Development of a simple, catchment-scale, rainfall-evapotranspiration-runoff model

## Abstract TOPMODEL, a semi‐distributed, topographically based hydrological model, was applied to simulate continuously the runoff hydrograph of a medium‐sized (379 km^2^), humid tropical catchment. The objectives were to relate hydrological responses to runoff generation mechanisms operating in t

## Abstract A hydrological model (YWB, yearly water balance) has been developed to model the daily rainfall–runoff relationship of the 202 km^2^ Teba river catchment, located in semi‐arid south‐eastern Spain. The period of available data (1976–1993) includes some very rainy years with intensive sto

## Abstract Soil water repellency is generally thought to enhance runoff responses, thus representing a potentially important factor in hydrological modelling. Attempts to quantify its impacts have, however, either focused on soil profiles or plot scales and/or have been unable unequivocally to iso

## 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

## Abstract A geomorphological instantaneous unit hydrograph (GIUH) rainfall‐runoff model was applied in a 31 km^2^ montane catchment in Scotland. Modelling was based on flow path length distributions derived from a digital terrain model (DTM). The model was applied in two ways; a single landscape