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Energy and Minerals Mission Area images.
The south area of the La Honda oil field, California, was discovered during the late 1950s and produced an estimated 595,000 barrels of oil from about 12 wells, including the well in this photo.
The south area of the La Honda oil field, California, was discovered during the late 1950s and produced an estimated 595,000 barrels of oil from about 12 wells, including the well in this photo.
This is the cover page of USGS Circular 1190. View the publication here: https://pubs.usgs.gov/circ/c1190/
This is the cover page of USGS Circular 1190. View the publication here: https://pubs.usgs.gov/circ/c1190/
Dr. Suzanne Nicholson in Isle Royale, 1996
Dr. Suzanne Nicholson in Isle Royale, 1996
1981 - Aerial photo of Reston VA USGS Federal Building. EROS History Project
1981 - Aerial photo of Reston VA USGS Federal Building. EROS History Project
The panorama shows Cimarron River-bed operations in a portion of the Cushing Oil Field on December 2, 1915. The view is looking to the southwest from a river overlook located in Creek County, Oklahoma. The panorama was constructed from two photographs taken by A.E. Fath
The panorama shows Cimarron River-bed operations in a portion of the Cushing Oil Field on December 2, 1915. The view is looking to the southwest from a river overlook located in Creek County, Oklahoma. The panorama was constructed from two photographs taken by A.E. Fath
The species of bats that are most susceptible to wind turbines all roost in trees throughout the year, leading some scientists to speculate that they may be visually mistaking wind turbines for trees in which to roost.
The species of bats that are most susceptible to wind turbines all roost in trees throughout the year, leading some scientists to speculate that they may be visually mistaking wind turbines for trees in which to roost.
Map of the Eastern Mediterranean region showing the area included in the USGS Levant Basin Province assessment.
Map of the Eastern Mediterranean region showing the area included in the USGS Levant Basin Province assessment.
USGS scientists looking at Eocene sandstones and limestones in Wadi Degla, northern Egypt. This area was studied to understand the Levant Basin Province, as both regions have similar rock formations.
USGS scientists looking at Eocene sandstones and limestones in Wadi Degla, northern Egypt. This area was studied to understand the Levant Basin Province, as both regions have similar rock formations.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. Front to back: Masato Kida (AIST), Yoshihiro Konno (AIST), William Waite (USGS), Jiro Nagao (AIST), and Yusuke Jin (AIST), analyze test results from pressurized hydrate-bearing sediment cores.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. Front to back: Masato Kida (AIST), Yoshihiro Konno (AIST), William Waite (USGS), Jiro Nagao (AIST), and Yusuke Jin (AIST), analyze test results from pressurized hydrate-bearing sediment cores.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. Left to right: David Mason (USGS), Carlos Santamarina (Georgia Tech), and Yoshihiro Konno (AIST).
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. Left to right: David Mason (USGS), Carlos Santamarina (Georgia Tech), and Yoshihiro Konno (AIST).
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. Left to right: Emile Bergeron (USGS) and Carlos Santamarina (Georgia Tech) watch the movement of a sediment pressure core on a video screen.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. Left to right: Emile Bergeron (USGS) and Carlos Santamarina (Georgia Tech) watch the movement of a sediment pressure core on a video screen.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. This photo shows the pressure core storage chambers, which contain hydrate-bearing sediment samples obtained from the Nankai Trough offshore Japan.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. This photo shows the pressure core storage chambers, which contain hydrate-bearing sediment samples obtained from the Nankai Trough offshore Japan.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. The cores and pressure vessels are very heavy to move around, so they are using an overhead hoist system with chains to move the devices.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. The cores and pressure vessels are very heavy to move around, so they are using an overhead hoist system with chains to move the devices.
USGS technician Jenny White checks instruments on the research vessel Pelican during a cruise that imaged the Gulf of Mexico seafloor in areas with abundant gas hydrates in April and May 2013.
USGS technician Jenny White checks instruments on the research vessel Pelican during a cruise that imaged the Gulf of Mexico seafloor in areas with abundant gas hydrates in April and May 2013.
Researchers set up radar equipment at dusk near Horicon National Wildlife Refuge in east-central Wisconsin.
Researchers set up radar equipment at dusk near Horicon National Wildlife Refuge in east-central Wisconsin.
Wind along the Missouri River kicks up a cloud of dust.
Wind along the Missouri River kicks up a cloud of dust.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. The cores and pressure vessels are very heavy to move around, so they are using an overhead hoist system with chains to move the devices.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. The cores and pressure vessels are very heavy to move around, so they are using an overhead hoist system with chains to move the devices.
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. In this photo is Marco Terzariol (Georgia Tech) is preparing a Direct Shear Cell for testing a core section from the manipulator (background), storage chamber, and ball valve system (left).
Scientists from AIST, JOGMEC, Georgia Tech, and the USGS prepare to analyze pressure cores as part of a multi-year gas hydrates research project in Japan. In this photo is Marco Terzariol (Georgia Tech) is preparing a Direct Shear Cell for testing a core section from the manipulator (background), storage chamber, and ball valve system (left).
The USGS's Tom O'Brien, Patrick Hart (who is a co-chief scientist for the cruise) and Jenny White adjust seismic streamers and prepare to collect data on gas hydrates in the deepwater Gulf of Mexico aboard the research vessel Pelican in April to May, 2013.
The USGS's Tom O'Brien, Patrick Hart (who is a co-chief scientist for the cruise) and Jenny White adjust seismic streamers and prepare to collect data on gas hydrates in the deepwater Gulf of Mexico aboard the research vessel Pelican in April to May, 2013.
USGS technician Pete Dal Ferro prepares a generator-injector seismic source aboard the research ship Pelican during a cruise to study gas hydrates in the deepwater Gulf of Mexico in April and May 2013.
USGS technician Pete Dal Ferro prepares a generator-injector seismic source aboard the research ship Pelican during a cruise to study gas hydrates in the deepwater Gulf of Mexico in April and May 2013.