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Gregory Noe

Research Interests: Wetland ecosystem ecology, focusing on the interactive influences of hydrology, geomorphology, climate, and biology on nitrogen, phosphorus, carbon, and sediment biogeochemistry and transport in watersheds, as well as plant community ecology and restoration ecology.

Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002, where he leads the Wetland Ecosystem Ecology & Biogeochemistry Laboratory (WEEBL) in the Florence Bascom Geoscience Center. Dr. Noe’s research centers on wetland ecosystem ecology and watershed processes. His dissertation research identified the complex controls on annual plant germination in the salt marshes of southern California. This was followed by post-doctoral research on phosphorus biogeochemistry and enrichment effects in the Florida Everglades. When joining the USGS, he started a research program on nutrient cycling, transport, and retention in wetlands associated with floodplains. 

He is the recent President of the Society of Wetland Scientists, serves on the Science and Technical Advisory Committee of the Chesapeake Bay Program, served on the editorial board of Wetlands and Wetlands Ecology and Management, is the recipient of the President's Service Award from the Society of Wetland Scientists, and has served on the program committees of national and international scientific conferences and numerous graduate student committees.  Greg is a recipient of the Meritorious Service Award from the Department of the Interior and is a Fellow of the Society of Wetland Scientists.

Current projects:

  • Quantifying and modeling nutrient retention by riverine floodplains from site to watershed scales across the U.S.
  • Evaluating the impacts of watershed restoration on water quality and stream health in the Chesapeake
  • Identifying the effects of sea level rise, salinization, and sediment availability on tidal freshwater wetland ecosystem resilience along the Atlantic Coast
  • Measuring the water quality functions in created wetlands, stream restoration projects, and floodplain restorations, and how to optimize their design

 

Professional Experience

  • Research Ecologist, USGS Florence Bascom Geoscience Center, 2019-Present

  • Research Ecologist, USGS Water Mission Area, Earth Surface Processes Division, 2017-2019

  • Research Ecologist, USGS Water Mission Area, National Research Program, 2002-2017

  • Postdoctoral Research Scientist, Florida International University, 1999-2002

Education and Certifications

  • Ph.D. Ecology, University of California, Davis and San Diego State University, 1999

  • B.S. Biology “In honors”, Virginia Tech, 1994

Science and Products

Mangroves on the outside of a playa within Florida Bay

Coastal Wetland Vulnerability to Climate Change and Sea-Level Rise: Understanding Ecological Thresholds and Ecosystem Transformations

Eighteen USGS coastal scientists from all four coasts of the conterminous United States are working together to advance the understanding of climate change and sea-level rise impacts to coastal wetlands.
By
California Water Science Center, Chesapeake Bay Activities, Eastern Ecological Science Center, Florence Bascom Geoscience Center, Great Lakes Science Center, Pacific Coastal and Marine Science Center, St. Petersburg Coastal and Marine Science Center, Western Ecological Research Center (WERC), Western Geographic Science Center, Wetland and Aquatic Research Center , Woods Hole Coastal and Marine Science Center
Coastal Wetland Vulnerability to Climate Change and Sea-Level Rise: Understanding Ecological Thresholds and Ecosystem Transformations

Coastal Wetland Vulnerability to Climate Change and Sea-Level Rise: Understanding Ecological Thresholds and Ecosystem Transformations

Eighteen USGS coastal scientists from all four coasts of the conterminous United States are working together to advance the understanding of climate change and sea-level rise impacts to coastal wetlands.
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Two aquatic macroinvertebrates in a pan.

Using Multiple Indicators to Assess Stream Condition in the Chesapeake Bay

USGS is working with federal, state and local partners to develop multiple assessments of stream and river conditions in non-tidal areas of the Chesapeake Bay watershed. These assessments will help managers preserve stream health and improve biological conditions in impaired streams as the human population and climate continue to change in this region.
By
Ecosystems Mission Area, Land Management Research Program, Species Management Research Program, Chesapeake Bay Activities, Eastern Ecological Science Center
Using Multiple Indicators to Assess Stream Condition in the Chesapeake Bay

Using Multiple Indicators to Assess Stream Condition in the Chesapeake Bay

USGS is working with federal, state and local partners to develop multiple assessments of stream and river conditions in non-tidal areas of the Chesapeake Bay watershed. These assessments will help managers preserve stream health and improve biological conditions in impaired streams as the human population and climate continue to change in this region.
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USGS

Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

We will develop reproducible workflows in R and Python to combine already existing and underutilized field data collected as part of the USGS streamgage network with remotely sensed data to map flood-prone areas for various recurrence intervals in both gaged and ungaged stream reaches.
By
Community for Data Integration (CDI)
Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

We will develop reproducible workflows in R and Python to combine already existing and underutilized field data collected as part of the USGS streamgage network with remotely sensed data to map flood-prone areas for various recurrence intervals in both gaged and ungaged stream reaches.
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USGS

Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

We will develop reproducible workflows in R and Python to combine already existing and underutilized field data collected as part of the USGS streamgage network with remotely sensed data to map flood-prone areas for various recurrence intervals in both gaged and ungaged stream reaches.
By
Community for Data Integration (CDI)
Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

We will develop reproducible workflows in R and Python to combine already existing and underutilized field data collected as part of the USGS streamgage network with remotely sensed data to map flood-prone areas for various recurrence intervals in both gaged and ungaged stream reaches.
Learn More
Map of 68 field sites and their upstream drainage areas of the Chesapeake and Delaware watersheds

New study shows importance of streambank erosion and floodplain deposition on sediment, phosphorus, and nitrogen sources and transport in the Chesapeake watershed

Issue: As Chesapeake Bay Program partners work to reduce pollution, knowing sources of sediment, phosphorus, and nitrogen transported to the Bay is critical for effective and efficient management. Streams and their associated floodplains have an important influence on the transport of nutrients and sediment through the Chesapeake watershed and into tidal waters. The USGS is conducting...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center
New study shows importance of streambank erosion and floodplain deposition on sediment, phosphorus, and nitrogen sources and transport in the Chesapeake watershed

New study shows importance of streambank erosion and floodplain deposition on sediment, phosphorus, and nitrogen sources and transport in the Chesapeake watershed

Issue: As Chesapeake Bay Program partners work to reduce pollution, knowing sources of sediment, phosphorus, and nitrogen transported to the Bay is critical for effective and efficient management. Streams and their associated floodplains have an important influence on the transport of nutrients and sediment through the Chesapeake watershed and into tidal waters. The USGS is conducting...
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Collage of vessel, glacier, mineral, and scientist testing substances in pipets.

New Review of Sediment Science Informs Choices of Management Actions in the Chesapeake

Issue: The Chesapeake Bay Program (CBP) is pursuing restoration efforts to improve habitats and associated water quality for fisheries, both in the watershed and estuary. Excess sediment decreases light in tidal waters for submerged aquatic vegetation, harms oysters, carries contaminants, and impairs stream health throughout the watershed. The CBP is implementing management actions and policies...
By
Core Science Systems Mission Area, Chesapeake Bay Activities, Florence Bascom Geoscience Center
New Review of Sediment Science Informs Choices of Management Actions in the Chesapeake

New Review of Sediment Science Informs Choices of Management Actions in the Chesapeake

Issue: The Chesapeake Bay Program (CBP) is pursuing restoration efforts to improve habitats and associated water quality for fisheries, both in the watershed and estuary. Excess sediment decreases light in tidal waters for submerged aquatic vegetation, harms oysters, carries contaminants, and impairs stream health throughout the watershed. The CBP is implementing management actions and policies...
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Licking Creek, Maryland

New information on chemical and physical characteristics of streams and floodplains across the Chesapeake Bay and Delaware River watersheds

Issue: Improving stream health is an important outcome of the Chesapeake Bay Program partnership. Stream conditions are important for recreational fisheries, and mitigating the amount of nutrients, sediment, and contaminants delivered to the Bay.
By
Core Science Systems Mission Area, Chesapeake Bay Activities, Florence Bascom Geoscience Center
New information on chemical and physical characteristics of streams and floodplains across the Chesapeake Bay and Delaware River watersheds

New information on chemical and physical characteristics of streams and floodplains across the Chesapeake Bay and Delaware River watersheds

Issue: Improving stream health is an important outcome of the Chesapeake Bay Program partnership. Stream conditions are important for recreational fisheries, and mitigating the amount of nutrients, sediment, and contaminants delivered to the Bay.
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Dead trees in a tidal marsh

Impacts of coastal and watershed changes on upper estuaries: causes and implications of wetland ecosystem transitions along the US Atlantic and Gulf Coasts

Estuaries and their surrounding wetlands are coastal transition zones where freshwater rivers meet tidal seawater. As sea levels rise, tidal forces move saltier water farther upstream, extending into freshwater wetland areas. Human changes to the surrounding landscape may amplify the effects of this tidal extension, impacting the resiliency and function of the upper estuarine wetlands. One visible...
By
Ecosystems Land Change Science Program, Florence Bascom Geoscience Center, Wetland and Aquatic Research Center , Gulf of America
Impacts of coastal and watershed changes on upper estuaries: causes and implications of wetland ecosystem transitions along the US Atlantic and Gulf Coasts

Impacts of coastal and watershed changes on upper estuaries: causes and implications of wetland ecosystem transitions along the US Atlantic and Gulf Coasts

Estuaries and their surrounding wetlands are coastal transition zones where freshwater rivers meet tidal seawater. As sea levels rise, tidal forces move saltier water farther upstream, extending into freshwater wetland areas. Human changes to the surrounding landscape may amplify the effects of this tidal extension, impacting the resiliency and function of the upper estuarine wetlands. One visible...
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Wetlands

Type of Wetlands Affect How Much Nitrogen is Removed from the Bay’s Tidal Rivers

Issue: Wetlands are important for removing nitrogen from rivers entering the Chesapeake Bay. More information is needed on how much nitrogen wetlands can remove.
By
Core Science Systems Mission Area, Chesapeake Bay Activities, Florence Bascom Geoscience Center
Type of Wetlands Affect How Much Nitrogen is Removed from the Bay’s Tidal Rivers

Type of Wetlands Affect How Much Nitrogen is Removed from the Bay’s Tidal Rivers

Issue: Wetlands are important for removing nitrogen from rivers entering the Chesapeake Bay. More information is needed on how much nitrogen wetlands can remove.
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Figure 2 for Science Summary effects of seal-level rise

Assessing Effects of Sea-level Rise on Upstream Ecosystem Conditions

A synthesis published in Frontiers in Ecology and the Environment addresses what is known about the ecosystem consequences of freshwater tides extending upstream into formerly nontidal rivers. The USGS and its partners, with support from the Climate and Land Use Change Mission Area, published an article that summarizes the known effects of sea-level rise pushing freshwater tides upstream into...
By
Chesapeake Bay Activities
Assessing Effects of Sea-level Rise on Upstream Ecosystem Conditions

Assessing Effects of Sea-level Rise on Upstream Ecosystem Conditions

A synthesis published in Frontiers in Ecology and the Environment addresses what is known about the ecosystem consequences of freshwater tides extending upstream into formerly nontidal rivers. The USGS and its partners, with support from the Climate and Land Use Change Mission Area, published an article that summarizes the known effects of sea-level rise pushing freshwater tides upstream into...
Learn More
Field Sampling Sites within the Delaware River Basin

Quantifying Floodplain Ecological Processes and Ecosystem Services in the Delaware River Watershed

Floodplain and wetland areas provide critical ecosystem services to local and downstream communities by retaining sediments, nutrients, and floodwaters. The loss of floodplain functionality due to land use conversion and degradation reduces the provisioning of these services. Assessing, quantifying, and valuing floodplain ecosystem services provide a framework to estimate how floodplain systems...
By
South Atlantic Water Science Center (SAWSC), Washington Water Science Center
Quantifying Floodplain Ecological Processes and Ecosystem Services in the Delaware River Watershed

Quantifying Floodplain Ecological Processes and Ecosystem Services in the Delaware River Watershed

Floodplain and wetland areas provide critical ecosystem services to local and downstream communities by retaining sediments, nutrients, and floodwaters. The loss of floodplain functionality due to land use conversion and degradation reduces the provisioning of these services. Assessing, quantifying, and valuing floodplain ecosystem services provide a framework to estimate how floodplain systems...
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Filter Total Items: 36

Predicted carbon fluxes in Lake Maurepas swamp forests under various hydrologic and salinity regimes Predicted carbon fluxes in Lake Maurepas swamp forests under various hydrologic and salinity regimes

A process-driven biogeochemistry model, Wetland Carbon Assessment Tool - DeNitrification-DeComposition model (WCAT-DNDC) was validated and applied to examine the responses of daily net ecosystem exchange (NEE), net primary productivity (NPP), ecosystem respiration (ER), methane (CH4) and nitrous oxide (N2O) emissions in the Lake Maurepas swamp forests under dry (2011), normal (2019), and...
By
Wetland and Aquatic Research Center

Stream Health and Habitat Assessments for Mixed Agricultural Streams in Pennsylvania and Maryland (2023) Stream Health and Habitat Assessments for Mixed Agricultural Streams in Pennsylvania and Maryland (2023)

U. S. Geological Survey (USGS) scientists completed a data collection campaign from the 3rd of April to the 23rd of June in 2023, using various methods to record geomorphic and habitat indicators throughout 30 streams in southern Pennsylvania and northern Maryland. Field methods included GNSS surveys, gravelometer-based pebble count readings, visual assessments, and riparian analyses...
By
Maryland-Delaware-D.C. Water Science Center

Suspended sediment statistical analyses results for nontidal and tidal stations of the Chesapeake Bay and watershed between 1984-2021 Suspended sediment statistical analyses results for nontidal and tidal stations of the Chesapeake Bay and watershed between 1984-2021

Results of statistical analyses of nontidal and tidal station measurements of suspended sediment concentrations in the Chesapeake Bay and watershed, collected from 1984-2021 by Chesapeake Bay Program and partners and the U.S. Geological Survey. Original measurements were retrieved from online data repositories.
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Watershed Attributes for Chesapeake Stream Team Field Sites Watershed Attributes for Chesapeake Stream Team Field Sites

The Chesapeake Stream Team studied 123 streams from 2021 to 2024 to determine whether conservation practices in agricultural and urban settings have improved downstream nontidal stream health. To isolate effects of conservation practices, scientists must account for other attributes in the greater watershed that may affect measured metrics of stream health. This release includes over 450...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Contaminants in bed sediment from surface waters collected in the Chesapeake Bay Watershed, 2021-24 Contaminants in bed sediment from surface waters collected in the Chesapeake Bay Watershed, 2021-24

This data release provides contaminant data from bed sediment collected from small streams between 2021 and 2024 in the Chesapeake Bay Watershed. These data are part of a larger study designed to determine how conservation practices are affecting local stream ecosystem health, which stressors are negatively impacting streams, and which landscape characteristics are associated with better...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Positive openness for the Delaware River Basin Positive openness for the Delaware River Basin

In support of the U.S. Geological Survey Water Mission Area’s assessment of Integrated Water Science (IWS) basins across the United States (Van Metre and others, 2020), this data release contains a positive openness raster dataset that was developed for the Delaware River Basin. The raster was developed to help characterize the landscape and channel features within the Delaware River...
By
South Atlantic Water Science Center (SAWSC)

Fish communities in streams of the Maryland-Washington, DC-Virginia developed Piedmont, 2024 Fish communities in streams of the Maryland-Washington, DC-Virginia developed Piedmont, 2024

From May 27 to June 21, 2024, a Virginia Tech team of 5 sampled the fish community in 30 streams spanning a gradient of the developed landscape, including Potomac River, Rappahannock River, and upper Chesapeake Bay tributaries of Maryland, Washington, D.C., and Virginia, USA. These fish surveys were part of a larger stream-health study including other teams who surveyed geomorphology...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Chesapeake Stream Team Field Sites, 2021-2024 Chesapeake Stream Team Field Sites, 2021-2024

Each year from 2021-2024, teams from the US Geological Survey and Virginia Tech studied 30 streams with a targeted gradient of land use and conservation practices across the Chesapeake Bay Watershed. The four years of the study cover the following geographic areas and land use characteristics: -Shenandoah Valley and Ridge pasture -Delmarva row crop -Pennsylvania and Maryland Piedmont...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Delmarva Peninsula Stream Health and Habitat Assessments in Maryland and Delaware (2022) (ver. 2.0, April 2025) Delmarva Peninsula Stream Health and Habitat Assessments in Maryland and Delaware (2022) (ver. 2.0, April 2025)

U. S. Geological Survey (USGS) scientists completed a data collection campaign from the 25th of April to the 10th of June in 2022, using various methods to record geomorphic and habitat indicators throughout 30 streams on the Delmarva Peninsula. Field methods included GNSS surveys, gravelometer-based pebble count readings, visual assessments, and riparian analyses. This metadata record...
By
Maryland-Delaware-D.C. Water Science Center

Macroinvertebrate communities in Delmarva Peninsula streams, 2022 Macroinvertebrate communities in Delmarva Peninsula streams, 2022

From 2 April - 29 April 2022, a Virginia Tech team of 2-3 sampled the macroinvertebrate community in 30 Coastal Plain streams (Delaware, Maryland and Virginia, USA) as part of a larger stream-health study including other teams who surveyed geomorphology, water quality, flow, temperature,fish community, and fish health at the same 30 streams. Macroinvertebrates were sampled using a 250...
By
Florence Bascom Geoscience Center

Fish communities in PA and MD Piedmont mixed agricultural streams, 2023 Fish communities in PA and MD Piedmont mixed agricultural streams, 2023

From 2-27 June, 2023, a Virginia Tech team of 5 sampled the fish community in 30 Piedmont streams (lower Susquehanna River and upper Chesapeake Bay tributaries, Pennsylvania and Maryland, USA) spanning a gradient of agricultural intensity as part of a larger stream-health study including other teams who surveyed geomorphology, water quality, flow, temperature, and macroinvertebrates at...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Macroinvertebrate communities in Shenandoah Valley streams, 2021 Macroinvertebrate communities in Shenandoah Valley streams, 2021

From 20 May - 8 June 2021, a Virginia Tech team of 2-3 sampled the macroinvertebrate community in 30 Shenandoah Valley streams (Virginia and West Virginia, USA) as part of a larger stream-health study including other teams who surveyed geomorphology, water quality, flow, temperature,fish community, and fish health at the same 30 streams. The macroinvertebrate community team also...
By
Florence Bascom Geoscience Center
Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002
Greg Noe CT 2025
Greg Noe CT 2025
Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002

Greg Noe CT 2025

Greg Noe CT 2025

Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002, where he leads the Wetland Ecosystem Ecology & Biogeochemistry Laboratory (WEEBL) in the Florence Bascom Geoscience Center. Dr. Noe’s research centers on wetland ecosystem ecology and watershed processes.

By
Core Science Systems Mission Area, Florence Bascom Geoscience Center
Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002

Greg Noe CT 2025

Greg Noe CT 2025

Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002, where he leads the Wetland Ecosystem Ecology & Biogeochemistry Laboratory (WEEBL) in the Florence Bascom Geoscience Center. Dr. Noe’s research centers on wetland ecosystem ecology and watershed processes.

By
Core Science Systems Mission Area, Florence Bascom Geoscience Center
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA. This SET is part of a larger project which consists of two SETs at each of five research sites, on both the Mattaponi and Pamunkey Rivers spanning Oligahaline to non-tidal conditions.

By
Water Resources
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA. This SET is part of a larger project which consists of two SETs at each of five research sites, on both the Mattaponi and Pamunkey Rivers spanning Oligahaline to non-tidal conditions.

By
Water Resources
Filter Total Items: 87

Deformity, erosion, lesion, tumor, and parasite (DELT) anomalies in fish communities of the Chesapeake Bay watershed, USA: A regional assessment and potential landscape drivers Deformity, erosion, lesion, tumor, and parasite (DELT) anomalies in fish communities of the Chesapeake Bay watershed, USA: A regional assessment and potential landscape drivers

Fish diseases in freshwater ecosystems pose significant ecological and socioeconomic challenges, yet monitoring them in wild populations is complex due to interactions between pathogens, hosts, and environmental conditions. We examine the prevalence and watershed-scale landscape drivers of external deformity, erosion, lesion, tumor, and parasite (DELT) anomalies in 57 riverine fish...
Authors
Sara Breitmeyer, Paul McLaughlin, Vicki S. Blazer, Gregory Noe, Kelly Smalling, Timothy Wertz, Tyler Wagner
By
Chesapeake Bay Activities, Pennsylvania Water Science Center

Over, under, and through: Hydrologic connectivity and the future of coastal landscape salinization Over, under, and through: Hydrologic connectivity and the future of coastal landscape salinization

Seawater intrusion (SWI) affects coastal landscapes worldwide. Here we describe the hydrologic pathways through which SWI occurs - over land via storm surge or tidal flooding, under land via groundwater transport, and through watersheds via natural and artificial surface water channels—and how human modifications to those pathways alter patterns of SWI. We present an approach to advance...
Authors
Ashley Helton, James Dennedy-Frank, Ryan Emanuel, Scott Neubauer, Kyra Adams, Marcelo Ardon, Lawrence Band, Kevin Befus, Hanne Borstlap, Jamie Duberstein, Adam Gold, Kominoski John, Alex Manda, Holly Michael, Stephen Moysey, Allison Myers-Pigg, Justine Neville, Gregory Noe, Jeeban Panthi, Elnaz Pezeshki, Matthew Sirianni, Ward.Nicolas
By
Chesapeake Bay Activities, Eastern Ecological Science Center, Florence Bascom Geoscience Center

The nonpoint source challenge: Obstacles and opportunities for meeting nutrient reduction goals in the Chesapeake Bay watershed The nonpoint source challenge: Obstacles and opportunities for meeting nutrient reduction goals in the Chesapeake Bay watershed

This document examines the Chesapeake Bay watershed response to nutrient and sediment reduction efforts under the Clean Water Act's total maximum daily load (TMDL) regulation. As the 2025 Chesapeake Bay TMDL deadline approaches, water quality goals remain unmet, primarily because of nonpoint source pollution, the largest remaining source of nutrients and sediment, and the primary...
Authors
Zachary Easton, Kurt Stephenson, Brian Benhem, J.K. Bohlke, Anthony Buda, Amy Collick, Lara Fowler, Ellen Gilinsky, Andrew Miller, Gregory Noe, Leah Palm-Forster, Leonard Shabman, Tess Wynn-Thompson
By
Water Resources Mission Area, Florence Bascom Geoscience Center, Chesapeake Bay Activities, Pennsylvania Water Science Center

Stressor-driven changes in freshwater biological indicators inform spatial management strategies using expert knowledge, observational data, and hierarchical models Stressor-driven changes in freshwater biological indicators inform spatial management strategies using expert knowledge, observational data, and hierarchical models

Stream ecosystems face continuous pressures from multiple anthropogenic stressors that reshape biological communities and impact ecosystem health and services. Managers can encounter challenges in stewarding ecosystems threatened by multiple stressors, in part because most multiple stressor studies are experimental and, while valuable, offer limited management relevance in targeting...
Authors
Sean Emmons, Matthew Cashman, Rosemary Fanelli, Greg Pond, Gregory Noe, Taylor Woods, Kelly Maloney
By
Chesapeake Bay Activities, Eastern Ecological Science Center

Ecological thresholds and transformations due to climate change: The role of abiotic stress Ecological thresholds and transformations due to climate change: The role of abiotic stress

An ecological threshold is the point at which a comparatively small environmental change triggers an abrupt and disproportionately large ecological response. In the face of accelerating climate change, there is concern that abrupt ecosystem transformations will become more widespread as critical ecological thresholds are crossed. There has been ongoing debate, however, regarding the...
Authors
Michael Osland, John B. Bradford, Lauren Toth, Matthew J. Germino, James Grace, Judith Drexler, Camille Stagg, Eric Grossman, Karen M. Thorne, Stephanie Romanach, Davina Passeri, Gregory Noe, Jessica Lacy, Ken Krauss, Kurt P. Kowalski, Glenn Guntenspergen, Neil K. Ganju, Nicholas Enwright, Joel A. Carr, Kristin Byrd, Kevin Buffington
By
Ecosystems Mission Area, Coastal and Marine Hazards and Resources Program, California Water Science Center, Eastern Ecological Science Center, Florence Bascom Geoscience Center, Forest and Rangeland Ecosystem Science Center, Pacific Coastal and Marine Science Center, Southwest Biological Science Center, St. Petersburg Coastal and Marine Science Center, Western Ecological Research Center (WERC), Western Geographic Science Center, Wetland and Aquatic Research Center , Woods Hole Coastal and Marine Science Center

Modeling the responses of blue carbon fluxes in Mississippi River Deltaic Plain brackish marshes to climate change induced hydrologic conditions Modeling the responses of blue carbon fluxes in Mississippi River Deltaic Plain brackish marshes to climate change induced hydrologic conditions

Carbon fluxes in tidal brackish marshes play a critical role in determining coastal wetland carbon sequestration and storage, thus affecting carbon crediting of coastal wetland restoration. In this study, a process-driven wetland biogeochemistry model, Wetland Carbon Assessment Tool DeNitrification-DeComposition was applied to nine brackish marsh sites in Mississippi River (MR) Deltaic...
Authors
Hongqing Wang, Ken Krauss, Zhaohua Dai, Gregory Noe, Carl Trettin
By
Ecosystems Mission Area, Wetland and Aquatic Research Center , Florence Bascom Geoscience Center

The state of the science and practice of stream restoration in the Chesapeake: Lessons learned to inform better implementation, assessment and outcomes The state of the science and practice of stream restoration in the Chesapeake: Lessons learned to inform better implementation, assessment and outcomes

The Chesapeake Bay Program’s (CBP) Science and Technical Advisory Committee (STAC) organized and led a workshop on the science and practice of stream restoration in order to summarize the state of knowledge in order to identify ways to improve stream restoration outcomes. The workshop identified a general framework for explaining the main factors leading to stream restoration outcomes...
Authors
Gregory Noe, Neely Law, Joel Berger, Solange Filoso, Sadie Drescher, L. Fraley-McNeal, Ben Hayes, Paul Mayer, Chris Ruck, Bill Stack, Rich Starr, Scott Stranko, Tess Thompson
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center, Pennsylvania Water Science Center

When and where can coastal wetland restoration increase carbon sequestration as a natural climate solution? When and where can coastal wetland restoration increase carbon sequestration as a natural climate solution?

Coastal wetlands are hotspots of carbon sequestration, and their conservation and restoration can help to mitigate climate change. However, there remains uncertainty on when and where coastal wetland restoration can most effectively act as a Natural Climate Solution (NCS). Here, we synthesize current understanding to illustrate the requirements for coastal wetland restoration to benefit...
Authors
Scott F. Jones, Ariane Arias-Ortiz, Dennis Baldocchi, Meagan Eagle, Daniel A. Friess, Catrina Gore, Gregory Noe, Stefanie Nolte, Patty Oikawa, Adina Paytan, Jacqueline Raw, Brian Roberts, Kerrylee Rogers, Charles Schutte, Camille Stagg, Karen M. Thorne, Eric Ward, Lisamarie Windham-Myers, Eric S. Yando
By
Florence Bascom Geoscience Center

Aboveground carbon stocks across a hydrological gradient: Ghost forests to non-tidal freshwater forested wetlands Aboveground carbon stocks across a hydrological gradient: Ghost forests to non-tidal freshwater forested wetlands

Upper estuarine forested wetlands (UEFWs) play an important role in the sequestration of atmospheric carbon (C), which is facilitated by their position at the boundary of terrestrial and maritime environments but threatened by sea level rise. This study assessed the change in aboveground C stocks along the estuarine–riverine hydrogeomorphic gradient spanning salt-impacted freshwater...
Authors
Christopher Shipway, Jamie A. Duberstein, William Conner, Ken Krauss, Gregory Noe, Stefanie Whitmire
By
Ecosystems Mission Area, Ecosystems Land Change Science Program, Florence Bascom Geoscience Center, Wetland and Aquatic Research Center

Connecting conservation practices to local stream health in the Chesapeake Bay watershed Connecting conservation practices to local stream health in the Chesapeake Bay watershed

The Chesapeake Bay Partnership is implementing conservation practices (CPs) throughout the Chesapeake Bay watershed to reduce nutrient and sediment delivery to the Bay. This study intends to provide an integrated and detailed understanding of how local streams respond to these CP-driven management efforts.Key issue: To what extent do CPs positively affect the health of local streams in...
Authors
Gregory Noe, Paul Angermeier, Larry B. Barber, Joe Buckwalter, Matthew Cashman, Olivia Devereux, Thomas Doody, Sally Entrekin, Rosemary Fanelli, Nathaniel Hitt, Molly Huber, Jeramy Roland Jasmann, Kelly Maloney, Tristan Mohs, Sergio Sabat-Bonilla, Kelly Smalling, Tyler Wagner, John Wolf, Kenneth Hyer
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Causal inference approaches reveal both positive and negative unintended effects of agricultural and urban management practices on instream biological condition Causal inference approaches reveal both positive and negative unintended effects of agricultural and urban management practices on instream biological condition

Agricultural and urban management practices (MPs) are primarily designed and implemented to reduce nutrient and sediment concentrations in streams. However, there is growing interest in determining if MPs produce any unintended positive effects, or co-benefits, to instream biological and habitat conditions. Identifying co-benefits is challenging though because of confounding variables (i...
Authors
Sean Emmons, Taylor Woods, Matthew Cashman, Olivia Devereux, Gregory Noe, John Young, Scott Stranko, Jay Kilian, Katherine Hanna, Kelly Maloney
By
Chesapeake Bay Activities, Eastern Ecological Science Center

Evaluating an improved systems approach to wetland crediting: Consideration of wetland ecosystem services Evaluating an improved systems approach to wetland crediting: Consideration of wetland ecosystem services

The Chesapeake Bay Agreement (CBA) has numerous direct goals for improving habitat, living resources, and water quality, conserving lands, engaging communities and addressing a changing climate. To date, the progress toward the wetlands outcome (creation/ restoration of 85,000 acres and enhancement of 150,000 acres) has been very slow and the outcome is projected to be off course for...
Authors
Pamela Mason, Gregory Noe, Alicia Berlin, Denise Clearwater, Sally Claggett, Dave Goerman, Brooke Landry, Alison Santoro
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Floodplain and Channel Evaluation Tool (FACET) Floodplain and Channel Evaluation Tool (FACET)

The Floodplain and Evaluation Tool (FACET) is an open-source python tool that maps the floodplain extent and derives reach-scale summaries of stream and floodplain geomorphic measurements from high-resolution digital elevation models (DEMs).

Floodplain and Channel Evaluation Tool: FACET Floodplain and Channel Evaluation Tool: FACET

FACET is a Python tool that uses open source modules to map the floodplain extent and derive reach-scale summaries of stream and floodplain geomorphic measurements from high-resolution digital elevation models (DEMs). Geomorphic measurements include channel width, stream bank height, floodplain width, and stream slope. FACET allows the user to hydrologically condition the DEM, generate...
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Florence Bascom Geoscience Center, Maryland-Delaware-D.C. Water Science Center, South Atlantic Water Science Center (SAWSC)
Ecological Thresholds, Abiotic Stress, and Climate Change: A Conceptual Framework

Ecological Thresholds, Abiotic Stress, and Climate Change: A Conceptual Framework

As climate change accelerates, the risk of sudden, large-scale shifts in ecosystems is growing. A new USGS study examines the mechanisms behind these...

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As ‘ghost forests’ multiply in Chesapeake Bay region, answers lag behind

As ‘ghost forests’ multiply in Chesapeake Bay region, answers lag behind

Bay Journal — by Jeremy Cox — May 6, 2025

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

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

Chesapeake Bay Program — Press Release — May 9, 2023

The report by the Chesapeake Bay Program’s Scientific and Technical Advisory Committee offers...

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A temporary boost to surviving trees in tidal freshwater swamps but steadily increasing salinity associated with sea-level rise ultimately creates ‘ghost forests’

A temporary boost to surviving trees in tidal freshwater swamps but steadily increasing salinity associated with sea-level rise ultimately creates ‘ghost forests’

This article is part of the Fall 2021 issue of the Earth Science Matters Newsletter.

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Floodplain Ecosystem Service Mapper Released

Floodplain Ecosystem Service Mapper Released

The Floodplain Ecosystem Service Mapper is a web application that displays field site data and lidar-derived floodplain and stream channel geomorphic...

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Urbanization can switch floodplain wetland soils from a sink to a source of greenhouse gases

Urbanization can switch floodplain wetland soils from a sink to a source of greenhouse gases

This article is part of the Fall 2015 issue of the Earth Science Matters Newsletter. 

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Sea level rise and nutrient cycling in coastal wetlands

Sea level rise and nutrient cycling in coastal wetlands

This article is part of the Fall 2014 issue of the Earth Science Matters Newsletter. 

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Science and Products

Mangroves on the outside of a playa within Florida Bay

Coastal Wetland Vulnerability to Climate Change and Sea-Level Rise: Understanding Ecological Thresholds and Ecosystem Transformations

Eighteen USGS coastal scientists from all four coasts of the conterminous United States are working together to advance the understanding of climate change and sea-level rise impacts to coastal wetlands.
By
California Water Science Center, Chesapeake Bay Activities, Eastern Ecological Science Center, Florence Bascom Geoscience Center, Great Lakes Science Center, Pacific Coastal and Marine Science Center, St. Petersburg Coastal and Marine Science Center, Western Ecological Research Center (WERC), Western Geographic Science Center, Wetland and Aquatic Research Center , Woods Hole Coastal and Marine Science Center
Coastal Wetland Vulnerability to Climate Change and Sea-Level Rise: Understanding Ecological Thresholds and Ecosystem Transformations

Coastal Wetland Vulnerability to Climate Change and Sea-Level Rise: Understanding Ecological Thresholds and Ecosystem Transformations

Eighteen USGS coastal scientists from all four coasts of the conterminous United States are working together to advance the understanding of climate change and sea-level rise impacts to coastal wetlands.
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Two aquatic macroinvertebrates in a pan.

Using Multiple Indicators to Assess Stream Condition in the Chesapeake Bay

USGS is working with federal, state and local partners to develop multiple assessments of stream and river conditions in non-tidal areas of the Chesapeake Bay watershed. These assessments will help managers preserve stream health and improve biological conditions in impaired streams as the human population and climate continue to change in this region.
By
Ecosystems Mission Area, Land Management Research Program, Species Management Research Program, Chesapeake Bay Activities, Eastern Ecological Science Center
Using Multiple Indicators to Assess Stream Condition in the Chesapeake Bay

Using Multiple Indicators to Assess Stream Condition in the Chesapeake Bay

USGS is working with federal, state and local partners to develop multiple assessments of stream and river conditions in non-tidal areas of the Chesapeake Bay watershed. These assessments will help managers preserve stream health and improve biological conditions in impaired streams as the human population and climate continue to change in this region.
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USGS

Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

We will develop reproducible workflows in R and Python to combine already existing and underutilized field data collected as part of the USGS streamgage network with remotely sensed data to map flood-prone areas for various recurrence intervals in both gaged and ungaged stream reaches.
By
Community for Data Integration (CDI)
Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

We will develop reproducible workflows in R and Python to combine already existing and underutilized field data collected as part of the USGS streamgage network with remotely sensed data to map flood-prone areas for various recurrence intervals in both gaged and ungaged stream reaches.
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USGS

Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

We will develop reproducible workflows in R and Python to combine already existing and underutilized field data collected as part of the USGS streamgage network with remotely sensed data to map flood-prone areas for various recurrence intervals in both gaged and ungaged stream reaches.
By
Community for Data Integration (CDI)
Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

Leveraging Existing USGS Streamgage Data to Map Flood-Prone Areas

We will develop reproducible workflows in R and Python to combine already existing and underutilized field data collected as part of the USGS streamgage network with remotely sensed data to map flood-prone areas for various recurrence intervals in both gaged and ungaged stream reaches.
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Map of 68 field sites and their upstream drainage areas of the Chesapeake and Delaware watersheds

New study shows importance of streambank erosion and floodplain deposition on sediment, phosphorus, and nitrogen sources and transport in the Chesapeake watershed

Issue: As Chesapeake Bay Program partners work to reduce pollution, knowing sources of sediment, phosphorus, and nitrogen transported to the Bay is critical for effective and efficient management. Streams and their associated floodplains have an important influence on the transport of nutrients and sediment through the Chesapeake watershed and into tidal waters. The USGS is conducting...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center
New study shows importance of streambank erosion and floodplain deposition on sediment, phosphorus, and nitrogen sources and transport in the Chesapeake watershed

New study shows importance of streambank erosion and floodplain deposition on sediment, phosphorus, and nitrogen sources and transport in the Chesapeake watershed

Issue: As Chesapeake Bay Program partners work to reduce pollution, knowing sources of sediment, phosphorus, and nitrogen transported to the Bay is critical for effective and efficient management. Streams and their associated floodplains have an important influence on the transport of nutrients and sediment through the Chesapeake watershed and into tidal waters. The USGS is conducting...
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Collage of vessel, glacier, mineral, and scientist testing substances in pipets.

New Review of Sediment Science Informs Choices of Management Actions in the Chesapeake

Issue: The Chesapeake Bay Program (CBP) is pursuing restoration efforts to improve habitats and associated water quality for fisheries, both in the watershed and estuary. Excess sediment decreases light in tidal waters for submerged aquatic vegetation, harms oysters, carries contaminants, and impairs stream health throughout the watershed. The CBP is implementing management actions and policies...
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Core Science Systems Mission Area, Chesapeake Bay Activities, Florence Bascom Geoscience Center
New Review of Sediment Science Informs Choices of Management Actions in the Chesapeake

New Review of Sediment Science Informs Choices of Management Actions in the Chesapeake

Issue: The Chesapeake Bay Program (CBP) is pursuing restoration efforts to improve habitats and associated water quality for fisheries, both in the watershed and estuary. Excess sediment decreases light in tidal waters for submerged aquatic vegetation, harms oysters, carries contaminants, and impairs stream health throughout the watershed. The CBP is implementing management actions and policies...
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Licking Creek, Maryland

New information on chemical and physical characteristics of streams and floodplains across the Chesapeake Bay and Delaware River watersheds

Issue: Improving stream health is an important outcome of the Chesapeake Bay Program partnership. Stream conditions are important for recreational fisheries, and mitigating the amount of nutrients, sediment, and contaminants delivered to the Bay.
By
Core Science Systems Mission Area, Chesapeake Bay Activities, Florence Bascom Geoscience Center
New information on chemical and physical characteristics of streams and floodplains across the Chesapeake Bay and Delaware River watersheds

New information on chemical and physical characteristics of streams and floodplains across the Chesapeake Bay and Delaware River watersheds

Issue: Improving stream health is an important outcome of the Chesapeake Bay Program partnership. Stream conditions are important for recreational fisheries, and mitigating the amount of nutrients, sediment, and contaminants delivered to the Bay.
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Dead trees in a tidal marsh

Impacts of coastal and watershed changes on upper estuaries: causes and implications of wetland ecosystem transitions along the US Atlantic and Gulf Coasts

Estuaries and their surrounding wetlands are coastal transition zones where freshwater rivers meet tidal seawater. As sea levels rise, tidal forces move saltier water farther upstream, extending into freshwater wetland areas. Human changes to the surrounding landscape may amplify the effects of this tidal extension, impacting the resiliency and function of the upper estuarine wetlands. One visible...
By
Ecosystems Land Change Science Program, Florence Bascom Geoscience Center, Wetland and Aquatic Research Center , Gulf of America
Impacts of coastal and watershed changes on upper estuaries: causes and implications of wetland ecosystem transitions along the US Atlantic and Gulf Coasts

Impacts of coastal and watershed changes on upper estuaries: causes and implications of wetland ecosystem transitions along the US Atlantic and Gulf Coasts

Estuaries and their surrounding wetlands are coastal transition zones where freshwater rivers meet tidal seawater. As sea levels rise, tidal forces move saltier water farther upstream, extending into freshwater wetland areas. Human changes to the surrounding landscape may amplify the effects of this tidal extension, impacting the resiliency and function of the upper estuarine wetlands. One visible...
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Wetlands

Type of Wetlands Affect How Much Nitrogen is Removed from the Bay’s Tidal Rivers

Issue: Wetlands are important for removing nitrogen from rivers entering the Chesapeake Bay. More information is needed on how much nitrogen wetlands can remove.
By
Core Science Systems Mission Area, Chesapeake Bay Activities, Florence Bascom Geoscience Center
Type of Wetlands Affect How Much Nitrogen is Removed from the Bay’s Tidal Rivers

Type of Wetlands Affect How Much Nitrogen is Removed from the Bay’s Tidal Rivers

Issue: Wetlands are important for removing nitrogen from rivers entering the Chesapeake Bay. More information is needed on how much nitrogen wetlands can remove.
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Figure 2 for Science Summary effects of seal-level rise

Assessing Effects of Sea-level Rise on Upstream Ecosystem Conditions

A synthesis published in Frontiers in Ecology and the Environment addresses what is known about the ecosystem consequences of freshwater tides extending upstream into formerly nontidal rivers. The USGS and its partners, with support from the Climate and Land Use Change Mission Area, published an article that summarizes the known effects of sea-level rise pushing freshwater tides upstream into...
By
Chesapeake Bay Activities
Assessing Effects of Sea-level Rise on Upstream Ecosystem Conditions

Assessing Effects of Sea-level Rise on Upstream Ecosystem Conditions

A synthesis published in Frontiers in Ecology and the Environment addresses what is known about the ecosystem consequences of freshwater tides extending upstream into formerly nontidal rivers. The USGS and its partners, with support from the Climate and Land Use Change Mission Area, published an article that summarizes the known effects of sea-level rise pushing freshwater tides upstream into...
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Field Sampling Sites within the Delaware River Basin

Quantifying Floodplain Ecological Processes and Ecosystem Services in the Delaware River Watershed

Floodplain and wetland areas provide critical ecosystem services to local and downstream communities by retaining sediments, nutrients, and floodwaters. The loss of floodplain functionality due to land use conversion and degradation reduces the provisioning of these services. Assessing, quantifying, and valuing floodplain ecosystem services provide a framework to estimate how floodplain systems...
By
South Atlantic Water Science Center (SAWSC), Washington Water Science Center
Quantifying Floodplain Ecological Processes and Ecosystem Services in the Delaware River Watershed

Quantifying Floodplain Ecological Processes and Ecosystem Services in the Delaware River Watershed

Floodplain and wetland areas provide critical ecosystem services to local and downstream communities by retaining sediments, nutrients, and floodwaters. The loss of floodplain functionality due to land use conversion and degradation reduces the provisioning of these services. Assessing, quantifying, and valuing floodplain ecosystem services provide a framework to estimate how floodplain systems...
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Filter Total Items: 36

Predicted carbon fluxes in Lake Maurepas swamp forests under various hydrologic and salinity regimes Predicted carbon fluxes in Lake Maurepas swamp forests under various hydrologic and salinity regimes

A process-driven biogeochemistry model, Wetland Carbon Assessment Tool - DeNitrification-DeComposition model (WCAT-DNDC) was validated and applied to examine the responses of daily net ecosystem exchange (NEE), net primary productivity (NPP), ecosystem respiration (ER), methane (CH4) and nitrous oxide (N2O) emissions in the Lake Maurepas swamp forests under dry (2011), normal (2019), and...
By
Wetland and Aquatic Research Center

Stream Health and Habitat Assessments for Mixed Agricultural Streams in Pennsylvania and Maryland (2023) Stream Health and Habitat Assessments for Mixed Agricultural Streams in Pennsylvania and Maryland (2023)

U. S. Geological Survey (USGS) scientists completed a data collection campaign from the 3rd of April to the 23rd of June in 2023, using various methods to record geomorphic and habitat indicators throughout 30 streams in southern Pennsylvania and northern Maryland. Field methods included GNSS surveys, gravelometer-based pebble count readings, visual assessments, and riparian analyses...
By
Maryland-Delaware-D.C. Water Science Center

Suspended sediment statistical analyses results for nontidal and tidal stations of the Chesapeake Bay and watershed between 1984-2021 Suspended sediment statistical analyses results for nontidal and tidal stations of the Chesapeake Bay and watershed between 1984-2021

Results of statistical analyses of nontidal and tidal station measurements of suspended sediment concentrations in the Chesapeake Bay and watershed, collected from 1984-2021 by Chesapeake Bay Program and partners and the U.S. Geological Survey. Original measurements were retrieved from online data repositories.
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Chesapeake Bay Activities, Florence Bascom Geoscience Center

Watershed Attributes for Chesapeake Stream Team Field Sites Watershed Attributes for Chesapeake Stream Team Field Sites

The Chesapeake Stream Team studied 123 streams from 2021 to 2024 to determine whether conservation practices in agricultural and urban settings have improved downstream nontidal stream health. To isolate effects of conservation practices, scientists must account for other attributes in the greater watershed that may affect measured metrics of stream health. This release includes over 450...
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Chesapeake Bay Activities, Florence Bascom Geoscience Center

Contaminants in bed sediment from surface waters collected in the Chesapeake Bay Watershed, 2021-24 Contaminants in bed sediment from surface waters collected in the Chesapeake Bay Watershed, 2021-24

This data release provides contaminant data from bed sediment collected from small streams between 2021 and 2024 in the Chesapeake Bay Watershed. These data are part of a larger study designed to determine how conservation practices are affecting local stream ecosystem health, which stressors are negatively impacting streams, and which landscape characteristics are associated with better...
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Chesapeake Bay Activities, Florence Bascom Geoscience Center

Positive openness for the Delaware River Basin Positive openness for the Delaware River Basin

In support of the U.S. Geological Survey Water Mission Area’s assessment of Integrated Water Science (IWS) basins across the United States (Van Metre and others, 2020), this data release contains a positive openness raster dataset that was developed for the Delaware River Basin. The raster was developed to help characterize the landscape and channel features within the Delaware River...
By
South Atlantic Water Science Center (SAWSC)

Fish communities in streams of the Maryland-Washington, DC-Virginia developed Piedmont, 2024 Fish communities in streams of the Maryland-Washington, DC-Virginia developed Piedmont, 2024

From May 27 to June 21, 2024, a Virginia Tech team of 5 sampled the fish community in 30 streams spanning a gradient of the developed landscape, including Potomac River, Rappahannock River, and upper Chesapeake Bay tributaries of Maryland, Washington, D.C., and Virginia, USA. These fish surveys were part of a larger stream-health study including other teams who surveyed geomorphology...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Chesapeake Stream Team Field Sites, 2021-2024 Chesapeake Stream Team Field Sites, 2021-2024

Each year from 2021-2024, teams from the US Geological Survey and Virginia Tech studied 30 streams with a targeted gradient of land use and conservation practices across the Chesapeake Bay Watershed. The four years of the study cover the following geographic areas and land use characteristics: -Shenandoah Valley and Ridge pasture -Delmarva row crop -Pennsylvania and Maryland Piedmont...
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Chesapeake Bay Activities, Florence Bascom Geoscience Center

Delmarva Peninsula Stream Health and Habitat Assessments in Maryland and Delaware (2022) (ver. 2.0, April 2025) Delmarva Peninsula Stream Health and Habitat Assessments in Maryland and Delaware (2022) (ver. 2.0, April 2025)

U. S. Geological Survey (USGS) scientists completed a data collection campaign from the 25th of April to the 10th of June in 2022, using various methods to record geomorphic and habitat indicators throughout 30 streams on the Delmarva Peninsula. Field methods included GNSS surveys, gravelometer-based pebble count readings, visual assessments, and riparian analyses. This metadata record...
By
Maryland-Delaware-D.C. Water Science Center

Macroinvertebrate communities in Delmarva Peninsula streams, 2022 Macroinvertebrate communities in Delmarva Peninsula streams, 2022

From 2 April - 29 April 2022, a Virginia Tech team of 2-3 sampled the macroinvertebrate community in 30 Coastal Plain streams (Delaware, Maryland and Virginia, USA) as part of a larger stream-health study including other teams who surveyed geomorphology, water quality, flow, temperature,fish community, and fish health at the same 30 streams. Macroinvertebrates were sampled using a 250...
By
Florence Bascom Geoscience Center

Fish communities in PA and MD Piedmont mixed agricultural streams, 2023 Fish communities in PA and MD Piedmont mixed agricultural streams, 2023

From 2-27 June, 2023, a Virginia Tech team of 5 sampled the fish community in 30 Piedmont streams (lower Susquehanna River and upper Chesapeake Bay tributaries, Pennsylvania and Maryland, USA) spanning a gradient of agricultural intensity as part of a larger stream-health study including other teams who surveyed geomorphology, water quality, flow, temperature, and macroinvertebrates at...
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Macroinvertebrate communities in Shenandoah Valley streams, 2021 Macroinvertebrate communities in Shenandoah Valley streams, 2021

From 20 May - 8 June 2021, a Virginia Tech team of 2-3 sampled the macroinvertebrate community in 30 Shenandoah Valley streams (Virginia and West Virginia, USA) as part of a larger stream-health study including other teams who surveyed geomorphology, water quality, flow, temperature,fish community, and fish health at the same 30 streams. The macroinvertebrate community team also...
By
Florence Bascom Geoscience Center
Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002
Greg Noe CT 2025
Greg Noe CT 2025
Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002

Greg Noe CT 2025

Greg Noe CT 2025

Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002, where he leads the Wetland Ecosystem Ecology & Biogeochemistry Laboratory (WEEBL) in the Florence Bascom Geoscience Center. Dr. Noe’s research centers on wetland ecosystem ecology and watershed processes.

By
Core Science Systems Mission Area, Florence Bascom Geoscience Center
Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002

Greg Noe CT 2025

Greg Noe CT 2025

Greg Noe has been a Research Ecologist with the U.S. Geological Survey in Reston, VA, since 2002, where he leads the Wetland Ecosystem Ecology & Biogeochemistry Laboratory (WEEBL) in the Florence Bascom Geoscience Center. Dr. Noe’s research centers on wetland ecosystem ecology and watershed processes.

By
Core Science Systems Mission Area, Florence Bascom Geoscience Center
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA. This SET is part of a larger project which consists of two SETs at each of five research sites, on both the Mattaponi and Pamunkey Rivers spanning Oligahaline to non-tidal conditions.

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Water Resources
USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table

USGS ecologist Jaimie Gillespie measuring a Sediment Elevation Table (SET) on the Pamunkey River, VA. This SET is part of a larger project which consists of two SETs at each of five research sites, on both the Mattaponi and Pamunkey Rivers spanning Oligahaline to non-tidal conditions.

By
Water Resources
Filter Total Items: 87

Deformity, erosion, lesion, tumor, and parasite (DELT) anomalies in fish communities of the Chesapeake Bay watershed, USA: A regional assessment and potential landscape drivers Deformity, erosion, lesion, tumor, and parasite (DELT) anomalies in fish communities of the Chesapeake Bay watershed, USA: A regional assessment and potential landscape drivers

Fish diseases in freshwater ecosystems pose significant ecological and socioeconomic challenges, yet monitoring them in wild populations is complex due to interactions between pathogens, hosts, and environmental conditions. We examine the prevalence and watershed-scale landscape drivers of external deformity, erosion, lesion, tumor, and parasite (DELT) anomalies in 57 riverine fish...
Authors
Sara Breitmeyer, Paul McLaughlin, Vicki S. Blazer, Gregory Noe, Kelly Smalling, Timothy Wertz, Tyler Wagner
By
Chesapeake Bay Activities, Pennsylvania Water Science Center

Over, under, and through: Hydrologic connectivity and the future of coastal landscape salinization Over, under, and through: Hydrologic connectivity and the future of coastal landscape salinization

Seawater intrusion (SWI) affects coastal landscapes worldwide. Here we describe the hydrologic pathways through which SWI occurs - over land via storm surge or tidal flooding, under land via groundwater transport, and through watersheds via natural and artificial surface water channels—and how human modifications to those pathways alter patterns of SWI. We present an approach to advance...
Authors
Ashley Helton, James Dennedy-Frank, Ryan Emanuel, Scott Neubauer, Kyra Adams, Marcelo Ardon, Lawrence Band, Kevin Befus, Hanne Borstlap, Jamie Duberstein, Adam Gold, Kominoski John, Alex Manda, Holly Michael, Stephen Moysey, Allison Myers-Pigg, Justine Neville, Gregory Noe, Jeeban Panthi, Elnaz Pezeshki, Matthew Sirianni, Ward.Nicolas
By
Chesapeake Bay Activities, Eastern Ecological Science Center, Florence Bascom Geoscience Center

The nonpoint source challenge: Obstacles and opportunities for meeting nutrient reduction goals in the Chesapeake Bay watershed The nonpoint source challenge: Obstacles and opportunities for meeting nutrient reduction goals in the Chesapeake Bay watershed

This document examines the Chesapeake Bay watershed response to nutrient and sediment reduction efforts under the Clean Water Act's total maximum daily load (TMDL) regulation. As the 2025 Chesapeake Bay TMDL deadline approaches, water quality goals remain unmet, primarily because of nonpoint source pollution, the largest remaining source of nutrients and sediment, and the primary...
Authors
Zachary Easton, Kurt Stephenson, Brian Benhem, J.K. Bohlke, Anthony Buda, Amy Collick, Lara Fowler, Ellen Gilinsky, Andrew Miller, Gregory Noe, Leah Palm-Forster, Leonard Shabman, Tess Wynn-Thompson
By
Water Resources Mission Area, Florence Bascom Geoscience Center, Chesapeake Bay Activities, Pennsylvania Water Science Center

Stressor-driven changes in freshwater biological indicators inform spatial management strategies using expert knowledge, observational data, and hierarchical models Stressor-driven changes in freshwater biological indicators inform spatial management strategies using expert knowledge, observational data, and hierarchical models

Stream ecosystems face continuous pressures from multiple anthropogenic stressors that reshape biological communities and impact ecosystem health and services. Managers can encounter challenges in stewarding ecosystems threatened by multiple stressors, in part because most multiple stressor studies are experimental and, while valuable, offer limited management relevance in targeting...
Authors
Sean Emmons, Matthew Cashman, Rosemary Fanelli, Greg Pond, Gregory Noe, Taylor Woods, Kelly Maloney
By
Chesapeake Bay Activities, Eastern Ecological Science Center

Ecological thresholds and transformations due to climate change: The role of abiotic stress Ecological thresholds and transformations due to climate change: The role of abiotic stress

An ecological threshold is the point at which a comparatively small environmental change triggers an abrupt and disproportionately large ecological response. In the face of accelerating climate change, there is concern that abrupt ecosystem transformations will become more widespread as critical ecological thresholds are crossed. There has been ongoing debate, however, regarding the...
Authors
Michael Osland, John B. Bradford, Lauren Toth, Matthew J. Germino, James Grace, Judith Drexler, Camille Stagg, Eric Grossman, Karen M. Thorne, Stephanie Romanach, Davina Passeri, Gregory Noe, Jessica Lacy, Ken Krauss, Kurt P. Kowalski, Glenn Guntenspergen, Neil K. Ganju, Nicholas Enwright, Joel A. Carr, Kristin Byrd, Kevin Buffington
By
Ecosystems Mission Area, Coastal and Marine Hazards and Resources Program, California Water Science Center, Eastern Ecological Science Center, Florence Bascom Geoscience Center, Forest and Rangeland Ecosystem Science Center, Pacific Coastal and Marine Science Center, Southwest Biological Science Center, St. Petersburg Coastal and Marine Science Center, Western Ecological Research Center (WERC), Western Geographic Science Center, Wetland and Aquatic Research Center , Woods Hole Coastal and Marine Science Center

Modeling the responses of blue carbon fluxes in Mississippi River Deltaic Plain brackish marshes to climate change induced hydrologic conditions Modeling the responses of blue carbon fluxes in Mississippi River Deltaic Plain brackish marshes to climate change induced hydrologic conditions

Carbon fluxes in tidal brackish marshes play a critical role in determining coastal wetland carbon sequestration and storage, thus affecting carbon crediting of coastal wetland restoration. In this study, a process-driven wetland biogeochemistry model, Wetland Carbon Assessment Tool DeNitrification-DeComposition was applied to nine brackish marsh sites in Mississippi River (MR) Deltaic...
Authors
Hongqing Wang, Ken Krauss, Zhaohua Dai, Gregory Noe, Carl Trettin
By
Ecosystems Mission Area, Wetland and Aquatic Research Center , Florence Bascom Geoscience Center

The state of the science and practice of stream restoration in the Chesapeake: Lessons learned to inform better implementation, assessment and outcomes The state of the science and practice of stream restoration in the Chesapeake: Lessons learned to inform better implementation, assessment and outcomes

The Chesapeake Bay Program’s (CBP) Science and Technical Advisory Committee (STAC) organized and led a workshop on the science and practice of stream restoration in order to summarize the state of knowledge in order to identify ways to improve stream restoration outcomes. The workshop identified a general framework for explaining the main factors leading to stream restoration outcomes...
Authors
Gregory Noe, Neely Law, Joel Berger, Solange Filoso, Sadie Drescher, L. Fraley-McNeal, Ben Hayes, Paul Mayer, Chris Ruck, Bill Stack, Rich Starr, Scott Stranko, Tess Thompson
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center, Pennsylvania Water Science Center

When and where can coastal wetland restoration increase carbon sequestration as a natural climate solution? When and where can coastal wetland restoration increase carbon sequestration as a natural climate solution?

Coastal wetlands are hotspots of carbon sequestration, and their conservation and restoration can help to mitigate climate change. However, there remains uncertainty on when and where coastal wetland restoration can most effectively act as a Natural Climate Solution (NCS). Here, we synthesize current understanding to illustrate the requirements for coastal wetland restoration to benefit...
Authors
Scott F. Jones, Ariane Arias-Ortiz, Dennis Baldocchi, Meagan Eagle, Daniel A. Friess, Catrina Gore, Gregory Noe, Stefanie Nolte, Patty Oikawa, Adina Paytan, Jacqueline Raw, Brian Roberts, Kerrylee Rogers, Charles Schutte, Camille Stagg, Karen M. Thorne, Eric Ward, Lisamarie Windham-Myers, Eric S. Yando
By
Florence Bascom Geoscience Center

Aboveground carbon stocks across a hydrological gradient: Ghost forests to non-tidal freshwater forested wetlands Aboveground carbon stocks across a hydrological gradient: Ghost forests to non-tidal freshwater forested wetlands

Upper estuarine forested wetlands (UEFWs) play an important role in the sequestration of atmospheric carbon (C), which is facilitated by their position at the boundary of terrestrial and maritime environments but threatened by sea level rise. This study assessed the change in aboveground C stocks along the estuarine–riverine hydrogeomorphic gradient spanning salt-impacted freshwater...
Authors
Christopher Shipway, Jamie A. Duberstein, William Conner, Ken Krauss, Gregory Noe, Stefanie Whitmire
By
Ecosystems Mission Area, Ecosystems Land Change Science Program, Florence Bascom Geoscience Center, Wetland and Aquatic Research Center

Connecting conservation practices to local stream health in the Chesapeake Bay watershed Connecting conservation practices to local stream health in the Chesapeake Bay watershed

The Chesapeake Bay Partnership is implementing conservation practices (CPs) throughout the Chesapeake Bay watershed to reduce nutrient and sediment delivery to the Bay. This study intends to provide an integrated and detailed understanding of how local streams respond to these CP-driven management efforts.Key issue: To what extent do CPs positively affect the health of local streams in...
Authors
Gregory Noe, Paul Angermeier, Larry B. Barber, Joe Buckwalter, Matthew Cashman, Olivia Devereux, Thomas Doody, Sally Entrekin, Rosemary Fanelli, Nathaniel Hitt, Molly Huber, Jeramy Roland Jasmann, Kelly Maloney, Tristan Mohs, Sergio Sabat-Bonilla, Kelly Smalling, Tyler Wagner, John Wolf, Kenneth Hyer
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Causal inference approaches reveal both positive and negative unintended effects of agricultural and urban management practices on instream biological condition Causal inference approaches reveal both positive and negative unintended effects of agricultural and urban management practices on instream biological condition

Agricultural and urban management practices (MPs) are primarily designed and implemented to reduce nutrient and sediment concentrations in streams. However, there is growing interest in determining if MPs produce any unintended positive effects, or co-benefits, to instream biological and habitat conditions. Identifying co-benefits is challenging though because of confounding variables (i...
Authors
Sean Emmons, Taylor Woods, Matthew Cashman, Olivia Devereux, Gregory Noe, John Young, Scott Stranko, Jay Kilian, Katherine Hanna, Kelly Maloney
By
Chesapeake Bay Activities, Eastern Ecological Science Center

Evaluating an improved systems approach to wetland crediting: Consideration of wetland ecosystem services Evaluating an improved systems approach to wetland crediting: Consideration of wetland ecosystem services

The Chesapeake Bay Agreement (CBA) has numerous direct goals for improving habitat, living resources, and water quality, conserving lands, engaging communities and addressing a changing climate. To date, the progress toward the wetlands outcome (creation/ restoration of 85,000 acres and enhancement of 150,000 acres) has been very slow and the outcome is projected to be off course for...
Authors
Pamela Mason, Gregory Noe, Alicia Berlin, Denise Clearwater, Sally Claggett, Dave Goerman, Brooke Landry, Alison Santoro
By
Chesapeake Bay Activities, Florence Bascom Geoscience Center

Floodplain and Channel Evaluation Tool (FACET) Floodplain and Channel Evaluation Tool (FACET)

The Floodplain and Evaluation Tool (FACET) is an open-source python tool that maps the floodplain extent and derives reach-scale summaries of stream and floodplain geomorphic measurements from high-resolution digital elevation models (DEMs).

Floodplain and Channel Evaluation Tool: FACET Floodplain and Channel Evaluation Tool: FACET

FACET is a Python tool that uses open source modules to map the floodplain extent and derive reach-scale summaries of stream and floodplain geomorphic measurements from high-resolution digital elevation models (DEMs). Geomorphic measurements include channel width, stream bank height, floodplain width, and stream slope. FACET allows the user to hydrologically condition the DEM, generate...
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Florence Bascom Geoscience Center, Maryland-Delaware-D.C. Water Science Center, South Atlantic Water Science Center (SAWSC)
Ecological Thresholds, Abiotic Stress, and Climate Change: A Conceptual Framework

Ecological Thresholds, Abiotic Stress, and Climate Change: A Conceptual Framework

As climate change accelerates, the risk of sudden, large-scale shifts in ecosystems is growing. A new USGS study examines the mechanisms behind these...

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As ‘ghost forests’ multiply in Chesapeake Bay region, answers lag behind

As ‘ghost forests’ multiply in Chesapeake Bay region, answers lag behind

Bay Journal — by Jeremy Cox — May 6, 2025

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

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

Chesapeake Bay Program — Press Release — May 9, 2023

The report by the Chesapeake Bay Program’s Scientific and Technical Advisory Committee offers...

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A temporary boost to surviving trees in tidal freshwater swamps but steadily increasing salinity associated with sea-level rise ultimately creates ‘ghost forests’

A temporary boost to surviving trees in tidal freshwater swamps but steadily increasing salinity associated with sea-level rise ultimately creates ‘ghost forests’

This article is part of the Fall 2021 issue of the Earth Science Matters Newsletter.

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Floodplain Ecosystem Service Mapper Released

Floodplain Ecosystem Service Mapper Released

The Floodplain Ecosystem Service Mapper is a web application that displays field site data and lidar-derived floodplain and stream channel geomorphic...

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Urbanization can switch floodplain wetland soils from a sink to a source of greenhouse gases

Urbanization can switch floodplain wetland soils from a sink to a source of greenhouse gases

This article is part of the Fall 2015 issue of the Earth Science Matters Newsletter. 

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Sea level rise and nutrient cycling in coastal wetlands

Sea level rise and nutrient cycling in coastal wetlands

This article is part of the Fall 2014 issue of the Earth Science Matters Newsletter. 

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