Comparing global and local calibration schemes from a differential split-sample test perspective
Type de ressource
Auteurs/contributeurs
- Gaborit, Étienne (Auteur)
- Ricard, Simon (Auteur)
- Lachance-Cloutier, Simon (Auteur)
- Anctil, François (Auteur)
- Turcotte, Richard (Auteur)
Titre
Comparing global and local calibration schemes from a differential split-sample test perspective
Résumé
This work explores the performances of the hydrologic model Hydrotel, applied to 36 catchments located in the Province of Quebec, Canada. A local calibration (each catchment taken individually) scheme and a global calibration (a single parameter set sought for all catchments) scheme are compared in a differential split-sample test perspective. Such a methodology is useful to gain insights on a model’s skills under different climatic conditions, in view of its use for climate change impact studies. The model was calibrated using both schemes on five non-continuous dry and cold years and then evaluated on five dissimilar humid and warm years. Results indicate that, as expected, local calibration leads to better performances than the global one. However, global calibration achieves satisfactory simulations while producing a better temporal robustness (i.e., model transposability to periods with different climatic conditions). Global calibration, in opposition to local calibration, thus imposes spatial consis...
Publication
Canadian Journal of Earth Sciences
Volume
52
Numéro
11
Date
2015-08-07
Extra
DOI: 10.1139/cjes-2015-0015
MAG ID: 1876905666
Référence
Gaborit, É., Ricard, S., Lachance-Cloutier, S., Anctil, F., & Turcotte, R. (2015). Comparing global and local calibration schemes from a differential split-sample test perspective. Canadian Journal of Earth Sciences, 52(11). https://doi.org/10.1139/cjes-2015-0015
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