Comparison of land surface scheme simulations with field observations versus atmospheric model output as forcing |
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Authors: | Matthew K MacDonald Bruce J Davison Muluneh A Mekonnen Alain Pietroniro |
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Institution: | 1. Centre for Hydrology, University of Saskatchewan, Saskatoon, CanadaMatthew.Macdonald@umanitoba.ca;3. National Hydrology Research Centre, Environment Canada, Saskatoon, Saskatchewan, Canada;4. School of Environment and Sustainability and the Global Institute for Water Security, University of Saskatchewan, Saskatoon, Canada |
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Abstract: | ABSTRACTThe low density of meteorological stations in parts of Canada necessitates using numerical weather prediction (NWP)/assimilation output for hydrological modelling. In this study, comparisons are made of simulated land surface variables when using field observations versus NWP output as forcing for two well-instrumented sites: the mountainous and forested Marmot Creek Basin (MCRB) in the Canadian Rocky Mountains, and a prairie cropland/grassland site (Kenaston). The Canadian Land Surface Scheme 3.6 (CLASS) was used for modelling. The Global Environmental Multiscale (GEM) model with Canadian Precipitation Analysis (CaPA) was also used as forcing. There was good agreement between observed meteorology and GEM/CaPA, though some deficiencies in GEM/CaPA were identified: the effects of sub-grid topography on incoming radiation and wind speed were not accounted for at MCRB, and CaPA did not capture some convective rainfall events at Kenaston. CLASS simulations using both sets of forcing showed difficulties in simulating snow depth, soil moisture and evapotranspiration; certain difficulties were linked to GEM/CaPA deficiencies and/or CLASS. Both sets of forcing tended to overestimate the duration of snow cover at MCRB, but during different years. With GEM/CaPA as forcing, CLASS overestimated the duration of frozen soils. The GEM/CaPA precipitation difficulties at Kenaston degraded soil moisture simulations. EDITOR A. Castellarin; ASSOCIATE EDITOR E. Volpi |
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Keywords: | Land surface scheme forcing model uncertainty hydrology mountains forest prairies |
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