Extreme Coastal Water Levels Evolution at Dakar (Senegal, West Africa)

Cheikh Omar Tidjani Cissé; Rafael Almar; Jean Paul Marcel Youm; Serge Jolicoeur; Adelaide Taveneau; Boubou Aldiouma Sy; Issa Sakho; Bamol Ali Sow; Habib Dieng

doi:10.3390/cli11010006

Climate (Dec 2022)

Extreme Coastal Water Levels Evolution at Dakar (Senegal, West Africa)

Cheikh Omar Tidjani Cissé,
Rafael Almar,
Jean Paul Marcel Youm,
Serge Jolicoeur,
Adelaide Taveneau,
Boubou Aldiouma Sy,
Issa Sakho,
Bamol Ali Sow,
Habib Dieng

Affiliations

Cheikh Omar Tidjani Cissé: Laboratory Leïdi “Dynamics of the Territories and Development”, Department of Geography, University Gaston Berger, Saint-Louis BP 234, Senegal
Rafael Almar: Laboratory of Geophysical and Oceanographic Spatial Studies, University of Toulouse/CNRS/IRD/CNES, CEDEX 9, 31999 Toulouse, France
Jean Paul Marcel Youm: Laboratory of Biostratigraphy and Sedimentology, Department of Geology, Faculty of Science and Technology, Cheikh Anta Diop University of Dakar, Dakar BP 5005, Senegal
Serge Jolicoeur: Faculty of Arts and Social Sciences, Canada Department of History and Geography, University of Moncton, Moncton, NB E1A 3E9, Canada
Adelaide Taveneau: Laboratory of Geophysical and Oceanographic Spatial Studies, University of Toulouse/CNRS/IRD/CNES, CEDEX 9, 31999 Toulouse, France
Boubou Aldiouma Sy: Laboratory Leïdi “Dynamics of the Territories and Development”, Department of Geography, University Gaston Berger, Saint-Louis BP 234, Senegal
Issa Sakho: Université Amadou Mahtar Mbow de Dakar, Dakar BP 45927, Senegal
Bamol Ali Sow: Laboratory of Oceanography, Environmental Sciences and Climate (LOSEC), University Assane Seck, Ziguinchor BP 523, Senegal
Habib Dieng: Laboratory of Oceanography, Environmental Sciences and Climate (LOSEC), University Assane Seck, Ziguinchor BP 523, Senegal

DOI: https://doi.org/10.3390/cli11010006
Journal volume & issue: Vol. 11, no. 1
p. 6

Abstract

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Increasingly, it is reported that the coastline of the Dakar region is affected by coastal flooding due to extreme water levels during wave events. Here, we quantify the extreme coastal water levels as well as the different factors contributing to coastal flooding during the period 1994–2015. Severe water levels reach values of 1.78 m and increase by 8.4 mm/year. The time spent above this threshold has already increased by 1.7 over the study period and will increase by 2100 to 8 times with 0.4 m mean sea level rise and up to 20 times with 0.8 m in the IPCC low and high greenhouse gas emission scenarios, respectively. Tide is the main contributor to the extremes when combined with large wave runup, due to wave breaking which contributes to 38% of the increase in extreme events while sea level rises to 44%. Our results show that because of its prominent location, Dakar region is affected by waves coming from the Northern and Southern Hemispheres with contrasted evolutions: wave runup events increase faster (7 mm/year) during austral winter due to a maximum of the South Atlantic storm activity, and have a decreasing trend (−3 mm/year) during boreal winter (December, January, February) driven by the evolution of corresponding climate modes.

Published in Climate

ISSN: 2225-1154 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science
Website: http://www.mdpi.com/journal/climate

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