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Bird and Terrestrial Species Conservation

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Fish and Aquatic Species Conservation

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Pollinator Conservation

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Fish and Wildlife Disease Investigation and Surveillance

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Freshwater and Coastal Ecology

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Eastern Ecological Science Center

In 2020, the USGS Patuxent Wildlife Research Center and Leetown Science Center merged to create the Eastern Ecological Science Center (EESC). Our goals are to align our scientific capabilities with the most pressing conservation and management challenges; establish an engaged workforce that fosters high relationship trust with employees, partners and the public.

EESC Cooperative Science with the Atlantic States Marine Fisheries Commission

Image: Eastern Shore of Maryland Coastal Wetland

From “blue water” rivers and streams to “green water” marine environments and brackish estuaries in between, EESC and the Atlantic States Marine Fisheries Commission are collaborating to bring together local, regional, and national expertise to provide the science that modern fisheries management demands.

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Meet our Team

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EESC Quick Links

Enjoy these quick links to the most requested information about EESC!

News

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Amphibians have one more thing to worry about—mercury—large USGS study shows

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USGS research helps American shad find their way

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USGS scientists contribute to independent study evaluating why progress in achieving Bay water quality goals is lagging

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Publications

Biodiversity connections—‘ties that bind’: A special contribution of the Southeastern Fishes Council

Connectivity is a foundational concept in ecology and conservation and was the organising theme for the 2022 Annual Meeting of the Southeastern Fishes Council, a professional organisation dedicated to the study and conservation of freshwater fishes native to the southeast region of the United States (US). We introduce a Special Contribution of six papers selected from presentations at that meeting
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Mary Freeman, Duncan Elkins, Brett Albanese
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Ecosystems Mission Area, Eastern Ecological Science Center

Foundations of modeling resilience of tidal saline wetlands to sea-level rise along the U.S. Pacific Coast

Context Tidal saline wetlands (TSWs) are highly threatened from climate-change effects of sea-level rise. Studies of TSWs along the East Coast U.S. and elsewhere suggest significant likely losses over coming decades but needed are analytic tools gauged to Pacific Coast U.S. wetlands.Objectives We predict the impacts of sea-level rise (SLR) on the elevation capital (vertical) and migration potentia
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Bruce G. Marcot, Karen M. Thorne, Joel A. Carr, Glenn R. Guntenspergen
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Ecosystems Mission Area, Western Ecological Research Center (WERC), Eastern Ecological Science Center

Broad-scale assessment of methylmercury in adult amphibians

Mercury (Hg) is a toxic contaminant that has been mobilized and distributed worldwide and is a threat to many wildlife species. Amphibians are facing unprecedented global declines due to many threats including contaminants. While the biphasic life history of many amphibians creates a potential nexus for methylmercury (MeHg) exposure in aquatic habitats and subsequent health effects, the broad-scal
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Brian J. Tornabene, Blake R. Hossack, Brian J. Halstead, Collin Eagles-Smith, Michael J. Adams, Adam R. Backlin, Adrianne Brand, Colleen Emery, Robert N. Fisher, Jillian Elizabeth Fleming, Brad Glorioso, Daniel A. Grear, Evan H. Campbell Grant, Patrick M. Kleeman, David Miller, Erin L. Muths, Christopher Pearl, Jennifer Rowe, Caitlin Teresa Rumrill, J. Hardin Waddle, Megan Winzeler, Kelly Smalling
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Ecosystems Mission Area, Water Resources Mission Area, Forest and Rangeland Ecosystem Science Center, Fort Collins Science Center, National Wildlife Health Center, New Jersey Water Science Center, Northern Rocky Mountain Science Center, Western Ecological Research Center (WERC), Wetland and Aquatic Research Center , Eastern Ecological Science Center
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Science

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A white ship with a blue bottom travels toward an island. The sky is orange, blue, and grey as the sun rises.

Exploring Biodiversity of the Deep Hawaiian Pacific Ocean with Seafloor Mapping and eDNA Technologies

Working in partnership with BOEM and the NOAA Ocean Exploration Cooperative Institute, scientists from the USGS will embark on a 10-day voyage to the outer limits of the U.S. Pacific waters south of Hawai’i to conduct seafloor mapping and autonomous environmental DNA sampling in order to investigate and characterize the geology and biology of the Hawaiian abyssal plain.
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Ecosystems Mission Area, Land Management Research Program, Species Management Research Program, Eastern Ecological Science Center, Deep Sea Exploration, Mapping and Characterization
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Exploring Biodiversity of the Deep Hawaiian Pacific Ocean with Seafloor Mapping and eDNA Technologies

Working in partnership with BOEM and the NOAA Ocean Exploration Cooperative Institute, scientists from the USGS will embark on a 10-day voyage to the outer limits of the U.S. Pacific waters south of Hawai’i to conduct seafloor mapping and autonomous environmental DNA sampling in order to investigate and characterize the geology and biology of the Hawaiian abyssal plain.
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Image Collage of Landsat, pollinator, and volcanologist

Advancing the Environmental DNA Toolkit for Ecosystem Monitoring and Management

The emerging field of Environmental DNA (eDNA) analysis allows characterization of species presence and community biodiversity by identifying trace amounts of genetic material left behind as organisms move through their environments. EESC scientists have been using eDNA technologies to detect native and rare species and as community biomonitoring tools.
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Ecosystems Mission Area, Land Management Research Program, Species Management Research Program, Eastern Ecological Science Center
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Advancing the Environmental DNA Toolkit for Ecosystem Monitoring and Management

The emerging field of Environmental DNA (eDNA) analysis allows characterization of species presence and community biodiversity by identifying trace amounts of genetic material left behind as organisms move through their environments. EESC scientists have been using eDNA technologies to detect native and rare species and as community biomonitoring tools.
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Close up of an orange coral polyp

Mesophotic and Deep Benthic Communities: Coral Propagation Technique (CPT) Development Project

Through a collaborative effort with other federal agencies and academic and research institutions, the USGS is working to inform and enhance the protection and management of coral communities in mesophotic and deep benthic areas of the Gulf of Mexico.
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Ecosystems Mission Area, Land Management Research Program, Eastern Ecological Science Center, St. Petersburg Coastal and Marine Science Center, Wetland and Aquatic Research Center
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Mesophotic and Deep Benthic Communities: Coral Propagation Technique (CPT) Development Project

Through a collaborative effort with other federal agencies and academic and research institutions, the USGS is working to inform and enhance the protection and management of coral communities in mesophotic and deep benthic areas of the Gulf of Mexico.
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