Hydrological process representation at the meso-scale: the potential of a distributed, conceptual catchment model

Mathematical models are being used to develop a decision support system for integrated management of the Ythan catchment in NE Scotland. One component of this has involved the development of a distributed catchment-scale hydrological model. The model is based on subsurface ¯ow routing and calculates

## Abstract In this study a simple modelling approach was applied to identify the need for spatial complexity in representing hydrological processes and their variability over different scales. A data set of 18 basins was used, ranging between 8 and 4011 km^2^ in area, located in the Nahe basin (Ge

## Abstract The paper introduces a new distributed rainfall‐runoff model derived upon the assumption that the horizontal flow at a point in the soil and over the surface can be approximated by means of a kinematic wave model. The point assumption is then integrated up to a finite pixel dimension, t

introduced a new physically based, but parsimonious in parameterization, rainfall-runoff model that can take both distributed and lumped versions. The main advantage claimed for this model is that it may be applied to a large range of spatial scales without losing the physical meaning of the model a