Especially

Especially Tyrosine Kinase Inhibitor Library ic50 for discharge data plausibility checks (double-mass curves, upstream versus downstream comparisons) yielded ambiguous results. The reliability of discharge data appeared to change significantly

over time, with each gauge having its own peculiarities. Therefore, in this paper we only report results for five gauges at key locations: • Zambezi River at Lukulu (catchment area of 212,600 km2): Zambezi headwaters, measurements available since 1954. Fig. 3 gives a summary of the acquired data by showing long-term trends for precipitation, air temperature and discharge. Historic precipitation data before 1930 and after 1990 should be interpreted with caution due to low availability of stations (see Fig. 2). The historic precipitation data show large inter-annual variability, but no clear trend. Climate model data show small trends, but with different signs according to the analysed model. In contrast, the temperature data show a clear warming trend after 1980, which corresponds with the changes on the global scale (IPCC, 2007). The climate model data project that warming continues throughout the 21st century. Annual discharge data of the Upper Zambezi at Victoria Falls exhibit large inter-annual variability

Nutlin-3 – ranging between 400 m3/s in dry years to 2300 m3/s in wet years. There is a cyclic behaviour of Zambezi discharge, with above average flows during 1950–1980 (Mazvimavi and Wolski, 2006), which corresponds to small long-term variations in the precipitation data (for a discussion of multi-decadal climate variability in southern Africa see Tyson et al., 2002). In this study a river basin model – consisting of a water balance model and a water allocation model – was calibrated with historic data. The river basin model

was then applied for selected scenarios to analyse the impact of water resources development and climate change on Zambezi River discharge. The following sections describe the water balance model, the water allocation model, the calibration method and the scenario definitions. The water balance model simulates the precipitation-runoff process in 27 sub-basins of the Zambezi basin. The size of the sub-basins ranges between 10,300 and 132,300 km2, Ribonuclease T1 with a mean size of 50,900 km2. The sub-basin outlets are depicted in Fig. 1. In each sub-basin the same model concept is applied (Fig. 4, left). This model was already used in several climate change impact studies in central Europe (e.g. Stanzel and Nachtnebel, 2010 and Kling et al., 2012). Similar model structures proved to be successful for the Zambezi (e.g. Winsemius et al., 2008). Inputs are monthly precipitation and potential evapotranspiration. Precipitation can be stored and evaporated from the interception storage.

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