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Sublacustrine mud volcanoes and methane seeps caused by dissociation of gas hydrates in Lake Baikal
Four lake-floor seeps have been studied in the gas-hydrate area in Lake Baikal's South Basin by using side-scan sonar, detailed bathymetry, measurements of near-bottom water properties, heat-flow measurements, and selected seismic profiles in relation to results from geochemical pore-water anal...
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| Published in: | Geology (Boulder) 2002-07, Vol.30 (7), p.631-634 |
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| Main Authors: | , , , , , , , , |
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| Language: | English |
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| container_end_page | 634 |
| container_issue | 7 |
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| container_title | Geology (Boulder) |
| container_volume | 30 |
| creator | Van Rensbergen, P De Batist, M Klerkx, J Hus, R Poort, J Vanneste, M Granin, N Khlystov, O Krinitsky, P |
| description | Four lake-floor seeps have been studied in the gas-hydrate area in Lake Baikal's South Basin by using side-scan sonar, detailed bathymetry, measurements of near-bottom water properties, heat-flow measurements, and selected seismic profiles in relation to results from geochemical pore-water analysis. The seeps at the lake floor are identified as methane seeps and occur in an area of high heat flow, where the base of the gas-hydrate layer shallows rapidly toward the vent sites from ~400 m to ~150 m below the lake floor. At the site of the seep, a vertical fluid conduit disrupts the sedimentary stratification from the base of the hydrate layer to the lake floor. The seeps are interpreted to result from local destabilization of gas-hydrate caused by a pulse of hydrothermal fluid flow along an active fault segment. This is the first time that methane seeps and/or mud volcanoes associated with gas-hydrate destabilization have been observed in a sublacustrine setting. The finding demonstrates the potential of tectonically controlled gas-hydrate destabilization to cause extreme pore-fluid overpressure and short-lived mud volcanism. |
| doi_str_mv | 10.1130/0091-7613(2002)0302.0.CO;2 |
| format | article |
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The seeps at the lake floor are identified as methane seeps and occur in an area of high heat flow, where the base of the gas-hydrate layer shallows rapidly toward the vent sites from ~400 m to ~150 m below the lake floor. At the site of the seep, a vertical fluid conduit disrupts the sedimentary stratification from the base of the hydrate layer to the lake floor. The seeps are interpreted to result from local destabilization of gas-hydrate caused by a pulse of hydrothermal fluid flow along an active fault segment. This is the first time that methane seeps and/or mud volcanoes associated with gas-hydrate destabilization have been observed in a sublacustrine setting. 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The seeps at the lake floor are identified as methane seeps and occur in an area of high heat flow, where the base of the gas-hydrate layer shallows rapidly toward the vent sites from ~400 m to ~150 m below the lake floor. At the site of the seep, a vertical fluid conduit disrupts the sedimentary stratification from the base of the hydrate layer to the lake floor. The seeps are interpreted to result from local destabilization of gas-hydrate caused by a pulse of hydrothermal fluid flow along an active fault segment. This is the first time that methane seeps and/or mud volcanoes associated with gas-hydrate destabilization have been observed in a sublacustrine setting. 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| identifier | ISSN: 0091-7613 |
| ispartof | Geology (Boulder), 2002-07, Vol.30 (7), p.631-634 |
| issn | 0091-7613 |
| language | eng |
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| source | GeoScienceWorld (GSW) |
| title | Sublacustrine mud volcanoes and methane seeps caused by dissociation of gas hydrates in Lake Baikal |
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