Ecosystem model intercomparison of under-ice and total primary production in the Arctic Ocean
Ecosystem model intercomparison of under-ice and total primary production in the Arctic Ocean
Previous observational studies have found increasing primary production (PP) in response to declining sea ice cover in the Arctic Ocean. In this study, under-ice PP was assessed based on three coupled ice-ocean-ecosystem models participating in the Forum for Arctic Modeling and Observational Synthesis (FAMOS) project. All models showed good agreement with under-ice measurements of surface chlorophyll-a concentration and vertically integrated PP rates during the main under-ice production period, from mid-May to September. Further, modeled 30-year (1980–2009) mean values and spatial patterns of sea ice concentration compared well with remote sensing data. Under-ice PP was higher in the Arctic shelf seas than in the Arctic Basin, but ratios of under-ice PP over total PP were spatially correlated with annual mean sea ice concentration, with higher ratios in higher ice concentration regions. Decreases in sea ice from 1980 to 2009 were correlated significantly with increases in total PP and decreases in the under-ice PP/total PP ratio for most of the Arctic, but nonsignificantly related to under-ice PP, especially in marginal ice zones. Total PP within the Arctic Circle increased at an annual rate of between 3.2 and 8.0 Tg C/yr from 1980 to 2009. This increase in total PP was due mainly to a PP increase in open water, including increases in both open water area and PP rate per unit area, and therefore much stronger than the changes in under-ice PP. All models suggested that, on a pan-Arctic scale, the fraction of under-ice PP declined with declining sea ice cover over the last three decades.
ecosystem modeling, sea ice, under-ice production, phenology, primary production, Arctic Ocean
934-948
Jin, Meibing
addff87a-f8d8-4381-bc7d-c820ca02aec0
Popova, Ekaterina E.
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Zhang, Jinlun
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Ji, Rubao
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Pendleton, Daniel
841f9ec1-25d6-4f97-b25a-4bb410a0d5c8
Varpe, Øystein
528cea6d-b481-45d1-a0a7-93aa94b3135a
Yool, Andrew
882aeb0d-dda0-405e-844c-65b68cce5017
Lee, Younjoo J.
9f356f88-8850-4554-be41-2051756a0689
January 2016
Jin, Meibing
addff87a-f8d8-4381-bc7d-c820ca02aec0
Popova, Ekaterina E.
3ea572bd-f37d-4777-894b-b0d86f735820
Zhang, Jinlun
2fb9623a-24b6-4860-b909-86aac148d8ff
Ji, Rubao
527c0d38-fe24-4552-a4b7-45a5ea871dc8
Pendleton, Daniel
841f9ec1-25d6-4f97-b25a-4bb410a0d5c8
Varpe, Øystein
528cea6d-b481-45d1-a0a7-93aa94b3135a
Yool, Andrew
882aeb0d-dda0-405e-844c-65b68cce5017
Lee, Younjoo J.
9f356f88-8850-4554-be41-2051756a0689
Jin, Meibing, Popova, Ekaterina E., Zhang, Jinlun, Ji, Rubao, Pendleton, Daniel, Varpe, Øystein, Yool, Andrew and Lee, Younjoo J.
(2016)
Ecosystem model intercomparison of under-ice and total primary production in the Arctic Ocean.
Journal of Geophysical Research: Oceans, 121 (1), .
(doi:10.1002/2015JC011183).
Abstract
Previous observational studies have found increasing primary production (PP) in response to declining sea ice cover in the Arctic Ocean. In this study, under-ice PP was assessed based on three coupled ice-ocean-ecosystem models participating in the Forum for Arctic Modeling and Observational Synthesis (FAMOS) project. All models showed good agreement with under-ice measurements of surface chlorophyll-a concentration and vertically integrated PP rates during the main under-ice production period, from mid-May to September. Further, modeled 30-year (1980–2009) mean values and spatial patterns of sea ice concentration compared well with remote sensing data. Under-ice PP was higher in the Arctic shelf seas than in the Arctic Basin, but ratios of under-ice PP over total PP were spatially correlated with annual mean sea ice concentration, with higher ratios in higher ice concentration regions. Decreases in sea ice from 1980 to 2009 were correlated significantly with increases in total PP and decreases in the under-ice PP/total PP ratio for most of the Arctic, but nonsignificantly related to under-ice PP, especially in marginal ice zones. Total PP within the Arctic Circle increased at an annual rate of between 3.2 and 8.0 Tg C/yr from 1980 to 2009. This increase in total PP was due mainly to a PP increase in open water, including increases in both open water area and PP rate per unit area, and therefore much stronger than the changes in under-ice PP. All models suggested that, on a pan-Arctic scale, the fraction of under-ice PP declined with declining sea ice cover over the last three decades.
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Accepted/In Press date: 27 January 2016
Published date: January 2016
Keywords:
ecosystem modeling, sea ice, under-ice production, phenology, primary production, Arctic Ocean
Organisations:
Marine Systems Modelling
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Local EPrints ID: 386539
URI: http://eprints.soton.ac.uk/id/eprint/386539
PURE UUID: 78cd21ef-98a3-417b-b25e-38175179e46e
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Date deposited: 28 Jan 2016 09:39
Last modified: 14 Mar 2024 22:33
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Contributors
Author:
Meibing Jin
Author:
Ekaterina E. Popova
Author:
Jinlun Zhang
Author:
Rubao Ji
Author:
Daniel Pendleton
Author:
Øystein Varpe
Author:
Andrew Yool
Author:
Younjoo J. Lee
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