Inorganic carbon and nutrient dynamics in the marginal ice zone of the Barents Sea: Seasonality and implications for ocean acidification

The Barents Sea is a productive Arctic shelf sea experiencing Atlantification with ocean warming, sea ice loss and increased influence of Atlantic Water. The impact of these changes on inorganic carbon and nutrient dynamics and ocean acidification are yet to be fully understood. Seasonal variability...

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Published in:Progress in Oceanography
Main Authors: Jones, Elizabeth Marie, Chierici, Melissa, Fransson, Agneta, Assmann, Karen, Renner, Angelika, Hodal, helene
Format: Article in Journal/Newspaper
Language:English
Published: 2023
Subjects:
Arctic
Arctic Ocean
Barents Sea
Nansen Basin
Ocean acidification
Sea ice
Online Access:https://hdl.handle.net/11250/3105878
https://doi.org/10.1016/j.pocean.2023.103131
id ftimr:oai:imr.brage.unit.no:11250/3105878
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spelling ftimr:oai:imr.brage.unit.no:11250/3105878 2023-12-31T10:03:34+01:00 Inorganic carbon and nutrient dynamics in the marginal ice zone of the Barents Sea: Seasonality and implications for ocean acidification Jones, Elizabeth Marie Chierici, Melissa Fransson, Agneta Assmann, Karen Renner, Angelika Hodal, helene 2023 application/pdf https://hdl.handle.net/11250/3105878 https://doi.org/10.1016/j.pocean.2023.103131 eng eng Norges forskningsråd: 276730 EC/H2020/820989 Progress in Oceanography. 2023, 219 . urn:issn:0079-6611 https://hdl.handle.net/11250/3105878 https://doi.org/10.1016/j.pocean.2023.103131 cristin:2199525 25 219 Progress in Oceanography Peer reviewed Journal article 2023 ftimr https://doi.org/10.1016/j.pocean.2023.103131 2023-12-06T23:47:43Z The Barents Sea is a productive Arctic shelf sea experiencing Atlantification with ocean warming, sea ice loss and increased influence of Atlantic Water. The impact of these changes on inorganic carbon and nutrient dynamics and ocean acidification are yet to be fully understood. Seasonal variability and drivers of inorganic carbon and nutrients were determined from south of the Polar Front at 76 °N in the Barents Sea to 82 °N in the Nansen Basin, Arctic Ocean, encompassing Atlantic and Arctic regimes in summer (August 2019), winter (December 2019), winter/spring (March 2021) and spring (May 2021). Summer sea-ice meltwater was the main driver reducing total alkalinity (AT) and dissolved inorganic carbon (CT), corresponding to 55 % and 81 % of the total changes ΔCT and ΔAT, respectively, in the surface layer. Primary production reduced CT (37 % of ΔCT) and nutrients, particularly in ice-free waters, increasing calcium carbonate (CaCO3) saturation for aragonite (Ωaragonite) from 1.3 in spring to 2.3 in summer. Net community production (NCP) in the upper 50 m was highest (1.3 mol C m−2) in the Atlantic Water regimes and lowest (0.4 mol C m−2) in the ice-covered Nansen Basin in summer. Mixing, organic matter remineralisation and CO2 uptake enriched AT, CT and nutrients to pre-condition the water column from winter to early spring. Formation and dissolution of CaCO3 from shells and ikaite in sea ice (5–13 % of ΔAT) represented a minor AT source from winter to spring. Highest NCP by spring (0.3 mol C m−2) occurred in a transient Atlantic-like regime over the shelf slope. Atmospheric CO2 uptake contributed up to 37 % of ΔCT and the region was an annual CO2 sink. Sea-ice processes and deep winter convection lowered AT and Ωaragonite (1.12–1.14) to enhance the risk of acidification over the shelf. Future Atlantification may increase biological production, reduce meltwater dilution effects and counteract acidification in the Barents Sea. The observations reveal the importance of seasonal and spatial studies to capture ... Article in Journal/Newspaper Arctic Arctic Ocean Barents Sea Nansen Basin Ocean acidification Sea ice Institute for Marine Research: Brage IMR Progress in Oceanography 219 103131
institution Open Polar
collection Institute for Marine Research: Brage IMR
op_collection_id ftimr
language English
description The Barents Sea is a productive Arctic shelf sea experiencing Atlantification with ocean warming, sea ice loss and increased influence of Atlantic Water. The impact of these changes on inorganic carbon and nutrient dynamics and ocean acidification are yet to be fully understood. Seasonal variability and drivers of inorganic carbon and nutrients were determined from south of the Polar Front at 76 °N in the Barents Sea to 82 °N in the Nansen Basin, Arctic Ocean, encompassing Atlantic and Arctic regimes in summer (August 2019), winter (December 2019), winter/spring (March 2021) and spring (May 2021). Summer sea-ice meltwater was the main driver reducing total alkalinity (AT) and dissolved inorganic carbon (CT), corresponding to 55 % and 81 % of the total changes ΔCT and ΔAT, respectively, in the surface layer. Primary production reduced CT (37 % of ΔCT) and nutrients, particularly in ice-free waters, increasing calcium carbonate (CaCO3) saturation for aragonite (Ωaragonite) from 1.3 in spring to 2.3 in summer. Net community production (NCP) in the upper 50 m was highest (1.3 mol C m−2) in the Atlantic Water regimes and lowest (0.4 mol C m−2) in the ice-covered Nansen Basin in summer. Mixing, organic matter remineralisation and CO2 uptake enriched AT, CT and nutrients to pre-condition the water column from winter to early spring. Formation and dissolution of CaCO3 from shells and ikaite in sea ice (5–13 % of ΔAT) represented a minor AT source from winter to spring. Highest NCP by spring (0.3 mol C m−2) occurred in a transient Atlantic-like regime over the shelf slope. Atmospheric CO2 uptake contributed up to 37 % of ΔCT and the region was an annual CO2 sink. Sea-ice processes and deep winter convection lowered AT and Ωaragonite (1.12–1.14) to enhance the risk of acidification over the shelf. Future Atlantification may increase biological production, reduce meltwater dilution effects and counteract acidification in the Barents Sea. The observations reveal the importance of seasonal and spatial studies to capture ...
format Article in Journal/Newspaper
author Jones, Elizabeth Marie
Chierici, Melissa
Fransson, Agneta
Assmann, Karen
Renner, Angelika
Hodal, helene
spellingShingle Jones, Elizabeth Marie
Chierici, Melissa
Fransson, Agneta
Assmann, Karen
Renner, Angelika
Hodal, helene
Inorganic carbon and nutrient dynamics in the marginal ice zone of the Barents Sea: Seasonality and implications for ocean acidification
author_facet Jones, Elizabeth Marie
Chierici, Melissa
Fransson, Agneta
Assmann, Karen
Renner, Angelika
Hodal, helene
author_sort Jones, Elizabeth Marie
title Inorganic carbon and nutrient dynamics in the marginal ice zone of the Barents Sea: Seasonality and implications for ocean acidification
title_short Inorganic carbon and nutrient dynamics in the marginal ice zone of the Barents Sea: Seasonality and implications for ocean acidification
title_full Inorganic carbon and nutrient dynamics in the marginal ice zone of the Barents Sea: Seasonality and implications for ocean acidification
title_fullStr Inorganic carbon and nutrient dynamics in the marginal ice zone of the Barents Sea: Seasonality and implications for ocean acidification
title_full_unstemmed Inorganic carbon and nutrient dynamics in the marginal ice zone of the Barents Sea: Seasonality and implications for ocean acidification
title_sort inorganic carbon and nutrient dynamics in the marginal ice zone of the barents sea: seasonality and implications for ocean acidification
publishDate 2023
url https://hdl.handle.net/11250/3105878
https://doi.org/10.1016/j.pocean.2023.103131
genre Arctic
Arctic Ocean
Barents Sea
Nansen Basin
Ocean acidification
Sea ice
genre_facet Arctic
Arctic Ocean
Barents Sea
Nansen Basin
Ocean acidification
Sea ice
op_source 25
219
Progress in Oceanography
op_relation Norges forskningsråd: 276730
EC/H2020/820989
Progress in Oceanography. 2023, 219 .
urn:issn:0079-6611
https://hdl.handle.net/11250/3105878
https://doi.org/10.1016/j.pocean.2023.103131
cristin:2199525
op_doi https://doi.org/10.1016/j.pocean.2023.103131
container_title Progress in Oceanography
container_volume 219
container_start_page 103131
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