New England Water Science Center
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Welcome to the USGS New England Water Science Center. We provide timely and reliable information to Federal, State, Tribal, and local stakeholders on the water resources of Connecticut, Maine, Massachusetts, New Hampshire, Rhode Island, and Vermont. Our data help safeguard human and wildlife health, public safety, and environmental sustainability.
For assistance, please contact us through our Connect page.
Remembering Irene
Tropical Storm Irene made landfall in New England on August 28, 2011, bringing high winds and record setting rainfall. Ten years later, our Center remembers the historical significance of the storm and the USGS response.
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WaterMarks Newsletter - Fall 2021
In this issue we announce new members of our team and our new Associate Director selections. We're excited to welcome these folks and about the great science they will produce for the region. We also recognize a decade since Tropical Storm Irene and the toll it took on portions of New England. Please explore the Irene geonarrative and recent publications. Hope you all have a very happy Fall!
Science in Support of Aquatic-Ecosystem Conservation and Restoration
Human land- and water-management practices have resulted in modifications to natural streamflow conditions and reduced the ecological health of aquatic communities. Working in collaboration with our many partners, the New England Water Science Center provides data and scientific analyses to inform and support aquatic-ecosystem conservation and restoration.
Meet our New Staff at New England WSC - September 2021
Join us in welcoming our recently hired staff at the New England WSC.
Publications
Manganese in the Northern Atlantic Coastal Plain aquifer system, eastern USA—Modeling regional occurrence with pH, redox, and machine learning
Study region: The study was conducted in the Northern Atlantic Coastal Plain aquifer system, eastern USA, an important water supply in a densely populated region.Study focus: Manganese (Mn), an emerging health concern and common nuisance contaminant in drinking water, is mapped and modeled using the XGBoost machine learning method, predictions of...
DeSimone, Leslie A.; Ransom, Katherine Marie
Delineation of areas contributing groundwater and travel times to receiving waters in Kings, Queens, Nassau, and Suffolk Counties, New York
To assist resource managers and planners in developing informed strategies to address nitrogen loading to coastal water bodies of Long Island, New York, the U.S. Geological Survey and New York State Department of Environmental Conservation initiated a program to delineate areas contributing groundwater to coastal water bodies by assembling a...
Misut, Paul E.; Casamassina, Nicole A.; Walter, Donald A. Model estimated baseflow for streams with endangered Atlantic Salmon in Maine, USA
We present a regression model for estimating mean August baseflow per square kilometer of drainage area to help resource managers assess relative amounts of baseflow in Maine streams with Atlantic Salmon habitat. The model was derived from mean August baseflows computed at 31 USGS streamflow gages in Maine. We use an ordinary least squares...
Lombard, Pamela J.; Dudley, Robert; Collins, Matthias J.; Saunders, Rory; Atkinson, Ernie