A setup for a scenario-driven water balance at landscape scale-assessment with AKWA-M®-Embedded in a model framework for land-use planning's decision support in mountainous southwest China

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Authors

  • Andreas Wahren
  • Karin Berkhoff
  • Albrecht Münch
  • Sylvia Herrmann
  • Karl Heinz Feger

Research Organisations

External Research Organisations

  • Technische Universität Dresden
  • Dr. Dittrich and Partner Hydro-Consult GmbH
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Details

Original languageEnglish
Pages (from-to)974-978
Number of pages5
JournalJournal of earth science
Volume21
Issue number6
Publication statusPublished - 2 Dec 2010

Abstract

Land-cover changes cause a loss of natural vegetation in many parts of the world. In the Xishuangbanna (Chinese Source) district (Yunnan (Chinese Source) Province), rubber plantations replace tropical rainforests covering already an area of about 10% of the study area (2007). There, land-use allocation is mostly driven by economic considerations. Thus, local planning authorities need decision support for land-use planning issues, which integrate socio-economic and ecological aspects. Within the NabanFrame, an agro-economic, ecological and social model was applied, which, altogether, interacted with a land allocation model via defined interfaces. Effects on the water cycle, ecological conditions as well as socio-economic should be considered by integrating the spatially distributed rainfall-runoff and water balance model AKWA-M® in the model setup.

Keywords

    integrated land-use planning, land-use, land-use prognosis, rubber, water balance model

ASJC Scopus subject areas

Sustainable Development Goals

Cite this

A setup for a scenario-driven water balance at landscape scale-assessment with AKWA-M®-Embedded in a model framework for land-use planning's decision support in mountainous southwest China. / Wahren, Andreas; Berkhoff, Karin; Münch, Albrecht et al.
In: Journal of earth science, Vol. 21, No. 6, 02.12.2010, p. 974-978.

Research output: Contribution to journalArticleResearchpeer review

Download
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abstract = "Land-cover changes cause a loss of natural vegetation in many parts of the world. In the Xishuangbanna (Chinese Source) district (Yunnan (Chinese Source) Province), rubber plantations replace tropical rainforests covering already an area of about 10% of the study area (2007). There, land-use allocation is mostly driven by economic considerations. Thus, local planning authorities need decision support for land-use planning issues, which integrate socio-economic and ecological aspects. Within the NabanFrame, an agro-economic, ecological and social model was applied, which, altogether, interacted with a land allocation model via defined interfaces. Effects on the water cycle, ecological conditions as well as socio-economic should be considered by integrating the spatially distributed rainfall-runoff and water balance model AKWA-M{\textregistered} in the model setup.",
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