Why is the South Orkney Island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot?
Abstract The Southern Ocean archipelago, the South Orkney Islands ( SOI ), became the world's first entirely high seas marine protected area ( MPA ) in 2010. The SOI continental shelf (~44 000 km 2 ), was less than half covered by grounded ice sheet during glaciations, is biologically rich and...
| Published in: | Global Change Biology |
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| Main Authors: | , , , , , |
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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Wiley
2015
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| Online Access: | http://dx.doi.org/10.1111/gcb.13157 https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fgcb.13157 https://onlinelibrary.wiley.com/doi/pdf/10.1111/gcb.13157 |
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crwiley:10.1111/gcb.13157 2024-06-23T07:45:29+00:00 Why is the South Orkney Island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot? Barnes, David K. A. Ireland, Louise Hogg, Oliver T. Morley, Simon Enderlein, Peter Sands, Chester J. Department for Environment, Food and Rural Affairs Pew Charitable Trusts 2015 http://dx.doi.org/10.1111/gcb.13157 https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fgcb.13157 https://onlinelibrary.wiley.com/doi/pdf/10.1111/gcb.13157 en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor Global Change Biology volume 22, issue 3, page 1110-1120 ISSN 1354-1013 1365-2486 journal-article 2015 crwiley https://doi.org/10.1111/gcb.13157 2024-06-06T04:24:48Z Abstract The Southern Ocean archipelago, the South Orkney Islands ( SOI ), became the world's first entirely high seas marine protected area ( MPA ) in 2010. The SOI continental shelf (~44 000 km 2 ), was less than half covered by grounded ice sheet during glaciations, is biologically rich and a key area of both sea surface warming and sea‐ice losses. Little was known of the carbon cycle there, but recent work showed it was a very important site of carbon immobilization (net annual carbon accumulation) by benthos, one of the few demonstrable negative feedbacks to climate change. Carbon immobilization by SOI bryozoans was higher, per species, unit area and ice‐free day, than anywhere‐else polar. Here, we investigate why carbon immobilization has been so high at SOI , and whether this is due to high density, longevity or high annual production in six study species of bryozoans (benthic suspension feeders). We compared benthic carbon immobilization across major regions around West Antarctica with sea‐ice and primary production, from remotely sensed and directly sampled sources. Lowest carbon immobilization was at the northernmost study regions (South Georgia) and southernmost Amundsen Sea. However, data standardized for age and density showed that only SOI was anomalous (high). High immobilization at SOI was due to very high annual production of bryozoans (rather than high densities or longevity), which were 2x, 3x and 5x higher than on the Bellingshausen, South Georgia and Amundsen shelves, respectively. We found that carbon immobilization correlated to the duration (but not peak or integrated biomass) of phytoplankton blooms, both in directly sampled, local scale data and across regions using remote‐sensed data. The long bloom at SOI seems to drive considerable carbon immobilization, but sea‐ice losses across West Antarctica mean that significant carbon sinks and negative feedbacks to climate change could also develop in the Bellingshausen and Amundsen seas. Article in Journal/Newspaper Amundsen Sea Antarc* Antarctica Ice Sheet Sea ice South Orkney Islands Southern Ocean West Antarctica Wiley Online Library Amundsen Sea Soi ENVELOPE(30.704,30.704,66.481,66.481) South Orkney Islands ENVELOPE(-45.500,-45.500,-60.583,-60.583) Southern Ocean West Antarctica Global Change Biology 22 3 1110 1120 |
| institution |
Open Polar |
| collection |
Wiley Online Library |
| op_collection_id |
crwiley |
| language |
English |
| description |
Abstract The Southern Ocean archipelago, the South Orkney Islands ( SOI ), became the world's first entirely high seas marine protected area ( MPA ) in 2010. The SOI continental shelf (~44 000 km 2 ), was less than half covered by grounded ice sheet during glaciations, is biologically rich and a key area of both sea surface warming and sea‐ice losses. Little was known of the carbon cycle there, but recent work showed it was a very important site of carbon immobilization (net annual carbon accumulation) by benthos, one of the few demonstrable negative feedbacks to climate change. Carbon immobilization by SOI bryozoans was higher, per species, unit area and ice‐free day, than anywhere‐else polar. Here, we investigate why carbon immobilization has been so high at SOI , and whether this is due to high density, longevity or high annual production in six study species of bryozoans (benthic suspension feeders). We compared benthic carbon immobilization across major regions around West Antarctica with sea‐ice and primary production, from remotely sensed and directly sampled sources. Lowest carbon immobilization was at the northernmost study regions (South Georgia) and southernmost Amundsen Sea. However, data standardized for age and density showed that only SOI was anomalous (high). High immobilization at SOI was due to very high annual production of bryozoans (rather than high densities or longevity), which were 2x, 3x and 5x higher than on the Bellingshausen, South Georgia and Amundsen shelves, respectively. We found that carbon immobilization correlated to the duration (but not peak or integrated biomass) of phytoplankton blooms, both in directly sampled, local scale data and across regions using remote‐sensed data. The long bloom at SOI seems to drive considerable carbon immobilization, but sea‐ice losses across West Antarctica mean that significant carbon sinks and negative feedbacks to climate change could also develop in the Bellingshausen and Amundsen seas. |
| author2 |
Department for Environment, Food and Rural Affairs Pew Charitable Trusts |
| format |
Article in Journal/Newspaper |
| author |
Barnes, David K. A. Ireland, Louise Hogg, Oliver T. Morley, Simon Enderlein, Peter Sands, Chester J. |
| spellingShingle |
Barnes, David K. A. Ireland, Louise Hogg, Oliver T. Morley, Simon Enderlein, Peter Sands, Chester J. Why is the South Orkney Island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot? |
| author_facet |
Barnes, David K. A. Ireland, Louise Hogg, Oliver T. Morley, Simon Enderlein, Peter Sands, Chester J. |
| author_sort |
Barnes, David K. A. |
| title |
Why is the South Orkney Island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot? |
| title_short |
Why is the South Orkney Island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot? |
| title_full |
Why is the South Orkney Island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot? |
| title_fullStr |
Why is the South Orkney Island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot? |
| title_full_unstemmed |
Why is the South Orkney Island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot? |
| title_sort |
why is the south orkney island shelf (the world's first high seas marine protected area) a carbon immobilization hotspot? |
| publisher |
Wiley |
| publishDate |
2015 |
| url |
http://dx.doi.org/10.1111/gcb.13157 https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fgcb.13157 https://onlinelibrary.wiley.com/doi/pdf/10.1111/gcb.13157 |
| long_lat |
ENVELOPE(30.704,30.704,66.481,66.481) ENVELOPE(-45.500,-45.500,-60.583,-60.583) |
| geographic |
Amundsen Sea Soi South Orkney Islands Southern Ocean West Antarctica |
| geographic_facet |
Amundsen Sea Soi South Orkney Islands Southern Ocean West Antarctica |
| genre |
Amundsen Sea Antarc* Antarctica Ice Sheet Sea ice South Orkney Islands Southern Ocean West Antarctica |
| genre_facet |
Amundsen Sea Antarc* Antarctica Ice Sheet Sea ice South Orkney Islands Southern Ocean West Antarctica |
| op_source |
Global Change Biology volume 22, issue 3, page 1110-1120 ISSN 1354-1013 1365-2486 |
| op_rights |
http://onlinelibrary.wiley.com/termsAndConditions#vor |
| op_doi |
https://doi.org/10.1111/gcb.13157 |
| container_title |
Global Change Biology |
| container_volume |
22 |
| container_issue |
3 |
| container_start_page |
1110 |
| op_container_end_page |
1120 |
| _version_ |
1802639907561144320 |