Proceedings of IAHS
Proceedings of IAHS
PIAHS
Articles | Volume 373
Articles | Volume 373
https://doi.org/10.5194/piahs-373-37-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/piahs-373-37-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
Articles | Volume 373
12 May 2016
 | 12 May 2016

Local irrigation systems, regional hydrological problems and the demand for overarching solutions at the example of an irrigation system in the P.R. of China

David Nijssen, Andreas H. Schumann, and Bertram Monninkhoff

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Cited articles

Addams, L., Boccaletti, G., Kerlin, G., and Stuchtey, M. M.: Charting our Water Future, Economic frameworks to inform decision making, 2030 Water Resources Group, McKinsey and Company, 2009.
Bishop, C. D., Curtis, K. R., and Kim, M.-K.: Conserving water in arid regions: Exploring the economic feasibility of alternative crops, J. Agr. Syst., 103, 535–542, 2010.
Bjornlund, H.: Incentives and Instruments for Sustainable Irrigation, WIT Transactions on State-of-the-art in Science and Engineering 37, 240 pp., ISBN: 978-1-84564-406-2, 2009.
Brouwer, C.: Irrigation Water Management: Irrigation Methods, Irrigation water management: training manuals 6, FAO, Rome, 2005.
Cai, X.: Water stress, water transfer and social equity in Northern China-Implications for policy reforms, J. Environ. Manage., 87, 14–25, 2008.
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To objectively compare possible solutions for drought, they have to be commensurable; a daunting condition if they are implementable on dissimilar spatial scales and/or physical compartments. In a water scarce region in China it is it is shown how a generic meta-model in form of a dynamic water balance simulating the hydrosystem, including anthropogenic factors, allows the appraisal of various measure's effects on one one factor; thus securing commensurability.
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