U.S. Geological Survey Gas Hydrates Project Active
The USGS Gas Hydrates Project has been making contributions to advance understanding of US and international gas hydrates science for at least three decades. The research group working on gas hydrates at the USGS is among the largest in the US and has expertise in all the major geoscience disciplines, as well as in the physics and chemistry of gas hydrates, the geotechnical properties of hydrate-bearing sediments, and the biogeochemistry of marine and permafrost gas hydrate systems. The group includes field-based scientists, numerical modelers, laboratory scientists, and supporting technical personnel for marine, permafrost, and laboratory operations. Much of the research is carried out in collaboration with other federal agencies (especially the U.S. Department of Energy) or academic partners, and there are frequently opportunities to collaborate on international programs that jointly serve the Project's mission and the goals of the international partners.
Gas Hydrates Research
The USGS Gas Hydrates Project focuses on the study of natural gas hydrates in deepwater marine systems and permafrost areas.
The USGS Gas Hydrates Project focuses on the study of natural gas hydrates in deepwater marine systems and permafrost areas. The primary goals are:
- Evaluate methane hydrates as a potential energy source
- Investigate the interaction between methane hydrate destabilization and climate change at short and long time scales
- Study the spatial and temporal connections between submarine slope failures and gas hydrate dynamics
The Gas Hydrate Project conducts multidisciplinary field studies, participates in national and international deep drilling expeditions, and maintains several laboratories focused on hydrate-bearing sediments.
Scientific research associated with the Gas Hydrates Project.
The Mid-Atlantic Resource Imaging Experiment (MATRIX)
Data Releases associated with the Gas Hydrates Project
Mulitmedia items associated with the Gas Hydrates Project
Publications associated with the Gas Hydrates Project
Gas Hydrates on Alaskan Marine Margins
Gas hydrate distributions on the marine margins of the U.S. state of Alaska are more poorly known than those on other U.S. margins, where bottom simulating reflections have been systematically mapped on marine seismic data to support modern, quantitative assessments of gas-in-place in gas hydrates.
The interaction of climate change and methane hydrates
Subsea ice-bearing permafrost on the U.S. Beaufort Margin: 1. Minimum seaward extent defined from multichannel seismic reflection data
Subsea ice-bearing permafrost on the U.S. Beaufort Margin: 2. Borehole constraints
Determining the flux of methane into Hudson Canyon at the edge of methane clathrate hydrate stability
Ephemerality of discrete methane vents in lake sediments
Widespread methane leakage from the sea floor on the northern US Atlantic margin
Methane hydrate-bearing seeps as a source of aged dissolved organic carbon to the oceans
Inter-laboratory comparison of wave velocity measures.
Methane hydrates and contemporary climate change
Geonarratives associated with the Gas Hydrates Project
News stories associated with the Gas Hydrates project.
USGS scientists contribute to new gas hydrates monograph
The recently-published monograph entitled World Atlas of Submarine Gas Hydrates on Continental Margins compiles findings about gas hydrates offshore all of Earth’s continents and also onshore in selected permafrost regions.
Gas Hydrates FAQs
What are gas hydrates?
Gas hydrates are a crystalline solid formed of water and gas. It looks and acts much like ice, but it contains huge amounts of methane; it is known to occur on every continent; and it exists in huge quantities in marine sediments in a layer several hundred meters thick directly below the sea floor and in association with permafrost in the Arctic. It is not stable at normal sea-level pressures and...
Gas Hydrates Project Partners
- Overview
The USGS Gas Hydrates Project has been making contributions to advance understanding of US and international gas hydrates science for at least three decades. The research group working on gas hydrates at the USGS is among the largest in the US and has expertise in all the major geoscience disciplines, as well as in the physics and chemistry of gas hydrates, the geotechnical properties of hydrate-bearing sediments, and the biogeochemistry of marine and permafrost gas hydrate systems. The group includes field-based scientists, numerical modelers, laboratory scientists, and supporting technical personnel for marine, permafrost, and laboratory operations. Much of the research is carried out in collaboration with other federal agencies (especially the U.S. Department of Energy) or academic partners, and there are frequently opportunities to collaborate on international programs that jointly serve the Project's mission and the goals of the international partners.
Gas Hydrates ResearchThe USGS Gas Hydrates Project focuses on the study of natural gas hydrates in deepwater marine systems and permafrost areas.
The USGS Gas Hydrates Project focuses on the study of natural gas hydrates in deepwater marine systems and permafrost areas. The primary goals are:
- Evaluate methane hydrates as a potential energy source
- Investigate the interaction between methane hydrate destabilization and climate change at short and long time scales
- Study the spatial and temporal connections between submarine slope failures and gas hydrate dynamics
The Gas Hydrate Project conducts multidisciplinary field studies, participates in national and international deep drilling expeditions, and maintains several laboratories focused on hydrate-bearing sediments.
- Science
Scientific research associated with the Gas Hydrates Project.
The Mid-Atlantic Resource Imaging Experiment (MATRIX)
In late August 2018, scientists and technical staff from the USGS Coastal and Marine Hazards and Resources Program completed the acquisition of over 2000 km of multichannel seismic (MCS) data as part of the Mid-Atlantic Resource Imaging Experiment (MATRIX) conducted aboard the R/V Hugh R. Sharp . The seismic program was led by the USGS Gas Hydrates Project and was sponsored by the USGS, the U.S... - Data
Data Releases associated with the Gas Hydrates Project
Filter Total Items: 16No Result Found - Multimedia
Mulitmedia items associated with the Gas Hydrates Project
Filter Total Items: 28No results found. - Publications
Publications associated with the Gas Hydrates Project
Gas Hydrates on Alaskan Marine MarginsGas hydrate distributions on the marine margins of the U.S. state of Alaska are more poorly known than those on other U.S. margins, where bottom simulating reflections have been systematically mapped on marine seismic data to support modern, quantitative assessments of gas-in-place in gas hydrates.
Filter Total Items: 45The interaction of climate change and methane hydrates
Gas hydrate, a frozen, naturally-occurring, and highly-concentrated form of methane, sequesters significant carbon in the global system and is stable only over a range of low-temperature and moderate-pressure conditions. Gas hydrate is widespread in the sediments of marine continental margins and permafrost areas, locations where ocean and atmospheric warming may perturb the hydrate stability fielAuthorsCarolyn D. Ruppel, John D. KesslerSubsea ice-bearing permafrost on the U.S. Beaufort Margin: 1. Minimum seaward extent defined from multichannel seismic reflection data
Subsea ice-bearing permafrost (IBPF) and associated gas hydrate in the Arctic have been subject to a warming climate and saline intrusion since the last transgression at the end of the Pleistocene. The consequent degradation of IBPF is potentially associated with significant degassing of dissociating gas hydrate deposits. Previous studies interpreted the distribution of subsea permafrost on the U.AuthorsLaura L. Brothers, Bruce M. Herman, Patrick E. Hart, Carolyn D. RuppelSubsea ice-bearing permafrost on the U.S. Beaufort Margin: 2. Borehole constraints
Borehole logging data from legacy wells directly constrain the contemporary distribution of subsea permafrost in the sedimentary section at discrete locations on the U.S. Beaufort Margin and complement recent regional analyses of exploration seismic data to delineate the permafrost's offshore extent. Most usable borehole data were acquired on a ∼500 km stretch of the margin and within 30 km of theAuthorsCarolyn D. Ruppel, Bruce M. Herman, Laura L. Brothers, Patrick E. HartDetermining the flux of methane into Hudson Canyon at the edge of methane clathrate hydrate stability
Methane seeps were investigated in Hudson Canyon, the largest shelf-break canyon on the northern US Atlantic Margin. The seeps investigated are located at or updip of the nominal limit of methane clathrate hydrate stability. The acoustic identification of bubble streams was used to guide water column sampling in a 32 km2 region within the canyon's thalweg. By incorporating measurements of dissolveAuthorsA. Weinsten, L Navarrete, Carolyn D. Ruppel, T.C. Weber, M. Leonte, M. Kellermann, E. Arrington, D.L. Valentine, M.L Scranton, John D. KesslerEphemerality of discrete methane vents in lake sediments
Methane is a potent greenhouse gas whose emission from sediments in inland waters and shallow oceans may both contribute to global warming and be exacerbated by it. The fraction of methane emitted by sediments that bypasses dissolution in the water column and reaches the atmosphere as bubbles depends on the mode and spatiotemporal characteristics of venting from the sediments. Earlier studies haveAuthorsBenjamin P. Scandella, Liam Pillsbury, Thomas Weber, Carolyn D. Ruppel, Harold F. Hemond, Ruben JuanesWidespread methane leakage from the sea floor on the northern US Atlantic margin
Methane emissions from the sea floor affect methane inputs into the atmosphere, ocean acidification and de-oxygenation, the distribution of chemosynthetic communities and energy resources. Global methane flux from seabed cold seeps has only been estimated for continental shelves, at 8 to 65 Tg CH4 yr−1, yet other parts of marine continental margins are also emitting methane. The US Atlantic marginAuthorsAdam Skarke, Carolyn Ruppel, Mali'o Kodis, Daniel S. Brothers, Elizabeth A. LobeckerMethane hydrate-bearing seeps as a source of aged dissolved organic carbon to the oceans
Marine sediments contain about 500–10,000 Gt of methane carbon1, 2, 3, primarily in gas hydrate. This reservoir is comparable in size to the amount of organic carbon in land biota, terrestrial soils, the atmosphere and sea water combined1, 4, but it releases relatively little methane to the ocean and atmosphere5. Sedimentary microbes convert most of the dissolved methane to carbon dioxide6, 7. HerAuthorsJohn W. Pohlman, William F. Waite, James E. Bauer, Christopher L. Osburn, N. Ross ChapmanInter-laboratory comparison of wave velocity measures.
This paper presents an eight-laboratory comparison of compressional and shear wave velocities measured in F110 Ottawa sand. The study was run to quantify the physical property variations one should expect in heterogeneous, multiphase porous materials by separately quantifying the variability inherent in the measurement techniques themselves. Comparative tests were run in which the sand was dry, wAuthorsWilliam F. Waite, J.C. Santamarina, M. Rydzy, S.H. Chong, J.L.H. Grozic, K. Hester, J. Howard, T.J. Kneafsey, J.Y. Lee, S. Nakagawa, J. Priest, E. Reese, H. Koh, E. D. Sloan, A. SultaniyaMethane hydrates and contemporary climate change
As the evidence for warming climate became better established in the latter part of the 20th century (IPCC 2001), some scientists raised the alarm that large quantities of methane (CH4) might be liberated by widespread destabilization of climate-sensitive gas hydrate deposits trapped in marine and permafrost-associated sediments (Bohannon 2008, Krey et al. 2009, Mascarelli 2009). Even if only a frAuthorsCarolyn D. Ruppel - Web Tools
Geonarratives associated with the Gas Hydrates Project
- News
News stories associated with the Gas Hydrates project.
USGS scientists contribute to new gas hydrates monograph
The recently-published monograph entitled World Atlas of Submarine Gas Hydrates on Continental Margins compiles findings about gas hydrates offshore all of Earth’s continents and also onshore in selected permafrost regions.
- FAQ
Gas Hydrates FAQs
What are gas hydrates?
Gas hydrates are a crystalline solid formed of water and gas. It looks and acts much like ice, but it contains huge amounts of methane; it is known to occur on every continent; and it exists in huge quantities in marine sediments in a layer several hundred meters thick directly below the sea floor and in association with permafrost in the Arctic. It is not stable at normal sea-level pressures and...
- Partners
Gas Hydrates Project Partners