Impact of sea ice on the marine iron cycle and phytoplankton productivity
Iron is a key nutrient for phytoplankton growth in the surface ocean. At high latitudes, the iron cycle is closely related to the dynamics of sea ice. In recent decades, Arctic sea ice cover has been declining rapidly and Antarctic sea ice has exhibited large regional trends. A significant reduction...
| Published in: | Biogeosciences |
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| Language: | English |
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Copernicus Publications
2014
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| Online Access: | https://doi.org/10.5194/bg-11-4713-2014 https://doaj.org/article/c5f87cb8d57148db90faf19db1934ef7 |
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ftdoajarticles:oai:doaj.org/article:c5f87cb8d57148db90faf19db1934ef7 |
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ftdoajarticles:oai:doaj.org/article:c5f87cb8d57148db90faf19db1934ef7 2023-05-15T13:54:36+02:00 Impact of sea ice on the marine iron cycle and phytoplankton productivity S. Wang D. Bailey K. Lindsay J. K. Moore M. Holland 2014-09-01T00:00:00Z https://doi.org/10.5194/bg-11-4713-2014 https://doaj.org/article/c5f87cb8d57148db90faf19db1934ef7 EN eng Copernicus Publications http://www.biogeosciences.net/11/4713/2014/bg-11-4713-2014.pdf https://doaj.org/toc/1726-4170 https://doaj.org/toc/1726-4189 1726-4170 1726-4189 doi:10.5194/bg-11-4713-2014 https://doaj.org/article/c5f87cb8d57148db90faf19db1934ef7 Biogeosciences, Vol 11, Iss 17, Pp 4713-4731 (2014) Ecology QH540-549.5 Life QH501-531 Geology QE1-996.5 article 2014 ftdoajarticles https://doi.org/10.5194/bg-11-4713-2014 2022-12-31T14:58:20Z Iron is a key nutrient for phytoplankton growth in the surface ocean. At high latitudes, the iron cycle is closely related to the dynamics of sea ice. In recent decades, Arctic sea ice cover has been declining rapidly and Antarctic sea ice has exhibited large regional trends. A significant reduction of sea ice in both hemispheres is projected in future climate scenarios. In order to adequately study the effect of sea ice on the polar iron cycle, sea ice bearing iron was incorporated in the Community Earth System Model (CESM). Sea ice acts as a reservoir for iron during winter and releases the trace metal to the surface ocean in spring and summer. Simulated iron concentrations in sea ice generally agree with observations in regions where iron concentrations are relatively low. The maximum iron concentrations simulated in Arctic and Antarctic sea ice are much lower than observed, which is likely due to underestimation of iron inputs to sea ice or missing mechanisms. The largest iron source to sea ice is suspended sediments, contributing fluxes of iron of 2.2 × 10 8 mol Fe month −1 in the Arctic and 4.1 × 10 6 mol Fe month −1 in the Southern Ocean during summer. As a result of the iron flux from ice, iron concentrations increase significantly in the Arctic. Iron released from melting ice increases phytoplankton production in spring and summer and shifts phytoplankton community composition in the Southern Ocean. Results for the period of 1998 to 2007 indicate that a reduction of sea ice in the Southern Ocean will have a negative influence on phytoplankton production. Iron transport by sea ice appears to be an important process bringing iron to the central Arctic. The impact of ice to ocean iron fluxes on marine ecosystems is negligible in the current Arctic Ocean, as iron is not typically the growth-limiting nutrient. However, it may become a more important factor in the future, particularly in the central Arctic, as iron concentrations will decrease with declining sea ice cover and transport. Article in Journal/Newspaper Antarc* Antarctic Arctic Arctic Ocean Phytoplankton Sea ice Southern Ocean Directory of Open Access Journals: DOAJ Articles Antarctic Arctic Arctic Ocean Southern Ocean Biogeosciences 11 17 4713 4731 |
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Open Polar |
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Directory of Open Access Journals: DOAJ Articles |
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ftdoajarticles |
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English |
| topic |
Ecology QH540-549.5 Life QH501-531 Geology QE1-996.5 |
| spellingShingle |
Ecology QH540-549.5 Life QH501-531 Geology QE1-996.5 S. Wang D. Bailey K. Lindsay J. K. Moore M. Holland Impact of sea ice on the marine iron cycle and phytoplankton productivity |
| topic_facet |
Ecology QH540-549.5 Life QH501-531 Geology QE1-996.5 |
| description |
Iron is a key nutrient for phytoplankton growth in the surface ocean. At high latitudes, the iron cycle is closely related to the dynamics of sea ice. In recent decades, Arctic sea ice cover has been declining rapidly and Antarctic sea ice has exhibited large regional trends. A significant reduction of sea ice in both hemispheres is projected in future climate scenarios. In order to adequately study the effect of sea ice on the polar iron cycle, sea ice bearing iron was incorporated in the Community Earth System Model (CESM). Sea ice acts as a reservoir for iron during winter and releases the trace metal to the surface ocean in spring and summer. Simulated iron concentrations in sea ice generally agree with observations in regions where iron concentrations are relatively low. The maximum iron concentrations simulated in Arctic and Antarctic sea ice are much lower than observed, which is likely due to underestimation of iron inputs to sea ice or missing mechanisms. The largest iron source to sea ice is suspended sediments, contributing fluxes of iron of 2.2 × 10 8 mol Fe month −1 in the Arctic and 4.1 × 10 6 mol Fe month −1 in the Southern Ocean during summer. As a result of the iron flux from ice, iron concentrations increase significantly in the Arctic. Iron released from melting ice increases phytoplankton production in spring and summer and shifts phytoplankton community composition in the Southern Ocean. Results for the period of 1998 to 2007 indicate that a reduction of sea ice in the Southern Ocean will have a negative influence on phytoplankton production. Iron transport by sea ice appears to be an important process bringing iron to the central Arctic. The impact of ice to ocean iron fluxes on marine ecosystems is negligible in the current Arctic Ocean, as iron is not typically the growth-limiting nutrient. However, it may become a more important factor in the future, particularly in the central Arctic, as iron concentrations will decrease with declining sea ice cover and transport. |
| format |
Article in Journal/Newspaper |
| author |
S. Wang D. Bailey K. Lindsay J. K. Moore M. Holland |
| author_facet |
S. Wang D. Bailey K. Lindsay J. K. Moore M. Holland |
| author_sort |
S. Wang |
| title |
Impact of sea ice on the marine iron cycle and phytoplankton productivity |
| title_short |
Impact of sea ice on the marine iron cycle and phytoplankton productivity |
| title_full |
Impact of sea ice on the marine iron cycle and phytoplankton productivity |
| title_fullStr |
Impact of sea ice on the marine iron cycle and phytoplankton productivity |
| title_full_unstemmed |
Impact of sea ice on the marine iron cycle and phytoplankton productivity |
| title_sort |
impact of sea ice on the marine iron cycle and phytoplankton productivity |
| publisher |
Copernicus Publications |
| publishDate |
2014 |
| url |
https://doi.org/10.5194/bg-11-4713-2014 https://doaj.org/article/c5f87cb8d57148db90faf19db1934ef7 |
| geographic |
Antarctic Arctic Arctic Ocean Southern Ocean |
| geographic_facet |
Antarctic Arctic Arctic Ocean Southern Ocean |
| genre |
Antarc* Antarctic Arctic Arctic Ocean Phytoplankton Sea ice Southern Ocean |
| genre_facet |
Antarc* Antarctic Arctic Arctic Ocean Phytoplankton Sea ice Southern Ocean |
| op_source |
Biogeosciences, Vol 11, Iss 17, Pp 4713-4731 (2014) |
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http://www.biogeosciences.net/11/4713/2014/bg-11-4713-2014.pdf https://doaj.org/toc/1726-4170 https://doaj.org/toc/1726-4189 1726-4170 1726-4189 doi:10.5194/bg-11-4713-2014 https://doaj.org/article/c5f87cb8d57148db90faf19db1934ef7 |
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https://doi.org/10.5194/bg-11-4713-2014 |
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Biogeosciences |
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11 |
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17 |
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4713 |
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4731 |
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