| Autor: |
Chlumsky, Robert, Mai, Juliane, Craig, James R., Tolson, Bryan A. |
| Předmět: |
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| Zdroj: |
Journal of Hydrologic Engineering; Oct2024, Vol. 29 Issue 5, p1-11, 11p |
| Abstrakt: |
A blended model structure has emerged as an alternative to the traditional representation of model structure in a hydrologic model, in which multiple algorithmic choices are used to represent some hydrologic process within a model, and are combined within a single model run using a weighted average of process fluxes. This approach has been shown to improve overall model performance, as well as provide an efficient way to test multiple model structures. We propose that a blended model may also be at least a partial solution to the calls for a more robust Community Hydrologic Model, which can mitigate the need for developing new hydrologic models for each catchment and application. We develop an updated version of the blended model configuration that defines the suite of all possible hydrologic process options in the blended model. Configuration development was guided by model performance for more than 30 different discrete model configurations across 12 Model Parameter Estimation Experiment (MOPEX) catchments. Improvements to the blended model include the introduction of blended potential melt and potential evapotranspiration as new process groups, inclusion of nonblended structural changes, and a revision of the process options within each existing group. This leads to a very high-performing model with a mean calibration Kling–Gupta efficiency (KGE) score of 0.90 and mean validation KGE score of 0.80 across all 12 MOPEX catchments, a substantial improvement in model performance relative to the initial version. We tested for overfitting of models and found little statistical evidence that increasing the complexity of blended models reduces validation performance. We then selected the preferred model configuration as Version 2 of the blended model and tested it with 24 independent catchments against the original configuration. This test showed a statistically significant improvement or statistically similar performance in 22 of the 24 catchments in calibration and 21 of the 24 catchments in validation. The results also suggested a greater improvement in drier catchments. Version 2 of the blended model is robust across a range of catchments without the need for adjusting its flexible model structure and may be useful in future hydrology studies and applications alike. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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