Chaehyeon Chelsea Nam, Doo-Sun R. Park, Chang-Hoi Ho
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引用次数: 0
摘要
在2012年北大西洋温带过渡型飓风桑迪(Sandy)造成灾难性破坏后,热带气旋(TC)的衰减阶段受到越来越多的关注。在中纬度地区经历温带转变(ET)的TC可能会变得危险,并在广大地区带来暴雨和强风。在本研究中,采用决策树分析来评估TC参数(如强度类别、进入地点和距离海岸线的距离)在确定损害发生方面的相对重要性。分析了1979-2015年期间在大韩民国(以下简称韩国)登陆的所有123次tc。研究结果显示,强热带风暴和台风不论其进入地点和距离海岸线有多远,都会造成破坏。热带风暴强度的台风只有在接近韩半岛西南部时才会造成损失。最大风速小于17 m s - 1的弱TC除非在登陆韩国时经历温带过渡(ET),否则不会造成损害。当ET风暴在海岸线上接近1.22°(约130公里)时,会造成严重的破坏,特别是在韩国西海岸和首都地区。目前的结果表明,不仅考虑强度和轨迹,而且还考虑ET的准确预报对于成功减轻灾害风险至关重要。
Major Decisive Factors of Tropical Cyclone Risk in the Republic of Korea: Intensity, Track, and Extratropical Transition
After the catastrophic damage caused by the extratropical transitioned North Atlantic hurricane Sandy (2012), the decaying stage of a tropical cyclone (TC) have received more attention. TC undergoing extratropical transition (ET) in mid-latitudes may become hazardous with torrential rain and violent wind over a vast area. In this study, a decision tree analysis was applied to evaluate the relative importance of TC parameters such as intensity category, entry location, and distance from coastlines, in determining damage occurrence. All 123 landfalling TCs in the Republic of Korea (hereafter Korea) during 1979–2015 were analyzed. The results reveal that intense TCs (severe tropical storms and typhoons) incur damages regardless of entry location and distance from coastlines. TCs with tropical storm intensity are expected to incur damages only when they approach the southwest of the Korean Peninsula. Weak TC with maximum wind speeds smaller than 17 m s−1 does not have the potential to incur damages unless the TC was undergoing extratropical transition (ET) during landfall in Korea. ET storms that make a landfall approaching 1.22° (~130 km) to the coastline cause substantial damages especially in the west coast and capital area of Korea. The present results suggest that accurate forecasting that also considers ET, and not only intensity and track, is essential for successful disaster risk mitigation.
期刊介绍:
The Asia-Pacific Journal of Atmospheric Sciences (APJAS) is an international journal of the Korean Meteorological Society (KMS), published fully in English. It has started from 2008 by succeeding the KMS'' former journal, the Journal of the Korean Meteorological Society (JKMS), which published a total of 47 volumes as of 2011, in its time-honored tradition since 1965. Since 2008, the APJAS is included in the journal list of Thomson Reuters’ SCIE (Science Citation Index Expanded) and also in SCOPUS, the Elsevier Bibliographic Database, indicating the increased awareness and quality of the journal.