Nutrient limitation regimes control sunlight-stimulated chlorophyll fluorescence in the South Atlantic Ocean
Nutrient limitation regimes control sunlight-stimulated chlorophyll fluorescence in the South Atlantic Ocean
Sunlight-stimulated chlorophyll fluorescence offers potential for assessing phytoplankton physiological status at broad scales detected by satellites, but controls on these signals are poorly constrained. In this study, we present a comprehensive, high-resolution dataset of passive chlorophyll fluorescence alongside potential physical and biogeochemical drivers collected across the Benguela upwelling system and South Atlantic Subtropical Gyre. The nutrient limitation status of phytoplankton was assessed through 27 onboard bioassay experiments. A consistent and significant difference in light-saturated, passive chlorophyll fluorescence normalized to phytoplankton absorption (
) was observed between waters where phytoplankton were either iron or nitrogen limited, with iron limited regions showing threefold higher
compared to nitrogen limited regions. When interpreted alongside the results of the bioassay experiments, we found that neither variability in physical forcing (temperature, mixing, light climate) or phytoplankton community structure could explain the major variability in
. These results provide direct field-based evidence that passive chlorophyll fluorescence is sensitive to phytoplankton nutrient limitation and demonstrates potential for observation at high spatial and temporal resolution using satellite observations.
Robinson, Tiera-Brandy
994c9c94-dc00-45c0-b576-30a78acec965
Liu, Haoran
3313b052-879c-4fb5-839a-aa1eb4c58c4f
Garaba, Shungudzemwoyo P.
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Voss, Daniela
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Schuback, Nina
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Moore, Mark
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Oxborough, Kevin
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Achterberg, Eric
da742b45-3cf2-4ab4-8a51-1da00254c686
Browning, Thomas J.
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7 December 2025
Robinson, Tiera-Brandy
994c9c94-dc00-45c0-b576-30a78acec965
Liu, Haoran
3313b052-879c-4fb5-839a-aa1eb4c58c4f
Garaba, Shungudzemwoyo P.
729c0230-cdc6-4f5c-9e6c-47d06e37f7d6
Voss, Daniela
73e5ddd3-3229-4cfe-8a4d-9d9ac1987358
Schuback, Nina
790ed593-f053-43f6-80d7-9040ae604b60
Moore, Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Oxborough, Kevin
16d1da54-ed48-400e-9acf-d03536a1401e
Achterberg, Eric
da742b45-3cf2-4ab4-8a51-1da00254c686
Browning, Thomas J.
5ca7f9b5-c1cd-493a-aed1-b371006a59e4
Robinson, Tiera-Brandy, Liu, Haoran, Garaba, Shungudzemwoyo P., Voss, Daniela, Schuback, Nina, Moore, Mark, Oxborough, Kevin, Achterberg, Eric and Browning, Thomas J.
(2025)
Nutrient limitation regimes control sunlight-stimulated chlorophyll fluorescence in the South Atlantic Ocean.
Communications Earth & Environment, 7 (43).
(doi:10.1038/s43247-025-03067-6).
Abstract
Sunlight-stimulated chlorophyll fluorescence offers potential for assessing phytoplankton physiological status at broad scales detected by satellites, but controls on these signals are poorly constrained. In this study, we present a comprehensive, high-resolution dataset of passive chlorophyll fluorescence alongside potential physical and biogeochemical drivers collected across the Benguela upwelling system and South Atlantic Subtropical Gyre. The nutrient limitation status of phytoplankton was assessed through 27 onboard bioassay experiments. A consistent and significant difference in light-saturated, passive chlorophyll fluorescence normalized to phytoplankton absorption (
) was observed between waters where phytoplankton were either iron or nitrogen limited, with iron limited regions showing threefold higher
compared to nitrogen limited regions. When interpreted alongside the results of the bioassay experiments, we found that neither variability in physical forcing (temperature, mixing, light climate) or phytoplankton community structure could explain the major variability in
. These results provide direct field-based evidence that passive chlorophyll fluorescence is sensitive to phytoplankton nutrient limitation and demonstrates potential for observation at high spatial and temporal resolution using satellite observations.
Text
s43247-025-03067-6
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Accepted/In Press date: 25 November 2025
Published date: 7 December 2025
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Local EPrints ID: 508409
URI: http://eprints.soton.ac.uk/id/eprint/508409
PURE UUID: cd104913-d611-40fa-a6f4-0964de8b138b
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Date deposited: 20 Jan 2026 18:01
Last modified: 21 Jan 2026 02:36
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Contributors
Author:
Tiera-Brandy Robinson
Author:
Haoran Liu
Author:
Shungudzemwoyo P. Garaba
Author:
Daniela Voss
Author:
Nina Schuback
Author:
Kevin Oxborough
Author:
Eric Achterberg
Author:
Thomas J. Browning
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