Abstract
The present study utilizes three high-resolution simulations from the Regional Climate Model version 4 (RegCM4) to examine the late 21st century changes (2080–2099) in the West African Monsoon (WAM) features. A set of three Earth System Models are utilized to provide initial and lateral boundary conditions to the RegCM4 experiments. Our analysis focuses on seasonal mean changes in WAM large-scale dynamical features, along with their connections with the summer monsoon precipitation. In the historical period, the simulation ensemble means mimic reasonably well the intensity and spatial distribution of the WAM rainfall as well as the WAM circulation patterns at different scales. The future projection of the WAM climate exhibits warming over the whole West Africa leading to precipitation reduction over the Sahel region, and a slight increase over some areas of the Guinea Coast. The position of the African Easterly Jet (AEJ) is shifted southward and the African Easterly Waves (AEWs) activities are reduced, which affect in turn the WAM rainbelt characteristics in terms of position and strength. Overall the changes in simulated AEJ and AEWs contribute substantially to reduce the seasonal summer mean precipitation in West Africa by the late 21st century, with prevailing negative changes in the Savanna-Sahel region. To further explore the robustness of the relationships revealed in this paper, future studies using different high-resolution regional climate models with large ensemble are recommended.
Highlights
In the tropical West Africa, climate is dictated by the West African Monsoon (WAM) system, which is strongly influenced by climate change and climate variability
Since the overall evaluation of the Regional Climate Model version 4 (RegCM4) historical simulations has been previously performed by Sylla et al [44] and Kebe et al [45], in this paper we primarily focused our analysis on the changes in the summer seasonal 2m-temperature (T2m), precipitation, and WAM large-scale characteristics based on the two scenarios
The RegCM4 ensemble means (RCM-MME45 and regional climate model (RCM)-MME85) predict more extended surface warming, but with more pronounced increases projected under the RCP8.5 scenario (Figure 2e–h)
Summary
In the tropical West Africa, climate is dictated by the West African Monsoon (WAM) system, which is strongly influenced by climate change and climate variability. The WAM system exerts high inter-annual and intra-seasonal variability driven by complex interactions between different large-scale dynamical features, which include the African Easterly Jet (AEJ) and the African Easterly. Any variability of these features could influence both the position and intensity of the WAM [1]. The AEJ is a mid-tropospheric jet with a strong zonal wind structure (up to ≈10 m/s) located between 600 and 700 hPa. The AEJ develops over the northern hemisphere. The AEJ develops over the northern hemisphere This dynamical feature is linked to the meridional surface moisture and temperature gradients between the Sahara and equatorial
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