Seismic evidence for shallow gas-escape features associated with a retreating gas hydrate zone offshore west Svalbard
Seismic evidence for shallow gas-escape features associated with a retreating gas hydrate zone offshore west Svalbard
Active gas venting occurs on the uppermost continental slope off west Svalbard, close to and upslope from the present-day intersection of the base of methane hydrate stability (BMHS) with the seabed in about 400 m water depth in the inter-fan region between the Kongsfjorden and Isfjorden cross-shelf troughs. From an integrated analysis of high-resolution, two-dimensional, pre-stack migrated seismic reflection profiles and multibeam bathymetric data, we map out a bottom simulating reflector (BSR) in the inter-fan region and analyze the subsurface gas migration and accumulation. Gas seeps mostly occur in the zone from which the BMHS at the seabed has retreated over the recent past (1975–2008) as a consequence of a bottom water temperature rise of 1°C. The overall margin-parallel alignment of the gas seeps is not related to fault-controlled gas migration, as seismic evidence of faults is absent. There is no evidence for a BSR close to the gas flare region in the upper slope but numerous gas pockets exist directly below the predicted BMHS. While the contour following trend of the gas seeps could be a consequence of retreat of the landward limit of the BMHS and gas hydrate dissociation, the scattered distribution of seeps within the probable hydrate dissociation corridor and the occurrence of a cluster of seeps outside the predicted BMHS limit and near the shelf break indicate the role of lithological heterogeneity in focusing gas migration.
bottom-water warming, bright spots, gas hydrates, gas seeps, glacimarine strata
1-18
Sarkar, Sudipta
336e2653-e4d9-44f4-bb72-d9b1a9ca22e9
Berndt, Christian
29364362-5d52-4b1b-82b9-e799fcc4d7ed
Minshull, Timothy A.
bf413fb5-849e-4389-acd7-0cb0d644e6b8
Westbrook, Graham K.
ccd95de7-a1a1-4fc9-be37-f1a487bb65ca
Klaeschen, Dirk
6f4c994a-036e-44cc-b35e-c85e894f1bac
Masson, Douglas G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
Chabert, Anne
36628524-dc0e-44ff-bbc5-a3463dbfd99e
Thatcher, Kate E.
9883d7aa-b464-4c85-986e-28083adeaf44
19 September 2012
Sarkar, Sudipta
336e2653-e4d9-44f4-bb72-d9b1a9ca22e9
Berndt, Christian
29364362-5d52-4b1b-82b9-e799fcc4d7ed
Minshull, Timothy A.
bf413fb5-849e-4389-acd7-0cb0d644e6b8
Westbrook, Graham K.
ccd95de7-a1a1-4fc9-be37-f1a487bb65ca
Klaeschen, Dirk
6f4c994a-036e-44cc-b35e-c85e894f1bac
Masson, Douglas G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
Chabert, Anne
36628524-dc0e-44ff-bbc5-a3463dbfd99e
Thatcher, Kate E.
9883d7aa-b464-4c85-986e-28083adeaf44
Sarkar, Sudipta, Berndt, Christian, Minshull, Timothy A., Westbrook, Graham K., Klaeschen, Dirk, Masson, Douglas G., Chabert, Anne and Thatcher, Kate E.
(2012)
Seismic evidence for shallow gas-escape features associated with a retreating gas hydrate zone offshore west Svalbard.
Journal of Geophysical Research, 117 (B09102), .
(doi:10.1029/2011JB009126).
Abstract
Active gas venting occurs on the uppermost continental slope off west Svalbard, close to and upslope from the present-day intersection of the base of methane hydrate stability (BMHS) with the seabed in about 400 m water depth in the inter-fan region between the Kongsfjorden and Isfjorden cross-shelf troughs. From an integrated analysis of high-resolution, two-dimensional, pre-stack migrated seismic reflection profiles and multibeam bathymetric data, we map out a bottom simulating reflector (BSR) in the inter-fan region and analyze the subsurface gas migration and accumulation. Gas seeps mostly occur in the zone from which the BMHS at the seabed has retreated over the recent past (1975–2008) as a consequence of a bottom water temperature rise of 1°C. The overall margin-parallel alignment of the gas seeps is not related to fault-controlled gas migration, as seismic evidence of faults is absent. There is no evidence for a BSR close to the gas flare region in the upper slope but numerous gas pockets exist directly below the predicted BMHS. While the contour following trend of the gas seeps could be a consequence of retreat of the landward limit of the BMHS and gas hydrate dissociation, the scattered distribution of seeps within the probable hydrate dissociation corridor and the occurrence of a cluster of seeps outside the predicted BMHS limit and near the shelf break indicate the role of lithological heterogeneity in focusing gas migration.
Text
sarkar_et_al_2012_smaller (2).pdf
- Version of Record
More information
Published date: 19 September 2012
Keywords:
bottom-water warming, bright spots, gas hydrates, gas seeps, glacimarine strata
Organisations:
Geology & Geophysics, Marine Geoscience
Identifiers
Local EPrints ID: 344916
URI: http://eprints.soton.ac.uk/id/eprint/344916
ISSN: 0148-0227
PURE UUID: f339a695-b7a5-4012-8117-c6e22c2e80cf
Catalogue record
Date deposited: 06 Nov 2012 10:54
Last modified: 15 Mar 2024 03:04
Export record
Altmetrics
Contributors
Author:
Sudipta Sarkar
Author:
Christian Berndt
Author:
Dirk Klaeschen
Author:
Douglas G. Masson
Author:
Anne Chabert
Author:
Kate E. Thatcher
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
