Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans

Polar oceans are particularly vulnerable to ocean acidification due to their low temperatures and reduced buffering capacity, and are expected to experience extensive low pH conditions and reduced carbonate mineral saturations states (?) in the near future. However, the impact of anthropogenic CO2 o...

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Published in:Deep Sea Research Part II: Topical Studies in Oceanography
Main Authors: Tynan, Eithne, Clarke, Jennifer S., Humphreys, Matthew P., Ribas-Ribas, Mariana, Esposito, Mario, Rérolle, Victoire M.C., Schlosser, C., Thorpe, Sally E., Tyrrell, Toby, Achterberg, Eric P.
Format: Article in Journal/Newspaper
Language:English
Published: 2016
Subjects:
Online Access:https://eprints.soton.ac.uk/387274/
https://eprints.soton.ac.uk/387274/1/1-s2.0-S0967064516000126-main.pdf
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spelling ftsouthampton:oai:eprints.soton.ac.uk:387274 2023-08-27T04:06:48+02:00 Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans Tynan, Eithne Clarke, Jennifer S. Humphreys, Matthew P. Ribas-Ribas, Mariana Esposito, Mario Rérolle, Victoire M.C. Schlosser, C. Thorpe, Sally E. Tyrrell, Toby Achterberg, Eric P. 2016-05-01 text https://eprints.soton.ac.uk/387274/ https://eprints.soton.ac.uk/387274/1/1-s2.0-S0967064516000126-main.pdf en English eng https://eprints.soton.ac.uk/387274/1/1-s2.0-S0967064516000126-main.pdf Tynan, Eithne, Clarke, Jennifer S., Humphreys, Matthew P., Ribas-Ribas, Mariana, Esposito, Mario, Rérolle, Victoire M.C., Schlosser, C., Thorpe, Sally E., Tyrrell, Toby and Achterberg, Eric P. (2016) Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans. Deep Sea Research Part II: Topical Studies in Oceanography, 127, 7-27. (doi:10.1016/j.dsr2.2016.01.001 <http://dx.doi.org/10.1016/j.dsr2.2016.01.001>). cc_by_4 Article PeerReviewed 2016 ftsouthampton https://doi.org/10.1016/j.dsr2.2016.01.001 2023-08-03T22:21:33Z Polar oceans are particularly vulnerable to ocean acidification due to their low temperatures and reduced buffering capacity, and are expected to experience extensive low pH conditions and reduced carbonate mineral saturations states (?) in the near future. However, the impact of anthropogenic CO2 on pH and ? will vary regionally between and across the Arctic and Southern Oceans. Here we investigate the carbonate chemistry in the Atlantic sector of two polar oceans, the Nordic Seas and Barents Sea in the Arctic Ocean, and the Scotia and Weddell Seas in the Southern Ocean, to determine the physical and biogeochemical processes that control surface pH and ?. High-resolution observations showed large gradients in surface pH (0.10–0.30) and aragonite saturation state (?ar) (0.2–1.0) over small spatial scales, and these were particularly strong in sea-ice covered areas (up to 0.45 in pH and 2.0 in ?ar). In the Arctic, sea-ice melt facilitated bloom initiation in light-limited and iron replete (dFe>0.2 nM) regions, such as the Fram Strait, resulting in high pH (8.45) and ?ar (3.0) along the sea-ice edge. In contrast, accumulation of dissolved inorganic carbon derived from organic carbon mineralisation under the ice resulted in low pH (8.05) and ?ar (1.1) in areas where thick ice persisted. In the Southern Ocean, sea-ice retreat resulted in bloom formation only where terrestrial inputs supplied sufficient iron (dFe>0.2 nM), such as in the vicinity of the South Sandwich Islands where enhanced pH (8.3) and ?ar (2.3) were primarily due to biological production. In contrast, in the adjacent Weddell Sea, weak biological uptake of CO2 due to low iron concentrations (dFe<0.2 nM) resulted in low pH (8.1) and ?ar (1.6). The large spatial variability in both polar oceans highlights the need for spatially resolved surface data of carbonate chemistry variables but also nutrients (including iron) in order to accurately elucidate the large gradients experienced by marine organisms and to understand their response to ... Article in Journal/Newspaper Arctic Arctic Arctic Ocean Barents Sea Fram Strait Nordic Seas Ocean acidification Sea ice South Sandwich Islands Southern Ocean Weddell Sea ice covered areas University of Southampton: e-Prints Soton Arctic Arctic Ocean Barents Sea Sandwich Islands South Sandwich Islands Southern Ocean Weddell Weddell Sea Deep Sea Research Part II: Topical Studies in Oceanography 127 7 27
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language English
description Polar oceans are particularly vulnerable to ocean acidification due to their low temperatures and reduced buffering capacity, and are expected to experience extensive low pH conditions and reduced carbonate mineral saturations states (?) in the near future. However, the impact of anthropogenic CO2 on pH and ? will vary regionally between and across the Arctic and Southern Oceans. Here we investigate the carbonate chemistry in the Atlantic sector of two polar oceans, the Nordic Seas and Barents Sea in the Arctic Ocean, and the Scotia and Weddell Seas in the Southern Ocean, to determine the physical and biogeochemical processes that control surface pH and ?. High-resolution observations showed large gradients in surface pH (0.10–0.30) and aragonite saturation state (?ar) (0.2–1.0) over small spatial scales, and these were particularly strong in sea-ice covered areas (up to 0.45 in pH and 2.0 in ?ar). In the Arctic, sea-ice melt facilitated bloom initiation in light-limited and iron replete (dFe>0.2 nM) regions, such as the Fram Strait, resulting in high pH (8.45) and ?ar (3.0) along the sea-ice edge. In contrast, accumulation of dissolved inorganic carbon derived from organic carbon mineralisation under the ice resulted in low pH (8.05) and ?ar (1.1) in areas where thick ice persisted. In the Southern Ocean, sea-ice retreat resulted in bloom formation only where terrestrial inputs supplied sufficient iron (dFe>0.2 nM), such as in the vicinity of the South Sandwich Islands where enhanced pH (8.3) and ?ar (2.3) were primarily due to biological production. In contrast, in the adjacent Weddell Sea, weak biological uptake of CO2 due to low iron concentrations (dFe<0.2 nM) resulted in low pH (8.1) and ?ar (1.6). The large spatial variability in both polar oceans highlights the need for spatially resolved surface data of carbonate chemistry variables but also nutrients (including iron) in order to accurately elucidate the large gradients experienced by marine organisms and to understand their response to ...
format Article in Journal/Newspaper
author Tynan, Eithne
Clarke, Jennifer S.
Humphreys, Matthew P.
Ribas-Ribas, Mariana
Esposito, Mario
Rérolle, Victoire M.C.
Schlosser, C.
Thorpe, Sally E.
Tyrrell, Toby
Achterberg, Eric P.
spellingShingle Tynan, Eithne
Clarke, Jennifer S.
Humphreys, Matthew P.
Ribas-Ribas, Mariana
Esposito, Mario
Rérolle, Victoire M.C.
Schlosser, C.
Thorpe, Sally E.
Tyrrell, Toby
Achterberg, Eric P.
Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans
author_facet Tynan, Eithne
Clarke, Jennifer S.
Humphreys, Matthew P.
Ribas-Ribas, Mariana
Esposito, Mario
Rérolle, Victoire M.C.
Schlosser, C.
Thorpe, Sally E.
Tyrrell, Toby
Achterberg, Eric P.
author_sort Tynan, Eithne
title Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans
title_short Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans
title_full Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans
title_fullStr Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans
title_full_unstemmed Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans
title_sort physical and biogeochemical controls on the variability in surface ph and calcium carbonate saturation states in the atlantic sectors of the arctic and southern oceans
publishDate 2016
url https://eprints.soton.ac.uk/387274/
https://eprints.soton.ac.uk/387274/1/1-s2.0-S0967064516000126-main.pdf
geographic Arctic
Arctic Ocean
Barents Sea
Sandwich Islands
South Sandwich Islands
Southern Ocean
Weddell
Weddell Sea
geographic_facet Arctic
Arctic Ocean
Barents Sea
Sandwich Islands
South Sandwich Islands
Southern Ocean
Weddell
Weddell Sea
genre Arctic
Arctic
Arctic Ocean
Barents Sea
Fram Strait
Nordic Seas
Ocean acidification
Sea ice
South Sandwich Islands
Southern Ocean
Weddell Sea
ice covered areas
genre_facet Arctic
Arctic
Arctic Ocean
Barents Sea
Fram Strait
Nordic Seas
Ocean acidification
Sea ice
South Sandwich Islands
Southern Ocean
Weddell Sea
ice covered areas
op_relation https://eprints.soton.ac.uk/387274/1/1-s2.0-S0967064516000126-main.pdf
Tynan, Eithne, Clarke, Jennifer S., Humphreys, Matthew P., Ribas-Ribas, Mariana, Esposito, Mario, Rérolle, Victoire M.C., Schlosser, C., Thorpe, Sally E., Tyrrell, Toby and Achterberg, Eric P. (2016) Physical and biogeochemical controls on the variability in surface pH and calcium carbonate saturation states in the Atlantic sectors of the Arctic and Southern Oceans. Deep Sea Research Part II: Topical Studies in Oceanography, 127, 7-27. (doi:10.1016/j.dsr2.2016.01.001 <http://dx.doi.org/10.1016/j.dsr2.2016.01.001>).
op_rights cc_by_4
op_doi https://doi.org/10.1016/j.dsr2.2016.01.001
container_title Deep Sea Research Part II: Topical Studies in Oceanography
container_volume 127
container_start_page 7
op_container_end_page 27
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