Simulating the impact of varying vegetation on West African monsoon surface fluxes using a regional convection‐permitting model

Adama Bamba; Kouakou Kouadio; N’Datchoh E. Toure; Lawrence Jackson; John Marsham; Alex Roberts; Masaru Yoshioka; Sandrine Anquetin; Arona Diedhiou

doi:10.1002/pei3.10107

Plant-Environment Interactions (Jun 2023)

Simulating the impact of varying vegetation on West African monsoon surface fluxes using a regional convection‐permitting model

Adama Bamba,
Kouakou Kouadio,
N’Datchoh E. Toure,
Lawrence Jackson,
John Marsham,
Alex Roberts,
Masaru Yoshioka,
Sandrine Anquetin,
Arona Diedhiou

Affiliations

Adama Bamba: Laboratoire des Sciences de la Matière, Environnement et Energie Solaire Université Félix Houphouët Boigny Abidjan Côte d'Ivoire
Kouakou Kouadio: Laboratoire des Sciences de la Matière, Environnement et Energie Solaire Université Félix Houphouët Boigny Abidjan Côte d'Ivoire
N’Datchoh E. Toure: Laboratoire des Sciences de la Matière, Environnement et Energie Solaire Université Félix Houphouët Boigny Abidjan Côte d'Ivoire
Lawrence Jackson: School of Earth and Environment, Institute for Climate and Atmospheric Science University of Leeds Leeds UK
John Marsham: School of Earth and Environment, Institute for Climate and Atmospheric Science University of Leeds Leeds UK
Alex Roberts: School of Earth and Environment, Institute for Climate and Atmospheric Science University of Leeds Leeds UK
Masaru Yoshioka: School of Earth and Environment, Institute for Climate and Atmospheric Science University of Leeds Leeds UK
Sandrine Anquetin: Université Grenoble Alpes, IRD, CNRS, Grenoble‐INP, IGE Grenoble France
Arona Diedhiou: Centre d'Excellence Africain en Changement Climatique, Biodiversité et Agriculture Durable (CEA‐CCBAD) Université Félix Houphouët Boigny Abidjan Côte d'Ivoire

DOI: https://doi.org/10.1002/pei3.10107
Journal volume & issue: Vol. 4, no. 3
pp. 134 – 145

Abstract

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Abstract This study assessed the sensitivity of the West African climate to varying vegetation fractions. The assessment of a such relationship is critical in understanding the interactions between land surface and atmosphere. Two sets of convection‐permitting simulations from the UK Met Office Unified Model at 12 km horizontal resolution covering the monsoon period May–September (MJJAS) were used, one with fixed vegetation fraction (MF‐V) and the other with time‐varying vegetation fraction (MV‐V). Vegetation fractions are based on MODIS retrievals between May and September. We focused on three climatic zones over West Africa: Guinea Coast, Sudanian Sahel, and the Sahel while investigating heat fluxes, temperature, and evapotranspiration. Results reveal that latent heat fluxes are the most strongly affected by vegetation fraction over the Sahelian and Sudanian regions while sensible heat fluxes are more impacted over the Guinea Coast and Sudanian Sahel. Also, in MV‐V simulation there is an increase in evapotranspiration mainly over the Sahel and some specific areas in Guinea Coast from June to September. Moreover, it is noticed that high near‐surface temperature is associated with a weak vegetation fraction, especially during May and June. Finally, varying vegetation seems to improve the simulation of surface energy fluxes and in turn impact on climate parameters. This suggests that climate modelers should prioritize the use of varying vegetation options to improve the representation of the West African climate system.

Published in Plant-Environment Interactions

ISSN: 2575-6265 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences; Science: Botany
Website: https://onlinelibrary.wiley.com/journal/25756265

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