Groundwater Quality in Principal Aquifers of the Nation, 1991–2010 Completed
What’s in your groundwater? Learn about groundwater quality in the Principal Aquifers of nine regions across the United States in informative circulars filled with figures, photos, and water-quality information.
Groundwater is our invisible, vital resource—more than 75 billion gallons are pumped each day, and 155 million people rely on groundwater for drinking water. Although groundwater is a safe, reliable source of drinking water for millions of people nationwide, high concentrations of some chemical constituents can pose potential human-health concerns. Some of these contaminants come from the rocks and sediments of the aquifers themselves, and others are chemicals that we use in agriculture, industry, and day-to-day life.
When groundwater supplies are contaminated, millions of dollars can be required for treatment so that the supplies can be usable. Contaminants in groundwater can also affect the health of our streams and valuable coastal waters. By knowing where contaminants occur in groundwater, what factors control contaminant concentrations, and what kinds of changes in groundwater quality might be expected in the future, we can ensure the availability and quality of this vital natural resource in the future.
Based on thousands of samples collected from 1991 to 2010, the National Water-Quality Assessment Project has created informative circulars on water quality and the factors that affect it for each of nine regions, comprising 20 Principal Aquifers—regionally extensive aquifers that supply groundwater for drinking, irrigation, and other uses. The results for the Nation are summarized in a single circular. Samples were collected from 6,600 public-supply, domestic (private), and monitoring wells, and analyzed for a wide range of contaminants and constituents, including pesticides, nutrients, and radionuclides. Explanations of the findings presented in these circulars improve our understanding of the natural and human factors that affect the occurrence of contaminants in the Nation’s groundwater.
Learn more about USGS research on groundwater.
Major Findings
- Contaminants from geologic or manmade sources were a potential human-health concern in one of every five wells sampled in the parts of aquifers used for drinking water;
- Differences in geology, hydrology, geochemistry, and chemical use explain how and why aquifer vulnerability and concentrations of contaminants vary across the Nation;
- Changes to groundwater flow have also altered groundwater quality;
- Our actions today are determining groundwater quality for decades to come.
Click on the "Related Science" tab to find out more about our Nation's groundwater quality.
Follow the links below to the web pages below to learn about more USGS science on groundwater quality.
Full-color circulars are available for each of the nine Principal Aquifers as well as one that summarizes results for the Nation. Each circular describes the quality of the groundwater in that aquifer and the natural processes and human activities that affect it.
The quality of our Nation's waters: Water quality in principal aquifers of the United States, 1991-2010
Water quality in the Western Lake Michigan Drainages, Wisconsin and Michigan, 1992-95
Water quality in the upper Snake River basin, Idaho and Wyoming, 1992-95
Water quality in the South Platte River basin, Colorado, Nebraska, and Wyoming, 1992-95
Water quality in the San Joaquin-Tulare basins, California, 1992-95
Water quality in the Rio Grande Valley, Colorado, New Mexico, and Texas, 1992-95
Water quality in the Ozark Plateaus, Arkansas, Kansas, Missouri, and Oklahoma, 1992-95
Water quality in the Las Vegas Valley area and the Carson and Truckee River basins, Nevada and California, 1992-96
Water quality in the lower Susquehanna River basin, Pennsylvania and Maryland, 1992-95
Water quality in the Hudson River basin, New York and adjacent states, 1992-95
Water quality in the Albemarle-Pamlico drainage basin, North Carolina and Virginia, 1992-95
Water quality in the Georgia-Florida coastal plain, Georgia and Florida, 1992-96
Water quality in the Apalachicola-Chattahoochee-Flint River basin, Georgia, Alabama, and Florida, 1992-95
Below are data or web applications associated with groundwater quality.
Below are news stories associated with this project.
- Overview
What’s in your groundwater? Learn about groundwater quality in the Principal Aquifers of nine regions across the United States in informative circulars filled with figures, photos, and water-quality information.
Groundwater is our invisible, vital resource—more than 75 billion gallons are pumped each day, and 155 million people rely on groundwater for drinking water. Although groundwater is a safe, reliable source of drinking water for millions of people nationwide, high concentrations of some chemical constituents can pose potential human-health concerns. Some of these contaminants come from the rocks and sediments of the aquifers themselves, and others are chemicals that we use in agriculture, industry, and day-to-day life.
When groundwater supplies are contaminated, millions of dollars can be required for treatment so that the supplies can be usable. Contaminants in groundwater can also affect the health of our streams and valuable coastal waters. By knowing where contaminants occur in groundwater, what factors control contaminant concentrations, and what kinds of changes in groundwater quality might be expected in the future, we can ensure the availability and quality of this vital natural resource in the future.
Based on thousands of samples collected from 1991 to 2010, the National Water-Quality Assessment Project has created informative circulars on water quality and the factors that affect it for each of nine regions, comprising 20 Principal Aquifers—regionally extensive aquifers that supply groundwater for drinking, irrigation, and other uses. The results for the Nation are summarized in a single circular. Samples were collected from 6,600 public-supply, domestic (private), and monitoring wells, and analyzed for a wide range of contaminants and constituents, including pesticides, nutrients, and radionuclides. Explanations of the findings presented in these circulars improve our understanding of the natural and human factors that affect the occurrence of contaminants in the Nation’s groundwater.
Learn more about USGS research on groundwater.
Major Findings
- Contaminants from geologic or manmade sources were a potential human-health concern in one of every five wells sampled in the parts of aquifers used for drinking water;
- Differences in geology, hydrology, geochemistry, and chemical use explain how and why aquifer vulnerability and concentrations of contaminants vary across the Nation;
- Changes to groundwater flow have also altered groundwater quality;
- Our actions today are determining groundwater quality for decades to come.
Click on the "Related Science" tab to find out more about our Nation's groundwater quality.
- Science
Follow the links below to the web pages below to learn about more USGS science on groundwater quality.
- Publications
Full-color circulars are available for each of the nine Principal Aquifers as well as one that summarizes results for the Nation. Each circular describes the quality of the groundwater in that aquifer and the natural processes and human activities that affect it.
The quality of our Nation's waters: Water quality in principal aquifers of the United States, 1991-2010
About 130 million people in the United States rely on groundwater for drinking water, and the need for high-quality drinking-water supplies becomes more urgent as our population grows. Although groundwater is a safe, reliable source of drinking water for millions of people nationwide, high concentrations of some chemical constituents can pose potential human-health concerns. Some of these contaminAuthorsLeslie A. DeSimone, Peter B. McMahon, Michael R. RosenFilter Total Items: 39Water quality in the Western Lake Michigan Drainages, Wisconsin and Michigan, 1992-95
This report is intended to summarize major findings that emerged between 1992 and 1995 from the water-quality assessment of the Western Lake Michigan Drainages Study Unit and torelate these findings to water-quality issues of regional and national concern. The information in primarily intended for those who are involved in water-resource management. Yet, the information contained here may also intAuthorsCharles A. Peters, Dale M. Robertson, David A. Saad, Daniel J. Sullivan, Barbara C. Scudder, Faith A. Fitzpatrick, Kevin D. Richards, Jana S. Stewart, Sharon A. Fitzgerald, Bernard N. LenzWater quality in the upper Snake River basin, Idaho and Wyoming, 1992-95
This report is intended to summarize major findings that emerged between 1992 and 1995 from the water-quality assessment of the Upper Snake River Basin Study Unit and to relate these findings to water-quality issues of regional and national concern. This information is primarily intended for those who are involved in water-resource management. Yet, the information contained here may also interestAuthorsGregory M. Clark, T.R. Maret, M.G. Rupert, M.A. Maupin, W. H. Low, D.S. OttWater quality in the South Platte River basin, Colorado, Nebraska, and Wyoming, 1992-95
No abstract available.AuthorsKevin F. Dennehy, David W. Litke, Cathy M. Tate, Sharon L. Qi, Peter B. McMahon, Breton W. Bruce, Robert A. Kimbrough, Janet S. HeinyWater quality in the San Joaquin-Tulare basins, California, 1992-95
This report is intended to summarize major findings that emerged between 1992 and 1995 from the water-quality assessment of the San Joaquin-Tulare Basins Study Unit and to relate these findings to water-quality issues of regional and national concern. The information is primarily intended for those who are involved in water-resource management. Yet, the information contained here may also interestAuthorsNeil M. Dubrovsky, Charles R. Kratzer, Larry R. Brown, JoAnn M. Gronberg, Karen R. BurowWater quality in the Rio Grande Valley, Colorado, New Mexico, and Texas, 1992-95
No abstract available.AuthorsGary W. Levings, Denis F. Healy, Steven F. Richey, Lisa F. CarterWater quality in the Ozark Plateaus, Arkansas, Kansas, Missouri, and Oklahoma, 1992-95
This report is intended to summarize major findings that emerged between 1992 and 1995 from the water-quality assessment of the Ozark Plateaus Study Unit and to relate these findings to water-quality issues of regional and national concern. The information is primarily intended for those who are involved in water-resource management. Yet, the information contained here may also interest those whoAuthorsJames C. Petersen, James C. Adamski, Richard W. Bell, Jerri V. Davis, Suzanne R. Femmer, David A. Freiwald, Robert L. JosephWater quality in the Las Vegas Valley area and the Carson and Truckee River basins, Nevada and California, 1992-96
No abstract available.AuthorsHugh E. Bevans, Michael S. Lico, Stephen J. LawrenceWater quality in the lower Susquehanna River basin, Pennsylvania and Maryland, 1992-95
This report is intended to summarize major findings that emerged between 1992 and 1995 from the water-quality assessment of the lower Susquehanna River basin study unit and to relate these findings to water-quality issues of regional and national concern. The information is primarily intended for those who are involved in water-resource management. Yet, the information contained here may also inteAuthorsBruce D. Lindsey, Kevin J. Breen, Michael D. Bilger, Robin A. BrightbillWater quality in the Hudson River basin, New York and adjacent states, 1992-95
No abstract available.AuthorsGary R. Wall, Karen Murray-Riva, Patrick J. PhillipsWater quality in the Albemarle-Pamlico drainage basin, North Carolina and Virginia, 1992-95
The NAWQA Program is assessing the water-quality conditions of more than 50 of the Nation's largest river basins and aquifers, known as Study Units. Collectively, these Study Units cover about one-half of the United States and include sources of drinking water used by about 70 percent of the U.S. population. Comprehensive assessments of about one-third of the Study Units are ongoing at a given timAuthorsTimothy B. Spruill, Douglas A. Harned, Peter M. Ruhl, Jo Leslie Eimers, Gerard McMahon, Kelly E. Smith, David R. Galeone, Michael D. WoodsideWater quality in the Georgia-Florida coastal plain, Georgia and Florida, 1992-96
This report is intended to summarize major findings that emerged between 1992 and 1995 from the water-quality assessment of the Georgia-Florida Coastal Plain Study Unit and to relate these findings to water-quality issues of regional and national concern. The information is primarily intended for those who are involved in water-resource management. Yet, the information contained here may also inteAuthorsMarian P. Berndt, Hilda H. Hatzell, Christy A. Crandall, Michael Turtora, John R. Pittman, Edward T. OaksfordWater quality in the Apalachicola-Chattahoochee-Flint River basin, Georgia, Alabama, and Florida, 1992-95
No abstract available.AuthorsElizabeth A. Frick, Daniel J. Hiipe, Gary R. Buell, Carol A. Couch, Evelyn H. Hopkins, David J. Wangsness, Jerry W. Garrett - Web Tools
Below are data or web applications associated with groundwater quality.
- News
Below are news stories associated with this project.