Your search found 2 records
1 Servat, E.; Demuth, S.; Dezetter, A.; Daniell, T.; Ferrari, E.; Ijjaali, M.; Jabrane, R.; Van Lanen, H.; Huang, Y. (Eds.) 2010. Global change: facing risks and threats to water resources. Proceedings of the Sixth World FRIEND Conference, Fez, Morocco, 25-29 October 2010. Wallingford, UK: International Association of Hydrological Sciences (IAHS). 698p. (IAHS Publication 340)
Hydrological factors ; Hazards ; Adaptation ; Water resource management ; Flooding ; Drought ; Environmental monitoring ; Simulation models ; GIS ; Mapping ; Decision support systems ; Watersheds ; Risk assessment ; Groundwater ; River Basins ; Climate change ; Case studies ; Seasonal variation ; Runoff ; Floodplains ; Historical aspects ; Reservoirs ; Hydrological cycle ; Surface water ; Water scarcity ; Water quality ; Water balance ; Evapotranspiration ; Urban development ; Land use ; Land cover ; Erosion ; Aquifers / France / Russia / Czech Republic / Tunisia / Algeria / Italy / Brazil / Europe / Africa / Vietnam / Norway / Slovakia / Germany / Colombia / USA / Caribbean / Benin / Cameroon / UK / Chile / Nitra River / Oueme Region / Chellif River Basin / Taquari River Basin / Terek River Basin / Tuscany / Crati River Basin / Volta River Basin / Thach Han River Basin / River Elbe Basin / Harz Mountains / Algerian Coastal Basin / Volta River Basin / Berrechid Plain / Upper Niger River / Moulouya Watershed / Atlantic Ocean / Danube River / Sudano-Sahelian Catchment / Yaere flood plain
(Location: IWMI HQ Call no: 333.91 G000 SER Record No: H043485)
(0.75 MB)
2 Bodian, A.; Dezetter, A.; Dacosta, H. 2016. Rainfall-runoff modelling of water resources in the upper Senegal River Basin. International Journal of Water Resources Development, 32(1):89-101. [doi: https://doi.org/10.1080/07900627.2015.1026435]
Water resources ; Rainfall-runoff relationships ; Hydrology ; Models ; Calibration ; Performance evaluation ; Soils ; Water holding capacity ; River basins ; Discharges ; Precipitation ; Evapotranspiration / Guinea / Mali / Senegal River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H047648)
(1.58 MB)
The streamflow series for the upstream basin of the Senegal River is marked by considerable gaps. The objective of this article is to simulate and extend hydrological data, using the GR2M rainfall-runoff model. A sensitivity analysis of the model to rainfall and water holding capacity input data was performed. This analysis was performed after calculating catchment rainfall, mean potential evapotranspiration, and maximum, minimum and mean water holding capacity. The best combination of input data was chosen by catchment based on the Nash-Sutcliffe criterion. Then cross calibration-validation tests were performed, using the selected input data to choose model parameter sets.
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