Streamflow simulation in poorly gauged basins with regionalised assimilation using Kalman filter

The streamflow estimation in ungauged or poorly gauged basins is a fundamental and challenging problem in hydrology, which has often been solved by transferring hydrological information from gauged basins (i.e. by regionalisation). Most studies on streamflow regionalisation focus on identifying the...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2023-05, Vol.620, p.129373, Article 129373
Main Authors: Georgievová, Irina, Hanel, Martin, Pavlík, Petr, Vizina, Adam
Format: Article
Language:English
Subjects:
Data assimilation
Kalman filter
Poorly gauged basins
Streamflow
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Summary:The streamflow estimation in ungauged or poorly gauged basins is a fundamental and challenging problem in hydrology, which has often been solved by transferring hydrological information from gauged basins (i.e. by regionalisation). Most studies on streamflow regionalisation focus on identifying the best methods to transfer the hydrologic model parameters and uses primarily physiographic attributes or climate information for these purposes. In the present study, the sequential data assimilation method – the Kalman filter – has been used to determine streamflow in a poorly gauged (unknown) basin to combine, in an optimal way, observations of neighbouring basins and model simulation of a given basin. The methodology is based on the concept of concatenated upstream catchments, where the aggregation of unobserved states can be estimated. The streamflow estimate is further divided between the unknown sub-catchments using linear regression on the catchments’ hydrological characteristics, which are subsequently used to approximate error statistics and operators in the Kalman filter application. The results were evaluated on 165 catchments in the Czech Republic using RMSE, MASE and MAE criteria and indicate that in 87.3% of the cases, the proposed methodology improved the accuracy of streamflow estimations by an average of 40% (in combined evaluated measurements) compared to the original simulations within the system for drought monitoring and forecasting in the Czech Republic ‘HAMR’. •Data assimilation-based methodology for streamflow estimation in poorly gauged basins.•Upstream catchments hierarchy and hydrological signatures’ estimates are considered.•Kalman filter mergers unknown basins’ simulation with neighbouring observations.•Validation confirms that the proposed methodology is well-performing.
ISSN:0022-1694
DOI:10.1016/j.jhydrol.2023.129373