Jointly Calibrating Hydrologic Model Parameters and State Adjustments

Jointly Calibrating Hydrologic Model Parameters and State Adjustments

A method is presented to address model state uncertainty in hydrologic model simulation. This is achieved by introducing tuneable parameters that allow adjustments to the model states. Excessive dimensionality is avoided by introducing only a limited number of parameters that control the index (timi...

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Bibliographic Details
Published in:Water resources research Vol. 57; no. 8
Main Authors: Kim, S. S. H., Marshall, L. A., Hughes, J. D., Sharma, A., Vaze, J.
Format: Journal Article
Language:English
Published: Washington John Wiley & Sons, Inc 01-08-2021
Subjects:
Case studies
Errors
Hydrologic models
Hydrology
Modelling
Parameter estimation
Parameter uncertainty
Parameters
Rain
Rainfall
Rainfall-runoff relationships
Runoff
scenario modeling
Simulation
Soil moisture
SPUE
state adjustment
state uncertainty
Uncertainty
uncertainty analysis
Water resources
Water resources planning
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Summary:A method is presented to address model state uncertainty in hydrologic model simulation. This is achieved by introducing tuneable parameters that allow adjustments to the model states. Excessive dimensionality is avoided by introducing only a limited number of parameters that control the index (timing) and size of the state adjustments. The method is designed to compensate for issues with hydrologic model structures, particularly those relevant to the soil moisture state in a rainfall‐runoff model. In the context of water resource planning and management, errors in the model states have often been overlooked as an important source of uncertainty and have the potential to significantly degrade model simulations. A synthetic study shows that a classical parameter estimation approach will produce biased distributions when state errors exist, and that the proposed state and parameter uncertainty estimation (SPUE) can remove the bias in parameter estimates for improved model simulations. In a real case study, SPUE and the classical approach are implemented in 46 sites around Australia. The results show that hydrologic parameter distributions for a selected conceptual model can be significantly different when accounting for state uncertainty. This has large implications for scenario modeling since it puts into dispute how to determine appropriate parameters for such studies. SPUE outperforms the classical approach in a range of calibration and validation metrics, particularly for sites that contain zero flows. Future work involves testing SPUE with different hydrologic models and likelihood formulations, and enhancing rigor by explicitly accounting for observational data uncertainty. Key Points A method is presented that allows calibration of the timing and size of a limited number of hydrologic state adjustments The method aims to obtain improved simulations for scenario modeling in water resource planning and management The method outperformed a classical parameter estimation approach in synthetic and real case settings
ISSN:0043-1397
1944-7973
DOI:10.1029/2020WR028499