Fidai, YA, Dash, J, Tompkins, E, Atiglo, DY, Jayson-Quashigah, P-N, Sowah, WNA and Addo, KA 2025 Sargassum Biomass Movement and Proliferation in the Eastern Tropical Atlantic. Phycology, 5 (2). 17. 10.3390/phycology5020017
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Abstract/Summary
Since 2011, pelagic sargassum blooms (S. fluitans and S. natans) have impacted coastal communities, aquaculture, tourism, and biodiversity across the Tropical Atlantic region. Whilst the initial event is generally attributed to an anomalous North Atlantic Oscillation (2009–2010), the drivers of sargassum movement and proliferation remain unclear. This research gap is particularly evident in West Africa, where annual and seasonal sargassum variability is under-researched, and a lack of consensus exists on seasonal and annual trends. This paper addresses these gaps by (1) providing a first attempt at characterising the seasonal and annual trends of sargassum biomass in the Eastern Tropical Atlantic, through using satellite imagery to create a time-series for 2011–2022; and (2) exploring the hypothetical drivers of movement and proliferation of sargassum for this area, through assessing its co-variation with potential drivers including atmospheric, oceanic, and policy, establishing a historical timeline of events. The time-series analysis reveals an annual biomass peak in September and a second peak between March and May. The exploration of potential drivers reveals that alongside sea surface temperature there are multiple factors that could be influencing sargassum biomass, and that further research is necessary to clarify primary and secondary drivers. The results contribute to understanding drivers, impacts, and predictions of sargassum blooms in the Eastern Tropical Atlantic. We anticipate that our findings will enable sargassum-affected areas to better anticipate the size and timing of sargassum events in West Africa and offer researchers a new perspective on possible drivers of proliferation within the wider Tropical Atlantic region.
Item Type: | Publication - Article |
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Additional Keywords: | atmospheric; macroalgae; oceanic; policy; remote sensing; trends; West Africa |
Divisions: | Plymouth Marine Laboratory > Science Areas > Earth Observation Science and Applications (expired) |
Depositing User: | S Hawkins |
Date made live: | 06 Aug 2025 13:47 |
Last Modified: | 06 Aug 2025 13:47 |
URI: | https://plymsea.ac.uk/id/eprint/10491 |
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