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
NEW PAPER. I am pleased to share the link to our paper on tropical cyclone quiescence. The publication of its final form took longer than we expected but finally it's here.
https://t.co/GaitXe48dp https://t.co/sOkHQOIx96
New Graphical Abstract now available online.
Kodama S. and M. Sato, 2022: Statistical analysis of remote precipitation in Japan caused by typhoons in September. J. Meteor. Soc. Japan, 100.
https://t.co/xCEdGIyKbX
https://t.co/DgMsObUzEJ https://t.co/UwkuTDImY6
Sola new paper: Shibuya et al., Objective Classification of Controlling Factors for the Occurrence of the Wide-spread Extreme Precipitation Events during the Baiu Season over Western Japan, SOLA, Vol.17, 251-256, doi:10.2151/sola.2021-044, https://t.co/dL7N2FvFr9 https://t.co/YjPAxYkP5g
ew Graphical Abstract now available online!
https://t.co/8l9q0o6NWA
Takamura, T. and P. Khatri, 2021: Uncertainties in radiation measurement using a rotating shadow-band spectro-radiometer. J. Meteor. Soc. Japan, 99,
https://t.co/myFQpOXpcb. https://t.co/fp6muzqeS0
New Graphical Abstract is now available online!
https://t.co/J157WTvghS
De Meyer, V. and R. Roca, 2021: Thermodynamic scaling of extreme daily precipitation over the tropical ocean from satellite observations. J. Meteor. Soc. Japan, 99,
https://t.co/hB3NIbQrzv https://t.co/CQ6s5TrNT2
【プレスリリース】過去40年で太平洋側に接近する台風が増えている
気象研究所 2020年8月25日
https://t.co/UcFWMRDdoh
Yamaguchi, M., and S. Maeda, 2020: Increase in the number of tropical cyclones approaching Tokyo since 1980.
J. Meteor. Soc. Japan, 98,
https://t.co/xNcbSnQsU6.
Just published!
Wang, C.-C. et al., 2020: A modeling study on the impacts of Typhoon Morakot’s (2009) vortex structure on rainfall in Taiwan using piecewise potential vorticity inversion. J. Meteor. Soc. Japan, 98, 707-733.
https://t.co/vTyd0gUZh1
https://t.co/AidMHr9vS5 https://t.co/egnxMtkjS8
A new graphical abstract!
https://t.co/OPCbLp40ON
Takemura, K., and H. Mukougawa, 2020: Maintenance mechanism of Rossby wave breaking and Pacific-Japan pattern in boreal summer. J. Meteor. Soc. Japan, 98, https://t.co/BEK8qTku3I. https://t.co/R2T8ysJvcU
We are pleased to announce the new JMSJ Editor's Highlight in 2020!
https://t.co/TU9e3PxTv2
Kawabata, Y., and M. Yamaguchi, 2020: Probability ellipse for tropical cyclone track forecasts with multiple ensembles. J. Meteor. Soc. Japan, 98, https://t.co/aUmNnuwS46. https://t.co/ozQCohCGbE
New Graphical Abstract!
https://t.co/KZVBg9nh7u
Hirockawa, Y., T. Kato, H. Tsuguti, and N. Seino, 2020: Identification and classification of heavy rainfall areas and their characteristic features in Japan. J. Meteor. Soc. Japan, 98, https://t.co/9ylNZssNpT. https://t.co/Gi2HLchD2b
New Graphical Abstract!
https://t.co/ePBxMhI9vM
Stevens et al., 2020: The added value of large-eddy and storm-resolving models for simulating clouds and precipitation. J. Meteor. Soc. Japan, 98, Special Edition on DYAMOND, https://t.co/b9bNcvqLys. https://t.co/aPMY5vgZIO
Fudeyasu, H., R. Yoshida, M. Yamaguchi, H. Eito, C. Muroi, S. Nishimura, K. Bessho, Y. Oikawa, and N. Koide, 2020: Development conditions for tropical storms over the western North Pacific stratified by large-scale flow patterns.
https://t.co/owNL9caeCN
https://t.co/r4JP7aSyLE https://t.co/biBjVcpzYM
JMSJ New paper published: Watanabe et al 2019: Future projection of tropical cyclone precipitation over Japan with a high-resolution regional climate model. J. Meteor. Soc. Japan, 97, 805-820.
https://t.co/JqhuqTbOag
https://t.co/e6U61n3r0R https://t.co/DChrR0jtFK