Abstract
The phase of precipitation formed within the atmosphere is highly dependent on the vertical temperature profile through which it falls. In particular, several precipitation types can form in an environment with a melting layer aloft and a refreezing layer below. These precipitation types include freezing rain, ice pellets, wet snow, and slush. To examine the formation of such precipitation, a bulk microphysics scheme was used to compare the characteristics of the hydrometeors produced by the model and observed by a research aircraft flight during the 1998 ice storm near Montreal, Canada. The model reproduced several of the observed key precipitation characteristics. Sensitivity tests on the precipitation types formed during the ice storm were also performed. These tests utilized temperature profiles produced by the North American Regional Reanalysis. The results show that small variations (±0.5°C) in the temperature profiles as well as in the precipitation rate can have major impacts on the types of precipitation formed at the surface. These results impose strong requirements on the accuracy needed by prediction models.
* Current affiliation: National Center for Atmospheric Research, Boulder, Colorado
+ Current affiliation: Department of Environment and Geography, University of Manitoba, Winnipeg, Manitoba, Canada
Corresponding author address: Julie M. Thériault, Department of Atmospheric and Oceanic Sciences, 805 Sherbrooke West, McGill University, Montreal, QC H3A 2K6, Canada. Email: julie.theriault@mail.mcgill.ca
