Analysis of precipitation based on ensembles of regional climate model simulations and observational databases over Ethiopia for the period 1989–2008

This study examines the performance of multimodel numerical simulations and multiobservational databases focusing on seasonal cycles and spatial variations of precipitation over Ethiopia. Seven regional climate models ( RCMs ) driven by the European Center for Medium Range Weather Forecasting ( ECMWF ) Interim reanalysis ( ERA ‐Interim) and generated in the framework of COordinated Regional climate Downscaling EXperiment ( CORDEX ) project, and four observational databases computed using different interpolation techniques and blending strategies were evaluated against typical observational database produced by Climate Research Unit ( CRU ) over Ethiopia on monthly basis. All were produced at 48.8 km grid resolution for the period 1989–2008. The preliminary results showed that ensembles [multimodel ensemble ( MME ) + multiobservational ensemble ( MOE )] were as good as CRU in reproducing the temporal variability and the geographical distribution of precipitation. Comparison of seasonal means and temporal correlation results revealed that there were good agreements between ensembles and CRU at each grid point and in close proximity to each other. Results of rotated principal components ( RPCs ), rotated empirical orthogonal functions ( REOFs ), and the associated power spectra showed that every ensemble's element was able to simulate the seasonal cycles and homogeneous precipitation zones of CRU reasonably well. Excessive and deficient rainfall periods, which were seen in every ensemble's RPCs , matched CRU historical records.