Programme  Poster session 1  abstract 435

Analysis of climate change trend and possible impacts in the Upper Brahmaputra River Basin – the BRAHMATWINN Project

Author(s): Wolfgang-Albert Flügel, Jörg Pechstedt, K. Bongartz, Anita Bartosch, M. Eriksson, Mike Clark
Prof. Dr. W.-A. Flügel, University of Jena, Department of Geoinformatics, Hydrology and Modelling Jörg Pechstädt, University of Jena, Department of Geoinformatics, Hydrology and Modelling Prof. Mike Clark, University of Southampton, Geodata Institute

Keyword(s): Climate Change, Integrated Water Resources Management, Vulnerability

Article: abs435_article.pdf
Poster: abs435_poster.jpg
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Session: Poster session 1
AbstractThe overall objective of the study is to

enhance capacity to carry out a harmonized integrated water resources management (IWRM). For headwater river

systems of alpine mountain massifs, impacts from climate change will be modelled and appropriate mitigation

measures will be developed in twinning Upper Danube and Upper Brahmaputra River Basins.
The focus of the

research study emphasizes on natural systems responses on climate change like glacier retreat, permafrost thawing,

avalanches and flooding and their socio-economic implications and threats for the affected population. Therefore, the

relevant knowledge needs to be enhanced concerning key policy areas and strategies to improve the adaptive

capacities of communities. The present state is evaluated through a hierarchical approach in four levels:

Assessment and holistic analysis of the natural environment to derive the interactive dynamics of the system

• Assessment of the system’s human dimension accounting for water related issues of socio-

economic vulnerability and environmental stress with respect to water allocation and demand, and considering the

political structures and policies pertaining to the basins.
• Analysis of present, traditional and conceptual IWRM

practices and their potential for adaptation to cope with impacts of changing flow regimes.
• The development of

scenarios relying on downscaling predictions from Global Circulation Models to a basin scale coupled with a DPSIR

(Driving forces, Pressures, States, Impacts and Responses) approach. The spatial concept in both mapping the

vulnerability and building adaptive IWRM scenarios is the regionalization approach of Response Units.

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