Record of methane emissions from the West Svalbard continental margin during the last 23,500years revealed by ?13C of benthic foraminifera
Record of methane emissions from the West Svalbard continental margin during the last 23,500years revealed by ?13C of benthic foraminifera
The values of ?13C in benthic foraminifera have been measured in a gas-hydrate-bearing sediment core collected from an area of active methane venting on the Vestnesa Ridge (West Svalbard continental margin) to reconstruct the local history of methane emissions over the past 23,500 years BP. The chronostratigraphic framework of the core has been derived from AMS 14C dates and biostratigraphic analysis. While foraminifera from some intervals have ?13C within the normal marine range (0 to -1‰), five intervals are characterised by much lower ?13C, as low as -17.4‰. These intervals are interpreted to record the incorporation of 13C-depleted carbon in the presence of methane emissions at the seafloor during biomineralization of the carbonate foraminiferal tests and subsequent secondary mineralization. Methane emission events (MEE) occur from the Last Glacial Maximum (LGM) to the Holocene, with the most prominent one, in terms of ?13C depletion, predating the Bølling-Allerød Interstadial (GI-1 in the Greenland ice core record). The lack of correlation between the values of ?13C and ?18O, however, appears to preclude warming of bottom waters as the principal control on methane release. Rather, it seems likely that methane release is a consequence of episodicity in the supply of gas to the hydrate system and in the processes that enable methane gas to migrate through the hydrate stability field to the seabed, or of other geological processes still under debate.
Methane emission, Vestnesa Ridge, West Svalbard, Stable isotope, ?13C, Benthic foraminifera
151-160
Panieri, Giuliana
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James, Rachael H.
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Camerlenghi, Angelo
f109114c-3b93-478e-bea8-3e50d3bf30c3
Westbrook, Graham K.
ccd95de7-a1a1-4fc9-be37-f1a487bb65ca
Consolaro, Chiara
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Cacho, Isabel
d716f5dc-c21e-4adc-851e-9c9ebb2ee0d7
Cesari, Valentina
239a01cd-1d8e-4c8f-a4f7-5ca72b0308d8
Cervera, Cristina Sanchez
6a36b3e0-7f2d-4c87-9156-a5ae2690977e
November 2014
Panieri, Giuliana
c0559a7d-cf2c-4d0a-b61a-60889e963164
James, Rachael H.
79aa1d5c-675d-4ba3-85be-fb20798c02f4
Camerlenghi, Angelo
f109114c-3b93-478e-bea8-3e50d3bf30c3
Westbrook, Graham K.
ccd95de7-a1a1-4fc9-be37-f1a487bb65ca
Consolaro, Chiara
82d5b7ee-ee23-41fd-9846-882b36e1e3fd
Cacho, Isabel
d716f5dc-c21e-4adc-851e-9c9ebb2ee0d7
Cesari, Valentina
239a01cd-1d8e-4c8f-a4f7-5ca72b0308d8
Cervera, Cristina Sanchez
6a36b3e0-7f2d-4c87-9156-a5ae2690977e
Panieri, Giuliana, James, Rachael H., Camerlenghi, Angelo, Westbrook, Graham K., Consolaro, Chiara, Cacho, Isabel, Cesari, Valentina and Cervera, Cristina Sanchez
(2014)
Record of methane emissions from the West Svalbard continental margin during the last 23,500years revealed by ?13C of benthic foraminifera.
Global and Planetary Change, 122, .
(doi:10.1016/j.gloplacha.2014.08.014).
Abstract
The values of ?13C in benthic foraminifera have been measured in a gas-hydrate-bearing sediment core collected from an area of active methane venting on the Vestnesa Ridge (West Svalbard continental margin) to reconstruct the local history of methane emissions over the past 23,500 years BP. The chronostratigraphic framework of the core has been derived from AMS 14C dates and biostratigraphic analysis. While foraminifera from some intervals have ?13C within the normal marine range (0 to -1‰), five intervals are characterised by much lower ?13C, as low as -17.4‰. These intervals are interpreted to record the incorporation of 13C-depleted carbon in the presence of methane emissions at the seafloor during biomineralization of the carbonate foraminiferal tests and subsequent secondary mineralization. Methane emission events (MEE) occur from the Last Glacial Maximum (LGM) to the Holocene, with the most prominent one, in terms of ?13C depletion, predating the Bølling-Allerød Interstadial (GI-1 in the Greenland ice core record). The lack of correlation between the values of ?13C and ?18O, however, appears to preclude warming of bottom waters as the principal control on methane release. Rather, it seems likely that methane release is a consequence of episodicity in the supply of gas to the hydrate system and in the processes that enable methane gas to migrate through the hydrate stability field to the seabed, or of other geological processes still under debate.
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More information
Accepted/In Press date: 21 August 2014
Published date: November 2014
Keywords:
Methane emission, Vestnesa Ridge, West Svalbard, Stable isotope, ?13C, Benthic foraminifera
Organisations:
Geochemistry, Marine Geoscience
Identifiers
Local EPrints ID: 368393
URI: http://eprints.soton.ac.uk/id/eprint/368393
ISSN: 0921-8181
PURE UUID: 184139d0-b4a8-46ee-9858-bf59227fb528
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Date deposited: 27 Aug 2014 14:26
Last modified: 15 Mar 2024 03:30
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Contributors
Author:
Giuliana Panieri
Author:
Angelo Camerlenghi
Author:
Chiara Consolaro
Author:
Isabel Cacho
Author:
Valentina Cesari
Author:
Cristina Sanchez Cervera
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