Modelling mean annual sediment yield using a distributed approach

## Abstract Processes of soil erosion and sediment transport are strongly influenced by land use changes so the modelling of land use changes is important with respect to the simulation of soil degradation and its on‐site and off‐site consequences. The reliability of simulation results from erosion

## Abstract Correct estimation of sediment volume carried by a river is very important for many water resources projects. Conventional sediment rating curves, however, are not able to provide sufficiently accurate results. In this paper, a fuzzy logic approach is proposed to estimate suspended sedi

## Abstract The Hydrologic Simulation Programme‐Fortran (HSPF), a hydrologic and water quality computer model, was employed for simulating runoff and sediment yield during the monsoon months (June–October) from a small watershed situated in a sub‐humid subtropical region of India. The model was cal

## Abstract Continental scale hydrological models are important for improving the land surface scheme of the General Circulation Model (GCM) and for downscaling applications of GCM predictions for regional water resources assessment. A grid‐based distributed hydrological modelling approach cannot b