Seasonal variability of the inorganic carbon system in the Amundsen Gulf region of the southeastern Beaufort Sea

During a year‐round occupation of Amundsen Gulf in the Canadian Arctic Archipelago dissolved inorganic and organic carbon (DIC, DOC), total alkalinity (TA), partial pressure of CO 2 (pCO 2 ) and related parameters were measured over a full annual cycle. A two‐box model was used to identify and asses...

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Bibliographic Details
Published in:Limnology and Oceanography
Main Authors: Shadwick, E. H., Thomas, H., Chierici, M., Else, B., Fransson, A., Michel, C., Miller, L. A., Mucci, A., Niemi, A., Papakyriakou, T. N., Tremblay, J.-É.
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2011
Subjects:
Aquatic Science
Oceanography
Amundsen Gulf
Arctic Archipelago
Beaufort Sea
Canadian Arctic Archipelago
ice algae
Online Access:http://dx.doi.org/10.4319/lo.2011.56.1.0303
https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.4319%2Flo.2011.56.1.0303
https://aslopubs.onlinelibrary.wiley.com/doi/pdf/10.4319/lo.2011.56.1.0303
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Summary:During a year‐round occupation of Amundsen Gulf in the Canadian Arctic Archipelago dissolved inorganic and organic carbon (DIC, DOC), total alkalinity (TA), partial pressure of CO 2 (pCO 2 ) and related parameters were measured over a full annual cycle. A two‐box model was used to identify and assess physical, biological, and chemical processes responsible for the seasonal variability of DIC, DOC, TA, and pCO 2 . Surface waters were undersaturated with respect to atmospheric CO 2 throughout the year and constituted a net sink of 1.2 mol C m −2 yr −1 , with ice coverage and ice formation limiting the CO 2 uptake during winter. CO 2 uptake was largely driven by under ice and open‐water biological activity, with high subsequent export of organic matter to the deeper water column. Annual net community production (NCP) was 2.1 mol C m −2 yr −1 . Approximately one‐half of the overall NCP during the productive season (4.1 mol C m −2 from Apr through Aug) was generated by under‐ice algae and amounted to 1.9 mol C m −2 over this period. The surface layer was autotrophic, while the overall heterotrophy of the system was fueled by either sedimentary or lateral inputs of organic matter.

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