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Abstract

West African countries are vulnerable to the adverse impacts of climate extremes such as drought which are becoming more frequent and more intense over the past decades. However, drought characterization and its associated drivers are not well understood in the region. In this study, we will investigate the implication of Solar Radiation Modification (SRM) in Hydro-meteorological and Agricultural drought over the Niger River Basin, as well as their larger-scale atmospheric and ocean-atmosphere drivers. The impacts of SRM on these aspects of drought will be assessed using ARISE/GeoMIP/GLENS Global Climate Model data. The study will use three drought indices: standardized precipitation index, standardized runoff index and standardized soil moisture index (SSWI). The Soil and Water Assessment Tool (SWAT) will be used to assess the current and future water balance in the basin and to estimate the features of meteorological, hydrological and agricultural droughts. The model with be driven by a statistically downscaled of the SRM climate model data. This is an ongoing study. The results of this research will provide valuable insights to stakeholders in the region on the regional impacts of a global climate mitigation solution such as SRM on key socio-economic climate hazards. Details results from the study will be presented in oral at the workshop. The results will enable much better-informed contributions from African policymakers in the UNFCCC and other fora where the pros and cons of geoengineering of climate in general, and SRM in particular, are being debated. Keywords: SRM, drought, SPI, Niger River Basin, West Africa