Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Evan Dailey
Data Management Specialist, Pacific Coastal and Marine Science Center
Science and Products
Rain measurements in and near the CZU Lightning Complex Fire area, Santa Cruz Mountains, California, 2020 to 2021
Bed sediment properties in Little Holland Tract and Liberty Island, Sacramento-San Joaquin Delta, California, 2014 to 2019 (ver. 3.0, April 2023)
Sediment transport and aquatic vegetation data from three locations in the Sacramento-San Joaquin Delta, California, 2017 to 2018
SQUID-5 structure-from-motion point clouds, bathymetric maps, orthomosaics, and underwater photos of coral reefs in Florida, 2019
Bathymetry, topography, and acoustic backscatter data, and a digital elevation model (DEM) of the Cache Slough Complex and Sacramento River Deep Water Ship Channel, Sacramento-San Joaquin Delta, California
Hydrodynamic and sediment transport data from San Pablo Bay (northern San Francisco Bay), 2011-2012
Structure-from-Motion (SfM) surface models derived from seafloor video from the Channel Islands, California
Bathymetry and acoustic backscatter data collected in 2007 from the San Miguel Passage in the Channel Islands, California
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.
Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Video camera bright image at Sunset State Beach in Watsonville, California, looking north. Learn more about the cameras and their imagery, and how we're using them to study coastal change.
Video camera bright image at Sunset State Beach in Watsonville, California, looking north. Learn more about the cameras and their imagery, and how we're using them to study coastal change.
Physics to fish—Understanding the factors that create and sustain native fish habitat in the San Francisco Estuary
What controls suspended-sediment concentration and export in flooded agricultural tracts in the Sacramento-San Joaquin Delta?
Accurate bathymetric maps from underwater digital imagery without ground control
USGS Science in the American Territories
The United States is more than just the fifty states and the District of Columbia. Five permanently inhabited territories in the Pacific Ocean and the Caribbean Sea are overseen by the U.S. and are home to more than 4 million people, many of whom are American citizens.
Deciphering Nature's Seismograph: How Sediments Record Past Earthquakes and Inform Future Hazard Assessments
People have been recording seismic activity for centuries. To assemble a detailed earthquake history of an area and understand how faults may behave in the future, however, scientists need to go further back in time—from several hundred to many thousands of years ago.
Coastal and Marine Geoscience Data System
Information about scientific data collected through field activities conducted by scientists in the USGS Coastal and Marine Hazards and Resources Program.
squid5-software
ViTexOCR -- a script to extract text overlays from digital video
Science and Products
- Data
Rain measurements in and near the CZU Lightning Complex Fire area, Santa Cruz Mountains, California, 2020 to 2021
The CZU Lightning Complex Fire (hereafter, "CZU Fire") ignited in the Santa Cruz Mountains, California, on August 16, 2020. By the time of full containment on September 22, 2020, the fire had burned 350 km2 (86,510 acres) in Santa Cruz and San Mateo Counties. The U.S. Geological Survey (USGS) installed four rain gages in and near the CZU Fire burn area to measure rainfall during the post-fire wetBed sediment properties in Little Holland Tract and Liberty Island, Sacramento-San Joaquin Delta, California, 2014 to 2019 (ver. 3.0, April 2023)
Bed sediments were collected by the USGS Pacific Coastal and Marine Science Center (PCMSC) in two submerged agricultural tracts, Liberty Island and Little Holland Tract, in the northern Sacramento-San Joaquin Delta, California. Samples were analyzed for grain size distribution, bulk density, or both. Analyses were conducted using PCMSC sediment lab standard techniques (see Process Step in metadataSediment transport and aquatic vegetation data from three locations in the Sacramento-San Joaquin Delta, California, 2017 to 2018
We measured currents, suspended-sediment concentration (SSC), bed sediment characteristics, and vegetation biomass density in the Sacramento-San Joaquin Delta in 2017-2018, as part of a project investigating the influence of invasive aquatic vegetation (IAV) on flow and sediment flux. This data release includes data from three sites: Lindsey Slough (April 2017), Middle River (March 2018) and the lSQUID-5 structure-from-motion point clouds, bathymetric maps, orthomosaics, and underwater photos of coral reefs in Florida, 2019
The new structure-from-motion (SfM) quantitative underwater imaging device with five cameras (SQUID-5) was tested in July 2019 at Crocker Reef in the Florida Keys. The SQUID-5 was developed to meet the unique challenges of collecting SfM underwater imagery, including multiple cameras with different perspectives, accurate geographic locations of images, accurate and precise scaling of derived surfaBathymetry, topography, and acoustic backscatter data, and a digital elevation model (DEM) of the Cache Slough Complex and Sacramento River Deep Water Ship Channel, Sacramento-San Joaquin Delta, California
This data release presents bathymetric and topographic data from surveys performed between 2017 and 2018 in the Cache Slough Complex and the Sacramento River Deep Water Ship Channel (DWSC), northern Sacramento-San Joaquin Delta, California. The shallow, highly vegetated aquatic habitats of this region necessitated a variety of survey platforms and techniques. In the deeper channels, swath bathymetHydrodynamic and sediment transport data from San Pablo Bay (northern San Francisco Bay), 2011-2012
The U.S. Geological Survey Pacific Coastal and Marine Science Center collected data to investigate sediment dynamics in the shallows of San Pablo Bay in two deployments: February to March 2011 (ITX11) and May to June 2012 (ITX12). This data release includes time-series data and grain-size distributions from sediment grabs collected during the deployments. During each deployment, time series of curStructure-from-Motion (SfM) surface models derived from seafloor video from the Channel Islands, California
Structure-from-Motion (SfM) surface models were created using seafloor video collected over a visible fault scarp in the Channel Islands, California, during a 2016 U.S. Geological Survey (USGS) field activity. Four SfM surface models were created, each with a different combination of locating, scaling, and optimizing methods. Video imagery was collected using the USGS Pacific Coastal and Marine ScBathymetry and acoustic backscatter data collected in 2007 from the San Miguel Passage in the Channel Islands, California
Bathymetry and acoustic backscatter data were collected in the San Miguel Passage, Channel Islands, California in August 2007 by the U.S. Geological Survey, Pacific Coastal and Marine Science Center. Data collection was conducted aboard the ship R/V Shearwater as part of the USGS research cruise S-2-07-SC. The San Miguel Passage is within the Channel Islands National Marine Sanctuary, and is the b - Multimedia
Filter Total Items: 59Nuvuk video camera 2 dark image
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 1 snapshotTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 2 snapshopTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 1 time exposureTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 2 time exposureTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 1 variance imageTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 2 variance imageTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 1 bright imageTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 2 bright imageTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Nuvuk video camera 1 dark imageTwo video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Two video cameras are installed atop a utility pole near the northernmost point of land in the United States at Nuvuk (Point Barrow), Alaska. The cameras point northwest toward the Arctic Ocean and the boundary between the Chukchi and Beaufort Seas. Every half hour during daylight hours, the cameras collect snapshots and video for 10 minutes.
Tres Palmas Video Camera Mid-Field Variance ImageVideo camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Beach View Variance ImageTres Palmas Video Camera Beach View Variance ImageVideo camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Mid-Field Variance Image, 2Tres Palmas Video Camera Mid-Field Variance Image, 2Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera variance image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Far-Field Bright ImageVideo camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Beach View Bright ImageVideo camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Mid-Field Bright ImageVideo camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Mid-Field Bright Image, 2Tres Palmas Video Camera Mid-Field Bright Image, 2Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera bright image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Far-Field Dark ImageVideo camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Beach View Dark ImageVideo camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Learn more about the cameras and how we're using them to study wave dynamics.Tres Palmas Video Camera Mid-Field Dark ImageVideo camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Video camera dark image at Tres Palmas in Rincón, on the west coast of Puerto Rico. [Larger version]
Sunset Beach Camera 2 Bright ImageVideo camera bright image at Sunset State Beach in Watsonville, California, looking north. Learn more about the cameras and their imagery, and how we're using them to study coastal change.
Video camera bright image at Sunset State Beach in Watsonville, California, looking north. Learn more about the cameras and their imagery, and how we're using them to study coastal change.
- Publications
Physics to fish—Understanding the factors that create and sustain native fish habitat in the San Francisco Estuary
Executive SummaryThe Bureau of Reclamation (Reclamation) operates the Central Valley Project (CVP), one of the nation’s largest water projects. Reclamation has an ongoing need to improve the scientific basis for adaptive management of the CVP and, by extension, joint operations with California’s State Water Project. The U.S. Geological Survey (USGS) works cooperatively with the Bureau of ReclamatiAuthorsLarry R. Brown, David E. Ayers, Brian A. Bergamaschi, Jon R. Burau, Evan T. Dailey, Bryan D. Downing, Maureen A. Downing-Kunz, Frederick V. Feyrer, Brock M. Huntsman, Tamara E. C. Kraus, Tara Morgan, Jessica R. Lacy, Francis Parchaso, Catherine A. Ruhl, Elizabeth B. Stumpner, Paul Stumpner, Janet Thompson, Matthew J. YoungWhat controls suspended-sediment concentration and export in flooded agricultural tracts in the Sacramento-San Joaquin Delta?
We investigated wind-wave and suspended-sediment dynamics in Little Holland Tract and Liberty Island, two subsided former agricultural tracts in the Cache Slough complex in the northern Sacramento-San Joaquin Delta which were restored to tidal shallows to improve habitat. Turbidity, and thus suspended-sediment concentration (SSC), is important to habitat quality because some species of native fishAuthorsJessica R. Lacy, Evan T. Dailey, Tara L. Morgan-KingAccurate bathymetric maps from underwater digital imagery without ground control
Structure-from-Motion (SfM) photogrammetry can be used with digital underwater photographs to generate high-resolution bathymetry and orthomosaics with millimeter-to-centimeter scale resolution at relatively low cost. Although these products are useful for assessing species diversity and health, they have additional utility for quantifying benthic community structure, such as coral growth and fineAuthorsGerry Hatcher, Jonathan Warrick, Andrew C. Ritchie, Evan T. Dailey, David G. Zawada, Christine J. Kranenburg, Kimberly K. Yates - Web Tools
USGS Science in the American Territories
The United States is more than just the fifty states and the District of Columbia. Five permanently inhabited territories in the Pacific Ocean and the Caribbean Sea are overseen by the U.S. and are home to more than 4 million people, many of whom are American citizens.
Deciphering Nature's Seismograph: How Sediments Record Past Earthquakes and Inform Future Hazard Assessments
People have been recording seismic activity for centuries. To assemble a detailed earthquake history of an area and understand how faults may behave in the future, however, scientists need to go further back in time—from several hundred to many thousands of years ago.
Coastal and Marine Geoscience Data System
Information about scientific data collected through field activities conducted by scientists in the USGS Coastal and Marine Hazards and Resources Program.
- Software
squid5-software
This software was developed for and used by the structure-from-motion (SfM) quantitative underwater imaging device with five cameras (SQUID-5) project. The SQUID-5's camera exposure and sensor gain settings are set identically using a program written with the Spinnaker SDK and examples. Another Spinnaker SDK based program was created to collect, format and save image data to long-term-storage witViTexOCR -- a script to extract text overlays from digital video
The ViTexOCR script presents a new method for extracting navigation data from videos with text overlays using optical character recognition (OCR) software. Over the past few decades, it was common for videos recorded during surveys to be overlaid with real-time geographic positioning satellite chyrons including latitude, longitude, date and time, as well as other ancillary data (such as speed, hea - News