Keith A. Kvenvolden scite author profile

Natural gas hydrates occur worldwide in polar regions, normally associated with onshore and offshore permafrost, and in sediment of outer continental and insular margins. The total amount of methane in gas hydrates likely exceeds 1019 g of methane carbon. Three aspects of gas hydrates are important: their fossil fuel resource potential, their role as a submarine geohazard, and their effects on global climate change. Because gas hydrates represent a large amount of methane within 2000 m of the Earth's surface, they are considered to be an unconventional, unproven source of fossil fuel. Because gas hydrates are metastable, changes of pressure and temperature affect their stability. Destabilized gas hydrates beneath the seafloor lead to geologic hazards such as submarine slumps and slides, examples of which are found worldwide. Destabilized gas hydrates may also affect climate through the release of methane, a “greenhouse” gas, which may enhance global warming and be a factor in global climate change.

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Methane hydrate — A major reservoir of carbon in the shallow geosphere?

Kvenvolden

1988

Chemical Geology

1,032

609

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Evidence for Extraterrestrial Amino-acids and Hydrocarbons in the Murchison Meteorite

Kvenvolden

Lawless

Pering

et al. 1970

Nature

788

425

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Potential effects of gas hydrate on human welfare

Kvenvolden

1999

Proc. Natl. Acad. Sci. U.S.A.

490

282

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For almost 30 years. serious interest has been directed toward natural gas hydrate, a crystalline solid composed of water and methane, as a potential (i) energy resource, (ii) factor in global climate change, and (iii) submarine geohazard. Although each of these issues can affect human welfare, only (iii) is considered to be of immediate importance. Assessments of gas hydrate as an energy resource have often been overly optimistic, based in part on its very high methane content and on its worldwide occurrence in continental margins. Although these attributes are attractive, geologic settings, reservoir properties, and phase-equilibria considerations diminish the energy resource potential of natural gas hydrate. The possible role of gas hydrate in global climate change has been often overstated. Although methane is a ''greenhouse'' gas in the atmosphere, much methane from dissociated gas hydrate may never reach the atmosphere, but rather may be converted to carbon dioxide and sequestered by the hydrosphere/biosphere before reaching the atmosphere. Thus, methane from gas hydrate may have little opportunity to affect global climate change. However, submarine geohazards (such as sediment instabilities and slope failures on local and regional scales, leading to debris f lows, slumps, slides, and possible tsunamis) caused by gas-hydrate dissociation are of immediate and increasing importance as humankind moves to exploit seabed resources in ever-deepening waters of coastal oceans. The vulnerability of gas hydrate to temperature and sea level changes enhances the instability of deep-water oceanic sediments, and thus human activities and installations in this setting can be affected.

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A review of the geochemistry of methane in natural gas hydrate

Kvenvolden

1995

Organic Geochemistry

394

241

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Methane and Other Hydrocarbon Gases in Marine Sediment

Claypool¹,

Kvenvolden²

1983

Annu. Rev. Earth Planet. Sci.

324

196

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The Global Occurrence of Natural Gas Hydrate

2013

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Gaia's breath—global methane exhalations

Kvenvolden

Rogers

2005

Marine and Petroleum Geology

270

162

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