Journal of Hydrometeorology, Volume 18, Issue 8
- Anthology ID:
- G17-24
- Month:
- Year:
- 2017
- Address:
- Venue:
- GWF
- SIG:
- Publisher:
- American Meteorological Society
- URL:
- https://gwf-uwaterloo.github.io/gwf-publications/G17-24
- DOI:
A Numerical Study of the June 2013 Flood-Producing Extreme Rainstorm over Southern Alberta
Yanping Li
|
Kit K. Szeto
|
Ronald E. Stewart
|
Julie M. Thériault
|
Liang Chen
|
Bohdan Kochtubajda
|
Anthony Liu
|
Sudesh Boodoo
|
Ron Goodson
|
Curtis Mooney
|
Sopan Kurkute
|
Yanping Li
|
Kit K. Szeto
|
Ronald E. Stewart
|
Julie M. Thériault
|
Liang Chen
|
Bohdan Kochtubajda
|
Anthony Liu
|
Sudesh Boodoo
|
Ron Goodson
|
Curtis Mooney
|
Sopan Kurkute
Abstract A devastating, flood-producing rainstorm occurred over southern Alberta, Canada, from 19 to 22 June 2013. The long-lived, heavy rainfall event was a result of complex interplays between topographic, synoptic, and convective processes that rendered an accurate simulation of this event a challenging task. In this study, the Weather Research and Forecasting (WRF) Model was used to simulate this event and was validated against several observation datasets. Both the timing and location of the model precipitation agree closely with the observations, indicating that the WRF Model is capable of reproducing this type of severe event. Sensitivity tests with different microphysics schemes were conducted and evaluated using equitable threat and bias frequency scores. The WRF double-moment 6-class microphysics scheme (WDM6) generally performed better when compared with other schemes. The application of a conventional convective/stratiform separation algorithm shows that convective activity was dominant during the early stages, then evolved into predominantly stratiform precipitation later in the event. The HYSPLIT back-trajectory analysis and regional water budget assessments using WRF simulation output suggest that the moisture for the precipitation was mainly from recycling antecedent soil moisture through evaporation and evapotranspiration over the Canadian Prairies and the U.S. Great Plains. This analysis also shows that a small fraction of the moisture can be traced back to the northeastern Pacific, and direct uptake from the Gulf of Mexico was not a significant source in this event.