Abstract

Ecosystem structures of tropical mountain forests are under threat due to changes in climate and land-use. The dry tropical montane forest of Munessa-Shashemene in south-east Ethiopia is a prominent example of degradation and deforestation in the sub-humid tropics. In recent years an increasing number of precipitation events has been observed, mainly during the short rainy season. Moreover, the recent IPCC Report envisages an increase in total annual precipitation, accompanied by more frequent extreme weather events (drought, torrential rains) for the Horn of Africa until the end of the 21st century.To evaluate possible consequences for local forest ecosystems, we applied the process-based, individual-oriented forest simulation model Formix3 to identify the influence of precipitation variability on the forest growth dynamics. We parameterised the model using field observation data including, for the first time, a tree-ring chronology of Croton macrostachyus. By using different levels of annual precipitation and intra-annual precipitation patterns, we analysed explicit simulation scenarios focussing on both overall and species-specific aboveground biomass dynamics and tree species composition.We found that the model reproduces aboveground biomass productivity precisely under current precipitation conditions. Variations in precipitation cause ecological shifts in the conditions for tree growth. Biomass and species richness both increase with mean annual precipitation, with the effects stabilising over time. Our results emphasise the impact of the duration and frequency of periods of water limitation on forest structure and growth.Our model has a variety of potential applications including investigation of the impacts of precipitation variability on forest structure and tree species diversity. It is thus a useful tool for extrapolating local growth measurements and succession, and analysing the impact of different management strategies on dry tropical montane forests.

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