Evrard, Olivier
[UCL]
Cerdan, Olivier
[BRGM — Aménagement et risques naturels, Orléans, France]
van Wesemael, Bas
[UCL]
Chauvet, Mehdi
[BRGM — Aménagement et risques naturels, Orléans, France]
Le Bissonnais, Yves
[INRA, Laboratoire d'étude des Interactions Sol-Agrosystème-Hydrosystème, UMR LISAH, Montpellier, France]
Raclot, Damien
[IRD, Laboratoire d'étude des Interactions Sol-Agrosystème-Hydrosystème, Montpellier, France]
Vandaele, Karel
[Interbestuurlijke samenwerking Land en Water, Breendonkstraat, Sint-Truiden, Belgium]
Andrieux, Patrick
[INRA, Laboratoire d'étude des Interactions Sol-Agrosystème-Hydrosystème, UMR LISAH, Montpellier, France]
Bielders, Charles
[UCL]
During the last decades, the European loess belt has been confronted with a significant increase in environmental problems due to erosion on agricultural land. Spatially distributed runoff and erosion models operating at the catchment scale are therefore needed to evaluate the impact of potential mitigation measures. Expert-based models offer an alternative solution to process-based and empirical models, but their decision rules are only valid for the local conditions for which they have been derived. The STREAM model, which was developed in Normandy (France), has been applied in two Belgian catchments having a similar soil texture, as well as in a catchment of southern France differing by soil, land use and climate characteristics. The performance of hydrological models can be assessed for instance by calculating the Nash-Sutcliffe efficiency criterion (ENS). When applied to Belgium, the model results are satisfactory to good after an adaptation of the decision rules (0.90
Evrard, Olivier ; Cerdan, Olivier ; van Wesemael, Bas ; Chauvet, Mehdi ; Le Bissonnais, Yves ; et. al. Reliability of an expert-based runoff and erosion model: Application of STREAM to different environments. In: CATENA, Vol. 78, no. 2, p. 129-141 (2009)