Applying a precipitation error model to numerical weather predictions for probabilistic flood forecasts

Applying a precipitation error model to numerical weather predictions for probabilistic flood forecasts

•A stochastic error model was applied to numerical weather predictions.•Rainfall ensemble forecasting fields were generated using the error model.•The error model proved to be efficient to remove forecasts biases.•Error model flood forecasts performed similarly to expensive consecrated techniques. T...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) Vol. 598; p. 126374
Main Authors: Falck, Aline S., Tomasella, Javier, Diniz, Fábio L.R., Maggioni, Viviana
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2021
Subjects:
Ensemble flood forecasting
Ensemble prediction system
Numerical weather prediction
Stochastic error model
Ensemble flood forecasting
Stochastic error model
Numerical weather prediction
Ensemble prediction system
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Summary:•A stochastic error model was applied to numerical weather predictions.•Rainfall ensemble forecasting fields were generated using the error model.•The error model proved to be efficient to remove forecasts biases.•Error model flood forecasts performed similarly to expensive consecrated techniques. This work investigates the use of a stochastic error model (the 2-Dimensional Satellite Rainfall Error Model-SREM2D) to generate an ensemble of rainfall fields, based on the forecasts from the Eta regional weather forecast model. To evaluate the usefulness of this approach against traditional techniques, streamflow probabilistic forecasts from a distributed hydrological model forced with two sources of rainfall data are compared in the Tocantins-Araguaia basin in Brazil. The first dataset is an empirical rainfall ensemble produced by the SREM2D model applied to the Eta model, and the second is a state-of-the-art rainfall ensemble produced by the ECMWF model. Results show the potential of the stochastic error model to generate precipitation ensemble fields from a regional numerical weather forecasting model removing around 60% and 12% of the systematic and random error, respectively. Moreover, SREM2D is proven to be an efficient technique that involves a low computational cost when compared to the more sophisticated ensemble techniques used by the ECMWF model.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2021.126374