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This dataset contains field topographic and bathymetric data measured during February to April 2019 across oyster castles and mud flats along the Chincoteague Living Shoreline, Virginia, where constructed oyster reefs (CORs, aka oyster castles) were installed to protect the shoreline and enhance habitat for oyster and other species.
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This Data Release contains field topo-bathymetric survey data in a selected saltmarsh shoreline along Gandys Beach, New Jersey, where constructed oyster reefs (CORs, aka oyster castles) were installed to protect the shoreline and enhance habitat for oyster and other species. Oyster castles were constructed as a part of a living shoreline project along Gandys Beach in 2016 in response to the damage by Hurricane Sandy in 2012. Wave, current and sediment data were collected, and field topographic and bathymetric surveys were conducted from January 2018 to April 2018. Fine resolution topographic and bathymetric data is needed to assess shoreline structure effectiveness in terms of wave and current energy reduction,...
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Digital flood-inundation maps for coastal communities within Monmouth County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents...
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Digital flood-inundation maps for coastal communities within Ocean County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents of...
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Digital flood-inundation maps for coastal communities within Ocean County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents of...
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This dataset contains measured (interval = 0.5 hour) wave height, peak wave period, water level, and water depth during March 1 to May 1, 2019, at five wave gage locations along the Chincoteague Living Shoreline, Virginia. These wave gages were sampled continuously at 10 Hz to take 20-min bursts every 30 min. These data were used for the analysis of wave attenuation along the oyster-reef-based living shoreline.
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Digital flood-inundation maps for coastal communities within Essex, Hudson, and Union Counties in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries....
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Digital flood-inundation maps for an approximately 295-mile length of the New Jersey coastline and tidewaters through 10-coastal counties stretching from Cumberland County through Bergen County; including Cumberland, Cape May, Atlantic, Ocean, Monmouth, Middlesex, Union, Essex, Hudson, and Bergen counties were created by the U.S Geological Survey (USGS) in cooperation with the New Jersey Department of Environmental Protection (NJDEP) and New Jersey Office of Emergency Management (NJOEM). The flood-inundation maps depict extent and depth estimates of coastal flooding corresponding to selected tidal elevations recorded by 25 real-time USGS tide gages located throughout the length of the study area coastline. The flood-inundation...
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Digital flood-inundation maps for coastal communities within Ocean County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents of...
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Digital flood-inundation maps for coastal communities within Cumberland County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents...
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Digital flood-inundation maps for coastal communities within Cape May County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents...
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Digital flood-inundation maps for coastal communities within Middlesex and Union Counties in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries....
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Digital flood-inundation maps for coastal communities within Ocean County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents of...
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Digital flood-inundation maps for coastal communities within Atlantic County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents...
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Digital flood-inundation maps for coastal communities within Atlantic County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents...
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Digital flood-inundation maps for coastal communities within Monmouth County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents...
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Digital flood-inundation maps for coastal communities within Cape May County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents...
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Digital flood-inundation maps for coastal communities within Bergen, Hudson, Essex, and Passaic Counties in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map...
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Digital flood-inundation maps for coastal communities within Ocean County in New Jersey were created by water surfaces generated by an Advanced Circulation hydrodynamic (ADCIRC) and Simulating Waves Nearshore (SWAN) model from the Federal Emergency Management Agency (FEMA) Region II coastal analysis and mapping study (Federal Emergency Management Agency, 2014). Six synthetic modeled tropical storm events from a library of 159 events were selected based on parameters including landfall location or closest approach location, maximum wind speed, central pressure, and radii of winds. Two storm events were selected for the tide gage providing two "scenarios" and accompanying inundation-map libraries. The contents of...
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This dataset contains measurements of wave height, peak wave period, and water depth taken every 0.5 hours from February 13 to June 12, 2020, at three wave gauge locations along the Fog Point shoreline in Martin National Wildlife Refuge, Maryland. These wave gauges were continuously sampled at 10 Hz, capturing 20-minute bursts every 30 minutes (peak wave periods longer than 7s were removed). Additionally, the dataset includes measurements of current velocity at one location during the same period. A tilt current meter (TCM, Lowell Instruments LLC, short-TCMs, range of 0-60 cm/s), consisting of a tilt-corrected compass in a buoyant casing and attached to a concrete tile at the sediment surface, was used to measure...
map background search result map search result map Topo-bathymetric survey at Gandys Beach, New Jersey, 2018 Field observation of wind waves (2019) along the Chincoteague Living Shoreline, Virginia Synthetic storm-driven flood-inundation grids for coastal communities in 10 New Jersey counties Synthetic storm-driven flood-inundation grids for coastal communities along the Hackensack River and adjacent to the Hackensack tide gage from New Milford to Secaucus, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Hudson and Hackensack Rivers and adjacent to the Newark tide gage from North Bergen Township to Linden, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Arthur Kill and Raritan River to Raritan Bay and adjacent to the Perth Amboy tide gage from Linden to Laurence Harbor, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Raritan Bay and adjacent to the Keansburg tide gage from Aberdeen Township to Middletown Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Raritan Bay and the Shrewsbury River and adjacent to the Sea Bright tide gage from Middletown Township to Long Branch, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Mantoloking tide gage from Point Pleasant Beach to Toms River Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Delaware Bay and adjacent to the Greenwich tide gage from Lawrence Township to Stow Creek Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Seaside Heights tide gage from Lavallette to Lanoka Harbor, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Waretown tide gage from Lanoka Harbor to Stafford Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Barnegat Light tide gage from Lanoka Harbor to Harvey Cedars, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Tuckerton tide gage from Beach Haven to Little Egg Harbor Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Great Bay to Absecon Channel and adjacent to the Absecon Channel at Atlantic City tide gage from North Brigantine to Atlantic City, NJ Synthetic storm-driven flood-inundation grids for coastal communities along Lake Bay to Great Egg Harbor Inlet and adjacent to the Margate tide gage from Pleasantville to Somers Point, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Great Sound to the Grassy Sound and adjacent to the Stone Harbor tide gage from Avalon to North Wildwood, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Delaware Bay and adjacent to the South Dennis tide gage from North Cape May to Delmont, NJ Topographic and bathymetry survey (2019) along the Chincoteague Living Shoreline, Virginia Field observation of wind waves and current velocity (2020) along the Fog Point Living Shoreline, Maryland Topographic and bathymetry survey (2019) along the Chincoteague Living Shoreline, Virginia Field observation of wind waves and current velocity (2020) along the Fog Point Living Shoreline, Maryland Topo-bathymetric survey at Gandys Beach, New Jersey, 2018 Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Barnegat Light tide gage from Lanoka Harbor to Harvey Cedars, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Great Sound to the Grassy Sound and adjacent to the Stone Harbor tide gage from Avalon to North Wildwood, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Raritan Bay and adjacent to the Keansburg tide gage from Aberdeen Township to Middletown Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Mantoloking tide gage from Point Pleasant Beach to Toms River Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Great Bay to Absecon Channel and adjacent to the Absecon Channel at Atlantic City tide gage from North Brigantine to Atlantic City, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Seaside Heights tide gage from Lavallette to Lanoka Harbor, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Waretown tide gage from Lanoka Harbor to Stafford Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along Lake Bay to Great Egg Harbor Inlet and adjacent to the Margate tide gage from Pleasantville to Somers Point, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Barnegat Bay and adjacent to the Tuckerton tide gage from Beach Haven to Little Egg Harbor Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Hackensack River and adjacent to the Hackensack tide gage from New Milford to Secaucus, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Raritan Bay and the Shrewsbury River and adjacent to the Sea Bright tide gage from Middletown Township to Long Branch, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Delaware Bay and adjacent to the Greenwich tide gage from Lawrence Township to Stow Creek Township, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Hudson and Hackensack Rivers and adjacent to the Newark tide gage from North Bergen Township to Linden, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Delaware Bay and adjacent to the South Dennis tide gage from North Cape May to Delmont, NJ Synthetic storm-driven flood-inundation grids for coastal communities along the Arthur Kill and Raritan River to Raritan Bay and adjacent to the Perth Amboy tide gage from Linden to Laurence Harbor, NJ Field observation of wind waves (2019) along the Chincoteague Living Shoreline, Virginia Synthetic storm-driven flood-inundation grids for coastal communities in 10 New Jersey counties