Tracking and detecting sargassum pathways across the Tropical Atlantic
Tracking and detecting sargassum pathways across the Tropical Atlantic
Pelagic sargassum (S. fluitans and S. natans) algal blooms and beach landings have become a regular occurrence in the Tropical Atlantic Basin since 2011; they have a variety of impacts on the marine ecosystem and blue economy. To reduce the impacts and enable effective management, forecasting and monitoring of the blooms are essential. Challenges associated with use of satellite imagery for sargassum detection in the Tropical Atlantic are spatial resolution and cloud cover, which is particularly dense in this region due to the inter-tropical convergence zone, tropical storms and hurricanes. Successful models of forecasting and prediction of pelagic sargassum are hindered by unreliable satellite data, uncertainty around windage and as well as growth and mortality. In the longer term, we aim to improve the forecast models of pelagic sargassum mat movements in open oceans by introducing evidence of the speed of travel, changing mat morphology, and size and health status of sargassum mats. To achieve this, we deployed eight trackers on floating sargassum mats in the Western Tropical Atlantic. In addition, we explore the coincidence of surface currents, wind stress and sea surface temperature as a parameter for growth on the tracker pathways. When used in conjunction with both remote sensing methods and climate data (wind, current and sea temperature), we find that GPS tracker data can facilitate more reliable monitoring of sargassum transport pathways, helps to overcome satellite-based challenges as well as model based uncertainties, and may improve the accuracy and general utility of sargassum early warning systems.
Fidai, Yanna Alexia
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Dash, Jadu
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Marsh, Robert
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Oxenford, Hazel
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Biermann, Lauren
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Martin, Nicola
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Tompkins, Emma
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12 December 2023
Fidai, Yanna Alexia
941762b1-5865-4263-9b51-268e9ce148a5
Dash, Jadu
51468afb-3d56-4d3a-aace-736b63e9fac8
Marsh, Robert
702c2e7e-ac19-4019-abd9-a8614ab27717
Oxenford, Hazel
1e6243ac-340b-48eb-8129-02c794ec826d
Biermann, Lauren
dee0d16a-1689-4718-9da1-3f53c74001d7
Martin, Nicola
a05798b7-0f21-4108-a091-999c51f345dc
Tompkins, Emma
a6116704-7140-4e37-bea1-2cbf39b138c3
Fidai, Yanna Alexia, Dash, Jadu, Marsh, Robert, Oxenford, Hazel, Biermann, Lauren, Martin, Nicola and Tompkins, Emma
(2023)
Tracking and detecting sargassum pathways across the Tropical Atlantic.
Environmental Research Communications.
(doi:10.1088/2515-7620/ad14a3).
Abstract
Pelagic sargassum (S. fluitans and S. natans) algal blooms and beach landings have become a regular occurrence in the Tropical Atlantic Basin since 2011; they have a variety of impacts on the marine ecosystem and blue economy. To reduce the impacts and enable effective management, forecasting and monitoring of the blooms are essential. Challenges associated with use of satellite imagery for sargassum detection in the Tropical Atlantic are spatial resolution and cloud cover, which is particularly dense in this region due to the inter-tropical convergence zone, tropical storms and hurricanes. Successful models of forecasting and prediction of pelagic sargassum are hindered by unreliable satellite data, uncertainty around windage and as well as growth and mortality. In the longer term, we aim to improve the forecast models of pelagic sargassum mat movements in open oceans by introducing evidence of the speed of travel, changing mat morphology, and size and health status of sargassum mats. To achieve this, we deployed eight trackers on floating sargassum mats in the Western Tropical Atlantic. In addition, we explore the coincidence of surface currents, wind stress and sea surface temperature as a parameter for growth on the tracker pathways. When used in conjunction with both remote sensing methods and climate data (wind, current and sea temperature), we find that GPS tracker data can facilitate more reliable monitoring of sargassum transport pathways, helps to overcome satellite-based challenges as well as model based uncertainties, and may improve the accuracy and general utility of sargassum early warning systems.
Text
Fidai+et+al_2023_Environ._Res._Commun._10.1088_2515-7620_ad14a3
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Published date: 12 December 2023
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Local EPrints ID: 485648
URI: http://eprints.soton.ac.uk/id/eprint/485648
ISSN: 2515-7620
PURE UUID: dbe8460e-acee-4231-a474-5d3d518a70b7
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Date deposited: 13 Dec 2023 17:36
Last modified: 18 Mar 2024 03:53
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Author:
Hazel Oxenford
Author:
Lauren Biermann
Author:
Nicola Martin
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