Quantifying future climate extreme indices: implications for sustainable urban development in West Africa, with a focus on the greater Accra region

Ebenezer Kwadwo Siabi; Edward Abingya Awafo; Amos Tiereyangn Kabobah; Nana Sarfo Agyeman Derkyi; Komlavi Akpoti; Geophrey Kwame Anornu; Mashael Yazdanie

doi:10.1007/s43621-024-00352-w

Discover Sustainability (Jul 2024)

Quantifying future climate extreme indices: implications for sustainable urban development in West Africa, with a focus on the greater Accra region

Ebenezer Kwadwo Siabi,
Edward Abingya Awafo,
Amos Tiereyangn Kabobah,
Nana Sarfo Agyeman Derkyi,
Komlavi Akpoti,
Geophrey Kwame Anornu,
Mashael Yazdanie

Affiliations

Ebenezer Kwadwo Siabi: Earth Observation Research and Innovation Center (EORIC), University of Energy and Natural Resources
Edward Abingya Awafo: Department of Agricultural and Bioresources Engineering, University of Energy and Natural Resources
Amos Tiereyangn Kabobah: Department of Civil and Environmental Engineering, University of Energy and Natural Resources
Nana Sarfo Agyeman Derkyi: Department of Renewable Energy Engineering, University of Energy and Natural Resources
Komlavi Akpoti: International Water Management Institute (IWMI)
Geophrey Kwame Anornu: Department of Civil Engineering, Kwame Nkrumah University of Science and Technology
Mashael Yazdanie: Urban Energy Systems Laboratory, Empa, Swiss Federal Laboratories for Materials Science and Technology

DOI: https://doi.org/10.1007/s43621-024-00352-w
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 39

Abstract

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Abstract Climate change leading to Climate extremes in the twenty-first century is more evident in megacities across the world, especially in West Africa. The Greater Accra region is one of the most populated regions in West Africa. As a result, the region has become more susceptible to climate extremes such as floods, heatwaves, and droughts. The study employed the Coupled Model Intercomparison Project 6 models in simulating climate extreme indices under the Shared Socioeconomic Pathway scenarios (SSPs) over West Africa between 1979 and 2059 as exemplified by the Greater Accra region. The study observed a generally weak drought in the historical period and expected to intensify especially under SSP585 in Greater Accra. For instance, continuous dry days (CDD) reveal an increasing trend under the SSPs. Similarly, the overall projected trend of CDD over West Africa reveals an increase signifying a more frequent and longer drought in the future. The flood indices revealed a surge in the intensity and duration of extreme precipitation events under the SSPs in the region. For instance, R99pTOT and Rx5days are expected to significantly increase under the SSPs with intensification under the SSP245, SSP370, and SSP585. A similar trend has been projected across West Africa, especially along the Guinean coast. The study foresees a gradual and intensifying rise in heatwave indices over the Greater Accra region. The warming and cooling indices reveal an increasing and decreasing trend respectively in the historical period as well as under the SSPs particularly within urban centers like Accra and Tema. Most West African countries are projected to observe more frequent warm days and nights with cold nights and days becoming less frequent. Expected effects of future climate extreme indices pose potential threats to the water, food, and energy systems as well as trigger recurrent floods and droughts over Greater Accra. The findings of the study are expected to inform climate policies and the nationally determined contribution of the Paris Agreement as well as address the sustainable development goal 11 (Sustainable cities) and 13 (Climate action) in West Africa.

Published in Discover Sustainability

ISSN: 2662-9984 (Online)
Publisher: Springer
Country of publisher: Switzerland
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences
Website: https://www.springer.com/journal/43621

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