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Climate-sargassum interactions across scales in the tropical Atlantic

Climate-sargassum interactions across scales in the tropical Atlantic
Climate-sargassum interactions across scales in the tropical Atlantic
The impacts of climate change on ecosystems are highly uncertain but potentially profound. One such impact may be the emergence of extensive mats of seaweed (macroalgae), due to the extraordinary proliferation of pelagic sargassum species, in the tropical Atlantic since 2011. Sargassum blooms are now an annual event and reached record levels across what is now known as the ‘Great Atlantic Sargassum Belt’ (GASB) in summer 2022. Monitoring across scales, from satellite surveillance to in-situ beach surveys, is bringing step changes in process-level understanding of sargassum. Physical and biogeochemical drivers of sargassum act at basin scale to shape the GASB, highly variable from year to year. In the local environment, sargassum is sensitive to ambient conditions, with new findings confirming that growth rates are temperature dependent. Multidecadal ocean warming may therefore be detrimental to sargassum, although projected changes in other drivers are uncertain. Emerging options for climate change action around sargassum include valorisation and carbon sequestration, although uncertainties are again considerable. In conclusion, the emergence of sargassum across the tropical Atlantic highlights interconnected systems that embrace physical, biogeochemical, and socioeconomic dimensions, with considerable scope for improved monitoring, process-level understanding and prediction.
Marsh, Robert
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Skliris, Nikolaos
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Tompkins, Emma L.
a6116704-7140-4e37-bea1-2cbf39b138c3
Dash, Jadunandan
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Almela, Victoria Dominguez
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Tonon, Thierry
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Oxenford, Hazel A.
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Webber, Mona
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Marsh, Robert
702c2e7e-ac19-4019-abd9-a8614ab27717
Skliris, Nikolaos
07af7484-2e14-49aa-9cd3-1979ea9b064e
Tompkins, Emma L.
a6116704-7140-4e37-bea1-2cbf39b138c3
Dash, Jadunandan
51468afb-3d56-4d3a-aace-736b63e9fac8
Almela, Victoria Dominguez
c46c331c-e5ba-4da9-8f58-207a4999e02e
Tonon, Thierry
0eabb738-cb4b-4818-b0e8-106a4e0d696f
Oxenford, Hazel A.
29104ad8-b2b9-4678-bba0-ab64032764be
Webber, Mona
90afa42b-267d-4856-84f7-36ee58691c91

Marsh, Robert, Skliris, Nikolaos, Tompkins, Emma L., Dash, Jadunandan, Almela, Victoria Dominguez, Tonon, Thierry, Oxenford, Hazel A. and Webber, Mona (2023) Climate-sargassum interactions across scales in the tropical Atlantic. PLOS Climate, 2 (7), [e0000253]. (doi:10.1371/journal.pclm.0000253).

Record type: Article

Abstract

The impacts of climate change on ecosystems are highly uncertain but potentially profound. One such impact may be the emergence of extensive mats of seaweed (macroalgae), due to the extraordinary proliferation of pelagic sargassum species, in the tropical Atlantic since 2011. Sargassum blooms are now an annual event and reached record levels across what is now known as the ‘Great Atlantic Sargassum Belt’ (GASB) in summer 2022. Monitoring across scales, from satellite surveillance to in-situ beach surveys, is bringing step changes in process-level understanding of sargassum. Physical and biogeochemical drivers of sargassum act at basin scale to shape the GASB, highly variable from year to year. In the local environment, sargassum is sensitive to ambient conditions, with new findings confirming that growth rates are temperature dependent. Multidecadal ocean warming may therefore be detrimental to sargassum, although projected changes in other drivers are uncertain. Emerging options for climate change action around sargassum include valorisation and carbon sequestration, although uncertainties are again considerable. In conclusion, the emergence of sargassum across the tropical Atlantic highlights interconnected systems that embrace physical, biogeochemical, and socioeconomic dimensions, with considerable scope for improved monitoring, process-level understanding and prediction.

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e-pub ahead of print date: 19 July 2023

Identifiers

Local EPrints ID: 481258
URI: http://eprints.soton.ac.uk/id/eprint/481258
DOI: doi:10.1371/journal.pclm.0000253
PURE UUID: cef579fb-9107-4640-8a4b-7cc4c1fc104d
ORCID for Nikolaos Skliris: ORCID iD orcid.org/0000-0002-2473-2586
ORCID for Emma L. Tompkins: ORCID iD orcid.org/0000-0002-4825-9797
ORCID for Jadunandan Dash: ORCID iD orcid.org/0000-0002-5444-2109
ORCID for Victoria Dominguez Almela: ORCID iD orcid.org/0000-0003-4877-5967

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Date deposited: 21 Aug 2023 16:58
Last modified: 18 Mar 2024 03:19

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Contributors

Author: Robert Marsh
Author: Nikolaos Skliris ORCID iD
Author: Emma L. Tompkins ORCID iD
Author: Jadunandan Dash ORCID iD
Author: Victoria Dominguez Almela ORCID iD
Author: Thierry Tonon
Author: Hazel A. Oxenford
Author: Mona Webber

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