Methane transport and sources in an Arctic deep-water cold seep offshore NW Svalbard (Vestnesa Ridge, 79°N)

We investigate the uppermost 60 cm of sediment in active pockmarks of a deep-water methane seep site from Vestnesa Ridge offshore NW Svalbard. Using video guided core sampling with a remotely operated vehicle we collected push cores directly from bacterial mats within two active pockmarks, Lunde and...

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Bibliographic Details
Published in:Deep Sea Research Part I: Oceanographic Research Papers
Main Authors: Sauer, Simone, Hong, Wei-Li, Yao, Haoyi, Lepland, Aivo, Klug, Martin, Eichinger, Florian, Himmler, Tobias, Crémière, Antoine, Panieri, Giuliana, Schubert, Carsten J., Knies, Jochen
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2021
Subjects:
Arctic
Lunde
Svalbard
Lomvi
Online Access:https://authors.library.caltech.edu/108484/
https://authors.library.caltech.edu/108484/3/1-s2.0-S096706372030217X-mmc1.pdf
https://resolver.caltech.edu/CaltechAUTHORS:20210318-113550827
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Summary:We investigate the uppermost 60 cm of sediment in active pockmarks of a deep-water methane seep site from Vestnesa Ridge offshore NW Svalbard. Using video guided core sampling with a remotely operated vehicle we collected push cores directly from bacterial mats within two active pockmarks, Lunde and Lomvi. Pore water analyses show very shallow sulphate methane transition zones and transport-reaction modelling suggests a considerable amount of dissolved methane passing through the sediment water interface due to upwards advection of an aqueous fluid not previously reported from Vestnesa Ridge. In addition, we show that the amount of methane that bypasses the benthic methane filter greatly increases with higher aqueous fluid advection rate. Recent changes in methane flux are evident from lipid biomarker, seep carbonate, and δ¹³C-organic carbon profiles in both pockmarks. Hydrocarbons at this cold seep site are supplied both by deep thermogenic sources from below the gas hydrate stability zone but also to a significant degree by microbial methanogenesis which dominates the signature in our shallow sediment cores with δ¹³C–CH₄ values as low as −77‰.

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