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Event and model dependent rainfall adjustments to improve discharge predictions
Authors:Diana Fuentes-Andino  Keith Beven  Anna Kauffeldt  Chong-Yu Xu  Sven Halldin  Giuliano Di Baldassarre
Affiliation:1. Department of Earth Sciences, Uppsala University, Uppsala, Sweden;2. Centre for Natural Disaster Science (CNDS), Uppsala University, Uppsala, Sweden;3. Lancaster Environment Centre, Lancaster University, Lancaster, UK;4. Department of Geosciences, University of Oslo, Oslo, Norway
Abstract:Most conceptual rainfall–runoff models use as input spatially averaged rainfall fields which are typically associated with significant errors that affect the model outcome. In this study, it was hypothesised that a simple spatially and temporally averaged event-dependent rainfall multiplier can account for errors in the rainfall input. The potentials and limitations of this lumped multiplier approach were explored by evaluating the effects of multipliers on the accuracy and precision of the predictive distributions. Parameter sets found to be behavioural across a range of different flood events were assumed to be a good representation of the catchment dynamics and were used to identify rainfall multipliers for each of the individual events. An effect of the parameter sets on identified multipliers was found; however, it was small compared to the differences between events. Accounting for event-dependent multipliers improved the reliability of the predictions. At the cost of a small decrease in precision, the distribution of identified multipliers for past events can be used to account for possible rainfall errors when predicting future events. By using behavioural parameter sets to identify rainfall multipliers, the method offers a simple and computationally efficient way to address rainfall errors in hydrological modelling.
Keywords:rainfall multiplier  rainfall input error  reliability of predictions  precision of predictions  TOPMODEL  floods
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