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The integrated hydrologic model intercomparison project, IH-MIP2: A second set of benchmark results to diagnose integrated hydrology and feedbacks.

Kollet, Stefan; Sulis, Mauro; Maxwell, Reed M.; Paniconi, Claudio; Putti, Mario; Bertoldi, Giacomo; Coon, Ethan T.; Cordano, Emanuele; Endrizzi, Stefano; Kikinzon, Evgeny; Mouche, Emmanuel; Mügler, Claude; Park, Young-Jin; Refsgaard, Jens C.; Stisen, Simon; Sudicky, Edward (2017). The integrated hydrologic model intercomparison project, IH-MIP2: A second set of benchmark results to diagnose integrated hydrology and feedbacks. Water Resources Research , vol. 53 , nº 1. p. 867-890. DOI: 10.1002/2016WR019191.

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Résumé

Emphasizing the physical intricacies of integrated hydrology and feedbacks in simulating connected, variably saturated groundwater-surface water systems, the Integrated Hydrologic Model Intercomparison Project initiated a second phase (IH-MIP2), increasing the complexity of the benchmarks of the first phase. The models that took part in the intercomparison were ATS, Cast3M, CATHY, GEOtop, HydroGeoSphere, MIKE-SHE, and ParFlow. IH-MIP2 benchmarks included a tilted v-catchment with 3-D subsurface; a superslab case expanding the slab case of the first phase with an additional horizontal subsurface heterogeneity; and the Borden field rainfall-runoff experiment. The analyses encompassed time series of saturated, unsaturated, and ponded storages, as well as discharge. Vertical cross sections and profiles were also inspected in the superslab and Borden benchmarks. An analysis of agreement was performed including systematic and unsystematic deviations between the different models. Results show generally good agreement between the different models, which lends confidence in the fundamental physical and numerical implementation of the governing equations in the different models. Differences can be attributed to the varying level of detail in the mathematical and numerical representation or in the parameterization of physical processes, in particular with regard to ponded storage and friction slope in the calculation of overland flow. These differences may become important for specific applications such as detailed inundation modeling or when strong inhomogeneities are present in the simulation domain.

Type de document:
Mots-clés libres: modèles hydrologiques;
Centre: Centre Eau Terre Environnement
Date de dépôt: 16 juin 2017 16:00
Dernière modification: 16 juin 2017 16:00
URI: http://espace.inrs.ca/id/eprint/5152

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