Abstract
We use two CORDEX-Africa simulations performed with the regional model RegCM4 to characterize the projected changes in extremes and hydroclimatic regimes associated with the West African Monsoon (WAM). RegCM4 was driven for the period 1970–2100 by the HadGEM2-ES and the MPI-ESM Global Climate Models (GCMs) under the RCP8.5 greenhouse gas concentration pathway. RegCM4 accurately simulates the WAM characteristics in terms of seasonal mean, seasonal cycle, interannual variability and extreme events of rainfall. Overall, both RegCM4 experiments are able to reproduce the large-scale atmospheric circulation for the reference period (i.e. present-day), and in fact show improved performance compared to the driving GCMs in terms of precipitation mean climatology and extreme events, although different shortcomings in the various models are still evident. Precipitation is projected to decrease (increase) over western (eastern) Sahel, although with different spatial detail between RegCM4 and the corresponding driving GCMs. Changes in extreme precipitation events show patterns in line with those of the mean change. The models project different changes in water budget over the Sahel region, where the MPI projects an increased deficit in local moisture supply (E < P) whereas the rest of models project a local surplus (E > P). The E–P change is primarily precipitation driven. The precipitation increases over the eastern and/or central Sahel are attributed to the increase of moisture convergence due to increased water vapor in the boundary layer air column and surface evaporation. On the other hand, the projected dry conditions over the western Sahel are associated with the strengthening of moisture divergence in the upper level (850–300 hPa) combined to both a southward migration of the African Easterly Jet (AEJ) and a weakening of rising motion between the core of the AEJ and the Tropical Easterly Jet.
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Acknowledgments
This work was supported by the United States Agency for International Development (USAID) through Partnerships for Enhanced Engagement in Research (PEER Project 2–344) and the Earth System Physics (ESP) section of the Abdus Salam ICTP (Trieste, Italy). Support from the U.S. National Science Foundation grants AGS-1419526 is gratefully acknowledged. The authors gratefully acknowledge Dr. Mouhamadou Bamba Sylla of WASCAL and Dr. Mamadou Simina Dramé of UCAD/LPAO-SF for their invaluable scientific and technical support. We are also grateful to the anonymous reviewers whose comments have improved the quality of this paper significantly.
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Diallo, I., Giorgi, F., Deme, A. et al. Projected changes of summer monsoon extremes and hydroclimatic regimes over West Africa for the twenty-first century. Clim Dyn 47, 3931–3954 (2016). https://doi.org/10.1007/s00382-016-3052-4
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DOI: https://doi.org/10.1007/s00382-016-3052-4