Physical controls on the storage of methane in land fast sea ice

We report on methane (CH4) dynamics in landfast sea ice, brine and under-ice seawater at Barrow in 2009. The CH4 concentrations in under-ice water ranged between 25.9 and 116.4 nmol L−1sw, indicating a superaturation of 700 to 3100% relative to the atmosphere. In comparison, the CH4 concentrations i...

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Published in:The Cryosphere
Main Authors: Zhou, Jiayun, Tison, Jean Louis, Carnat, Gauthier, Geilfus, Nicolas-Xavier, Delille, Bruno
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Sea ice
Online Access:https://pure.au.dk/portal/da/publications/physical-controls-on-the-storage-of-methane-in-land-fast-sea-ice(f27a0c5b-6a01-442d-b11c-b25aee9660b4).html
https://doi.org/10.5194/tc-8-1019-2014
https://pure.au.dk/ws/files/79093136/Zhou_et_al_2014_.pdf
id ftuniaarhuspubl:oai:pure.atira.dk:publications/f27a0c5b-6a01-442d-b11c-b25aee9660b4
record_format openpolar
spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/f27a0c5b-6a01-442d-b11c-b25aee9660b4 2023-05-15T18:16:12+02:00 Physical controls on the storage of methane in land fast sea ice Zhou, Jiayun Tison, Jean Louis Carnat, Gauthier Geilfus, Nicolas-Xavier Delille, Bruno 2014 application/pdf https://pure.au.dk/portal/da/publications/physical-controls-on-the-storage-of-methane-in-land-fast-sea-ice(f27a0c5b-6a01-442d-b11c-b25aee9660b4).html https://doi.org/10.5194/tc-8-1019-2014 https://pure.au.dk/ws/files/79093136/Zhou_et_al_2014_.pdf eng eng info:eu-repo/semantics/restrictedAccess Zhou , J , Tison , J L , Carnat , G , Geilfus , N-X & Delille , B 2014 , ' Physical controls on the storage of methane in land fast sea ice ' , Cryosphere , vol. 8 , pp. 1019-1029 . https://doi.org/10.5194/tc-8-1019-2014 article 2014 ftuniaarhuspubl https://doi.org/10.5194/tc-8-1019-2014 2020-07-18T21:33:14Z We report on methane (CH4) dynamics in landfast sea ice, brine and under-ice seawater at Barrow in 2009. The CH4 concentrations in under-ice water ranged between 25.9 and 116.4 nmol L−1sw, indicating a superaturation of 700 to 3100% relative to the atmosphere. In comparison, the CH4 concentrations in ice, ranged between 3.4 and 17.2 nmol L−1ice, and the deduced CH4 concentrations in brine, between 13.2 and 677.7 nmol L−1br. We investigated on the processes explaining the difference in CH4 concentrations between sea ice, brine and the under-ice water, and suggest that two physical processes regulated the storage of CH4 in sea ice: bubble formation and sea ice permeability. Gas bubble formation from solubility changes had favoured the accumulation of CH4 in the ice at the beginning of ice growth. CH4 retention in sea ice was then twice as efficient as that of salt; this also explains the overall higher CH4 concentrations in brine than in the under-ice water. As sea ice thickened, gas bubble formation became less efficient so that CH4 was then mainly trapped in the dissolved state. The increase of sea ice permeability during ice melt marks the end of CH4 storage. Article in Journal/Newspaper Sea ice Aarhus University: Research The Cryosphere 8 3 1019 1029
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
description We report on methane (CH4) dynamics in landfast sea ice, brine and under-ice seawater at Barrow in 2009. The CH4 concentrations in under-ice water ranged between 25.9 and 116.4 nmol L−1sw, indicating a superaturation of 700 to 3100% relative to the atmosphere. In comparison, the CH4 concentrations in ice, ranged between 3.4 and 17.2 nmol L−1ice, and the deduced CH4 concentrations in brine, between 13.2 and 677.7 nmol L−1br. We investigated on the processes explaining the difference in CH4 concentrations between sea ice, brine and the under-ice water, and suggest that two physical processes regulated the storage of CH4 in sea ice: bubble formation and sea ice permeability. Gas bubble formation from solubility changes had favoured the accumulation of CH4 in the ice at the beginning of ice growth. CH4 retention in sea ice was then twice as efficient as that of salt; this also explains the overall higher CH4 concentrations in brine than in the under-ice water. As sea ice thickened, gas bubble formation became less efficient so that CH4 was then mainly trapped in the dissolved state. The increase of sea ice permeability during ice melt marks the end of CH4 storage.
format Article in Journal/Newspaper
author Zhou, Jiayun
Tison, Jean Louis
Carnat, Gauthier
Geilfus, Nicolas-Xavier
Delille, Bruno
spellingShingle Zhou, Jiayun
Tison, Jean Louis
Carnat, Gauthier
Geilfus, Nicolas-Xavier
Delille, Bruno
Physical controls on the storage of methane in land fast sea ice
author_facet Zhou, Jiayun
Tison, Jean Louis
Carnat, Gauthier
Geilfus, Nicolas-Xavier
Delille, Bruno
author_sort Zhou, Jiayun
title Physical controls on the storage of methane in land fast sea ice
title_short Physical controls on the storage of methane in land fast sea ice
title_full Physical controls on the storage of methane in land fast sea ice
title_fullStr Physical controls on the storage of methane in land fast sea ice
title_full_unstemmed Physical controls on the storage of methane in land fast sea ice
title_sort physical controls on the storage of methane in land fast sea ice
publishDate 2014
url https://pure.au.dk/portal/da/publications/physical-controls-on-the-storage-of-methane-in-land-fast-sea-ice(f27a0c5b-6a01-442d-b11c-b25aee9660b4).html
https://doi.org/10.5194/tc-8-1019-2014
https://pure.au.dk/ws/files/79093136/Zhou_et_al_2014_.pdf
genre Sea ice
genre_facet Sea ice
op_source Zhou , J , Tison , J L , Carnat , G , Geilfus , N-X & Delille , B 2014 , ' Physical controls on the storage of methane in land fast sea ice ' , Cryosphere , vol. 8 , pp. 1019-1029 . https://doi.org/10.5194/tc-8-1019-2014
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.5194/tc-8-1019-2014
container_title The Cryosphere
container_volume 8
container_issue 3
container_start_page 1019
op_container_end_page 1029
_version_ 1766189657426493440

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