Analysis and development of conceptual rainfall-runoff model structures for regionalisation purposes

## Abstract This paper provides a procedure for the evaluation of model performance for rainfall–runoff event summary variables, such as total discharge or peak runoff. The procedure is based on the analysis of model errors, defined as the differences between observed values and values predicted by

## Abstract A study was undertaken in a small agricultural catchment in north east Scotland with the objective of assessing the value of high‐resolution isotope data for integration within a lumped, conceptual hydrological model to improve calibration and aid evaluation. Daily samples of precipitat

This paper provides a procedure for evaluating model performance where model predictions and observations are given as time series data. The procedure focuses on the analysis of error time series by graphing them, summarizing them, and predicting their variability through available information (reca

## 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