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Parametrization of peatland hydraulic properties for the Canadian land surface scheme
Authors:Matthew G Letts  Nigel T Roulet  Neil T Comer  Michael R Skarupa  Diana L Verseghy
Institution:1. Department of Geography , McGill University, Centre for Climate and Global Change Research , Burnside Hall, 805 rue Sherbrooke O., Montréal, Québec, H3A 2K6;2. Department of Geography , McGill University, Centre for Climate and Global Change Research , Burnside Hall, 805 rue Sherbrooke O., Montréal, Québec, H3A 2K6 E-mail: routlet@felix.geog.mcgill.ca;3. Department of Geography , Trent University , Peterborough, Ontario;4. Atmospheric Environment Service , Downsview, Ontario
Abstract:Abstract

A hydraulic parametrization is developed for peatland environments in the Canadian Land Surface Scheme (CLASS). Three ‐wetland soil classes account for the typical variation in the hydraulic characteristics of the uppermost 0.5 m of organic soils. Review of the literature reveals that saturated hydraulic conductivity varies from a median of 1.0 × 10?7m/s in deeply humified sapric peat to 2.8 × 10?4 m/s in relatively undecomposed fibric peat. Average pore volume fraction ranges from 0.83 to 0.93. Parameters have been designed for the soil moisture characteristic curves for fibric, hemic and sapric peat using the Campbell (1974) equation employed in CLASS, and the van Genuchten (1980) formulation. There is little difference in modelled soil moisture between the two formulations within the range of conditions normally found in peatlands. Validation of modelled water table depth and peat temperature is performed for a fen in northern Québec and a bog in north‐central Minnesota. The new parametrization results in a more realistic simulation of these variables in peatlands than the previous version of CLASS, in which unrealistic mineral soil “equivalents “ were used for wetland soil climate modelling.
Keywords:
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