Role of sea ice in global biogeochemical cycles: Emerging views and challenges
Observations from the last decade suggest an important role of sea ice in the global biogeochemical cycles, promoted by (i) active biological and chemical processes within the sea ice; (ii) fluid and gas exchanges at the sea ice interface through an often permeable sea ice cover; and (iii) tight phy...
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Online Access: | http://hdl.handle.net/2078.1/160644 https://doi.org/10.1016/j.quascirev.2013.04.011 |
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ftunivlouvain:oai:dial.uclouvain.be:boreal:160644 2024-05-12T08:05:00+00:00 Role of sea ice in global biogeochemical cycles: Emerging views and challenges Vancoppenolle, Martin Meiners, Klaus M. Michel, Christine Bopp, Laurent Brabant, Frédéric Carnat, Gauthier Delille, Bruno Lannuzel, Delphine Madec, Gurvan Moreau, Sébastien Tison, Jean-Louis van der Merwe, Pier UCL - SST/ELI - Earth and Life Institute 2013 http://hdl.handle.net/2078.1/160644 https://doi.org/10.1016/j.quascirev.2013.04.011 unknown Pergamon boreal:160644 http://hdl.handle.net/2078.1/160644 doi:10.1016/j.quascirev.2013.04.011 urn:EISSN:1873-457X urn:ISSN:0277-3791 info:eu-repo/semantics/restrictedAccess Quaternary Science Reviews, Vol. 79, p. 207-230 (2013) info:eu-repo/semantics/article 2013 ftunivlouvain https://doi.org/10.1016/j.quascirev.2013.04.011 2024-04-17T17:11:58Z Observations from the last decade suggest an important role of sea ice in the global biogeochemical cycles, promoted by (i) active biological and chemical processes within the sea ice; (ii) fluid and gas exchanges at the sea ice interface through an often permeable sea ice cover; and (iii) tight physical, biological and chemical interactions between the sea ice, the ocean and the atmosphere. Photosynthetic micro-organisms in sea ice thrive in liquid brine inclusions encased in a pure ice matrix, where they find suitable light and nutrient levels. They extend the production season, provide a winter and early spring food source, and contribute to organic carbon export to depth. Under-ice and ice edge phytoplankton blooms occur when ice retreats, favoured by increasing light, stratification, and by the release of material into the water column. In particular, the release of iron - highly concentrated in sea ice - could have large effects in the iron-limited Southern Ocean. The export of inorganic carbon transport by brine sinking below the mixed layer, calcium carbonate precipitation in sea ice, as well as active ice-atmosphere carbon dioxide (CO 2 ) fluxes, could play a central role in the marine carbon cycle. Sea ice processes could also significantly contribute to the sulphur cycle through the large production by ice algae of dimethylsulfoniopropionate (DMSP), the precursor of sulphate aerosols, which as cloud condensation nuclei have a potential cooling effect on the planet. Finally, the sea ice zone supports significant ocean-atmosphere methane (CH 4 ) fluxes, while saline ice surfaces activate springtime atmospheric bromine chemistry, setting ground for tropospheric ozone depletion events observed near both poles. All these mechanisms are generally known, but neither precisely understood nor quantified at large scales. As polar regions are rapidly changing, understanding the large-scale polar marine biogeochemical processes and their future evolution is of high priority. Earth system models should in this ... Article in Journal/Newspaper ice algae Sea ice Southern Ocean DIAL@UCLouvain (Université catholique de Louvain) Southern Ocean Quaternary Science Reviews 79 207 230 |
institution |
Open Polar |
collection |
DIAL@UCLouvain (Université catholique de Louvain) |
op_collection_id |
ftunivlouvain |
language |
unknown |
description |
Observations from the last decade suggest an important role of sea ice in the global biogeochemical cycles, promoted by (i) active biological and chemical processes within the sea ice; (ii) fluid and gas exchanges at the sea ice interface through an often permeable sea ice cover; and (iii) tight physical, biological and chemical interactions between the sea ice, the ocean and the atmosphere. Photosynthetic micro-organisms in sea ice thrive in liquid brine inclusions encased in a pure ice matrix, where they find suitable light and nutrient levels. They extend the production season, provide a winter and early spring food source, and contribute to organic carbon export to depth. Under-ice and ice edge phytoplankton blooms occur when ice retreats, favoured by increasing light, stratification, and by the release of material into the water column. In particular, the release of iron - highly concentrated in sea ice - could have large effects in the iron-limited Southern Ocean. The export of inorganic carbon transport by brine sinking below the mixed layer, calcium carbonate precipitation in sea ice, as well as active ice-atmosphere carbon dioxide (CO 2 ) fluxes, could play a central role in the marine carbon cycle. Sea ice processes could also significantly contribute to the sulphur cycle through the large production by ice algae of dimethylsulfoniopropionate (DMSP), the precursor of sulphate aerosols, which as cloud condensation nuclei have a potential cooling effect on the planet. Finally, the sea ice zone supports significant ocean-atmosphere methane (CH 4 ) fluxes, while saline ice surfaces activate springtime atmospheric bromine chemistry, setting ground for tropospheric ozone depletion events observed near both poles. All these mechanisms are generally known, but neither precisely understood nor quantified at large scales. As polar regions are rapidly changing, understanding the large-scale polar marine biogeochemical processes and their future evolution is of high priority. Earth system models should in this ... |
author2 |
UCL - SST/ELI - Earth and Life Institute |
format |
Article in Journal/Newspaper |
author |
Vancoppenolle, Martin Meiners, Klaus M. Michel, Christine Bopp, Laurent Brabant, Frédéric Carnat, Gauthier Delille, Bruno Lannuzel, Delphine Madec, Gurvan Moreau, Sébastien Tison, Jean-Louis van der Merwe, Pier |
spellingShingle |
Vancoppenolle, Martin Meiners, Klaus M. Michel, Christine Bopp, Laurent Brabant, Frédéric Carnat, Gauthier Delille, Bruno Lannuzel, Delphine Madec, Gurvan Moreau, Sébastien Tison, Jean-Louis van der Merwe, Pier Role of sea ice in global biogeochemical cycles: Emerging views and challenges |
author_facet |
Vancoppenolle, Martin Meiners, Klaus M. Michel, Christine Bopp, Laurent Brabant, Frédéric Carnat, Gauthier Delille, Bruno Lannuzel, Delphine Madec, Gurvan Moreau, Sébastien Tison, Jean-Louis van der Merwe, Pier |
author_sort |
Vancoppenolle, Martin |
title |
Role of sea ice in global biogeochemical cycles: Emerging views and challenges |
title_short |
Role of sea ice in global biogeochemical cycles: Emerging views and challenges |
title_full |
Role of sea ice in global biogeochemical cycles: Emerging views and challenges |
title_fullStr |
Role of sea ice in global biogeochemical cycles: Emerging views and challenges |
title_full_unstemmed |
Role of sea ice in global biogeochemical cycles: Emerging views and challenges |
title_sort |
role of sea ice in global biogeochemical cycles: emerging views and challenges |
publisher |
Pergamon |
publishDate |
2013 |
url |
http://hdl.handle.net/2078.1/160644 https://doi.org/10.1016/j.quascirev.2013.04.011 |
geographic |
Southern Ocean |
geographic_facet |
Southern Ocean |
genre |
ice algae Sea ice Southern Ocean |
genre_facet |
ice algae Sea ice Southern Ocean |
op_source |
Quaternary Science Reviews, Vol. 79, p. 207-230 (2013) |
op_relation |
boreal:160644 http://hdl.handle.net/2078.1/160644 doi:10.1016/j.quascirev.2013.04.011 urn:EISSN:1873-457X urn:ISSN:0277-3791 |
op_rights |
info:eu-repo/semantics/restrictedAccess |
op_doi |
https://doi.org/10.1016/j.quascirev.2013.04.011 |
container_title |
Quaternary Science Reviews |
container_volume |
79 |
container_start_page |
207 |
op_container_end_page |
230 |
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1798847249345675264 |