To the top

Page Manager: Webmaster
Last update: 9/11/2012 3:13 PM

Tell a friend about this page
Print version

Using the multiactor-appr… - University of Gothenburg, Sweden Till startsida
Sitemap
To content Read more about how we use cookies on gu.se

Contact form








 


Note! If you want an answer on a question you must specify your email address




Using the multiactor-approach in GLOWA-danube to simulate decisions for the water supply sector under conditions of global climate change

Journal article
Authors Roland Barthel
S. Janisch
D. Nickel
A. Trifkovic
T. Hörhan
Published in Water Resources Management
Volume 24
Issue 2
Pages 239-275
ISSN 09204741 (ISSN)
Publication year 2010
Published at Department of Earth Sciences
Pages 239-275
Language en
Links dx.doi.org/10.1007/s11269-009-9445-...
Keywords Danube, DANUBIA, Global change, Integrated water resources management, Multi-actor approach, WaterSupply model, Austria, Central Europe, Climatic conditions, Coupled simulation, Critical region, Germany, Global climate changes, Integrated simulations, Integrated strategy, Interdisciplinary project, Land-use management, Mesoscale, Middle East, Potential field, Research programs, Resource use, Simulation result, Socio-economics, User demands, Water consumption, Water cycle, Water resource utilization, Water supply schemes, Water supply sector, West Africa, Catchments, Climate change, Competition, Economics, Groundwater, Hydrogeology, Land use, Runoff, Water supply, Water supply systems, Water resources, computer simulation, demand analysis, integrated approach, interdisciplinary approach, numerical model, research program, strategic approach, sustainability, water management, water resource, water use, Danube River
Subject categories Geology, Hydrology

Abstract

Glowa-Danube (www.glowa-danube.de) is an interdisciplinary project that aims to develop integrated strategies and tools for water and land use management in the upper Danube catchment (Germany, Austria ~77,000 km2). The project is one of five within the Glowa research program (www.glowa.org) dealing with Global Change effects on the water cycle in six meso-scale catchments (up to 100,000 km2) in Central Europe, West Africa and the Middle East. In the Glowa-Danube project, 16 natural science and socio-economic simulation models are integrated in the coupled simulation system Danubia. This article describes the underlying concept and implementation of WaterSupply, a multiactor-based model of the water supply sector with a focus on water resource utilization and distribution of individual water supply companies. Within Danubia, WaterSupply represents the link between water supply and demand, where the former is simulated by a groundwater and a surface water model and the latter by water consumption models of four different sectors (domestic, industrial, agricultural and tourism). WaterSupply interprets the quantitative state of water resources for defined spatial and temporal units according to sustainability requirements and assesses the state of resources in relation to present water supply schemes and the dynamics of user demand. WaterSupply then seeks both to optimize the resource use of supply companies and to identify critical regions for which further adaptation of the water supply scheme will become necessary under changing climatic conditions. In this article, a brief description of the Glowa-Danube project and the integrated simulation system Danubia is followed by a short presentation of the DeepActor framework, which provides a common conceptual and technical basis for the socio-economic simulation models of Glowa-Danube. The main body of the article is devoted to the concept, the implementation and simulation results of WaterSupply. Results from different scenario calculations demonstrate the capabilities and the potential fields of application of the model. © Springer Science+Business Media B.V. 2009.

Page Manager: Webmaster|Last update: 9/11/2012
Share:

The University of Gothenburg uses cookies to provide you with the best possible user experience. By continuing on this website, you approve of our use of cookies.  What are cookies?