Pullan, S. P.Whelan, M. J.Rettino, J.Filby, S.Eyre, I. P.Holman, Ian P.2016-08-032016-08-032016-05-03S.P. Pullan, M.J. Whelan, J. Rettino, K. Filby, S. Eyre, I.P. Holman, Development and application of a catchment scale pesticide fate and transport model for use in drinking water risk assessment, Science of The Total Environment, Volumes 563–564, 1 September 2016, pp434-4470048-9697http://dx.doi.org/10.1016/j.scitotenv.2016.04.135http://dspace.lib.cranfield.ac.uk/handle/1826/10218This paper describes the development and application of IMPT (Integrated Model for Pesticide Transport), a parameter-efficient tool for predicting diffuse-source pesticide concentrations in surface waters used for drinking water supply. The model was applied to a small UK headwater catchment with high frequency (8 h) pesticide monitoring data and to five larger catchments (479–1653 km2) with sampling approximately every 14 days. Model performance was good for predictions of both flow (Nash Sutcliffe Efficiency generally > 0.59 and PBIAS < 10%) and pesticide concentrations, although low sampling frequency in the larger catchments is likely to mask the true episodic nature of exposure. The computational efficiency of the model, along with the fact that most of its parameters can be derived from existing national soil property data mean that it can be used to rapidly predict pesticide exposure in multiple surface water resources to support operational and strategic risk assessments.enAttribution 4.0 InternationalCatchment scale modelParameter-efficientDiffuse pesticide transferDrainflowDrinking water resourcesArticle