Gumière S. J., Raclot Damien, Cheviron B., Davy G., Louchart X., Fabre J. C., Moussa R., Le Bissonnais Y. (2011). MHYDAS-Erosion : a distributed single-storm water erosion model for agricultural catchments. Hydrological Processes, 25 (11), p. 1717-1728. ISSN 0885-6087.
Titre du document
MHYDAS-Erosion : a distributed single-storm water erosion model for agricultural catchments
Gumière S. J., Raclot Damien, Cheviron B., Davy G., Louchart X., Fabre J. C., Moussa R., Le Bissonnais Y.
Source
Hydrological Processes, 2011,
25 (11), p. 1717-1728 ISSN 0885-6087
In this paper, we present MHYDAS-Erosion, a dynamic and distributed single-storm water erosion model developed as a module of the existing hydrological MHYDAS model. As with many catchment erosion models, MHYDAS-Erosion is able to simulate sediment transport, erosion and deposition by rill and interrill processes. Its originality stems from its capacity to integrate the impact of land management practices (LMP) as key elements controlling the sedimentological connectivity in agricultural catchments. To this end, the water-sediment pathways are first determined by a specific process-oriented procedure defined and controlled by the user, which makes the integration of LMP easier. The LMP dynamic behaviours are then integrated into the model as a time-dependent function of hydrological variables and LMP characteristics. The first version of the model was implemented for vegetative filters and tested using water and sediment discharge measurements at three nested scales of a densely instrumented catchment (Roujan, OMERE Observatory, southern France). The results of discharge and soil loss for simulated rainfall events have been found to acceptably compare with available data. The average R-2 values for water and sediment discharge are 0.82 and 0.83, respectively. The sensitivity of the model to changes in the proportion of LMP was assessed for a single rain event by considering three scenarios of the Roujan catchment management with vegetative filters: 0% (Scenario 1), 18% (Scenario 2, real case) and 100% (Scenario 3). Compared to Scenario 2 (real case), soil losses decreased for Scenario 3 by 65% on the agricultural plot scale, 62% on the sub-catchment scale and 45% at the outlet of the catchment and increased for Scenario 1 by 0% on the plot scale, 26% on the sub-catchment scale and 18% at the outlet of the catchment.
