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Particle export fluxes in the southern ocean: Importance of nonheterotrophic processes in POC flux attenuation

Particle export fluxes in the southern ocean: Importance of nonheterotrophic processes in POC flux attenuation
Particle export fluxes in the southern ocean: Importance of nonheterotrophic processes in POC flux attenuation
The ocean contributes to regulating atmospheric CO2 levels via the biological carbon pump (BCP). One critical aspect of the BCP is the depth at which sinking particulate organic carbon (POC) remineralizes in the mesopelagic zone (200–1,000 m). In the Southern Ocean, the circulation is such that the products generated from POC remineralization may have drastically different fates depending on (a) the latitude at which sinking particulate material is produced and (b) the depth at which its remineralization occurs. Here, we assess latitudinal and depth variations of POC export marine aggregate abundance and composition in the Southeast Pacific sector of the Southern Ocean. We show changes in flux attenuation depth horizons in the upper mesopelagic in the subantarctic zone. These correspond to rapid particle accumulation below the depth of the euphotic zone followed by abrupt export. We believe that such rapid changes may be linked to diatom life cycles, including resting cell and spore formation and resulting changes in particle sinking velocities rather than attenuation due to heterotrophic degradation or solubilization in the upper mesopelagic zone. We further discuss the occurrence of such features in the Southern Ocean and at the global scale. Our results highlight the importance of alternative flux attenuation processes, such as sudden changes in particles sinking velocities, in explaining variability in organic carbon sequestration by the ocean's BCP.
2169-9275
Le Moigne, Frédéric
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Pabortsava, Katsiaryna
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Villa-Alfageme, María
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Briggs, Nathan
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Baker, Chelsey Adrianne
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Bouman, Heather A
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English, Chance
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Blackbird, Sabena
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Henson, Stephanie
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Venables, Hugh James
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Carlson, C.A.
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Moore, Mark
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Williams, Jack Rees
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Martin, Adrian P
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Le Moigne, Frédéric
784d3c1b-24b6-4ca4-bc6e-93fdefb44cf2
Pabortsava, Katsiaryna
106c028f-3bb5-48a0-8161-e0af2ea1a1d6
Villa-Alfageme, María
e3e122b0-9257-4911-959f-52dd918d4325
Briggs, Nathan
a53aa80d-785a-4ace-99d3-72fa05e94471
Baker, Chelsey Adrianne
66c098dd-5e13-4b03-a7e7-35122aef8f26
Bouman, Heather A
5f21cf59-afa4-42be-b826-c1ac2c6730c4
English, Chance
830e3c2c-41dc-4196-abec-8a86c8879196
Blackbird, Sabena
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Henson, Stephanie
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Venables, Hugh James
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Carlson, C.A.
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Moore, Mark
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Williams, Jack Rees
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Martin, Adrian P
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Le Moigne, Frédéric, Pabortsava, Katsiaryna, Villa-Alfageme, María, Briggs, Nathan, Baker, Chelsey Adrianne, Bouman, Heather A, English, Chance, Blackbird, Sabena, Henson, Stephanie, Venables, Hugh James, Carlson, C.A., Moore, Mark, Williams, Jack Rees and Martin, Adrian P (2025) Particle export fluxes in the southern ocean: Importance of nonheterotrophic processes in POC flux attenuation. Journal of Geophysical Research: Oceans, 130 (7), [e2024JC021607]. (doi:10.1029/2024JC021607).

Record type: Article

Abstract

The ocean contributes to regulating atmospheric CO2 levels via the biological carbon pump (BCP). One critical aspect of the BCP is the depth at which sinking particulate organic carbon (POC) remineralizes in the mesopelagic zone (200–1,000 m). In the Southern Ocean, the circulation is such that the products generated from POC remineralization may have drastically different fates depending on (a) the latitude at which sinking particulate material is produced and (b) the depth at which its remineralization occurs. Here, we assess latitudinal and depth variations of POC export marine aggregate abundance and composition in the Southeast Pacific sector of the Southern Ocean. We show changes in flux attenuation depth horizons in the upper mesopelagic in the subantarctic zone. These correspond to rapid particle accumulation below the depth of the euphotic zone followed by abrupt export. We believe that such rapid changes may be linked to diatom life cycles, including resting cell and spore formation and resulting changes in particle sinking velocities rather than attenuation due to heterotrophic degradation or solubilization in the upper mesopelagic zone. We further discuss the occurrence of such features in the Southern Ocean and at the global scale. Our results highlight the importance of alternative flux attenuation processes, such as sudden changes in particles sinking velocities, in explaining variability in organic carbon sequestration by the ocean's BCP.

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Accepted/In Press date: 18 June 2025
e-pub ahead of print date: 29 June 2025
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Identifiers

Local EPrints ID: 508458
URI: http://eprints.soton.ac.uk/id/eprint/508458
DOI: doi:10.1029/2024JC021607
ISSN: 2169-9275
PURE UUID: 918abe7e-362d-436c-bf38-a69205fd1191
ORCID for Chelsey Adrianne Baker: ORCID iD orcid.org/0000-0002-0840-2333
ORCID for Mark Moore: ORCID iD orcid.org/0000-0002-9541-6046

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Date deposited: 22 Jan 2026 17:41
Last modified: 24 Jan 2026 02:39

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Contributors

Author: Frédéric Le Moigne
Author: Katsiaryna Pabortsava
Author: María Villa-Alfageme
Author: Nathan Briggs
Author: Chelsey Adrianne Baker ORCID iD
Author: Heather A Bouman
Author: Chance English
Author: Sabena Blackbird
Author: Stephanie Henson
Author: Hugh James Venables
Author: C.A. Carlson
Author: Mark Moore ORCID iD
Author: Jack Rees Williams
Author: Adrian P Martin

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