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Hydrology and Earth System Sciences An interactive open-access journal of the European Geosciences Union
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Volume 17, issue 10 | Copyright
Hydrol. Earth Syst. Sci., 17, 4227-4239, 2013
https://doi.org/10.5194/hess-17-4227-2013
© Author(s) 2013. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 29 Oct 2013

Research article | 29 Oct 2013

The influence of conceptual model structure on model performance: a comparative study for 237 French catchments

W. R. van Esse1,*, C. Perrin2, M. J. Booij1, D. C. M. Augustijn1, F. Fenicia3,4, D. Kavetski5, and F. Lobligeois2 W. R. van Esse et al.
  • 1University of Twente, Faculty of Engineering Technology, Department of Water Engineering and Management, Enschede, the Netherlands
  • 2Irstea, Hydrosystems and Bioprocesses Research Unit (HBAN), Antony, France
  • 3Public Research Centre-Gabriel Lippmann, Belvaux, Luxembourg
  • 4Delft University of Technology, Faculty of Civil Engineering and Geosciences, Water Resources Section, Delft, the Netherlands
  • 5University of Adelaide, School of Civil Environmental and Mining Engineering, Adelaide, Australia
  • *currently at: Nelen & Schuurmans, Utrecht, the Netherlands

Abstract. Models with a fixed structure are widely used in hydrological studies and operational applications. For various reasons, these models do not always perform well. As an alternative, flexible modelling approaches allow the identification and refinement of the model structure as part of the modelling process. In this study, twelve different conceptual model structures from the SUPERFLEX framework are compared with the fixed model structure GR4H, using a large set of 237 French catchments and discharge-based performance metrics. The results show that, in general, the flexible approach performs better than the fixed approach. However, the flexible approach has a higher chance of inconsistent results when calibrated on two different periods. When analysing the subset of 116 catchments where the two approaches produce consistent performance over multiple time periods, their average performance relative to each other is almost equivalent. From the point of view of developing a well-performing fixed model structure, the findings favour models with parallel reservoirs and a power function to describe the reservoir outflow. In general, conceptual hydrological models perform better on larger and/or wetter catchments than on smaller and/or drier catchments. The model structures performed poorly when there were large climatic differences between the calibration and validation periods, in catchments with flashy flows, and in catchments with unexplained variations in low flow measurements.

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