Pelagic Sargassum events in Jamaica: Provenance, morphotype abundance, and influence of sample processing on biochemical composition of the biomass
Pelagic Sargassum events in Jamaica: Provenance, morphotype abundance, and influence of sample processing on biochemical composition of the biomass
Pelagic Sargassum species have been known for centuries in the Sargasso Sea of the North Atlantic Ocean. In 2011, a new area concentrating high biomass of these brown algae started developing in the Tropical Atlantic Ocean. Since then, massive and recurrent Sargassum influxes have been reported in the Caribbean and off the coast of Western Africa. These Sargassum events have a major negative impact on coastal ecosystems and nearshore marine life, and affect socio-economic sectors, including public health, coastal living, tourism, fisheries, andmaritime transport. Despite recent advances in the forecasting of Sargassum events, and elucidation of the seaweed composition, many knowledge gaps remain, including morphotype abundance during Sargassum events, drift of the seaweeds in the months prior to stranding, and influence of sample processing methods on biomass biochemical composition. Using seaweeds harvested on the coasts of Jamaica in summer of 2020,we observed that S. fluitans III was themost abundantmorphotype at different times and sampling locations. No clear difference in the geographical origin, or provenance, of the Sargassummats was observed. Themajority of Sargassumbacktracked fromboth north and south of Jamaica experienced ambient temperatures of around 27 °C and salinity in the range of 34–36 psu before stranding.We also showed that cheap (sun) compared to expensive (freeze) drying techniques influence the biochemical composition of biomass. Sun-drying increased the proportion of phenolic compounds, but had a deleterious impact on fucoxanthin content and on the quantities of monosaccharides, except for mannitol. Effects on the content of fucose containing sulfated polysaccharides depended on the method used for their extraction, and limited variation was observed in ash, protein, and fatty acid content within most of the sample locations investigated. These observations are important for the storage and transport of the biomass in the context of its valorisation.
Backtracking, Biochemical composition, Caribbean, Sargassum
Machado, Carla Botelho
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Maddix, Gina-Marie
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Francis, Patrice
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Thomas, Shanna-Lee
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Burton, Jodi-Ann
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Langer, Swen
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Larson, Tony R.
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Marsh, Robert
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Webber, Mona
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Tonon, Thierry
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15 April 2022
Machado, Carla Botelho
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Maddix, Gina-Marie
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Francis, Patrice
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Thomas, Shanna-Lee
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Burton, Jodi-Ann
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Langer, Swen
98688c16-e229-42ee-b69b-818a66eeacc1
Larson, Tony R.
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Marsh, Robert
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Webber, Mona
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Tonon, Thierry
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Machado, Carla Botelho, Maddix, Gina-Marie, Francis, Patrice, Thomas, Shanna-Lee, Burton, Jodi-Ann, Langer, Swen, Larson, Tony R., Marsh, Robert, Webber, Mona and Tonon, Thierry
(2022)
Pelagic Sargassum events in Jamaica: Provenance, morphotype abundance, and influence of sample processing on biochemical composition of the biomass.
Science of the Total Environment, 817, [152761].
(doi:10.1016/j.scitotenv.2021.152761).
Abstract
Pelagic Sargassum species have been known for centuries in the Sargasso Sea of the North Atlantic Ocean. In 2011, a new area concentrating high biomass of these brown algae started developing in the Tropical Atlantic Ocean. Since then, massive and recurrent Sargassum influxes have been reported in the Caribbean and off the coast of Western Africa. These Sargassum events have a major negative impact on coastal ecosystems and nearshore marine life, and affect socio-economic sectors, including public health, coastal living, tourism, fisheries, andmaritime transport. Despite recent advances in the forecasting of Sargassum events, and elucidation of the seaweed composition, many knowledge gaps remain, including morphotype abundance during Sargassum events, drift of the seaweeds in the months prior to stranding, and influence of sample processing methods on biomass biochemical composition. Using seaweeds harvested on the coasts of Jamaica in summer of 2020,we observed that S. fluitans III was themost abundantmorphotype at different times and sampling locations. No clear difference in the geographical origin, or provenance, of the Sargassummats was observed. Themajority of Sargassumbacktracked fromboth north and south of Jamaica experienced ambient temperatures of around 27 °C and salinity in the range of 34–36 psu before stranding.We also showed that cheap (sun) compared to expensive (freeze) drying techniques influence the biochemical composition of biomass. Sun-drying increased the proportion of phenolic compounds, but had a deleterious impact on fucoxanthin content and on the quantities of monosaccharides, except for mannitol. Effects on the content of fucose containing sulfated polysaccharides depended on the method used for their extraction, and limited variation was observed in ash, protein, and fatty acid content within most of the sample locations investigated. These observations are important for the storage and transport of the biomass in the context of its valorisation.
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Accepted/In Press date: 25 December 2021
e-pub ahead of print date: 8 January 2022
Published date: 15 April 2022
Additional Information:
Funding Information:
This work was supported by the Economic and Social Research Council [grant number ES/T002964/1 ]. The authors thank Dr Michael Ross for sharing insights on protein determination in seaweed samples, Dr Nicola Oates, Rachael Simister and Dr Leonardo Gomez for their help with the fucoxanthin analysis, and Rachael Simister and Dr Leonardo Gomez for their assistance with the determination of monosaccharide content.
Publisher Copyright:
© 2022 The Authors
Keywords:
Backtracking, Biochemical composition, Caribbean, Sargassum
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Local EPrints ID: 470363
URI: http://eprints.soton.ac.uk/id/eprint/470363
ISSN: 0048-9697
PURE UUID: 88e66fc6-5dff-4688-896f-26524f94208c
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Date deposited: 07 Oct 2022 16:31
Last modified: 16 Mar 2024 22:06
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Author:
Carla Botelho Machado
Author:
Gina-Marie Maddix
Author:
Patrice Francis
Author:
Shanna-Lee Thomas
Author:
Jodi-Ann Burton
Author:
Swen Langer
Author:
Tony R. Larson
Author:
Mona Webber
Author:
Thierry Tonon
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