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Assessment of a climate model to reproduce rainfall\ud variability and extremes over Southern Africa

By Charles J. R. Williams, Dominic R. Kniveton and Russell Layberry


It is increasingly accepted that any possible climate\ud change will not only have an influence on mean climate but\ud may also significantly alter climatic variability. A change in the distribution and magnitude of extreme rainfall events\ud (associated with changing variability), such as droughts or\ud flooding, may have a far greater impact on human and natural\ud systems than a changing mean. This issue is of particular\ud importance for environmentally vulnerable regions such as\ud southern Africa. The sub-continent is considered especially\ud vulnerable to and ill-equipped (in terms of adaptation) for\ud extreme events, due to a number of factors including extensive poverty, famine, disease and political instability. Rainfall variability and the identification of rainfall extremes is a function of scale, so high spatial and temporal resolution data are preferred to identify extreme events and accurately predict future variability. The majority of previous climate model verification studies have compared model output with observational data at monthly timescales. In this research, the assessment of ability of a state of the art climate model to simulate climate at daily timescales is carried out using satellite-derived rainfall data from the Microwave Infrared\ud Rainfall Algorithm (MIRA). This dataset covers the period\ud from 1993 to 2002 and the whole of southern Africa at a\ud spatial resolution of 0.1° longitude/latitude. This paper\ud concentrates primarily on the ability of the model to simulate the spatial and temporal patterns of present-day rainfall variability over southern Africa and is not intended to discuss possible future changes in climate as these have been documented elsewhere. Simulations of current climate from the UKMeteorological Office Hadley Centre’s climate model, in both regional and global mode, are firstly compared to the MIRA dataset at daily timescales. Secondly, the ability of the model to reproduce daily rainfall extremes is assessed, again by a comparison with extremes from the MIRA dataset. The results suggest that the model reproduces the number and spatial distribution of rainfall extremes with some accuracy, but that mean rainfall and rainfall variability is underestimated (over-estimated) over wet (dry) regions of southern Africa

Publisher: Springer
Year: 2010
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