Distribution and height of methane bubble plumes on the Cascadia Margin characterized by acoustic imaging
Distribution and height of methane bubble plumes on the Cascadia Margin characterized by acoustic imaging
Submersible investigations of the Cascadia accretionary complex have identified localized venting of methane gas bubbles in association with gas hydrate occurrence. Acoustic profiles of these bubble plumes in the water column in the vicinity of Hydrate Ridge offshore Oregon provide new constraints on the spatial distribution of these gas vents and the fate of the gas in the water column. The gas vent sites remained active over the span of two years, but varied dramatically on time scales of a few hours. All plumes emanated from local topographic highs near the summit of ridge structures. The acoustic images of the bubble plumes in the water column disappear at water depths between 500 to 460 m, independent of the seafloor depth. This coincides with the predicted depth of the gas hydrate stability boundary of 510 to 490 m, suggesting that the presence of a hydrate skin on the bubble surface prevents them from rapid dissolution. The upper limit of the acoustic bubble plumes at 460 m suggests that dissolution of the residual bubbles is relatively rapid above the hydrate stability zone.
art.1643
Heeschen, K.U.
b3e7e127-d9d8-46db-8fdd-a392a7635441
Trehu, A.M.
b442f1f3-c770-469c-b9cf-d27663248015
Collier, R.W.
d0e35bd0-b975-4658-840f-2a5ae7c66c7a
Suess, E.
b4b5da6e-d0b2-4b6f-af36-8a5dcb727c0e
Rehder, G.
4cc37c76-e636-44fd-a30f-7735a2063eb2
June 2003
Heeschen, K.U.
b3e7e127-d9d8-46db-8fdd-a392a7635441
Trehu, A.M.
b442f1f3-c770-469c-b9cf-d27663248015
Collier, R.W.
d0e35bd0-b975-4658-840f-2a5ae7c66c7a
Suess, E.
b4b5da6e-d0b2-4b6f-af36-8a5dcb727c0e
Rehder, G.
4cc37c76-e636-44fd-a30f-7735a2063eb2
Heeschen, K.U., Trehu, A.M., Collier, R.W., Suess, E. and Rehder, G.
(2003)
Distribution and height of methane bubble plumes on the Cascadia Margin characterized by acoustic imaging.
Geophysical Research Letters, 30 (12), .
(doi:10.1029/2003GL016974).
Abstract
Submersible investigations of the Cascadia accretionary complex have identified localized venting of methane gas bubbles in association with gas hydrate occurrence. Acoustic profiles of these bubble plumes in the water column in the vicinity of Hydrate Ridge offshore Oregon provide new constraints on the spatial distribution of these gas vents and the fate of the gas in the water column. The gas vent sites remained active over the span of two years, but varied dramatically on time scales of a few hours. All plumes emanated from local topographic highs near the summit of ridge structures. The acoustic images of the bubble plumes in the water column disappear at water depths between 500 to 460 m, independent of the seafloor depth. This coincides with the predicted depth of the gas hydrate stability boundary of 510 to 490 m, suggesting that the presence of a hydrate skin on the bubble surface prevents them from rapid dissolution. The upper limit of the acoustic bubble plumes at 460 m suggests that dissolution of the residual bubbles is relatively rapid above the hydrate stability zone.
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Published date: June 2003
Organisations:
Ocean and Earth Science, National Oceanography Centre,Southampton
Identifiers
Local EPrints ID: 40552
URI: http://eprints.soton.ac.uk/id/eprint/40552
ISSN: 0094-8276
PURE UUID: 82d1b5ed-88f0-46ba-b19c-c09aacc0fbc8
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Date deposited: 04 Jul 2006
Last modified: 15 Mar 2024 08:20
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Author:
K.U. Heeschen
Author:
A.M. Trehu
Author:
R.W. Collier
Author:
E. Suess
Author:
G. Rehder
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