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Extensive glacitectonism and rapid deglacial fluid expulsion in the northeastern Barents Sea

Published version
Peer-reviewed

Repository DOI


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Authors

Montelli, Aleksandr  ORCID logo  https://orcid.org/0000-0003-4512-2653
Solovyeva, Marina 

Abstract

jats:titleAbstract</jats:title>jats:pHigh-latitude regions store large amounts of carbon trapped by ice sheets, permafrost and gas hydrates, yet joint evolution of these climate components is poorly understood. Covered by a cold-based ice-sheet during the last glaciation, the seafloor of the northeastern Barents Sea reveals one of the largest known glacitectonic provinces in the Arctic. Up to 200-m high glacitectonic landforms are cratered and overlie faults associated with ‘bright spots’ indicative of subsurface gas accumulations. However, sediment samples show low pore gas concentrations and no present-day gas seepage. We combine new observations and ice-sheet - hydrate modelling to propose that during the Late Weichselian, glacitectonism was caused by patchy substrate stiffening due to gradual growth of subglacial gas hydrates and permafrost. Ice decay led to rapid destabilisation and full drainage of shallow hydrate reservoirs and permafrost thaw, causing craterisation which was likely accompanied by large fluxes of carbon released into the water column. This study shows that these processes were more widespread across glaciated margins, also highlighting sensitivity and potential for abrupt changes of high-latitude carbon pools in response to complex interactions between the cryosphere, ocean, and solid earth.</jats:p>

Description

Acknowledgements: We thank the crew of R/V Akademik Nikolaj Strakhov, participants in the TTR-19 cruise (“Training-through-Research [Floating University]” Programme of IOC UNESCO and Lomonosov Moscow State University), and the Russian Ministry of Higher Education and Science for opportunity to complete geological sampling in the Barents Sea. A.M. is grateful to Peterhouse, University of Cambridge, for the Research Fellowship that allowed completion of this work. We also thank Henry Patton for providing area-specific outputs of previously published large-scale ice-sheet models12.

Keywords

37 Earth Sciences, 3709 Physical Geography and Environmental Geoscience, 3705 Geology, 13 Climate Action

Journal Title

Communications Earth &amp; Environment

Conference Name

Journal ISSN

2662-4435
2662-4435

Volume Title

5

Publisher

Springer Science and Business Media LLC