Atmosphere (대기)
- Volume 16 Issue 3
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- Pages.235-246
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- 2006
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- 1598-3560(pISSN)
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- 2288-3266(eISSN)
Classification of Precipitation Type Using the Wind Profiler Observations and Analysis of the Associated Synoptic Conditions: Years 2003-2005
윈드프로파일러 관측 자료를 이용한 장마철 강수 형태 분류와 관련된 종관장의 특성 분석: 2003년-2005년
- Won, Hye-Yeong (Forecast Research Laboratory, Meteorological Research Institute, KMA) ;
- Jo, Cheon-Ho (Korea Global Atmosphere Watch Observatory, Meteorological Research Institute, KMA) ;
- Baek, Seon-Gyun (Meteorological Satellite Division, KMA)
- Received : 2006.09.01
- Accepted : 2006.09.25
- Published : 2006.09.30
Abstract
Remote sensing techniques using satellites or the scanning weather radars depend mostly on the presence of clouds or precipitation, and leave the extensive regions of clear air unobserved. But wind profilers provide the most direct measurements of mesoscale vertical air motion in the troposphere, even in the context of heavy precipitation. In this paper, the precipitation events during the Changma period was classified into 4 precipitation types - stratiform, mixed stratiform/ convective, deep convective, and shallow convective. The parameters for the classification of analysis are the vertical structure of reflectivity, Doppler velocity, and spectral width measured with the wind profiler at Haenam for a three-year period (2003-2005). In addition, the synoptic fields and total amount of precipitation were analyzed using the Global Final Analyses (FNL) data and the Global Precipitation Climatology Project (GPCP) data. During the Changma period, the results show that the stratiform type was dominant under the moist-neutral atmosphere in 2003, whereas the deep convective type was under the moist unstable condition in 2004. The stratiform type was no less popular than the deep convective type among four seasons because the moist neutral layer was formed by the convergence between the upper-level jet and the low-level jet, and by the moisture transport along the western rim of the North Pacific subtropical anticyclone.