A Parsimonious Empirical Approach to Streamflow Recession Analysis and Forecasting

Delforge, Damien;Muñoz‐Carpena, Rafael;Van Camp, Michel;Vanclooster, Marnik
(2020) Water Resources Research — Vol. 56, n° 2 (2020)

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Authors
  • Delforge, Damienorcid-logoUCLouvain
    Author
  • Muñoz‐Carpena, Rafaelorcid-logoDepartment of Agricultural and Biological Engineering, University of Florida, Gainesville, USA
    Author
  • Van Camp, Michelorcid-logoRoyal Observatory of Belgium, Brussels, Belgium
    Author
  • Vanclooster, Marnikorcid-logoUCLouvain
    Author
Abstract
For more than a century, the study of streamflow recession has been dominated by seemingly physically based parametric methods that make assumptions on the nonlinear nature of the hydrograph recession. In practice, several studies have shown that various degrees of nonlinearity occur in the same time series and that parametric methods can underfit nonlinear recession patterns. As a result, these methods are often applied empirically to each recession segment. We propose a parsimonious data‐driven model, EDM‐Simplex, with two objectives: forecasting recession and characterizing its nonlinear behavior. We evaluate the new model through a global sensitivity analysis applied to three distinctive hydrograph series from a heterogeneous karstic catchment. The results show excellent 1‐day‐ahead forecasting performance (median Nash and Sutcliffe efficiency > 0.99) for all time series with four recession extraction methods. The sensitivity analysis also showed that empirical nonlinearity, that is, sensitivity to initial conditions, is best estimated through the absolute forecast performance and its decline over time. This indicator leads to different interpretations of nonlinearity compared to previous methods but is just as sensitive to the choice of recession extraction method. In particular, when forecasts were made for recession segments containing early stages of recession or flow anomalies, the upstream recession was significantly more linear than the downstream recession hydrographs affected by the karst. Consequently, our results support future research to interpret observed nonlinearities as a function of the catchment hydrological states for better integration of empirical, physical‐based, and operational approaches to recession analysis.
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Delforge, D., Muñoz‐Carpena, R., Van Camp, M., & Vanclooster, M. (2020). A Parsimonious Empirical Approach to Streamflow Recession Analysis and Forecasting. Water Resources Research, 56(2). https://doi.org/10.1029/2019wr025771 (Original work published 2020)