Changes in holopelagic Sargassum spp. biomass composition across an unusual year
Changes in holopelagic Sargassum spp. biomass composition across an unusual year
The year 2021 marked a decade of holopelagic sargassum (morphotypes Sargassum natans I and VIII, and Sargassum fluitans III) stranding on the Caribbean and West African coasts. Beaching of millions of tons of sargassum negatively impacts coastal ecosystems, economies, and human health. Additionally, the La Soufrière volcano erupted in St. Vincent in April 2021, at the start of the sargassum season. We investigated potential monthly variations in morphotype abundance and biomass composition of sargassum harvested in Jamaica and assessed the influence of processing methods (shade-drying vs. frozen samples) and of volcanic ash exposure on biochemical and elemental components. S. fluitans III was the most abundant morphotype across the year. Limited monthly variations were observed for key brown algal components (phlorotannins, fucoxanthin, and alginate). Shade-drying did not significantly alter the contents of proteins but affected levels of phlorotannins, fucoxanthin, mannitol, and alginate. Simulation of sargassum and volcanic ash drift combined with age statistics suggested that sargassum potentially shared the surface layer with ash for ~50 d, approximately 100 d before stranding in Jamaica. Integrated elemental analysis of volcanic ash, ambient seawater, and sargassum biomass showed that algae harvested from August had accumulated P, Al, Fe, Mn, Zn, and Ni, probably from the ash, and contained less As. This ash fingerprint confirmed the geographical origin and drift timescale of sargassum. Since environmental conditions and processing methods influence biomass composition, efforts should continue to improve understanding, forecasting, monitoring, and valorizing sargassum, particularly as strandings of sargassum show no sign of abating.
algal blooms, biochemical composition, elemental composition, processing, volcanic ash
e2312173121
Machado, Carla Botelho
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Marsh, Robert
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Hargreaves, Jessica K.
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Oxenford, Hazel
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Maddix, Gina-Marie
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Webber, Dale F.
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Webber, Mona
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Tonon, Thierry
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4 June 2024
Machado, Carla Botelho
0e50aaa1-1e26-436d-94da-37557364b6fd
Marsh, Robert
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Hargreaves, Jessica K.
cd653da5-0724-491a-9c36-d610e7240a67
Oxenford, Hazel
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Maddix, Gina-Marie
46870dd6-f52d-440a-b681-3b461451d172
Webber, Dale F.
e975bd17-6a41-413d-b30c-1aea880a18b6
Webber, Mona
90afa42b-267d-4856-84f7-36ee58691c91
Tonon, Thierry
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Machado, Carla Botelho, Marsh, Robert, Hargreaves, Jessica K., Oxenford, Hazel, Maddix, Gina-Marie, Webber, Dale F., Webber, Mona and Tonon, Thierry
(2024)
Changes in holopelagic Sargassum spp. biomass composition across an unusual year.
Proceedings of the National Academy of Sciences, 121 (23), , [e2312173121].
(doi:10.1073/pnas.2312173121).
Abstract
The year 2021 marked a decade of holopelagic sargassum (morphotypes Sargassum natans I and VIII, and Sargassum fluitans III) stranding on the Caribbean and West African coasts. Beaching of millions of tons of sargassum negatively impacts coastal ecosystems, economies, and human health. Additionally, the La Soufrière volcano erupted in St. Vincent in April 2021, at the start of the sargassum season. We investigated potential monthly variations in morphotype abundance and biomass composition of sargassum harvested in Jamaica and assessed the influence of processing methods (shade-drying vs. frozen samples) and of volcanic ash exposure on biochemical and elemental components. S. fluitans III was the most abundant morphotype across the year. Limited monthly variations were observed for key brown algal components (phlorotannins, fucoxanthin, and alginate). Shade-drying did not significantly alter the contents of proteins but affected levels of phlorotannins, fucoxanthin, mannitol, and alginate. Simulation of sargassum and volcanic ash drift combined with age statistics suggested that sargassum potentially shared the surface layer with ash for ~50 d, approximately 100 d before stranding in Jamaica. Integrated elemental analysis of volcanic ash, ambient seawater, and sargassum biomass showed that algae harvested from August had accumulated P, Al, Fe, Mn, Zn, and Ni, probably from the ash, and contained less As. This ash fingerprint confirmed the geographical origin and drift timescale of sargassum. Since environmental conditions and processing methods influence biomass composition, efforts should continue to improve understanding, forecasting, monitoring, and valorizing sargassum, particularly as strandings of sargassum show no sign of abating.
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machado-et-al-2024-changes-in-holopelagic-sargassum-spp-biomass-composition-across-an-unusual-year
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Accepted/In Press date: 6 April 2024
Published date: 4 June 2024
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© 2024 the Author(s). Published by PNAS. This article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND).
Keywords:
algal blooms, biochemical composition, elemental composition, processing, volcanic ash
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Local EPrints ID: 490772
URI: http://eprints.soton.ac.uk/id/eprint/490772
ISSN: 0027-8424
PURE UUID: 010cb318-0356-45c6-a212-a513c4ae6ae8
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Date deposited: 06 Jun 2024 16:39
Last modified: 11 Jul 2024 00:17
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Author:
Carla Botelho Machado
Author:
Jessica K. Hargreaves
Author:
Hazel Oxenford
Author:
Gina-Marie Maddix
Author:
Dale F. Webber
Author:
Mona Webber
Author:
Thierry Tonon
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