National Water-Quality Assessment (NAWQA): 1991-2012 Completed
National Water-Quality Assessment Project (NAWQA)
A leading source of scientific data and knowledge on the quality of our Nation’s water resources
Water-Quality Topics
Read about USGS water-quality research on a range of topics, from pesticides to PAHs, from radionuclides to redox
In 1991, Congress established the National Water-Quality Assessment (NAWQA) Project to address where, when, why, and how the Nation's water quality has changed, or is likely to change in the future, in response to human activities and natural factors. This page discusses the first two decadal cycles of NAWQA research from 1991 through 2012.
► Read below about the first two decades of NAWQA research:
- First decade - Baseline survey of water-quality conditions in 51 river basins and aquifers
- Second decade - Synthesis reports on major water quality topics of national priority
► Explore current NAWQA research
The NAWQA Project was designed to run in decadal cycles. From 1991-2001, the first decade, the NAWQA Project conducted interdisciplinary assessments and established a baseline understanding of water-quality conditions in 51 of the Nation's river basins and aquifers, referred to as Study Units. Descriptions of water-quality conditions in streams and groundwater were developed in more than 1,500 reports. Non-technical Summary Reports, written primarily for those interested or involved in resource management, conservation, regulation, and policymaking and listed below, were completed for each of the Study Units. Non-technical national summary reports on pesticides, nutrients, trace elements, and volatile organic compounds (VOCs) also were completed, in which water-quality conditions were compared to national standards and guidelines related to drinking water, protection of aquatic life, and nutrient enrichment.
NAWQA activities during the second decade (2002-2012) focused in large part on national and regional assessments. These assessments built on continued monitoring and assessments in 42 of the 51 Study Units completed in the first decade (USGS Fact Sheet 071-01). During the second decade, there was an emphasis on synthesizing the results of the Study Unit investigations on major water-quality issues:
- Pesticides
- Nutrients
- Volatile Organic Compounds (VOCs) in Groundwater
- Ecological Health of Streams
- Trace Elements
New studies during the second decade focused on water-quality topics of national priority.
- Principal Aquifers
- Public-Supply Wells and Factors that Affect Their Vulnerability to Contamination
- Domestic Supply Wells
- Agriculture and Water Quality
- Nutrients and Stream Ecosystems
- Mercury in Streams
► Additional information on these and other water-quality topics
NAWQA Study Units
NAWQA Study Units covered a variety of important hydrologic and ecological resources; critical sources of contaminants, including agricultural, urban, and natural sources; and a high percentage of population served by municipal water supply and irrigated agriculture. Study Unit boundaries frequently croseds State boundaries and usually encompassed more than 10,000 square kilometers (about 3,900 square miles).
The Study-Unit design used a rotational sampling scheme; therefore, sampling intensity varied year to year at the different sites. In general, about one-third of the Study Units were intensively investigated at any given time for 3-4 years, followed by low-intensity monitoring. Trends in water-quality conditions were assessed about every 10 years.
Summary reports are listed below for the individual Study Units assessed during the first decade (1991-2001). Publications for principle aquifer assessments are listed at Groundwater Quality in Principal Aquifers of the Nation, 1991–2010.
Study Unit Summary Reports
(Number refers to the study units map, above)
1 - Acadian-Pontchartrain Drainages (LA, MS)
2 - Albemarle-Pamlico Drainage Basin (NC, VA)
3 - Allegheny and Monongahela River Basins (MD, NY, PA, WV)
4 - Apalachicola-Chattahoochee-Flint River Basin (AL, FL, GA)
5 - Central Arizona Basins (AZ)
6 - Central Columbia Plateau (ID, WA)
7 - Central Nebraska Basins (NE)
8 - Connecticut, Housatonic and Thames River Basins (CT, MA, NH, NY, RI, VT)
9 - Cook Inlet Basin (AK)
10 - Delaware River Basin (PA, NY, NJ)
11 - Delmarva Peninsula (DE, MD, VA)
12 - Eastern Iowa Basins (IA, MN)
13 - Georgia-Florida Coastal Plain (GA, FL)
14 - Great and Little Miami River Basins (OH, IN)
15 - Great Salt Lake Basins (UT, ID, WY)
16 - Hudson River Basin (NY, CT, MA, NJ, VT)
17 - Island of Oahu (HI)
18 - Kanawha-New River Basins (WV, VA, NC)
19 - Lake Erie-Lake Saint Clair Drainages (IN, MI, OH, PA, NY)
20 - Long Island-New Jersey Coastal Drainages (NJ, NY)
21 - Lower Illinois River Basin (IL)
22 - Lower Susquehanna River Basin (MD, PA)
23 - Lower Tennessee River Basin (TN, AL, GA)
24 - Las Vegas Valley Area and the Carson and Truckee River Basins (NV, CA)
25 - Mississippi Embayment (AR, KY, LA, MS, MO, TN)
26 - Mobile River Basin (MS, AL, GA)
27 - New England Coastal Basins (ME, MA, NH, RI)
28 - Northern Rockies Intermontane Basins (ID, MT, WA)
29 - Ozark Plateaus (AR, KS, MO, OK)
30 - Potomac River Basin (DC, MD, PA, VA, WV)
31 - Puget Sound Basin (WA)
32 - Red River of the North Basin (MN, ND, SD)
33 - Rio Grande Valley (CO, NM, TX)
34 - Sacramento River Basin (CA)
35 - San Joaquin-Tulare Basins (CA)
36 - Santa Ana Basin (CA)
37 - Santee River Basin and Coastal Drainages (SC, NC)
38 - South-Central Texas (TX)
39 - South Platte River Basin (CO, NE, WY)
40 - Southern Florida (FL)
41 - Trinity River Basin (TX)
42 - Upper Colorado River Basin (CO, UT)
43 - Upper Illinois River Basin (IL, WI, IN)
44 - Upper Mississippi River Basin (MN, WI)
45 - Upper Snake River Basin (ID, MT, NV, UT, WY)
46 - Upper Tennessee River Basin (GA, KY, NC, SC, TN, VA)
47 - Western Lake Michigan Drainages (MI, WI)
48 - White River Basin (IN)
49 - Willamette Basin (OR)
50 - Yakima River Basin (WA)
51 - Yellowstone River Basin (MT, WY, ND)
Access the links below to learn more about water-quality science.
National Water-Quality Assessment (NAWQA)
NAWQA has produced more than 1,500 reports that describe how water-quality and ecological conditions; whether conditions are changing over time; and how natural features and human activities affect these conditions.
The most recent publications and selected national-scale reports are listed here. See the USGS Publications Warehouse for all NAWQA publications.
► Pubs Warehouse FAQs
Water quality in the Sacramento River basin, California, 1994-98
Water quality in the Puget Sound basin, Washington and British Columbia, 1996-98
Water quality in the Kanawha-New River basin: West Virginia, Virginia, and North Carolina, 1996-98
Water quality in the Mississippi Embayment; Mississippi, Louisiana, Arkansas, Missouri, Tennessee, and Kentucky
Water quality in the Lake Erie-Lake Saint Clair drainages: Michigan, Ohio, Indiana, New York, and Pennsylvania, 1996–98
Water quality in the lower Illinois River Basin, Illinois, 1995-98
Water quality in the Long Island-New Jersey coastal drainages, New York and New Jersey, 1996–98
Water quality in the Trinity River basin, Texas, 1992-95
Water quality in the Georgia-Florida coastal plain, Georgia and Florida, 1992-96
Water quality in the Albemarle-Pamlico drainage basin, North Carolina and Virginia, 1992-95
Water quality in the Hudson River basin, New York and adjacent states, 1992-95
Water quality in the Apalachicola-Chattahoochee-Flint River basin, Georgia, Alabama, and Florida, 1992-95
- Overview
In 1991, Congress established the National Water-Quality Assessment (NAWQA) Project to address where, when, why, and how the Nation's water quality has changed, or is likely to change in the future, in response to human activities and natural factors. This page discusses the first two decadal cycles of NAWQA research from 1991 through 2012.
► Read below about the first two decades of NAWQA research:
- First decade - Baseline survey of water-quality conditions in 51 river basins and aquifers
- Second decade - Synthesis reports on major water quality topics of national priority
► Explore current NAWQA research
The NAWQA Project was designed to run in decadal cycles. From 1991-2001, the first decade, the NAWQA Project conducted interdisciplinary assessments and established a baseline understanding of water-quality conditions in 51 of the Nation's river basins and aquifers, referred to as Study Units. Descriptions of water-quality conditions in streams and groundwater were developed in more than 1,500 reports. Non-technical Summary Reports, written primarily for those interested or involved in resource management, conservation, regulation, and policymaking and listed below, were completed for each of the Study Units. Non-technical national summary reports on pesticides, nutrients, trace elements, and volatile organic compounds (VOCs) also were completed, in which water-quality conditions were compared to national standards and guidelines related to drinking water, protection of aquatic life, and nutrient enrichment.NAWQA activities during the second decade (2002-2012) focused in large part on national and regional assessments. These assessments built on continued monitoring and assessments in 42 of the 51 Study Units completed in the first decade (USGS Fact Sheet 071-01). During the second decade, there was an emphasis on synthesizing the results of the Study Unit investigations on major water-quality issues:
- Pesticides
- Nutrients
- Volatile Organic Compounds (VOCs) in Groundwater
- Ecological Health of Streams
- Trace Elements
New studies during the second decade focused on water-quality topics of national priority.
- Principal Aquifers
- Public-Supply Wells and Factors that Affect Their Vulnerability to Contamination
- Domestic Supply Wells
- Agriculture and Water Quality
- Nutrients and Stream Ecosystems
- Mercury in Streams
► Additional information on these and other water-quality topics
Sources/Usage: Public Domain. View Media DetailsNAWQA Study Units
NAWQA Study Units covered a variety of important hydrologic and ecological resources; critical sources of contaminants, including agricultural, urban, and natural sources; and a high percentage of population served by municipal water supply and irrigated agriculture. Study Unit boundaries frequently croseds State boundaries and usually encompassed more than 10,000 square kilometers (about 3,900 square miles).
The Study-Unit design used a rotational sampling scheme; therefore, sampling intensity varied year to year at the different sites. In general, about one-third of the Study Units were intensively investigated at any given time for 3-4 years, followed by low-intensity monitoring. Trends in water-quality conditions were assessed about every 10 years.
Sources/Usage: Public Domain. View Media DetailsSummary reports are listed below for the individual Study Units assessed during the first decade (1991-2001). Publications for principle aquifer assessments are listed at Groundwater Quality in Principal Aquifers of the Nation, 1991–2010.
Study Unit Summary Reports
(Number refers to the study units map, above)
1 - Acadian-Pontchartrain Drainages (LA, MS)
2 - Albemarle-Pamlico Drainage Basin (NC, VA)
3 - Allegheny and Monongahela River Basins (MD, NY, PA, WV)
4 - Apalachicola-Chattahoochee-Flint River Basin (AL, FL, GA)
5 - Central Arizona Basins (AZ)
6 - Central Columbia Plateau (ID, WA)
7 - Central Nebraska Basins (NE)
8 - Connecticut, Housatonic and Thames River Basins (CT, MA, NH, NY, RI, VT)
9 - Cook Inlet Basin (AK)
10 - Delaware River Basin (PA, NY, NJ)
11 - Delmarva Peninsula (DE, MD, VA)
12 - Eastern Iowa Basins (IA, MN)
13 - Georgia-Florida Coastal Plain (GA, FL)
14 - Great and Little Miami River Basins (OH, IN)
15 - Great Salt Lake Basins (UT, ID, WY)
16 - Hudson River Basin (NY, CT, MA, NJ, VT)
17 - Island of Oahu (HI)
18 - Kanawha-New River Basins (WV, VA, NC)
19 - Lake Erie-Lake Saint Clair Drainages (IN, MI, OH, PA, NY)
20 - Long Island-New Jersey Coastal Drainages (NJ, NY)
21 - Lower Illinois River Basin (IL)
22 - Lower Susquehanna River Basin (MD, PA)
23 - Lower Tennessee River Basin (TN, AL, GA)
24 - Las Vegas Valley Area and the Carson and Truckee River Basins (NV, CA)
25 - Mississippi Embayment (AR, KY, LA, MS, MO, TN)
26 - Mobile River Basin (MS, AL, GA)
27 - New England Coastal Basins (ME, MA, NH, RI)
28 - Northern Rockies Intermontane Basins (ID, MT, WA)
29 - Ozark Plateaus (AR, KS, MO, OK)
30 - Potomac River Basin (DC, MD, PA, VA, WV)
31 - Puget Sound Basin (WA)
32 - Red River of the North Basin (MN, ND, SD)
33 - Rio Grande Valley (CO, NM, TX)
34 - Sacramento River Basin (CA)
35 - San Joaquin-Tulare Basins (CA)
36 - Santa Ana Basin (CA)
37 - Santee River Basin and Coastal Drainages (SC, NC)
38 - South-Central Texas (TX)
39 - South Platte River Basin (CO, NE, WY)
40 - Southern Florida (FL)
41 - Trinity River Basin (TX)
42 - Upper Colorado River Basin (CO, UT)
43 - Upper Illinois River Basin (IL, WI, IN)
44 - Upper Mississippi River Basin (MN, WI)
45 - Upper Snake River Basin (ID, MT, NV, UT, WY)
46 - Upper Tennessee River Basin (GA, KY, NC, SC, TN, VA)
47 - Western Lake Michigan Drainages (MI, WI)
48 - White River Basin (IN)
49 - Willamette Basin (OR)
50 - Yakima River Basin (WA)
51 - Yellowstone River Basin (MT, WY, ND)
- Science
Access the links below to learn more about water-quality science.
National Water-Quality Assessment (NAWQA)
Our surface water, groundwater, and aquatic ecosystems are priceless resources, used by people across the Nation for drinking, irrigation, industry, and recreation. The National Water-Quality Assessment (NAWQA) Project is a leading source of scientific data and knowledge for development of science-based policies and management strategies to improve and protect our water resources. - Publications
NAWQA has produced more than 1,500 reports that describe how water-quality and ecological conditions; whether conditions are changing over time; and how natural features and human activities affect these conditions.
The most recent publications and selected national-scale reports are listed here. See the USGS Publications Warehouse for all NAWQA publications.
► Pubs Warehouse FAQs
Filter Total Items: 63Water quality in the Sacramento River basin, California, 1994-98
This report summarizes major findings about water quality in the Sacramento River basin that emerged from an assessment conducted between 1994 and 1998 by the U.S. Geological Survey (USGS) National Water-Quality Assessment (NAWQA) Program. Water quality is discussed in terms of local and regional issues and compared to conditions found in all 36 NAWQA study areas assessed to date. Findings are alsAuthorsJoseph L. Domagalski, Donna L. Knifong, Peter D. Dileanis, Larry R. Brown, Jason T. May, Valerie Connor, Charles N. AlpersWater quality in the Puget Sound basin, Washington and British Columbia, 1996-98
Puget Sound basin streams during 1995-98 met most guidelines and criteria. Seventy-four manmade compounds were detected and different mixtures linked to land use. Urban expansion into forested areas is changing stream habitats--urban and agricultural streams are warmer and support less diverse insect populations than streams in forested areas. Elevated nitrate concentrations and the presence of maAuthorsJames C. Ebbert, Sandra S. Embrey, Robert W. Black, Anthony J. Tesoriero, Alan L. HagglandWater quality in the Kanawha-New River basin: West Virginia, Virginia, and North Carolina, 1996-98
This report summarizes major findings about water quality in the Kanawha-New River basin that emerged from an assessment conducted between 1996 and 1998 by the U.S. Geological Survey (USGS) National Water-Quality Assessment (NAWQA) Program. Water quality is discussed in terms of local and regional issues and compared to conditions found in all 36 NAWQA study areas assessed to date. Findings also aAuthorsKatherine S. Paybins, Terence Messinger, James H. Eychaner, Douglas B. Chambers, Mark D. KozarWater quality in the Mississippi Embayment; Mississippi, Louisiana, Arkansas, Missouri, Tennessee, and Kentucky
No abstract available.AuthorsBarbara A. Kleiss, Richard H. Coupe, Gerard Gonthier, B. G. JustusWater quality in the Lake Erie-Lake Saint Clair drainages: Michigan, Ohio, Indiana, New York, and Pennsylvania, 1996–98
This report summarizes major findings about water quality in the Lake Erie-Lake Saint Clair Drainages that emerged from an assessment conducted between 1996 and 1998 by the U.S. Geological Survey (USGS) National Water-Quality Assessment (NAWQA) Program. Water quality is discussed in terms of local and regional issues and compared to conditions found in all 36 NAWQA study areas assessed to date. FiAuthorsDonna N. Myers, Mary Ann Thomas, Jeffrey W. Frey, Stephen J. Rheaume, Daniel T. ButtonWater quality in the lower Illinois River Basin, Illinois, 1995-98
Major influences and findings for water quality and biology in central Illinois, including the Illinois River from Ottawa, Illinois to Valley City, Illinois, are described and illustrated. Samples were collected to determine nitrate, phosphorus, pesticides, volatile organic carbon compounds, and radon-222 in streams and ground water. Agricultural and other land-use practices are discussed in relatAuthorsGeorge E. Groschen, Mitchell A. Harris, Robin B. King, Paul J. Terrio, Kelly L. WarnerWater quality in the Long Island-New Jersey coastal drainages, New York and New Jersey, 1996–98
No abstract available.AuthorsMark A. Ayers, Jonathan Kennen, Paul E. StackelbergWater quality in the Trinity River basin, Texas, 1992-95
Water quality in the Trinity River basin was studied during 1992-95 as part of the USGS National Water-Quality Assessment (NAWQA) Program. Studies included chemical sampling of streams, streambed sediments, biota, and ground water; measuring distributions of biological communities in streams; and measuring physical characteristics of streams that affect biological habitat. The sampling design, inAuthorsLarry F. Land, J. Bruce Moring, Peter C. Van Metre, David C. Reutter, Barbara Mahler, Allison A. Shipp, Randy L. UleryWater 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 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 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 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