Assimilation of Discharge Data into Semidistributed Catchment Models for Short-Term Flow Forecasting: Case Study of the Seine River Basin
Publication: Journal of Hydrologic Engineering
Volume 20, Issue 5
Abstract
This study addresses the sensitivity of short-term flow forecasting in the Seine River basin (, France) to the spatial distribution using a semidistributed model [Transfer with the Génie Rural model (TGR)]. The basin was decomposed into intermediate basins depending on the gauging stations selected for this study. A lumped hydrological model was applied on each intermediate basin and a routing model was used to propagate the discharge through the river network. Discharge data at the gauging stations were assimilated using a Kalman filter and tests for flow forecasting were performed with a lead time of up to 72 h. Several spatial configurations, defined by a selection of one or several gauging stations, were tested and the performances were compared with a reference lumped model currently used operationally by the regional flood forecasting center. Results showed that the forecasting performance improves with an increase in the degree of spatialization. Nevertheless, this improvement was not systematic and the integration of some particular gauging stations degraded the model performance. In addition, it was shown that integrating some other stations (generally the most upstream) led to a negligible improvement. This suggests that in an operational context, where the model has to be robust and computationally efficient, some efforts should focus on finding the optimal spatial distribution, which is not necessarily the one using all the available stations.
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Acknowledgments
The authors thank Météo-France for providing the meteorological data used in this study and the Seine-Moyenne-Yonne-Loing flood forecasting centre (SPC SMYL) at DRIEE Ile-de-France for providing hydrological data, financial support, and feedback on the results of the study. Finally, we are grateful to the anonymous reviewers for their comments that helped to improve the article.
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© 2014 American Society of Civil Engineers.
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Received: Dec 19, 2013
Accepted: Jul 1, 2014
Published online: Aug 18, 2014
Discussion open until: Jan 18, 2015
Published in print: May 1, 2015
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