Journal
WATER
Volume 13, Issue 7, Pages -Publisher
MDPI
DOI: 10.3390/w13070970
Keywords
HBV model; hydrological signatures; multiobjective optimization; diagnostic evaluation approach; dataset size; lumped model calibration; poorly gauged catchments; Brue catchment
Categories
Funding
- National Water and Energy Center at UAE University [12R019]
Ask authors/readers for more resources
This study investigated the impact of varying lengths of streamflow observation records on model calibration and evaluated the effectiveness of a signature-based calibration approach in conceptual rainfall-runoff model calibration. The results showed that the HBV model was successfully calibrated using short-term datasets, with one formulation of the multiobjective signature-based optimization approach yielding the highest performance and hydrological consistency among all parameterization algorithms. Diagnostic model evaluation enabled the selection of consistent models reflecting catchment behavior, even in data-poor situations.
Many calibrated hydrological models are inconsistent with the behavioral functions of catchments and do not fully represent the catchments' underlying processes despite their seemingly adequate performance, if measured by traditional statistical error metrics. Using such metrics for calibration is hindered if only short-term data are available. This study investigated the influence of varying lengths of streamflow observation records on model calibration and evaluated the usefulness of a signature-based calibration approach in conceptual rainfall-runoff model calibration. Scenarios of continuous short-period observations were used to emulate poorly gauged catchments. Two approaches were employed to calibrate the HBV model for the Brue catchment in the UK. The first approach used single-objective optimization to maximize Nash-Sutcliffe efficiency (NSE) as a goodness-of-fit measure. The second approach involved multiobjective optimization based on maximizing the scores of 11 signature indices, as well as maximizing NSE. In addition, a diagnostic model evaluation approach was used to evaluate both model performance and behavioral consistency. The results showed that the HBV model was successfully calibrated using short-term datasets with a lower limit of approximately four months of data (10% FRD model). One formulation of the multiobjective signature-based optimization approach yielded the highest performance and hydrological consistency among all parameterization algorithms. The diagnostic model evaluation enabled the selection of consistent models reflecting catchment behavior and allowed an accurate detection of deficiencies in other models. It can be argued that signature-based calibration can be employed for building adequate models even in data-poor situations.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available