Wave-eroded marsh scarp of Whale's Tail South marsh
Wave-eroded marsh scarp of Whale's Tail South marshWave-eroded marsh scarp of Whale's Tail South marsh in Eden Landing Ecological Reserve, Hayward, CA at low tide, looking south.
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Coastal and Marine Hazards and Resources Program images.
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Wave-eroded marsh scarp of Whale's Tail South marsh
Wave-eroded marsh scarp of Whale's Tail South marsh
Wave-eroded marsh scarp of Whale's Tail South marshWave-eroded marsh scarp of Whale's Tail South marsh in Eden Landing Ecological Reserve, Hayward, CA at low tide, looking south.
Beach and groin at Seven Mile Island, New Jersey
A groin at Seven Mile Island, New Jersey traps sand and contributes to widening of the barrier beach. This illustrates how human modification and wave processes shape the beach. In May 2021, Andrew Farmer, Chelsea Stalk, and Emily Wei conducted a multibeam bathymetry survey offshore of Seven Mile Island, along the southern coast of New Jersey.
A groin at Seven Mile Island, New Jersey traps sand and contributes to widening of the barrier beach. This illustrates how human modification and wave processes shape the beach. In May 2021, Andrew Farmer, Chelsea Stalk, and Emily Wei conducted a multibeam bathymetry survey offshore of Seven Mile Island, along the southern coast of New Jersey.
UTV in front of beach scarp
A UTV (utility task vehicle) parked in front of a beach scarp used to collect data that is used in cooperation with FWC, FWS, USGS, and USFSP to understand sea turtle nesting behavior in response to beach renourishment with the goal of advising engineers on how to develop more turtle friendly nourishment desig
A UTV (utility task vehicle) parked in front of a beach scarp used to collect data that is used in cooperation with FWC, FWS, USGS, and USFSP to understand sea turtle nesting behavior in response to beach renourishment with the goal of advising engineers on how to develop more turtle friendly nourishment desig
Deploying seismic streamer
Science crew from the USGS Pacific Coastal and Marine Science Center work on deployment of seismic streamer on deck of R/V Robert Gordon Sproul. Green cable is the hydrophone streamer and a "bird" is being attached to control depth in the water.
Science crew from the USGS Pacific Coastal and Marine Science Center work on deployment of seismic streamer on deck of R/V Robert Gordon Sproul. Green cable is the hydrophone streamer and a "bird" is being attached to control depth in the water.
Puerto Rico study area and Hurricane María path and data
Puerto Rico study area and Hurricane María path and data(Left) Map of Puerto Rico showing study area location (red box), the oceanographic buoys (orange triangles), and the track of María with eye timing and locations (black dots) in 6-hour increments and the wind radii of 64-knot winds (gray circular outlines).
Puerto Rico study area and Hurricane María path and data
Puerto Rico study area and Hurricane María path and data(Left) Map of Puerto Rico showing study area location (red box), the oceanographic buoys (orange triangles), and the track of María with eye timing and locations (black dots) in 6-hour increments and the wind radii of 64-knot winds (gray circular outlines).
ADCP ready for deployment
An Acoustic Doppler Current Profiler (ADCP) on the deck of the R/V Sallenger ready to be deployed in the water. The ADCP now sits on the bottom of the ocean off Madeira beach, Florida in 5m water depth.
An Acoustic Doppler Current Profiler (ADCP) on the deck of the R/V Sallenger ready to be deployed in the water. The ADCP now sits on the bottom of the ocean off Madeira beach, Florida in 5m water depth.
Divers prepare to deploy ADCP
Scientific divers BJ Reynolds and Hunter Wilcox prepare to lower an Acoustic Doppler Current Profiler (ADCP) into the water. The ADCP now sits on the bottom of the ocean off Madeira beach, Florida in 5m water depth.
Scientific divers BJ Reynolds and Hunter Wilcox prepare to lower an Acoustic Doppler Current Profiler (ADCP) into the water. The ADCP now sits on the bottom of the ocean off Madeira beach, Florida in 5m water depth.
A diagram showing an overview of the study area and the passage of Hurricane María
A diagram showing an overview of the study area and the passage of Hurricane MaríaOverview of the study area and the passage of Hurricane María.
A diagram showing an overview of the study area and the passage of Hurricane María
A diagram showing an overview of the study area and the passage of Hurricane MaríaOverview of the study area and the passage of Hurricane María.
Inlet geomorphic environments with sediment transport pathways
Inlet geomorphic environments with sediment transport pathwaysInlet geomorphic environments with sediment transport pathways indicated by black arrows.
Inlet geomorphic environments with sediment transport pathways
Inlet geomorphic environments with sediment transport pathwaysInlet geomorphic environments with sediment transport pathways indicated by black arrows.
Monitoring equipment in the ocean
Ocean engineer Gerry Hatcher, of the USGS Pacific Coastal and Marine Science Center (PCMSC), sits at a desk on board the USGS boat Sallenger. He and a team of scientists from PCMSC and sister team St.
Ocean engineer Gerry Hatcher, of the USGS Pacific Coastal and Marine Science Center (PCMSC), sits at a desk on board the USGS boat Sallenger. He and a team of scientists from PCMSC and sister team St.
Sunset on the R/V Sproul
Looking across the back deck/stern of the R/V Robert Gordon Sproul. The wire going through the block in the A-frame leads to the CHIRP sonar fish towed in the water. Oil platforms are shown in the distance.
Looking across the back deck/stern of the R/V Robert Gordon Sproul. The wire going through the block in the A-frame leads to the CHIRP sonar fish towed in the water. Oil platforms are shown in the distance.
Map of model bathymetry, Columbia River
A three-dimensional hydrodynamic model of the lower Columbia River (LCR) was constructed using the Delft3D Flexible Mesh (DFM) modeling suite to simulate water levels, flow, and seabed stresses between January 1, 2017, and April 20, 2020
A three-dimensional hydrodynamic model of the lower Columbia River (LCR) was constructed using the Delft3D Flexible Mesh (DFM) modeling suite to simulate water levels, flow, and seabed stresses between January 1, 2017, and April 20, 2020
Woods Hole Sediment Analysis Lab's Beckman Coulter Multisizer 3
Woods Hole Sediment Analysis Lab's Beckman Coulter Multisizer 3Woods Hole Coastal and Marine Science Center Sediment Analysis Laboratory's Beckman Coulter Multisizer 3 (USGS laboratory equipment number WH-SED-BeckmanCoulter-Multisizer1).
Woods Hole Sediment Analysis Lab's Beckman Coulter Multisizer 3
Woods Hole Sediment Analysis Lab's Beckman Coulter Multisizer 3Woods Hole Coastal and Marine Science Center Sediment Analysis Laboratory's Beckman Coulter Multisizer 3 (USGS laboratory equipment number WH-SED-BeckmanCoulter-Multisizer1).
Woods Hole Sediment Analysis Lab's Rigaku Miniflex 600
Woods Hole Sediment Analysis Lab's Rigaku Miniflex 600Woods Hole Coastal and Marine Science Center Sediment Analysis Laboratory's Rigaku Miniflex 600 (USGS laboratory equipment number WH-SED-Rigaku-Miniflex1).
Woods Hole Sediment Analysis Lab's Rigaku Miniflex 600
Woods Hole Sediment Analysis Lab's Rigaku Miniflex 600Woods Hole Coastal and Marine Science Center Sediment Analysis Laboratory's Rigaku Miniflex 600 (USGS laboratory equipment number WH-SED-Rigaku-Miniflex1).
Woods Hole Sed Lab's collection of sieves.
Photograph of cabinets in the Woods Hole Coastal and Marine Science Center Sediment Analysis Laboratory contaning the lab's collection of sieves.
Photograph of cabinets in the Woods Hole Coastal and Marine Science Center Sediment Analysis Laboratory contaning the lab's collection of sieves.
Woods Hole Sed Lab's Horiba LA-960 laser defraction unit
Woods Hole Sed Lab's Horiba LA-960 laser defraction unitWoods Hole Coastal and Marine Science Center Sediment Analysis Laboratory's Horiba LA-960 laser diffraction unit with slurry sampler (USGS laboratory equipment number WH-SED-Horiba-LA9601).
Woods Hole Sed Lab's Horiba LA-960 laser defraction unit
Woods Hole Sed Lab's Horiba LA-960 laser defraction unitWoods Hole Coastal and Marine Science Center Sediment Analysis Laboratory's Horiba LA-960 laser diffraction unit with slurry sampler (USGS laboratory equipment number WH-SED-Horiba-LA9601).
Testing the role of biofilms in the spread of stony coral tissue loss disease (SCTLD)
Testing the role of biofilms in the spread of stony coral tissue loss disease (SCTLD)Biofilms are mats of microorganisms that stick together and form a layer, or “film,” on and within objects in the water—including ships—which could represent one possible mechanism for the spread of microbes (and potentially SCTLD’s unknown causative agent) from one region to another. To test this theory, scientists at the St.
Testing the role of biofilms in the spread of stony coral tissue loss disease (SCTLD)
Testing the role of biofilms in the spread of stony coral tissue loss disease (SCTLD)Biofilms are mats of microorganisms that stick together and form a layer, or “film,” on and within objects in the water—including ships—which could represent one possible mechanism for the spread of microbes (and potentially SCTLD’s unknown causative agent) from one region to another. To test this theory, scientists at the St.
Jin-Si Over Conducting Elevation Survey
Jin-Si Over conducting an elevation survey at Head of the Meadow Beach, Cape Cod National Seashore in Massachusetts.
Jin-Si Over conducting an elevation survey at Head of the Meadow Beach, Cape Cod National Seashore in Massachusetts.
Gamma detectors at the St. Petersburg Coastal & Marine Science Center
Gamma detectors at the St. Petersburg Coastal & Marine Science CenterRadioactive isotopes are common in nature and emit particles that can be detected, quantified, and used to characterize environmental processes.
Gamma detectors at the St. Petersburg Coastal & Marine Science Center
Gamma detectors at the St. Petersburg Coastal & Marine Science CenterRadioactive isotopes are common in nature and emit particles that can be detected, quantified, and used to characterize environmental processes.
Aerial view of northern Pinellas County barrier islands
Aerial view of northern Pinellas County barrier islandsBarrier islands off the coast of northern Pinellas County, Florida including Anclote Key, Three Rooker Island, and the northern tip of Honeymoon Island. These barriers protect a highly populated coastline.
Aerial view of northern Pinellas County barrier islands
Aerial view of northern Pinellas County barrier islandsBarrier islands off the coast of northern Pinellas County, Florida including Anclote Key, Three Rooker Island, and the northern tip of Honeymoon Island. These barriers protect a highly populated coastline.
Aerial view of northern Pinellas County barrier islands
Aerial view of northern Pinellas County barrier islandsBarrier islands off the coast of northern Pinellas County, Florida including Anclote Key, Three Rooker Island, and the northern tip of Honeymoon Island. These barriers protect a highly populated coastline.
Aerial view of northern Pinellas County barrier islands
Aerial view of northern Pinellas County barrier islandsBarrier islands off the coast of northern Pinellas County, Florida including Anclote Key, Three Rooker Island, and the northern tip of Honeymoon Island. These barriers protect a highly populated coastline.