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Inefficient transfer of diatoms through the subpolar Southern Ocean twilight zone

Inefficient transfer of diatoms through the subpolar Southern Ocean twilight zone
Inefficient transfer of diatoms through the subpolar Southern Ocean twilight zone
The Southern Ocean, a region highly vulnerable to climate change, plays a vital role in regulating global nutrient cycles and atmospheric CO2 via the biological carbon pump. Diatoms, photosynthetically active plankton with dense opal skeletons, are key to this process as their exoskeletons are thought to enhance the transfer of particulate organic carbon to depth, positioning them as major vectors of carbon storage. Yet conflicting observations obscure the mechanistic link between diatoms, opal and particulate organic carbon fluxes, especially in the twilight zone where greatest flux losses occur. Here we present direct springtime flux measurements from different sectors of the subpolar Southern Ocean, demonstrating that across large areas of the subpolar twilight zone, carbon is efficiently transferred to depth, albeit not by diatoms. Rather, opal is retained near the surface ocean, indicating that processes such as diatom buoyancy regulation and grazer repackaging can negate ballast effects of diatoms’ skeletons. Our results highlight that the presence of diatoms in surface waters of the Southern Ocean’s largest biome does not guarantee their importance as vectors for efficient carbon transfer through the subpolar twilight zone. Climate change-driven shifts in phytoplankton community composition may affect biologically sequestered carbon pools less than currently predicted.
1752-0894
72-77
Williams, J.R.
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Giering, S.L.C.
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Baker, C.A.
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Pabortsava, K.
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Briggs, N.
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East, H.
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Espinola, B.
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Blackbird, S.
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Le Moigne, F.A.C.
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Villa-Alfageme, M.
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Poulton, A.J.
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Carvalho, F.
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Pebody, C.
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Saw, K.
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Moore, C.M.
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Henson, S.A.
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Sanders, R.
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Martin, A.P.
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Williams, J.R.
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Giering, S.L.C.
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Baker, C.A.
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Pabortsava, K.
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Briggs, N.
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East, H.
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Espinola, B.
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Blackbird, S.
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Le Moigne, F.A.C.
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Villa-Alfageme, M.
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Poulton, A.J.
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Carvalho, F.
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Pebody, C.
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Saw, K.
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Moore, C.M.
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Henson, S.A.
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Sanders, R.
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Martin, A.P.
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Williams, J.R., Giering, S.L.C., Baker, C.A., Pabortsava, K., Briggs, N., East, H., Espinola, B., Blackbird, S., Le Moigne, F.A.C., Villa-Alfageme, M., Poulton, A.J., Carvalho, F., Pebody, C., Saw, K., Moore, C.M., Henson, S.A., Sanders, R. and Martin, A.P. (2024) Inefficient transfer of diatoms through the subpolar Southern Ocean twilight zone. Nature Geoscience, 18, 72-77. (doi:10.1038/s41561-024-01602-2).

Record type: Article

Abstract

The Southern Ocean, a region highly vulnerable to climate change, plays a vital role in regulating global nutrient cycles and atmospheric CO2 via the biological carbon pump. Diatoms, photosynthetically active plankton with dense opal skeletons, are key to this process as their exoskeletons are thought to enhance the transfer of particulate organic carbon to depth, positioning them as major vectors of carbon storage. Yet conflicting observations obscure the mechanistic link between diatoms, opal and particulate organic carbon fluxes, especially in the twilight zone where greatest flux losses occur. Here we present direct springtime flux measurements from different sectors of the subpolar Southern Ocean, demonstrating that across large areas of the subpolar twilight zone, carbon is efficiently transferred to depth, albeit not by diatoms. Rather, opal is retained near the surface ocean, indicating that processes such as diatom buoyancy regulation and grazer repackaging can negate ballast effects of diatoms’ skeletons. Our results highlight that the presence of diatoms in surface waters of the Southern Ocean’s largest biome does not guarantee their importance as vectors for efficient carbon transfer through the subpolar twilight zone. Climate change-driven shifts in phytoplankton community composition may affect biologically sequestered carbon pools less than currently predicted.

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Williams et al. 2024 - Version of Record
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Accepted/In Press date: 25 October 2024
Published date: 28 November 2024
Learn more about Institute for Life Sciences research Learn more about Institute for Life Sciences research Learn more about School of Ocean and Earth Science research

Identifiers

Local EPrints ID: 497172
URI: http://eprints.soton.ac.uk/id/eprint/497172
DOI: doi:10.1038/s41561-024-01602-2
ISSN: 1752-0894
PURE UUID: 08716676-0b38-42a3-a10b-e7ff1b7f4edf
ORCID for C.A. Baker: ORCID iD orcid.org/0000-0002-0840-2333
ORCID for C.M. Moore: ORCID iD orcid.org/0000-0002-9541-6046

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Date deposited: 15 Jan 2025 17:49
Last modified: 18 Jan 2025 02:38

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Contributors

Author: J.R. Williams
Author: S.L.C. Giering
Author: C.A. Baker ORCID iD
Author: K. Pabortsava
Author: N. Briggs
Author: H. East
Author: B. Espinola
Author: S. Blackbird
Author: F.A.C. Le Moigne
Author: M. Villa-Alfageme
Author: A.J. Poulton
Author: F. Carvalho
Author: C. Pebody
Author: K. Saw
Author: C.M. Moore ORCID iD
Author: S.A. Henson
Author: R. Sanders
Author: A.P. Martin

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