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Species-specific diatom dynamics shape their vertical distribution and export during bloom decline

Species-specific diatom dynamics shape their vertical distribution and export during bloom decline
Species-specific diatom dynamics shape their vertical distribution and export during bloom decline

The Southern Ocean is a critical region for global biogeochemical cycles, particularly for carbon dioxide uptake and organic carbon export, partly driven by extensive phytoplankton blooms. In naturally iron-fertilized regions of this otherwise iron-limited ocean, these blooms are primarily driven by diatoms. Variability in bloom occurrences on spatiotemporal scales makes it challenging to track and understand a bloom's decline and associated carbon export. Moreover, species-specific processes may be critical yet are typically not well resolved. Here, we use state-of-the-art in situ imaging, producing high-resolution vertical profiles of phytoplankton and particles, combined with water sampling, to resolve the decline of a Southern Ocean spring bloom. We observed significant vertical and temporal changes in particle and diatom composition and abundance. Fragilariopsis kerguelensis showed deepening abundance peaks correlating with silicic acid gradients and water density changes, while their chain lengths decreased likely due to nutrient stress and physical breakage. High downward fluxes of F. kerguelensis and concentrations below the mixed later suggest they were a key contributor to carbon export and transfer. Conversely, Eucampia antarctica exhibited a rapid decline in surface abundance with minimal vertical redistribution and low fluxes, potentially linked to changing environmental conditions. These findings highlight species-specific responses to environmental conditions and implications for carbon processes. Measured values of the apparent photosynthetic efficiency (Fv/Fm) suggests that photosynthetically viable diatoms were a significant contributor to export and particle biomass in the upper mesopelagic zone. Our results underscore the importance of understanding individual species dynamics for oceanic carbon and nutrient cycles.

0024-3590
959-976
Giering, S.L.C.
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Carvalho, Filipa
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Iversen, Morten
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Liu, Zonghua
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Mercheirs, Oceane
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Moore, C. Mark
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Ockwell, Michael
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Passow, Uta
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Poulton, Alex
b2e083e0-837f-4236-9ac3-a75f67bf0266
Romanelli, Elisa
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Thevar, Thangavel
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Sanders, Richard
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Giering, S.L.C.
0188d764-1647-4694-8e28-099e970d5e84
Carvalho, Filipa
36e42d6d-2fe2-444d-9c23-0d49194bbe4e
Iversen, Morten
2a6ac285-5121-4cb9-93a7-4ead156a1427
Liu, Zonghua
76b789cb-cddf-49c2-89dd-ca8a56997486
Mercheirs, Oceane
5ee61d01-94cf-4020-a3ad-621dd39b88ab
Moore, C. Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Ockwell, Michael
b7ade674-9dbd-44d5-9498-04a80a808450
Passow, Uta
56cfacd9-3579-4418-b17c-99d818fa7a2a
Poulton, Alex
b2e083e0-837f-4236-9ac3-a75f67bf0266
Romanelli, Elisa
620cea55-e7b7-46c7-847f-1d8ba3eee7c3
Thevar, Thangavel
06bf7cc7-cf72-422e-a77b-9d1f55a2b3b1
Sanders, Richard
a6643b6c-eaea-442d-86a9-89eb17089f41

Giering, S.L.C., Carvalho, Filipa, Iversen, Morten, Liu, Zonghua, Mercheirs, Oceane, Moore, C. Mark, Ockwell, Michael, Passow, Uta, Poulton, Alex, Romanelli, Elisa, Thevar, Thangavel and Sanders, Richard (2025) Species-specific diatom dynamics shape their vertical distribution and export during bloom decline. Limnology and Oceanography, 70 (4), 959-976. (doi:10.1002/lno.12818).

Record type: Article

Abstract

The Southern Ocean is a critical region for global biogeochemical cycles, particularly for carbon dioxide uptake and organic carbon export, partly driven by extensive phytoplankton blooms. In naturally iron-fertilized regions of this otherwise iron-limited ocean, these blooms are primarily driven by diatoms. Variability in bloom occurrences on spatiotemporal scales makes it challenging to track and understand a bloom's decline and associated carbon export. Moreover, species-specific processes may be critical yet are typically not well resolved. Here, we use state-of-the-art in situ imaging, producing high-resolution vertical profiles of phytoplankton and particles, combined with water sampling, to resolve the decline of a Southern Ocean spring bloom. We observed significant vertical and temporal changes in particle and diatom composition and abundance. Fragilariopsis kerguelensis showed deepening abundance peaks correlating with silicic acid gradients and water density changes, while their chain lengths decreased likely due to nutrient stress and physical breakage. High downward fluxes of F. kerguelensis and concentrations below the mixed later suggest they were a key contributor to carbon export and transfer. Conversely, Eucampia antarctica exhibited a rapid decline in surface abundance with minimal vertical redistribution and low fluxes, potentially linked to changing environmental conditions. These findings highlight species-specific responses to environmental conditions and implications for carbon processes. Measured values of the apparent photosynthetic efficiency (Fv/Fm) suggests that photosynthetically viable diatoms were a significant contributor to export and particle biomass in the upper mesopelagic zone. Our results underscore the importance of understanding individual species dynamics for oceanic carbon and nutrient cycles.

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Limnology Oceanography - 2025 - Giering - Species‐specific diatom dynamics shape their vertical distribution and export - Version of Record
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Accepted/In Press date: 24 January 2024
e-pub ahead of print date: 22 March 2025
Published date: 25 April 2025

Identifiers

Local EPrints ID: 500381
URI: http://eprints.soton.ac.uk/id/eprint/500381
DOI: doi:10.1002/lno.12818
ISSN: 0024-3590
PURE UUID: e470f305-a669-49e1-9627-764c00f847d7
ORCID for C. Mark Moore: ORCID iD orcid.org/0000-0002-9541-6046

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Date deposited: 28 Apr 2025 16:56
Last modified: 22 Aug 2025 01:45

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Contributors

Author: S.L.C. Giering
Author: Filipa Carvalho
Author: Morten Iversen
Author: Zonghua Liu
Author: Oceane Mercheirs
Author: C. Mark Moore ORCID iD
Author: Michael Ockwell
Author: Uta Passow
Author: Alex Poulton
Author: Elisa Romanelli
Author: Thangavel Thevar
Author: Richard Sanders

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