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Advances in Science and Research Contributions in Applied Meteorology and Climatology
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Volume 7, issue 1 | Copyright
Adv. Sci. Res., 7, 61-70, 2011
https://doi.org/10.5194/asr-7-61-2011
© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.

  26 Apr 2011

26 Apr 2011

Large scale integrated hydrological modelling of the impact of climate change on the water balance with DANUBIA

M. Prasch1, T. Marke1,*, U. Strasser1,*, and W. Mauser1 M. Prasch et al.
  • 1Department of Geography, Ludwig-Maximilians-Universität Munich, Germany
  • *now at: Institute of Geography and Regional Science, University of Graz, Austria

Abstract. Future climate change will affect the water availability in large areas. In order to derive appropriate adaptation strategies the impact on the water balance has to be determined on a regional scale in a high spatial and temporal resolution. Within the framework of the BRAHMATWINN project the model system DANUBIA, developed within the project GLOWA Danube (GLOWA Danube, 2010; Mauser and Ludwig, 2002), was applied to calculate the water balance components under past and future climate conditions in the large-scale mountain watersheds of the Upper Danube and the Upper Brahmaputra. To use CLM model output data as meteorological drivers DANUBIA is coupled with the scaling tool SCALMET (Marke, 2008). For the determination of the impact of glacier melt water on the water balance the model SURGES (Weber et al., 2008; Prasch, 2010) is integrated into DANUBIA. In this paper we introduce the hydrological model DANUBIA with the tools SCALMET and SURGES. By means of the distributed hydrological time series for the past from 1971 to 2000 the model performance is presented. In order to determine the impact of climate change on the water balance in both catchments, time series from 2011 to 2080 according to the IPCC SRES emission scenarios A2, A1B, B2 and Commitment are analysed. Together with the socioeconomic outcomes (see Chapter 4) the DANUBIA model results provide the basis for the derivation of Integrated Water Resources Management Strategies to adapt to climate change impacts (see Chapter 9 and 10).

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