Scenic photo of Domes Beach in Rincon, Puerto Rico. Photo credit: Emily Himmelstoss.
Images
Scenic photo of Domes Beach in Rincon, Puerto Rico. Photo credit: Emily Himmelstoss.
Satellite-derived shorelines for a barrier island east of Moses Point Fishing Village, Norton Sound, Alaska
linkSatellite-derived shorelines for a barrier island east of Moses Point Fishing Village, Norton Sound, Alaska, from the study CoastSeg: an accessible and extendable hub for satellite-derived-shoreline (SDS) detection and mapping.
Satellite-derived shorelines for a barrier island east of Moses Point Fishing Village, Norton Sound, Alaska
linkSatellite-derived shorelines for a barrier island east of Moses Point Fishing Village, Norton Sound, Alaska, from the study CoastSeg: an accessible and extendable hub for satellite-derived-shoreline (SDS) detection and mapping.
Screenshot of CoastSeg interface, from the study CoastSeg: an accessible and extendable hub for satellite-derived-shoreline (SDS) detection and mapping.
Screenshot of CoastSeg interface, from the study CoastSeg: an accessible and extendable hub for satellite-derived-shoreline (SDS) detection and mapping.
![Satellite images of barrier island near Moses Point Fishing Village, taken in 1986 and 2023](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/Satellite-derived%20shorelines%20from%201986%20and%202023%20of%20barrier%20island%20near%20Moses%20Point%20Fishing%20Village.gif?itok=aBG1-ueC)
Satellite images of barrier island near Moses Point Fishing Village, Norton Sound, Alaska, taken in 1986 and 2023.
Satellite images of barrier island near Moses Point Fishing Village, Norton Sound, Alaska, taken in 1986 and 2023.
Potential coastal change impacts are predicted during a direct landfall of Hurricane Beryl on the Texas coast at 4:00 am, Sunday, July 7, 2024.
Potential coastal change impacts are predicted during a direct landfall of Hurricane Beryl on the Texas coast at 4:00 am, Sunday, July 7, 2024.
![Screenshot shows 5 linked topics on the Coastal Wetland Synthesis Applications geonarrative webpage.](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/US%20Coastal%20Wetland%20Syn.png?itok=8ajMrAC3)
The USGS is assessing the physical condition of coastal wetlands and their response to external forces, using field observations and remote-sensing data. The U.S.
The USGS is assessing the physical condition of coastal wetlands and their response to external forces, using field observations and remote-sensing data. The U.S.
Flyer for Pacific Coastal and Marine Science Center Center Director job announcement.
Flyer for Pacific Coastal and Marine Science Center Center Director job announcement.
![Honorees pose with their awards at the 77th DOI Honor Awards Convocation](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/DOI%20Honor%20Awards%20Convocation.png?itok=dzY6aIUD)
Honorees pose with their awards at the 77th DOI Honor Awards Convocation on May 8, 2024.
Honorees pose with their awards at the 77th DOI Honor Awards Convocation on May 8, 2024.
Distinguished Service Award for USGS Research Geophysicist Carolyn Ruppel, presented on May 8, 2024.
Distinguished Service Award for USGS Research Geophysicist Carolyn Ruppel, presented on May 8, 2024.
Distinguished Service Award for Research Geologist Curt Storlazzi, presented on May 8, 2024.
Distinguished Service Award for Research Geologist Curt Storlazzi, presented on May 8, 2024.
Overview map of the Mississippi River delta showing subaerial birdfoot morphology formed by distributaries.
Overview map of the Mississippi River delta showing subaerial birdfoot morphology formed by distributaries.
The United States has ECS in seven offshore areas: the Arctic, Atlantic (east coast), Bering Sea, Pacific (west coast), Mariana Islands, and two areas in the Gulf of Mexico. The U.S. ECS area is approximately one million square kilometers – an area about twice the size of California.
The United States has ECS in seven offshore areas: the Arctic, Atlantic (east coast), Bering Sea, Pacific (west coast), Mariana Islands, and two areas in the Gulf of Mexico. The U.S. ECS area is approximately one million square kilometers – an area about twice the size of California.
![A researcher drives a personal watercraft carrying scientific equipment on a calm sunny day with an island in the background](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/WallopsIsland_WaverunnerTransit.jpg?itok=rkNscIeZ)
Sabrina Levinson, a USGS intern on the Coastal Sediment Availability and Flux Project (St. Petersburg Coastal and Marine Science Center), pilots a survey waverunner to the shallows of Wallops Island, Virginia.
Sabrina Levinson, a USGS intern on the Coastal Sediment Availability and Flux Project (St. Petersburg Coastal and Marine Science Center), pilots a survey waverunner to the shallows of Wallops Island, Virginia.
![Map of study area showing the Sur Pockmark Field offshore of central California](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/Map%20of%20study%20area%20showing%20the%20Sur%20Pockmark%20Field.jpg?itok=OKDCj-IT)
Location Map showing the Sur Pockmark Field outlined in green, individual pockmarks are shown as small red dots. This study focuses on the largest section of the pockmark field, from the Lucia Chica Channel down to the San Simeon Channel. AUV surveys are outlined in white and the offshore wind commercial leases are outlined in gray.
Location Map showing the Sur Pockmark Field outlined in green, individual pockmarks are shown as small red dots. This study focuses on the largest section of the pockmark field, from the Lucia Chica Channel down to the San Simeon Channel. AUV surveys are outlined in white and the offshore wind commercial leases are outlined in gray.
![Diagram showing patterns of erosion and deposition that produce seafloor pockmarks](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/Diagram%20showing%20patterns%20of%20erosion%20and%20deposition%20that%20produce%20seafloor%20pockmarks.jpg?itok=2gZIcKYS)
A diagram illustrating how the patterns of erosion and deposition associated with three sediment gravity flows could produce the stacked pockmarks and lateral migration observed in AUV-collected Chirp profiles. Long, uneventful episodes of hemipelagic drape (a, d, g, j) are intermittently interrupted by sediment gravity flows that either: 1b.
A diagram illustrating how the patterns of erosion and deposition associated with three sediment gravity flows could produce the stacked pockmarks and lateral migration observed in AUV-collected Chirp profiles. Long, uneventful episodes of hemipelagic drape (a, d, g, j) are intermittently interrupted by sediment gravity flows that either: 1b.
Ernest F. Hollings ACE Basin National Wildlife Refuge in South Carolina shown in the pop-out of the U.S. Coastal Wetlands Synthesis Applications geonarrative.
Ernest F. Hollings ACE Basin National Wildlife Refuge in South Carolina shown in the pop-out of the U.S. Coastal Wetlands Synthesis Applications geonarrative.
The Southeast Region Refuges tab of the U.S. Coastal Wetlands Synthesis Applications geonarrative. A FWS and USGS collaboration.
The Southeast Region Refuges tab of the U.S. Coastal Wetlands Synthesis Applications geonarrative. A FWS and USGS collaboration.
![Animated GIF of Cascadia 1700 tsunami simulation at Salmon River, Oregon](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/Cascadia%201700%20tsunami%20simulation%20at%20Salmon%20River.gif?itok=cotHADuH)
Animated GIF of Cascadia 1700 tsunami simulation at Salmon River, Oregon. Colored dots are locations where sediment cores were collected.
Animated GIF of Cascadia 1700 tsunami simulation at Salmon River, Oregon. Colored dots are locations where sediment cores were collected.
![Photo of researchers who conducted prior paleotsunami research at Salmon River estuary, Oregon](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/Past%20paleotsunami%20research%20at%20Salmon%20River%20estuary.png?itok=G945KRrU)
Researchers Brian Atwater and Wendy Grant Walter conducting prior paleotsunami research at Salmon River estuary, Oregon.
Researchers Brian Atwater and Wendy Grant Walter conducting prior paleotsunami research at Salmon River estuary, Oregon.
![Diagram showing land subsidence and sand deposit following tsunami](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/Diagram%20showing%20subsidence%20and%20sand%20deposit%20following%20tsunami.png?itok=_obCSqZ1)
Diagram showing the sequence of land subsidence during an earthquake, followed with sand deposited by a tsunami.
Diagram showing the sequence of land subsidence during an earthquake, followed with sand deposited by a tsunami.
![Photo of sediment core with tsunami deposit from the Salmon River estuary, Oregon](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/Sediment%20core%20with%20tsunami%20deposit.png?itok=nqXANw6o)
Sediment core with tidal silt, tsunami sand, and marsh peat collected from the Salmon River estuary, Oregon.
Sediment core with tidal silt, tsunami sand, and marsh peat collected from the Salmon River estuary, Oregon.