Morphological structure and hydrological process modelling
Allemagne ; Baden-Württemberg ; Bassin-versant ; Géomorphométrie ; Hydrologie ; Loess ; Modèle ; Pente de versant ; Propriétés du sol ; Ruissellement ; Sol ; Système d'information géographique ; Utilisation agricole du sol
Agricultural land use ; Baden-Württemberg ; Geographical information system ; Geomorphometry ; Germany ; Hydrology ; Loess ; Model ; Rill wash ; Slope gradient ; Soil ; Soil properties ; Watershed
This paper describes an interdisciplinary investigation on the effects of catchment morphometry on rainfall-runoff processes using Geographical Information Systems (GIS) and the hydrological model SAKE (runoff simulation model for small catchments
distributions and soil parameters. The AA. conclude that morphometric structures of soil distributions have a high relevance in hydrological modelling.
Allemagne ; Cénozoïque ; Escarpement ; Glissement de terrain ; Géomorphométrie ; Hessen ; Lithologie ; Modèle ; Mouvement de masse ; Mécanique des sols ; Risque naturel ; Système d'information géographique
Cenozoic ; Escarpment ; Geographical information system ; Geomorphometry ; Germany ; Hessen ; Landslide ; Lithology ; Mass movement ; Model ; Natural hazards ; Soil mechanics
landslides. Verification of the established hazard model was performed using these failures and shows the successful application of SMRU's and their use in regional landslide hazard modelling.
of erosional susceptibility based on factorial scoring approach. Finally, the factorial index was integrated with the catchment area to develop a semi-quantitative sediment yield potential prediction model for the highlands of northern Ethiopia.