsylvania | University of Pennsylvania | Research Translation Core |
| Coal Tar Processing Facility (former) | Everett | Massachusetts | Boston University | Research Translation Core |
| Commencement Bay, Near Shore/Tide Flats - Hylebos Waterway | Tacoma | Washington | University of Washington | Community Engagement Core |
| Corozal Well | Corozal | Puerto Rico | Northeastern University | Biomarker Epidemiology of Exposure to Mixtures, Oxidative Stress, and Adverse Pregnancy Outcomes in Puerto Rico |
| Corozal Well | Corozal | Puerto Rico | Northeastern University | Data Management and Analysis Core |
| Corozal Well | Corozal | Puerto Rico | Northeastern University | Discovery of Xenobiotics Associated with Preterm Birth |
| Corozal Well | Corozal | Puerto Rico | Northeastern University | Effect of Extreme Weather on Potential Exposure of Contaminant Mixtures in Karst Water Systems |
| Corozal Well | Corozal | Puerto Rico | Northeastern University | Human Subjects and Sampling Core |
| Devil's Swamp Lake | Scotlandville | Louisiana | Louisiana State University | Community Engagement Core |
| Diamond Alkali Co. | Newark | New Jersey | Michigan State University | Molecular Insight into Dioxin Degradation by Microbes and Microbial Communities |
| Dover Municipal Landfill | Dover | New Hampshire | Columbia University | Enhanced Remediation at U.S. Arsenic-Contaminated Sites |
| Earhart (Allen) Dump | Bristol | Tennessee | Microbial Insights, Inc. | Expanding the Tool Box: Environmental Metabolomics Improves Decision Making and Management of Contaminated (Superfund) Sites |
| East Fork Poplar Creek | Oak Ridge | Tennessee | Duke University | Biogeochemical Framework to Evaluate Mercury Methylation Potential During in-situ Remediation of Contaminated Sediments |
| Energy Cooperative Incorporated | East Chicago | Indiana | University of Iowa | Sources of Airborne PCB Congeners |
| Energy Cooperative Incorporated | East Chicago | Indiana | University of Iowa | The AESOP Study: Airborne Exposures to Semi-volatile Organic Pollutants |
| Former Pease Air Force Base | Portsmouth/Newington | New Hampshire | Dartmouth College | Research Translation Core |
| Fort Lewis Logistics Center | Tillicum | Washington | Microbial Insights, Inc. | Expanding the Tool Box: Environmental Metabolomics Improves Decision Making and Management of Contaminated (Superfund) Sites |
| Gold King Mine Spill | Silverton | Colorado | University of Arizona | Community Engagement Core |
| Gold King Mine Spill | Silverton | Colorado | University of Arizona | Research Translation Core |
| Gorham/Textron Site, Adelaide Avenue | Providence | Rhode Island | Brown University | Community Engagement Core |
| Halaco | Oxnard | California | University of California-San Diego | Detection and Models of Toxicant Exposure |
| Halaco | Oxnard | California | University of California-San Diego | Discovery of Protein Sensors and Switches for Detection of Environmental Toxicants |
| Halaco | Oxnard | California | University of California-San Diego | Molecular Mechanisms of Heavy Metal Detoxification and Engineering Accumulation in Plants |
| Halaco | Oxnard | California | University of California-San Diego | Research Translation Core: Extending the Reach of Exposure Science and Technology That Improves the Detection and Remediation of Hazardous Substances |
| Houston Ship Channel/Galveston Bay | Houston | Texas | Michigan State University | Geochemical Controls on the Adsorption, Bioavailability, Formation, and Long-term Environmental Fate of Polychlorinated Dibenzo-p-Dioxins (PCDDs) |
| Houston Ship Channel/Galveston Bay | Houston | Texas | Texas A&M University | Community Engagement Core |
| Houston Ship Channel/Galveston Bay | Houston | Texas | Texas A&M University | Dynamic Exposure Pathways Under Conditions of Environmental Emergencies |
| Houston Ship Channel/Galveston Bay | Houston | Texas | Texas A&M University | Exposure Science Core |
| Houston Ship Channel/Galveston Bay | Houston | Texas | Texas A&M University | Inter-Tissue and -Individual Variability in Response to Mixtures |
| Houston Ship Channel/Galveston Bay | Houston | Texas | Texas A&M University | Mitigation of Chemical and Mixture Effects Through Broad-Acting Sorbents |
| Houston Ship Channel/Galveston Bay | Houston | Texas | Texas A&M University | Single Cell, Multi-Parametric High Throughput Platform to Classify Endocrine Disruptor Potential of Mixtures |
| Industri-Plex | Woburn | Massachusetts | Massachusetts Institute of Technology | Community Engagement Core |
| Industri-Plex | Woburn | Massachusetts | Massachusetts Institute of Technology | Developing In Situ, Real-time Sensors for Toxicants at Superfund Sites, to Protect Public Health and Optimize Cleanup |
| Invista Inc. (Formerly DuPont Waynesboro) | Waynesboro | Virginia | University of Maryland-Baltimore County | Development of in-situ Mercury Remediation Approaches Based on Methylmercury Bioavailability |
| Iron King Mine and Humboldt Smelter | Dewey-Humboldt | Arizona | University of Arizona | Environmental Controls on Bioavailability of Arsenic and Toxic Metals |
| Iron King Mine and Humboldt Smelter | Dewey-Humboldt | Arizona | University of Arizona | Importance of Capping Material Properties in Remediation of Mine Tailings |
| Iron King Mine and Humboldt Smelter | Dewey-Humboldt | Arizona | University of Arizona | Research Translation Core |
| Jackpile-Paguate Uranium Mine | Laguna Pueblo | New Mexico | University of New Mexico | Administrative Core |
| Jackpile-Paguate Uranium Mine | Laguna Pueblo | New Mexico | University of New Mexico | Biostatistics and Data Management Core |
| Jackpile-Paguate Uranium Mine | Laguna Pueblo | New Mexico | University of New Mexico | Community Engagement Core |
| Jackpile-Paguate Uranium Mine | Laguna Pueblo | New Mexico | University of New Mexico | Immobilization of U, As, and Co-occurring Metals in Mine Wastes |
| Jackpile-Paguate Uranium Mine | Laguna Pueblo | New Mexico | University of New Mexico | Mechanisms of Immune Dysregulation Produced by Uranium, Arsenic and Metal Mixtures |
| Jackpile-Paguate Uranium Mine | Laguna Pueblo | New Mexico | University of New Mexico | Research Translation Core |
| Jackpile-Paguate Uranium Mine | Laguna Pueblo | New Mexico | University of New Mexico | Toxic Metals in Airborne Particulate Matter Originating from Abandoned Uranium Mine (AUM) Sites |
| Jackpile-Paguate Uranium Mine | Laguna Pueblo | New Mexico | University of New Mexico | Training Core |
| Loring Air Force Base | Limestone | Maine | Massachusetts Institute of Technology | Community Engagement Core |
| Loring Air Force Base | Limestone | Maine | Massachusetts Institute of Technology | Developing In Situ, Real-time Sensors for Toxicants at Superfund Sites, to Protect Public Health and Optimize Cleanup |
| Lower Duwamish Waterway | Seattle | Washington | University of Washington | Community Engagement Core |
| Lower Duwamish Waterway | Seattle | Washington | University of Washington | Mechanisms and Biomarkers of Metal Olfactory Injury in Salmon |
| Mashapaug Pond | Providence | Rhode Island | Brown University | Community Engagement Core |
| Mashapaug Pond | Providence | Rhode Island | Brown University | Training Core |
| McCormick and Baxter | Portland | Oregon | Oregon State University | Developing and Evaluating Technology to Measure PAH Fate and Exposures |
| Money Point, Elizabeth River | Chesapeake | Virginia | Duke University | Mechanisms and Consequences of Evolved Adaptation to Environmental Pollution |
| Money Point, Elizabeth River | Chesapeake | Virginia | Virginia Institute of Marine Science | Impact of Groundwater-Surface Water Dynamics on in situ Remediation Efficacy and Bioavailability of NAPL Contaminants |
| Monument Valley, Arizona, Processing Site | Arizona | GlycoSurf, LLC | Rhamnolipid-Based Remediation Technologies for Uranium and Rare Earth Element Contamination | |
| Narragansett Tribal Lands/Waters | Charlestown | Rhode Island | Brown University | Community Engagement Core |
| National Electric Coil/Cooper Industries | Dayhoit | Kentucky | University of Kentucky | Community Engagement Core |
| NE Churchrock and Quivira Abandoned Uranium Mines | Church Rock | New Mexico | University of New Mexico | Administrative Core |
| NE Churchrock and Quivira Abandoned Uranium Mines | Church Rock | New Mexico | University of New Mexico | Biostatistics and Data Management Core |
| NE Churchrock and Quivira Abandoned Uranium Mines | Church Rock | New Mexico | University of New Mexico | Community Engagement Core |
| NE Churchrock and Quivira Abandoned Uranium Mines | Church Rock | New Mexico | University of New Mexico | Modulation of Uranium and Arsenic Immune Dysregulation by Zinc |
| NE Churchrock and Quivira Abandoned Uranium Mines | Church Rock | New Mexico | University of New Mexico | Research Translation Core |
| NE Churchrock and Quivira Abandoned Uranium Mines | Church Rock | New Mexico | University of New Mexico | Training Core |
| New Bedford Harbor | New Bedford | Massachusetts | Boston University | Assessing the Relation of Chemical and Non-Chemical Stressors with Risk-Taking Behavior and Related Outcomes among Adolescents Living near the New Bedford Harbor Superfund Site |
| New Bedford Harbor | New Bedford | Massachusetts | Boston University | Community Engagement Core |
| New Bedford Harbor | New Bedford | Massachusetts | Boston University | Environmental PPARγ Pathway Activators: Multifaceted Metabolic Disruptors Impacting Adipose and Bone Homeostasis |
| New Bedford Harbor | New Bedford | Massachusetts | Boston University | Mechanisms and Impacts of PCB Resistant Fish |
| New Bedford Harbor | New Bedford | Massachusetts | Boston University | Research Translation Core |
| North Carolina State University (Lot 86 Farm Unit #1) | Raleigh | North Carolina | Columbia University | Enhanced Remediation at U.S. Arsenic-Contaminated Sites |
| Olin Chemical | Wilmington | Massachusetts | Massachusetts Institute of Technology | Developing In Situ, Real-time Sensors for Toxicants at Superfund Sites, to Protect Public Health and Optimize Cleanup |
| Otis Air National Guard Base/Camp Edwards | Buzzards Bay | Massachusetts | University of Rhode Island | Community Engagement Core |
| Otis Air National Guard Base/Camp Edwards | Buzzards Bay | Massachusetts | University of Rhode Island | Exposure Assessment and Chemometrics of PFASs |
| Palos Verdes Shelf | Palos Verdes Peninsula | California | University of California-Riverside | Exploring the Importance of Aging in Contaminant Bioavailability and Remediation |
| Pesticide Warehouse I | Arecibo | Puerto Rico | Northeastern University | Biomarker Epidemiology of Exposure to Mixtures, Oxidative Stress, and Adverse Pregnancy Outcomes in Puerto Rico |
| Pesticide Warehouse I | Arecibo | Puerto Rico | Northeastern University | Data Management and Analysis Core |
| Pesticide Warehouse I | Arecibo | Puerto Rico | Northeastern University | Discovery of Xenobiotics Associated with Preterm Birth |
| Pesticide Warehouse I | Arecibo | Puerto Rico | Northeastern University | Effect of Extreme Weather on Potential Exposure of Contaminant Mixtures in Karst Water Systems |
| Pesticide Warehouse I | Arecibo | Puerto Rico | Northeastern University | Human Subjects and Sampling Core |
| Pesticide Warehouse III | Manati | Puerto Rico | Northeastern University | Biomarker Epidemiology of Exposure to Mixtures, Oxidative Stress, and Adverse Pregnancy Outcomes in Puerto Rico |
| Pesticide Warehouse III | Manati | Puerto Rico | Northeastern University | Data Management and Analysis Core |
| Pesticide Warehouse III | Manati | Puerto Rico | Northeastern University | Discovery of Xenobiotics Associated with Preterm Birth |
| Pesticide Warehouse III | Manati | Puerto Rico | Northeastern University | Effect of Extreme Weather on Potential Exposure of Contaminant Mixtures in Karst Water Systems |
| Pesticide Warehouse III | Manati | Puerto Rico | Northeastern University | Human Subjects and Sampling Core |
| Petro Processors of Louisiana | Scotlandville | Louisiana | Louisiana State University | Community Engagement Core |
| Port Angeles Harbor | Port Angeles | Washington | University of Washington | Community Engagement Core |
| Portland Harbor | Portland | Oregon | Oregon State University | Developing and Evaluating Technology to Measure PAH Fate and Exposures |
| Portland Harbor | Portland | Oregon | Oregon State University | Identification of Remediation Technologies and Conditions that Minimize Formation of Hazardous PAH Breakdown Products at Superfund Sites |
| Portland Harbor | Portland | Oregon | University of Iowa | Sources of Airborne PCB Congeners |
| Portland Harbor | Portland | Oregon | University of Washington | Community Engagement Core |
| Scorpio Recycling | Toa Baja | Puerto Rico | Northeastern University | Biomarker Epidemiology of Exposure to Mixtures, Oxidative Stress, and Adverse Pregnancy Outcomes in Puerto Rico |
| Scorpio Recycling | Toa Baja | Puerto Rico | Northeastern University | Data Management and Analysis Core |
| Scorpio Recycling | Toa Baja | Puerto Rico | Northeastern University | Discovery of Xenobiotics Associated with Preterm Birth |
| Scorpio Recycling | Toa Baja | Puerto Rico | Northeastern University | Effect of Extreme Weather on Potential Exposure of Contaminant Mixtures in Karst Water Systems |
| Scorpio Recycling | Toa Baja | Puerto Rico | Northeastern University | Human Subjects and Sampling Core |
| Sites in Concord, New Hampshire | Concord | New Hampshire | Dartmouth College | Epidemiology, Biomarkers and Exposure Assessment of Metals |
| Sites in Lebanon, New Hampshire and Surrounding Communities | Lebanon | New Hampshire | Dartmouth College | Epidemiology, Biomarkers and Exposure Assessment of Metals |
| Sperry Vickers | Joplin | Missouri | Microbial Insights, Inc. | Expanding the Tool Box: Environmental Metabolomics Improves Decision Making and Management of Contaminated (Superfund) Sites |
| Standard Chlorine of Delaware, Inc | New Castle | Delaware | Johns Hopkins University | Dual-Biofilm Reactive Barrier for Treatment of Chlorinated Benzenes at Anaerobic-Aerobic Interfaces in Contaminated Groundwater and Sediments |
| Third Creek site | Knoxville | Tennessee | University of Tennessee, Knoxville | Biogeochemical Controls over Corrinoid Bioavailability to Organohalide-Respiring Chloroflexi |
| Town of Eastham Landfill | Eastham | Massachusetts | Boston University | Research Translation Core |
| Tucson International Airport Area (TIAA) Superfund Site | Tucson | Arizona | University of Arizona | Research Translation Core |
| U.S. DOE Oak Ridge Reservation | Oak Ridge | Tennessee | University of Maryland-Baltimore County | Development of in-situ Mercury Remediation Approaches Based on Methylmercury Bioavailability |
| Upjohn | Barceloneta | Puerto Rico | Northeastern University | Biomarker Epidemiology of Exposure to Mixtures, Oxidative Stress, and Adverse Pregnancy Outcomes in Puerto Rico |
| Upjohn | Barceloneta | Puerto Rico | Northeastern University | Data Management and Analysis Core |
| Upjohn | Barceloneta | Puerto Rico | Northeastern University | Discovery of Xenobiotics Associated with Preterm Birth |
| Upjohn | Barceloneta | Puerto Rico | Northeastern University | Effect of Extreme Weather on Potential Exposure of Contaminant Mixtures in Karst Water Systems |
| Upjohn | Barceloneta | Puerto Rico | Northeastern University | Human Subjects and Sampling Core |
| Upper Columbia River/Lake Roosevelt | Hunters | Washington | University of Washington | Community Engagement Core |
| Vega Alta Public Supply Wells | Vega Alta | Puerto Rico | Northeastern University | Biomarker Epidemiology of Exposure to Mixtures, Oxidative Stress, and Adverse Pregnancy Outcomes in Puerto Rico |
| Vega Alta Public Supply Wells | Vega Alta | Puerto Rico | Northeastern University | Data Management and Analysis Core |
| Vega Alta Public Supply Wells | Vega Alta | Puerto Rico | Northeastern University | Discovery of Xenobiotics Associated with Preterm Birth |
| Vega Alta Public Supply Wells | Vega Alta | Puerto Rico | Northeastern University | Effect of Extreme Weather on Potential Exposure of Contaminant Mixtures in Karst Water Systems |
| Vega Alta Public Supply Wells | Vega Alta | Puerto Rico | Northeastern University | Human Subjects and Sampling Core |
| Vega Baja SWD | Vega Baja | Puerto Rico | Northeastern University | Biomarker Epidemiology of Exposure to Mixtures, Oxidative Stress, and Adverse Pregnancy Outcomes in Puerto Rico |
| Vega Baja SWD | Vega Baja | Puerto Rico | Northeastern University | Data Management and Analysis Core |
| Vega Baja SWD | Vega Baja | Puerto Rico | Northeastern University | Discovery of Xenobiotics Associated with Preterm Birth |
| Vega Baja SWD | Vega Baja | Puerto Rico | Northeastern University | Effect of Extreme Weather on Potential Exposure of Contaminant Mixtures in Karst Water Systems |
| Vega Baja SWD | Vega Baja | Puerto Rico | Northeastern University | Human Subjects and Sampling Core |
| Velicol Chemical Superfund Site | St. Louis | Michigan | Michigan State University | Geochemical Controls on the Adsorption, Bioavailability, Formation, and Long-term Environmental Fate of Polychlorinated Dibenzo-p-Dioxins (PCDDs) |
| Wells G&H | Woburn | Massachusetts | Massachusetts Institute of Technology | Developing In Situ, Real-time Sensors for Toxicants at Superfund Sites, to Protect Public Health and Optimize Cleanup |