Simulating climate impacts on water resources: experience from the Okavango river, Southern Africa

Todd, Martin C, Andersson, Lotta, Hughes, Denis A, Kniveton, Dominic, Layberry, Russell, Murray-Hudson, Michael, Savenije, Hubert H G, Wilk, Julie and Wolski, Piotr (2008) Simulating climate impacts on water resources: experience from the Okavango river, Southern Africa. In: Sorooshian, Soroosh, Hsu, Kuo-Lin, Coppola, Erika, Tomassetti, Barbara, Verdecchia, Marco and Visconti, Guido (eds.) Hydrological modelling and the water cycle: coupling the atmospheric and hydrological models. Water science and technology library, 63 . Springer, pp. 243-266. ISBN 9783540778424

Full text not available from this repository.

Abstract

The Okavango River is one of the largest and most important rivers in Southern Africa. The river rises in Angola, a country that has just emerged from a civil war of three decades. The annual flood pulse of the river feeds the Okavango Delta: one of the most valuable environmental resources of the African continent. The Okavango River water and its ecosystem resources are critically important sources of livelihoods in the basin. Pressures from livelihoods and development are already impacting on the environment and are likely to increase. Moreover, future development will occur against the background of climate variability and change. This chapter describes research conducted under the EU-funded project‘Water and Ecosystem Resources in Regional Development’ (WERRD), whose aims included development of scenario modelling as a tool for integrated water resource management in the Okavango River basin. The impact of climate change scenarios on downstream river flow and flooding in the Okavango Delta are simulated using a suite of hydrological models. The simulated impacts of climate change are sensitive to the choice of GCM and the IPCC SRES greenhouse gas (GHG) emission scenarios. The simulated impacts are considerable larger that those of the selected development scenarios although the uncertainty in the magnitude of future changes remains high.

Item Type: Book Section
Schools and Departments: School of Global Studies > Geography
Depositing User: Martin Todd
Date Deposited: 06 Feb 2012 15:21
Last Modified: 16 Mar 2017 12:14
URI: http://sro.sussex.ac.uk/id/eprint/11871
📧 Request an update