Arctic carbon cycling

The marine Arctic is considered a net carbon sink, with large regional differences in uptake rates. More regional modelling and observational studies are required to reduce the uncertainty among current estimates. Robust projections for how the Arctic Ocean carbon sink may evolve in the future are c...

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Main Authors: Christensen, Torben R, Rysgaard, SØREN, Bendtsen, JØRGEN, Else, Brent, Glud, Ronnie N, van Huissteden, J., Parmentier, F.J.W., Sachs, Torsten, Vonk, J.E.
Other Authors: , AMAP
Format: Book Part
Language:English
Published: AMAP (Arctic Monitoring and Assessment Programme) 2017
Subjects:
Permafrost
Arctic
Carbon cycle
marine carbon cycle
terrestrial carbon cycle
/dk/atira/pure/keywords/vu_research_profiles/science_for_sustainability
Science for Sustainability
Arctic Ocean
Global warming
Ice
permafrost
Sea ice
Tundra
Online Access:https://research.vu.nl/en/publications/89e37483-d2e6-4757-ac36-d091058ff7d1
http://hdl.handle.net/1871.1/89e37483-d2e6-4757-ac36-d091058ff7d1
https://www.amap.no/documents/doc/Snow-Water-Ice-and-Permafrost-in-the-Arctic-SWIPA-2017/1610
id ftvuamstcris:oai:research.vu.nl:publications/89e37483-d2e6-4757-ac36-d091058ff7d1
record_format openpolar
spelling ftvuamstcris:oai:research.vu.nl:publications/89e37483-d2e6-4757-ac36-d091058ff7d1 2023-05-15T14:20:43+02:00 Arctic carbon cycling Christensen, Torben R Rysgaard, SØREN Bendtsen, JØRGEN Else, Brent Glud, Ronnie N van Huissteden, J. Parmentier, F.J.W. Sachs, Torsten Vonk, J.E. , AMAP 2017 https://research.vu.nl/en/publications/89e37483-d2e6-4757-ac36-d091058ff7d1 http://hdl.handle.net/1871.1/89e37483-d2e6-4757-ac36-d091058ff7d1 https://www.amap.no/documents/doc/Snow-Water-Ice-and-Permafrost-in-the-Arctic-SWIPA-2017/1610 eng eng AMAP (Arctic Monitoring and Assessment Programme) info:eu-repo/semantics/restrictedAccess Christensen , T R , Rysgaard , SØREN , Bendtsen , JØRGEN , Else , B , Glud , R N , van Huissteden , J , Parmentier , F J W , Sachs , T & Vonk , J E 2017 , Arctic carbon cycling . in AMAP (ed.) , Snow, Water, Ice and Permafrost in the Arctic (SWIPA) 2017 . , 8 , AMAP (Arctic Monitoring and Assessment Programme) , Oslo , pp. 203-218 . < https://www.amap.no/documents/doc/Snow-Water-Ice-and-Permafrost-in-the-Arctic-SWIPA-2017/1610 > Permafrost Arctic Carbon cycle marine carbon cycle terrestrial carbon cycle /dk/atira/pure/keywords/vu_research_profiles/science_for_sustainability Science for Sustainability bookPart 2017 ftvuamstcris 2021-12-29T08:41:23Z The marine Arctic is considered a net carbon sink, with large regional differences in uptake rates. More regional modelling and observational studies are required to reduce the uncertainty among current estimates. Robust projections for how the Arctic Ocean carbon sink may evolve in the future are currently lacking. Direct connections have been documented between sea-ice dynamics and carbon cycling in marine ecosystems and on land. Projections suggest further sea-ice decline may accelerate changes in carbon cycling dynamics at sea and on land. Although rivertransported organic and inorganic carbon plays a major role in the marine Arctic carbon cycle this is not well studied. Changes in terrestrial ecosystems may also affect sea-ice decline – at least in the long term. Permafrost underlies ~75% of the area draining into the Arctic Ocean but its hydrology is poorly understood, especially under global warming. Arctic tundra is a net sink for atmospheric carbon dioxide (CO2) in the growing season and the sink strength has more than doubled since 2000 in Eurasia. In contrast, the few winter data available show tundra ecosystems are a net source of atmospheric CO2 in winter. Small features below the resolution of current lake and wetland databases may be important controls on carbon transfer from permafrost soils to the atmosphere. Earth System Models (ESMs) are not yet able to reliably simulate the full dynamics of the Arctic carbon cycle. This is mainly because such models still address terrestrial and marine systems separately and because they vary widely in their representation of permafrost. Further development of ESMs should include a focus on improving the connections between ocean and land, especially in the representation of lateral fluxes. Book Part Arctic Arctic Arctic Ocean Global warming Ice permafrost Sea ice Tundra Vrije Universiteit Amsterdam (VU): Research Portal Arctic Arctic Ocean
institution Open Polar
collection Vrije Universiteit Amsterdam (VU): Research Portal
op_collection_id ftvuamstcris
language English
topic Permafrost
Arctic
Carbon cycle
marine carbon cycle
terrestrial carbon cycle
/dk/atira/pure/keywords/vu_research_profiles/science_for_sustainability
Science for Sustainability
spellingShingle Permafrost
Arctic
Carbon cycle
marine carbon cycle
terrestrial carbon cycle
/dk/atira/pure/keywords/vu_research_profiles/science_for_sustainability
Science for Sustainability
Christensen, Torben R
Rysgaard, SØREN
Bendtsen, JØRGEN
Else, Brent
Glud, Ronnie N
van Huissteden, J.
Parmentier, F.J.W.
Sachs, Torsten
Vonk, J.E.
Arctic carbon cycling
topic_facet Permafrost
Arctic
Carbon cycle
marine carbon cycle
terrestrial carbon cycle
/dk/atira/pure/keywords/vu_research_profiles/science_for_sustainability
Science for Sustainability
description The marine Arctic is considered a net carbon sink, with large regional differences in uptake rates. More regional modelling and observational studies are required to reduce the uncertainty among current estimates. Robust projections for how the Arctic Ocean carbon sink may evolve in the future are currently lacking. Direct connections have been documented between sea-ice dynamics and carbon cycling in marine ecosystems and on land. Projections suggest further sea-ice decline may accelerate changes in carbon cycling dynamics at sea and on land. Although rivertransported organic and inorganic carbon plays a major role in the marine Arctic carbon cycle this is not well studied. Changes in terrestrial ecosystems may also affect sea-ice decline – at least in the long term. Permafrost underlies ~75% of the area draining into the Arctic Ocean but its hydrology is poorly understood, especially under global warming. Arctic tundra is a net sink for atmospheric carbon dioxide (CO2) in the growing season and the sink strength has more than doubled since 2000 in Eurasia. In contrast, the few winter data available show tundra ecosystems are a net source of atmospheric CO2 in winter. Small features below the resolution of current lake and wetland databases may be important controls on carbon transfer from permafrost soils to the atmosphere. Earth System Models (ESMs) are not yet able to reliably simulate the full dynamics of the Arctic carbon cycle. This is mainly because such models still address terrestrial and marine systems separately and because they vary widely in their representation of permafrost. Further development of ESMs should include a focus on improving the connections between ocean and land, especially in the representation of lateral fluxes.
author2 , AMAP
format Book Part
author Christensen, Torben R
Rysgaard, SØREN
Bendtsen, JØRGEN
Else, Brent
Glud, Ronnie N
van Huissteden, J.
Parmentier, F.J.W.
Sachs, Torsten
Vonk, J.E.
author_facet Christensen, Torben R
Rysgaard, SØREN
Bendtsen, JØRGEN
Else, Brent
Glud, Ronnie N
van Huissteden, J.
Parmentier, F.J.W.
Sachs, Torsten
Vonk, J.E.
author_sort Christensen, Torben R
title Arctic carbon cycling
title_short Arctic carbon cycling
title_full Arctic carbon cycling
title_fullStr Arctic carbon cycling
title_full_unstemmed Arctic carbon cycling
title_sort arctic carbon cycling
publisher AMAP (Arctic Monitoring and Assessment Programme)
publishDate 2017
url https://research.vu.nl/en/publications/89e37483-d2e6-4757-ac36-d091058ff7d1
http://hdl.handle.net/1871.1/89e37483-d2e6-4757-ac36-d091058ff7d1
https://www.amap.no/documents/doc/Snow-Water-Ice-and-Permafrost-in-the-Arctic-SWIPA-2017/1610
geographic Arctic
Arctic Ocean
geographic_facet Arctic
Arctic Ocean
genre Arctic
Arctic
Arctic Ocean
Global warming
Ice
permafrost
Sea ice
Tundra
genre_facet Arctic
Arctic
Arctic Ocean
Global warming
Ice
permafrost
Sea ice
Tundra
op_source Christensen , T R , Rysgaard , SØREN , Bendtsen , JØRGEN , Else , B , Glud , R N , van Huissteden , J , Parmentier , F J W , Sachs , T & Vonk , J E 2017 , Arctic carbon cycling . in AMAP (ed.) , Snow, Water, Ice and Permafrost in the Arctic (SWIPA) 2017 . , 8 , AMAP (Arctic Monitoring and Assessment Programme) , Oslo , pp. 203-218 . < https://www.amap.no/documents/doc/Snow-Water-Ice-and-Permafrost-in-the-Arctic-SWIPA-2017/1610 >
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1766293205629796352

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