- 著者
- Gerry BAGTASA
- 出版者
- Meteorological Society of Japan
- 雑誌
- 気象集誌. 第2輯 (ISSN:00261165)
- 巻号頁・発行日
- vol.97, no.5, pp.967-976, 2019 (Released:2019-09-19)
- 参考文献数
- 29
- 被引用文献数
- 4 17
The influence of tropical cyclones (TC) on the western North Pacific (WNP) summer monsoon flow—as well as the impact on rainfall in the Philippines during the months of June to September from 1958 to 2017—were investigated. High precipitation event (HPE) days with measured rainfall in the upper 85th, 95th, and 99th percentiles were determined using daily rainfall averages via data acquired from eight synoptic stations in northwestern Philippines. More than 90 % of HPE days coincide with TC occurrence in the WNP, whereas landfalling TCs only account for 12.8-15.1 % of HPE days. The present study looks at the non-landfalling TCs that are coincident with HPEs. The result shows that these non-landfalling TCs remotely play a key role that affects almost all local HPEs in northwestern Philippines. Analysis of the TC tracks and their influence on southwesterly summer monsoon flow in Southeast Asia during HPE days shows that most of the TCs move along a line segment connecting northern Luzon and Okinawa, Japan. The composite low-level flow of all HPE days is characterized by a zonally-oriented eastward trough at the 1005-1007 hPa isobar along 20°N that extends to at least 135°E longitude over the northern half of the Philippines; a deepening of the monsoon trough in northern South China Sea also occurs. The 1005-1007 hPa trough induces an eastward shift on the southwesterly flow causing a 1.94-4.69 times increase in mean zonal wind velocity and 2.67-6.92 times increase in water vapor flux (via moisture conveyor belt) along western Luzon. In addition, increasing trends of 6.0 % per decade in the mean annual number of HPE days per decade and 12.7 % per decade in the annual total HPE precipitation are found to be significant in the upper 85th percentile of daily rainfall. These increases are attributed to the recent changes in WNP TC tracks.
言及状況
外部データベース (DOI)
Twitter (38 users, 45 posts, 130 favorites)
AYON SA MGA SIYENTISTA, kung ang tagos ng bagyo ay sa gitna ng Pinas at Japan, mas mataas ang tsansa na lumakas ang hatak sa habagat, kaya mas malakas ang ulan.
Bale habang tumatambay pa sa may Taiwan si Hanna, posibleng malakas pa rin ang ulan.
Ingat!
https://t.co/qg5arOHRny https://t.co/gHxIsYUYa4
the red boxes show the locations of historical non-landfalling and monsoon-enhancing tropical cyclones, w/c is more or less consistent with the current position of #FalconPH (fig from https://t.co/bpNdVIifT4) https://t.co/vWib7b5Zj2
enhanced Habagat rains occur when 1) there's a typhoon to the NE of Luzon ✅ 2)a low monsoon trough in Southern China❌3) prevailing strong westerly❌.May have these conditions by Mon-Tue-ish. Wrote about the mechanisms of remote TC rain in this 2019 paper https://t.co/WTqEPu7GfD https://t.co/G14pn3Nykx
@weatherphilipp1 models have improved so much in 10 years it's difficult to compare. 2012, other than Haikui, the remnants of TY Saola (Gener) was in southern China, like Cempaka is now, the 2 systems induced strong moisture flow called the 'moisture conveyor belt' https://t.co/WTqEPuph7b https://t.co/JiuQ4qFBmM
the points are all tropical cyclones that enhanced the flow of Habagat since 1958, most typhoons passing along an imaginary line connecting Luzon & Okinawa, and another system in southern China leads to enhanced Habagat conditions https://t.co/bpNdVIziV4 https://t.co/sC755DI0lO
Where it'll rain will depend on the intensity and position of TS #FabianPH. Typically, a typhoon near Okinawa and a low in northern SCS during MJO ~5-7 results in "enhanced Habagat" via Rossby waves. My 2019 paper on this https://t.co/WTqEPuph7b https://t.co/MIz2MTzAno
my paper is officially out! This explains the role of distant tropical cyclones on heavy rainfall events in western Luzon.
https://t.co/rRDzTc1fML https://t.co/n03eZqm9rY