Wolf Creek Cold Regions Model Set-up, Parameterisation and Modelling Summary

Wolf Creek Research Basin is in the Upper Yukon River Basin near Whitehorse, Yukon and is representative of headwaters in the northern Coast Mountains. It was established in 1993 to better develop northern hydrological models, and related hydrological process, ecosystem and climate science. Yukon En...

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Bibliographic Details
Main Authors: Pomeroy, John W., Semenova, Olga M., Fang, Xing, Vinogradov, Yuri B., Ellis, Chad, Vinogradova, Tatyana A., MacDonald, Matt, Fisher, Elena E., Dornes, Pablo, Lebedeva, Ludmila, Brown, Tom
Format: Report
Language:English
Published: Centre for Hydrology, University of Saskatchewan, Saskatoon, Saskatchewan and State Hydrological Institute, Saint Petersburg, Russia 2010
Subjects:
Hydrological modelling
Cold Regions Hydrological Model
Wolf Creek
Yukon
Parameterisation
Hydrograph model
Runoff
Canada
Whitehorse
Yukon river
Online Access:https://hdl.handle.net/10388/15183
Description
Summary:Wolf Creek Research Basin is in the Upper Yukon River Basin near Whitehorse, Yukon and is representative of headwaters in the northern Coast Mountains. It was established in 1993 to better develop northern hydrological models, and related hydrological process, ecosystem and climate science. Yukon Environment maintains Wolf Creek hydrometeorological and hydrometric stations and conducts regular snow surveys in the basin. A number of hydrological models have been tested on Wolf Creek and all have had great difficulty in simulating the cold regions hydrological processes that dominate its streamflow response to snowmelt and rainfall events. Developments in understanding hydrological processes and their interaction with terrestrial ecosystems and climate at Wolf Creek have lead to the development of the Cold Regions Hydrological Model (CRHM) by a consortium of scientists led by the University of Saskatchewan and Environment Canada. CRHM comprehensively incorporates the blowing snow, intercepted snow, sublimation, melt energetics, infiltration to frozen soils, organic terrain runoff and other cold regions hydrological phenomenon and discretizes the catchment on a hydrological response unit basis for applying water and energy balance calculations. The model is intended for prediction of ungauged basins with parameter selection from physically measurable properties of the river basin or regional transference of calibrated values. In Russia, a long tradition of cold regions hydrological research has led to the development of the Hydrograph model by the State Hydrological Institute, St. Petersburg. The Hydrograph model contains several promising innovations regarding the formation and routing of runoff, discretizes the basin using hydrological response units and addresses some (but not all) cold regions hydrological processes. Hydrograph parameter selection is made from both physically measured properties and those that are calibrated, but the calibrations can be easily regionalized. Test simulations of runoff processes ...

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