Representation of Extreme Weather during a Typhoon Landfall in Regional Meteorological Simulations: A Model Intercomparison Study for Typhoon Songda (2004)
January 30th, 2010
Yuichiro Oku, Tetsuya Takemi, Hirohiko Ishikawa, Sachie Kanada and Masuo Nakano
Release Date: January 30, 2010
Representation of Extreme Weather during a Typhoon Landfall in Regional Meteorological Simulations: A Model Intercomparison Study for Typhoon Songda (2004)
Yuichiro Oku1), Tetsuya Takemi1), Hirohiko Ishikawa1), Sachie Kanada2) and Masuo Nakano2)
1) Disaster Prevention Research Institute, Kyoto University
2) Advanced Earth Science and Technology Organization, Meteorological Research Institute
(Received: December 8, 2009)
(Accepted for publication: January 23, 2010)
Abstract:
The representations of extreme weather during the landfall of Typhoon Songda (2004) in regional simulations at 1-km resolution are described and compared for two cloud-resolving models: Non-hydrostatic Model (NHM) and the Weather Research and Forecasting model (WRF). Both models, using the same 5-km-mesh outputs from NHM as their initial and boundary conditions, successfully reproduced the observed typhoon track and intensity. The comparison of surface winds indicated that WRF evaluates more enhanced extremes than NHM; on the other hand, the representations of rainfalls indicated that the extremes of hourly and accumulated rainfalls simulated by the two models are evaluated differently. Slight differences in the model topography between the two models, though produced by the same terrain dataset, were shown to significantly affect the representations of the extremes in each model. It should be recognized that not only the differences in model numerics and physics but also slight changes in the reproduction of topography induce differences in the representations of extreme weather.
To cite this article:
Yuichiro Oku, Tetsuya Takemi, Hirohiko Ishikawa, Sachie Kanada and Masuo Nakano: “Representation of Extreme Weather during a Typhoon Landfall in Regional Meteorological Simulations: A Model Intercomparison Study for Typhoon Songda (2004)”, Hydrological Research Letters, Vol. 4, pp.1-5, (2010) .
doi:10.3178/hrl.4.1
JOI JST.JSTAGE/hrl/4.1
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