Barents Sea plankton production and controlling factors in a fluctuating climate

Abstract The Barents Sea and its marine ecosystem is exposed to many different processes related to the seasonal light variability, formation and melting of sea-ice, wind-induced mixing, and exchange of heat and nutrients with neighbouring ocean regions. A global model for the RCP4.5 scenario was do...

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Bibliographic Details
Published in:ICES Journal of Marine Science
Main Authors: Sandø, Anne Britt, Mousing, Erik Askov, Budgell, W P, Hjøllo, Solfrid S, Skogen, Morten D, Ådlandsvik, B
Other Authors: Hunsicker, Mary
Format: Article in Journal/Newspaper
Language:English
Published: Oxford University Press (OUP) 2021
Subjects:
Barents Sea
Sea ice
Online Access:http://dx.doi.org/10.1093/icesjms/fsab067
http://academic.oup.com/icesjms/article-pdf/78/6/1999/40489446/fsab067.pdf
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Summary:Abstract The Barents Sea and its marine ecosystem is exposed to many different processes related to the seasonal light variability, formation and melting of sea-ice, wind-induced mixing, and exchange of heat and nutrients with neighbouring ocean regions. A global model for the RCP4.5 scenario was downscaled, evaluated, and combined with a biophysical model to study how future variability and trends in temperature, sea-ice concentration, light, and wind-induced mixing potentially affect the lower trophic levels in the Barents Sea marine ecosystem. During the integration period (2010–2070), only a modest change in climate variables and biological production was found, compared to the inter-annual and decadal variability. The most prominent change was projected for the mid-2040s with a sudden decrease in biological production, largely controlled by covarying changes in heat inflow, wind, and sea-ice extent. The northernmost parts exhibited increased access to light during the productive season due to decreased sea-ice extent, leading to increased primary and secondary production in periods of low sea-ice concentrations. In the southern parts, variable access to nutrients as a function of wind-induced mixing and mixed layer depth were found to be the most dominating factors controlling variability in primary and secondary production.

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