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Water Quality

The New England Water Science Center collects water-quality data and conducts assessments and research on the quality of rivers, lakes, estuaries, and groundwater. This information is used to understand the status and trends in water-quality conditions throughout New England and the suitability of those resources to meet water use and ecosystem demands. 

Filter Total Items: 34

Continuous Water Quality Monitoring in the Norwalk River Estuary

The U.S. Geological Survey (USGS), in cooperation with the U.S. Environmental Protection Agency Long Island Sound Study (LISS), is investigating how excess nutrients and low dissolved oxygen affect the water-quality of the lower portion of the Norwalk River Harbor.
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Continuous Water Quality Monitoring in the Norwalk River Estuary

The U.S. Geological Survey (USGS), in cooperation with the U.S. Environmental Protection Agency Long Island Sound Study (LISS), is investigating how excess nutrients and low dissolved oxygen affect the water-quality of the lower portion of the Norwalk River Harbor.
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Water Cycle Center

The Water Cycle Center is a cooperation between U.S. Geological Survey and academic partners in the Northeast that studies complete water cycles and watersheds, from mountaintops to shorelines, concentrating on freshwater ecosystems. This research advances the understanding of processes that determine water availability and is needed to best address future water resource challenges.
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Water Cycle Center

The Water Cycle Center is a cooperation between U.S. Geological Survey and academic partners in the Northeast that studies complete water cycles and watersheds, from mountaintops to shorelines, concentrating on freshwater ecosystems. This research advances the understanding of processes that determine water availability and is needed to best address future water resource challenges.
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USGS Assessment of Water Resources near Hanscom Air Force Base

The United States Geological Survey (USGS) New England Water Science Center is expanding its scientific investigation to better understand the water resources at, and in the vicinity of, Hanscom Air Force Base (AFB) and the potential impacts from historical base operations and other sources.
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USGS Assessment of Water Resources near Hanscom Air Force Base

The United States Geological Survey (USGS) New England Water Science Center is expanding its scientific investigation to better understand the water resources at, and in the vicinity of, Hanscom Air Force Base (AFB) and the potential impacts from historical base operations and other sources.
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Long Island Sound Spatially Referenced Regressions on Watershed Attributes (SPARROW) Models

The U.S. Geological Survey, New England Water Science Center, in collaboration with the U.S. Environmental Protection Agency (EPA), is modeling seasonal nutrient loads to Long Island Sound (LIS). Nutrients that originate from within the 41,867-square-mile section of the LIS watershed that is north of the Sound include both point (specific) and nonpoint (widespread) sources. Dynamic modeling of the...
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Long Island Sound Spatially Referenced Regressions on Watershed Attributes (SPARROW) Models

The U.S. Geological Survey, New England Water Science Center, in collaboration with the U.S. Environmental Protection Agency (EPA), is modeling seasonal nutrient loads to Long Island Sound (LIS). Nutrients that originate from within the 41,867-square-mile section of the LIS watershed that is north of the Sound include both point (specific) and nonpoint (widespread) sources. Dynamic modeling of the...
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Quality of Stormwater Runoff Discharged from Connecticut Highways

Existing highway-runoff data do not adequately address the informational needs of stormwater professionals in Connecticut because there have been relatively few studies of highway runoff in the Northeastern United States. Consequently, the U.S. Geological Survey, New England Water Science Center, in cooperation with Connecticut Department of Transportation (CTDOT), is conducting a 4-year project...
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Quality of Stormwater Runoff Discharged from Connecticut Highways

Existing highway-runoff data do not adequately address the informational needs of stormwater professionals in Connecticut because there have been relatively few studies of highway runoff in the Northeastern United States. Consequently, the U.S. Geological Survey, New England Water Science Center, in cooperation with Connecticut Department of Transportation (CTDOT), is conducting a 4-year project...
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Effectiveness of Open-Graded Friction Course Pavement in Reducing Suspended-Sediment Loads Discharged from Massachusetts Highways

The U.S. Geological Survey New England Water Science Center, in cooperation with Massachusetts Department of Transportation (MassDOT), is evaluating how a type of porous pavement affects the discharge of suspended sediment in comparison to the asphalt surface commonly used on Massachusetts highways. The project will expand the understanding of highway runoff concentrations of suspended sediment...
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Effectiveness of Open-Graded Friction Course Pavement in Reducing Suspended-Sediment Loads Discharged from Massachusetts Highways

The U.S. Geological Survey New England Water Science Center, in cooperation with Massachusetts Department of Transportation (MassDOT), is evaluating how a type of porous pavement affects the discharge of suspended sediment in comparison to the asphalt surface commonly used on Massachusetts highways. The project will expand the understanding of highway runoff concentrations of suspended sediment...
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Water Quality Monitoring in the Cambridge Drinking-Water Source Area, Massachusetts

The Cambridge Water Department supplies approximately 13 million gallons per day of drinking water to more than 100,000 customers. Raw water is obtained from a serial system of three primary storage reservoirs—Cambridge Reservoir (also known as the Hobbs Brook Reservoir), Stony Brook Reservoir, and Fresh Pond Reservoir—in parts of Cambridge, Lexington, Lincoln, Waltham, and Weston, Massachusetts...
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Water Quality Monitoring in the Cambridge Drinking-Water Source Area, Massachusetts

The Cambridge Water Department supplies approximately 13 million gallons per day of drinking water to more than 100,000 customers. Raw water is obtained from a serial system of three primary storage reservoirs—Cambridge Reservoir (also known as the Hobbs Brook Reservoir), Stony Brook Reservoir, and Fresh Pond Reservoir—in parts of Cambridge, Lexington, Lincoln, Waltham, and Weston, Massachusetts...
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Base-Flow Water Quality Sampling in Small Basins Draining to Long Island Sound

During the past 20 years, nitrogen loads to Long Island Sound (LIS) have been substantially reduced in large watersheds affected by municipal wastewater loads.
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Base-Flow Water Quality Sampling in Small Basins Draining to Long Island Sound

During the past 20 years, nitrogen loads to Long Island Sound (LIS) have been substantially reduced in large watersheds affected by municipal wastewater loads.
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Research on Per- and Polyfluoroalkyl Substances (PFAS) in the New England Water Science Center

Per- and polyfluoroalkyl substances (PFAS) are a diverse group of over 4,000 different compounds. Since the 1940s, PFAS have been manufactured and used around the globe, including in the United States. PFAS are resistant to chemical and thermal breakdown and impart stain and water-resistance properties, making them useful for a variety of commercial applications, but also persistent in the...
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Research on Per- and Polyfluoroalkyl Substances (PFAS) in the New England Water Science Center

Per- and polyfluoroalkyl substances (PFAS) are a diverse group of over 4,000 different compounds. Since the 1940s, PFAS have been manufactured and used around the globe, including in the United States. PFAS are resistant to chemical and thermal breakdown and impart stain and water-resistance properties, making them useful for a variety of commercial applications, but also persistent in the...
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Environmental streamflows in the United States: historical patterns and predictions

The term environmental streamflows refers to the magnitude, frequency, seasonal timing, duration, and rate of change of streamflows needed to sustain freshwater and estuary ecosystems and human wellbeing. It is important that environmental streamflow assessments by water managers consider changes in climate, land use, and water management; this cannot be done effectively without understanding...
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Environmental streamflows in the United States: historical patterns and predictions

The term environmental streamflows refers to the magnitude, frequency, seasonal timing, duration, and rate of change of streamflows needed to sustain freshwater and estuary ecosystems and human wellbeing. It is important that environmental streamflow assessments by water managers consider changes in climate, land use, and water management; this cannot be done effectively without understanding...
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Water Quality Monitoring of Merrimack River Watershed

The U.S. Geological Survey, in cooperation with the Massachusetts Department of Environmental Protection (MassDEP), is currently conducting a 4-year water-quality investigation in the lower portion of the Merrimack River watershed, April 2020 – October 2024.
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Water Quality Monitoring of Merrimack River Watershed

The U.S. Geological Survey, in cooperation with the Massachusetts Department of Environmental Protection (MassDEP), is currently conducting a 4-year water-quality investigation in the lower portion of the Merrimack River watershed, April 2020 – October 2024.
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Water Quality Sampling in the Tributaries of the Long Island Sound

Coastal estuaries in southern New England and New York show the effects of excess nutrients and coastal eutrophication. These include excessive growth of macroalgae, excessive blooms of phytoplankton, oxygen depletion, hypoxia and deteriorated substrates. State and Federal regulators have responded to these nutrient-caused impairments by requiring more stringent permit limits for National...
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Water Quality Sampling in the Tributaries of the Long Island Sound

Coastal estuaries in southern New England and New York show the effects of excess nutrients and coastal eutrophication. These include excessive growth of macroalgae, excessive blooms of phytoplankton, oxygen depletion, hypoxia and deteriorated substrates. State and Federal regulators have responded to these nutrient-caused impairments by requiring more stringent permit limits for National...
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