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Literature DB >> 24385604

Temporal constraints on hydrate-controlled methane seepage off Svalbard.

C Berndt¹, T Feseker, T Treude, S Krastel, V Liebetrau, H Niemann, V J Bertics, I Dumke, K Dünnbier, B Ferré, C Graves, F Gross, K Hissmann, V Hühnerbach, S Krause, K Lieser, J Schauer, L Steinle.

Abstract

Methane hydrate is an icelike substance that is stable at high pressure and low temperature in continental margin sediments. Since the discovery of a large number of gas flares at the landward termination of the gas hydrate stability zone off Svalbard, there has been concern that warming bottom waters have started to dissociate large amounts of gas hydrate and that the resulting methane release may possibly accelerate global warming. Here, we corroborate that hydrates play a role in the observed seepage of gas, but we present evidence that seepage off Svalbard has been ongoing for at least 3000 years and that seasonal fluctuations of 1° to 2°C in the bottom-water temperature cause periodic gas hydrate formation and dissociation, which focus seepage at the observed sites.

Entities: Chemical

Mesh：

Substances：
Methane

Year: 2014 PMID： 24385604 DOI： 10.1126/science.1246298

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

17 in total

1. Postglacial response of Arctic Ocean gas hydrates to climatic amelioration.

Authors: Pavel Serov; Sunil Vadakkepuliyambatta; Jürgen Mienert; Henry Patton; Alexey Portnov; Anna Silyakova; Giuliana Panieri; Michael L Carroll; JoLynn Carroll; Karin Andreassen; Alun Hubbard
Journal: Proc Natl Acad Sci U S A Date: 2017-06-05 Impact factor: 11.205

2. Enhanced CO₂ uptake at a shallow Arctic Ocean seep field overwhelms the positive warming potential of emitted methane.

Authors: John W Pohlman; Jens Greinert; Carolyn Ruppel; Anna Silyakova; Lisa Vielstädte; Michael Casso; Jürgen Mienert; Stefan Bünz
Journal: Proc Natl Acad Sci U S A Date: 2017-05-08 Impact factor: 11.205

Temporal constraints on hydrate-controlled methane seepage off Svalbard.

1. Postglacial response of Arctic Ocean gas hydrates to climatic amelioration.

2. Enhanced CO₂ uptake at a shallow Arctic Ocean seep field overwhelms the positive warming potential of emitted methane.

3. Crustal fingering facilitates free-gas methane migration through the hydrate stability zone.

4. Timescales of methane seepage on the Norwegian margin following collapse of the Scandinavian Ice Sheet.

5. Seep-carbonate lamination controlled by cyclic particle flux.

6. Arctic megaslide at presumed rest.

7. Freshwater lake to salt-water sea causing widespread hydrate dissociation in the Black Sea.

8. Gas hydrate dissociation off Svalbard induced by isostatic rebound rather than global warming.

9. Seepage from an arctic shallow marine gas hydrate reservoir is insensitive to momentary ocean warming.

10. Ice-sheet-driven methane storage and release in the Arctic.