The evolution of Southern Ocean net primary production in a changing climate: challenges and opportunities
The evolution of Southern Ocean net primary production in a changing climate: challenges and opportunities
Net primary production in the Southern Ocean plays a critical role in governing ecosystem production, the biological carbon pump, and global biogeochemical cycles. Recent work has advanced our understanding of novel factors regulating Southern Ocean net primary production and the regional physiological adaptations employed by Southern Ocean phytoplankton in terms of their photosynthetic strategies and resource acquisition. Here we assess trends in Southern Ocean net primary production from different remote sensing algorithms and bgc-Argo floats to compare them to the latest Earth System Models used to forecast future changes under three different future climate scenarios. Overall, remote sensing and bgc-Argo floats indicate net primary productivity in the Southern Ocean is declining at basin scale. This contrasts with the Earth System Models that display muted contemporary trends and consistent increases in net primary production that are relatively robust across SSP2-45, SSP3-70, and SS5-85. This mismatch in trends suggests low confidence in these projected net primary production changes, with implications for assessments of changes in ecosystem services. Despite their coherence in terms of net primary production trends, Earth System Models show large disagreement in the relative role of different drivers, suggesting we lack sufficient mechanistic understanding. Improved knowledge of the role of manganese alongside iron and the coupled responses of phytoplankton and zooplankton through the integration of observations and experiments into a new generation of models is necessary to deliver confident forecasts of Southern Ocean ecosystem change. Advancing knowledge in these areas is an important priority for future research in the region and provides context for policy discussions around the marine protection of Antarctic ecosystems that depend on sufficiently confident projections of climate change impacts.
GEOTRACES, Southern Ocean, climate change, modelling, phytoplankton, primary production, zooplankton
Tagliabue, Alessandro
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Ryan-Keogh, Thomas
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Baker, Alex
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Bibby, Thomas S.
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Follett, Chris
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Lohan, Maeve C.
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Naveira Garabato, Alberto
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Mayor, Daniel J.
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Milne, Angela
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Moore, C. Mark
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Ussher, Simon
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15 December 2025
Tagliabue, Alessandro
23ecb1dd-3cf4-46eb-b059-637a04f2439b
Ryan-Keogh, Thomas
86e4ee72-2e27-4f45-a579-6edb67de4ac4
Baker, Alex
ebd4727e-066f-40f4-9e98-44beb65b21c0
Bibby, Thomas S.
e04ea079-dd90-4ead-9840-00882de27ebd
Follett, Chris
da56ec0f-33ca-4d53-b1d3-1cab7f023fcd
Lohan, Maeve C.
6ca10597-2d0f-40e8-8e4f-7619dfac5088
Naveira Garabato, Alberto
97c0e923-f076-4b38-b89b-938e11cea7a6
Mayor, Daniel J.
58c07729-227e-4fec-a484-f4a2c8deaa5c
Milne, Angela
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Moore, C. Mark
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Ussher, Simon
ac1386f0-f0a1-4663-8fc5-26dbc178327b
Tagliabue, Alessandro, Ryan-Keogh, Thomas, Baker, Alex, Bibby, Thomas S., Follett, Chris, Lohan, Maeve C., Naveira Garabato, Alberto, Mayor, Daniel J., Milne, Angela, Moore, C. Mark and Ussher, Simon
(2025)
The evolution of Southern Ocean net primary production in a changing climate: challenges and opportunities.
Global Change Biology, 31 (12), [e70653].
(doi:10.1111/gcb.70653).
Abstract
Net primary production in the Southern Ocean plays a critical role in governing ecosystem production, the biological carbon pump, and global biogeochemical cycles. Recent work has advanced our understanding of novel factors regulating Southern Ocean net primary production and the regional physiological adaptations employed by Southern Ocean phytoplankton in terms of their photosynthetic strategies and resource acquisition. Here we assess trends in Southern Ocean net primary production from different remote sensing algorithms and bgc-Argo floats to compare them to the latest Earth System Models used to forecast future changes under three different future climate scenarios. Overall, remote sensing and bgc-Argo floats indicate net primary productivity in the Southern Ocean is declining at basin scale. This contrasts with the Earth System Models that display muted contemporary trends and consistent increases in net primary production that are relatively robust across SSP2-45, SSP3-70, and SS5-85. This mismatch in trends suggests low confidence in these projected net primary production changes, with implications for assessments of changes in ecosystem services. Despite their coherence in terms of net primary production trends, Earth System Models show large disagreement in the relative role of different drivers, suggesting we lack sufficient mechanistic understanding. Improved knowledge of the role of manganese alongside iron and the coupled responses of phytoplankton and zooplankton through the integration of observations and experiments into a new generation of models is necessary to deliver confident forecasts of Southern Ocean ecosystem change. Advancing knowledge in these areas is an important priority for future research in the region and provides context for policy discussions around the marine protection of Antarctic ecosystems that depend on sufficiently confident projections of climate change impacts.
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Global Change Biology - 2025 - Tagliabue - The Evolution of Southern Ocean Net Primary Production in a Changing Climate
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Accepted/In Press date: 21 November 2025
e-pub ahead of print date: 15 December 2025
Published date: 15 December 2025
Keywords:
GEOTRACES, Southern Ocean, climate change, modelling, phytoplankton, primary production, zooplankton
Identifiers
Local EPrints ID: 508614
URI: http://eprints.soton.ac.uk/id/eprint/508614
ISSN: 1354-1013
PURE UUID: be0cb482-ffd0-48aa-ac78-79bd4d9ed0aa
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Date deposited: 28 Jan 2026 17:38
Last modified: 31 Jan 2026 04:55
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Contributors
Author:
Alessandro Tagliabue
Author:
Thomas Ryan-Keogh
Author:
Alex Baker
Author:
Chris Follett
Author:
Daniel J. Mayor
Author:
Angela Milne
Author:
Simon Ussher
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