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https://doi.org/10.14191/atmos.2015.25.4.611
Copy DOIJournal: Atmosphere | Publication Date: Dec 31, 2015 |
Citations: 7 |
Heavy rainfall (<TEX>$</TEX><TEX>></TEX><TEX>30mm\;hr^{-1}$</TEX>) over the Korean Peninsula is examined in order to understand thermo-dynamic characteristics of the atmosphere, using radiosonde observational data from seven upper-air observation stations during the last 17 years (1997~2013). A total of 82 heavy rainfall cases during the summer season (June-August) were selected for this study. The average values of thermo-dynamic indices of heavy rainfall events are Total Precipitable Water (TPW) = 60 mm, Convective Available Potential Energy (CAPE) = <TEX>$850J\;kg^{-1}$</TEX>, Convective Inhibition (CIN) = <TEX>$15J\;kg^{-1}$</TEX>, Storm Relative Helicity (SRH) = <TEX>$160m^2s^{-2}$</TEX>, and 0~3 km bulk wind shear = <TEX>$5s^{-1}$</TEX>. About 34% of the cases were associated with a Changma front; this pattern is more significant than other synoptic pressure patterns such as troughs (22%), migratory cyclones (15%), edges of high-pressure (12%), typhoons (11%), and low-pressure originating from Changma fronts (6%). The spatial distribution of thermo-dynamic conditions (CAPE and SRH) is similar to the range of thunderstorms over the United States, but extreme conditions (supercell thunderstorms and tornadoes) did not appear in the Korean Peninsula. Synoptic conditions, vertical buoyancy (CAPE, CIN), and wind parameters (SRH, shear) are shown to discriminate among the environments of the three types. The first type occurred with high CAPE and low wind shear by the edge of the high pressure pattern, but Second type is related to Changma front and typhoon, exhibiting low CAPE and high wind shear. The last type exhibited characteristics intermediate between the first and second types, such as moderate CAPE and wind shear near the migratory cyclone and trough.
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