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Gas hydrate dissociation off Svalbard induced by isostatic rebound rather than global warming (2018)

Wallmann, Klaus ; Riedel, Michael ; Hong, W. L. ; [et al.]

Nature Research

In: Nature Communications, 9 (Article number: 83 ).

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Publication Date: 2021-03-19

Description: Methane seepage from the upper continental slopes of Western Svalbard has previously been attributed to gas hydrate dissociation induced by anthropogenic warming of ambient bottom waters. Here we show that sediment cores drilled off Prins Karls Foreland contain freshwater from dissociating hydrates. However, our modeling indicates that the observed pore water freshening began around 8 ka BP when the rate of isostatic uplift outpaced eustatic sea-level rise. The resultant local shallowing and lowering of hydrostatic pressure forced gas hydrate dissociation and dissolved chloride depletions consistent with our geochemical analysis. Hence, we propose that hydrate dissociation was triggered by postglacial isostatic rebound rather than anthropogenic warming. Furthermore, we show that methane fluxes from dissociating hydrates were considerably smaller than present methane seepage rates implying that gas hydrates were not a major source of methane to the oceans, but rather acted as a dynamic seal, regulating methane release from deep geological reservoirs.

Type: Article , PeerReviewed

Format: text

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Gas hydrate in the Arctic and northern North Atlantic oceans (2000)

Max, Michael D. ; Mienert, Jürgen ; Andreassen, K. ; [et al.]

Kluwer

In: In: Natural Gas Hydrate in Oceanic and Permafrost Environments. , ed. by Max, M. D. Coastal Systems and Continental Margins, 5 . Kluwer, Amsterdam, pp. 171-182. ISBN 0-7923-6606-9

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Publication Date: 2018-01-10

Type: Book chapter , NonPeerReviewed

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Extensional rise and fall of a salt diapir in the Sørvestsnaget Basin, SW Barents Sea (2013)

Perez-Garcia, C. ; Safronova, P. A. ; Mienert, J. ; [et al.]

Elsevier

In: Marine and Petroleum Geology, 46 . pp. 129-143.

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Publication Date: 2017-10-04

Description: Regional extension which initiates and promotes the rise of salt diapirs can also make diapirs fall once the supply of salt from its source is restricted. New observations on the 3D seismic data from a salt diapir in the Sørvestsnaget Basin suggest that salt moves until the end of the Eocene and is subtle to minor readjustments afterwards, revealing a more complex kinematics that previously described. Observations such as salt horns and sags and an antithetic fault linked to the western flank of the diapir suggest that salt syn-kinematics during Middle-Late Eocene included passive rising of the salt, followed by a fall. The salt horns are remnants of a taller salt diapir that, together with the indentation of the Middle-Late Eocene syn-kinematic sediment overburden above the salt, indicate diapiric fall due to restriction of salt supply by extension. Post-kinematic readjustments did not include diapiric reactivation by tectonic compression as previously thought, but minor salt rise by shortening due to gravity gliding after the tilting of the margin during Plio-Pleistocene glacial sediment loading and differential compaction of surrounding sediments. The salt diapir appears to be presently inactive and salt supply may have been restricted from its source already since Late Eocene.

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