Mapping average annual runoff: a hierarchical approach applying a stochastic interpolation scheme |
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| Authors: | ERIC SAUQUET LARS GOTTSCHALK ETIENNE LEBLOIS |
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| Institution: | 1. Hydrology-Hydraulics Research Unit, Cemagref , 3 bis Quai Chauveau CP220, F-69336, Lyon, Cedex 09, France E-mail: sauquet@lyon.cemagref.fr;2. Department of Geophysics , University of Oslo , PO Box 1032, Blindern, N-0315, Oslo, Norway E-mail: lars.gottschalk@geofysikk.uio.no;3. Hydrology-Hydraulics Research Unit, Cemagref , 3 bis Quai Chauveau CP220, F-69336, Lyon, Cedex 09, France E-mail: leblois@lyon.cemagref.fr |
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| Abstract: | Abstract A novel approach for mapping river runoff is presented. It is based on a disaggregation of the mean annual streamflow measured at the outlet of a basin to estimate water depths on elements of an exact partition of this basin. The developed technique is based on geostatistical interpolation procedures to which a global constraint of water balance has been added. The methodology is illustrated by a case study from a tributary to the Rhône River, France. The results were compared to an established method-the nested approach, and a cross-validation was performed for each mapping technique. The disaggregation approach appears to give the most consistent results. Finally, two gridded maps were derived by applying the disaggregation twice to assess water depth on an increasingly finer grid mesh. The global constraint of water balance was applied to each element of the coarser mesh to give estimates for the finer one. |
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