Skillful Seasonal Forecast of Sargassum Proliferation in the Tropical Atlantic

The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its negative consequences on the environment, fishing, and socioeconomic activities when stranding on coastal areas. This recurrent phenomenon presents strong...

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Published in	Geophysical research letters Vol. 50; no. 21
Main Authors	Jouanno, Julien, Morvan, Guillaume, Berline, Léo, Benshila, Rachid, Aumont, Olivier, Sheinbaum, Julio, Ménard, Frederic
Format	Journal Article
Language	English
Published	Washington John Wiley & Sons, Inc 16.11.2023 American Geophysical Union Wiley
Subjects	Algae Annual variations Atlantic Biogeochemistry Coastal zone Decision making Environmental Sciences Fishing forecast Forecasting Mitigation Nutrients Pelagic fisheries Radiation Salinity Sargassum Satellites Seasonal distribution Seasonal forecasting skill Stranding West Africa
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Abstract	The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its negative consequences on the environment, fishing, and socioeconomic activities when stranding on coastal areas. This recurrent phenomenon presents strong seasonal and year to year variations. Anticipating the abundances and stranding on seasonal scale poses important challenges in terms of observations and modeling. We show that skillful seasonal forecast of Sargassum distribution can be achieved with up to 7 months in advance over the Tropical Atlantic, by integrating both transport and current knowledge on physiology of Sargassum. This forecast is designed to help marine stakeholders to develop mitigation and resilience strategies through anticipatory decision‐making. Plain Language Summary The Caribbean, Gulf of Mexico, and Tropical Atlantic are facing a massive and growing proliferation of floating brown algae (Sargassum) since 2011, whose environmental and socioeconomic impacts are immense. Observing, modeling, and forecasting the Sargassum proliferation and strandings are essential for designing effective integrated risk management strategies and is a strong and pressing demand from the civil society. The present study shows that a skillful forecast can be produced up to 7 months ahead of time by building on current knowledge on Sargassum physiology, mechanistic modeling, and remote sensing observations. Key Points A transport and physiology model of pelagic Sargassum has been developed Skillful seasonal forecast of Sargassum distribution can be achieved with up to 7 months in advance This forecast extends the current Sargassum observation and forecasting services
AbstractList	The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its negative consequences on the environment, fishing, and socioeconomic activities when stranding on coastal areas. This recurrent phenomenon presents strong seasonal and year to year variations. Anticipating the abundances and stranding on seasonal scale poses important challenges in terms of observations and modeling. We show that skillful seasonal forecast of Sargassum distribution can be achieved with up to 7 months in advance over the Tropical Atlantic, by integrating both transport and current knowledge on physiology of Sargassum. This forecast is designed to help marine stakeholders to develop mitigation and resilience strategies through anticipatory decision‐making. Plain Language Summary The Caribbean, Gulf of Mexico, and Tropical Atlantic are facing a massive and growing proliferation of floating brown algae (Sargassum) since 2011, whose environmental and socioeconomic impacts are immense. Observing, modeling, and forecasting the Sargassum proliferation and strandings are essential for designing effective integrated risk management strategies and is a strong and pressing demand from the civil society. The present study shows that a skillful forecast can be produced up to 7 months ahead of time by building on current knowledge on Sargassum physiology, mechanistic modeling, and remote sensing observations. Key Points A transport and physiology model of pelagic Sargassum has been developed Skillful seasonal forecast of Sargassum distribution can be achieved with up to 7 months in advance This forecast extends the current Sargassum observation and forecasting services Abstract The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its negative consequences on the environment, fishing, and socioeconomic activities when stranding on coastal areas. This recurrent phenomenon presents strong seasonal and year to year variations. Anticipating the abundances and stranding on seasonal scale poses important challenges in terms of observations and modeling. We show that skillful seasonal forecast of Sargassum distribution can be achieved with up to 7 months in advance over the Tropical Atlantic, by integrating both transport and current knowledge on physiology of Sargassum. This forecast is designed to help marine stakeholders to develop mitigation and resilience strategies through anticipatory decision‐making. The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its negative consequences on the environment, fishing, and socioeconomic activities when stranding on coastal areas. This recurrent phenomenon presents strong seasonal and year to year variations. Anticipating the abundances and stranding on seasonal scale poses important challenges in terms of observations and modeling. We show that skillful seasonal forecast of Sargassum distribution can be achieved with up to 7 months in advance over the Tropical Atlantic, by integrating both transport and current knowledge on physiology of Sargassum. This forecast is designed to help marine stakeholders to develop mitigation and resilience strategies through anticipatory decision‐making. The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its negative consequences on the environment, fishing, and socioeconomic activities when stranding on coastal areas. This recurrent phenomenon presents strong seasonal and year to year variations. Anticipating the abundances and stranding on seasonal scale poses important challenges in terms of observations and modeling. We show that skillful seasonal forecast of Sargassum distribution can be achieved with up to 7 months in advance over the Tropical Atlantic, by integrating both transport and current knowledge on physiology of Sargassum . This forecast is designed to help marine stakeholders to develop mitigation and resilience strategies through anticipatory decision‐making. The Caribbean, Gulf of Mexico, and Tropical Atlantic are facing a massive and growing proliferation of floating brown algae ( Sargassum ) since 2011, whose environmental and socioeconomic impacts are immense. Observing, modeling, and forecasting the Sargassum proliferation and strandings are essential for designing effective integrated risk management strategies and is a strong and pressing demand from the civil society. The present study shows that a skillful forecast can be produced up to 7 months ahead of time by building on current knowledge on Sargassum physiology, mechanistic modeling, and remote sensing observations. A transport and physiology model of pelagic Sargassum has been developed Skillful seasonal forecast of Sargassum distribution can be achieved with up to 7 months in advance This forecast extends the current Sargassum observation and forecasting services
Author	Ménard, Frederic Aumont, Olivier Berline, Léo Benshila, Rachid Sheinbaum, Julio Morvan, Guillaume Jouanno, Julien
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Snippet	The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its negative... The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its negative... Abstract The large‐scale proliferation of pelagic Sargassum in the Tropical Atlantic from 2011 has been the subject of increasing attention because of its...
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SubjectTerms	Algae Annual variations Atlantic Biogeochemistry Coastal zone Decision making Environmental Sciences Fishing forecast Forecasting Mitigation Nutrients Pelagic fisheries Radiation Salinity Sargassum Satellites Seasonal distribution Seasonal forecasting skill Stranding
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Title	Skillful Seasonal Forecast of Sargassum Proliferation in the Tropical Atlantic
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