Wetlands
Wetlands
Wetlands offer many significant benefits for fish and wildlife as well as society. They protect coastal communities from flooding, improve water quality, control shoreline erosion, and provide recreational opportunities. WARC researchers provide scientific understanding of how wetlands function, map their abundance along the coast, and investigate how they are impacted by environmental stressors.
Filter Total Items: 60
Synthesizing Surface Elevation Change Data to Advance Understanding of Sea-level Rise Impacts to Mangrove Forests and Salt Marshes
USGS and NPS partners are working together to analyze and synthesize long-term SET-MH measurements to improve understanding of coastal wetland soil elevation change and ecological responses to sea-level rise.
Decision Support for Managers Restoring Texas Coastal Marshes with Beneficial Use of Dredged Material
USGS researchers will define the range of elevation targets supporting optimal plant performance and soil strength by identifying the lower and upper thresholds of marsh conversion, and characterize ecosystem development of restored marshes over time to identify the lifetime and sustainability of restored marsh during sea-level rise. This work addresses priority science needs to improve...
Barrier Island Habitat Mapping for the Louisiana Outer Coast Project
The USGS is collaborating with the Louisiana Coastal Protection and Restoration Authority (CPRA) to develop post-restoration barrier island habitat maps for three of the four components associated with the Louisiana Outer Coast Restoration Project
Future Aquatic Invaders of the Northeast U.S.: How Climate Change, Human Vectors, and Natural History Could Bring Southern and Western Species North
Researchers will evaluate the potential of aquatic species to invade the Northeast U.S. Following the identification of appropriate target species by regional stakeholders, researchers will gather data from the NAS database and develop models to determine habitat suitability for each species.
Salinity, Flooding, and Urban Impacts to Critical Habitat of the Endangered Red-cockaded Woodpecker
USGS researchers will collect data on salinity, water level, and flooding duration within Big Branch National Wildlife Refuge to improve the understanding of the hydrologic system, and how hydrology drives available red-cockaded woodpecker habitat use and availability across the landscape.
Investigation of Hydrology and Inundation of the Turtle Bayou Mitigation Area within Bayou Sauvage National Wildlife Refuge, Louisiana
USGS will monitor hydrologic and marsh conditions at the Turtle Bayou mitigation area. This effort will help provide a long-term water level dataset for Turtle Bayou.
Surface Elevation and Accretion Monitoring for the Maurepas Swamp Alternative-2 Mitigation Project
USGS will install and maintain up to six rod surface-elevation table (RSET) and paired accretion monitoring stations at the location of the Maurepas Swamp Alternative-2 Mitigation Project.
Monitoring and Adaptive Management Plan for Deepwater Horizon Natural Resource Damage Assessment (NRDA) Project: Large-scale Marsh Creation – Upper Barataria Component
USGS will provide support to the Large-scale Marsh Creation – Upper Barataria Component Project by monitoring change in the area of land and water, and recovery of vegetation and elevation over time.
Identifying and Projecting Water Quality Outcomes of Canal Backfilling Restoration at Jean Lafitte National Historical Park and Preserve
USGS researchers and their partners will develop a coupled hydrodynamic and water quality modeling system; calibrate and validate the models; assess and predict outcomes of a canal backfilling restoration project on key water quality attributes; and run the modeling system under a suite of scenarios reflecting changing environmental conditions.
Quantifying Changes in Wetland Area and Habitat Types in the Deepwater Horizon Louisiana Restoration Area 1985-Present with Remote Sensing
USGS researchers will quantify wetland change and wetland vegetation community type change through the analyses of aerial vegetation survey data and investigate potential relationships between Normalized Difference Vegetation Index (NDVI) and marsh elevation change.
Demographic Analysis of the Endangered Cape Sable Seaside Sparrow
USGS researchers will examine how hydrology and landscape vegetation changes impact Cape Sable Seaside Sparrow survival and population growth.
Comparing EverForecast to the South Florida Water Management District’s Position Analysis
USGS will compare the EverForecast hydrologic forecast, the South Florida Water Management District's Position Analysis, and observed water level recordings from gages located across the Everglades landscape to examine which forecast performs better during the wet and dry seasons; wet, dry, or average years; or in different areas of the Everglades.