Increase in tropical cyclone rain rate with translation speed

被引:0
|
作者
Shifei Tu
Johnny C. L. Chan
Jianjun Xu
Quanjia Zhong
Wen Zhou
Yu Zhang
机构
[1] Guangdong Ocean University,China Meteorological Administration
[2] Guangdong Ocean University,Guangdong Ocean University (CMA
[3] Shenzhen Institute of Guangdong Ocean University,GDOU) Joint Laboratory for Marine Meteorology & South China Sea Institute of Marine Meteorology
[4] City University of Hong Kong,College of Ocean and Meteorology
[5] China Meteorological Administration,Low
[6] Asia-Pacific Typhoon Collaborative Research Center,Carbon and Climate Impact Research Centre, School of Energy and Environment
[7] Chinese Academy of Sciences,Shanghai Typhoon Institute
[8] Fudan University,State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics (LASG), Institute of Atmospheric Physics
来源
Nature Communications | / 13卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
In general, tropical cyclone (TC) rainfall accumulation usually decreases with faster TC translation speed but increases with heavier rain rate. However, how the TC rain rate changes with translation speed is unclear. Here we show that, in all TC basins, the average TC rain rate significantly increases with translation speed. On average, the rain rate in a fast-moving TC is 24% higher than in a slow one. This difference increases with TC intensity, with category 3–5 TCs having a 42% increase while tropical depressions exhibit only a 9% increase. The increase in the average TC rain rate with translation speed is mainly caused by the TC net inflow in the lower troposphere, as well as vertical wind shear. These findings have important implications not only for a deeper understanding of rain rate changes in a translating TC but also for short-term forecasts of TC rainfall and disaster preparedness.
引用
收藏
相关论文
共 50 条
  • [21] Analyzing Relationships between Tropical Cyclone Intensity and Rain Rate over the Ocean Using Numerical Simulations
    Xi, Dazhi
    Wang, Shuai
    Lin, Ning
    JOURNAL OF CLIMATE, 2023, 36 (01) : 81 - 91
  • [22] Trends of Tropical Cyclone Translation Speed over the Western North Pacific during 1980-2018
    Gong, Danyi
    Tang, Xiaodong
    Chan, Johnny C. L.
    Wang, Qiuyun
    ATMOSPHERE, 2022, 13 (06)
  • [23] Classification of tropical cyclone rain patterns using convolutional autoencoder
    Kim, Dasol
    Matyas, Corene J.
    SCIENTIFIC REPORTS, 2024, 14 (01)
  • [24] Climate costs of tropical cyclone losses also depend on rain
    Bakkensen, Laura A.
    Park, Doo-Sun R.
    Sarkar, Raja Shanti Ranjan
    ENVIRONMENTAL RESEARCH LETTERS, 2018, 13 (07):
  • [25] Classification of tropical cyclone rain patterns using convolutional autoencoder
    Dasol Kim
    Corene J. Matyas
    Scientific Reports, 14
  • [26] Quantifying the shapes of US landfalling tropical cyclone rain shields
    Matyas, Corene
    PROFESSIONAL GEOGRAPHER, 2007, 59 (02): : 158 - 172
  • [27] Global increase in tropical cyclone ocean surface waves
    Jian Shi
    Xiangbo Feng
    Ralf Toumi
    Chi Zhang
    Kevin I. Hodges
    Aifeng Tao
    Wei Zhang
    Jinhai Zheng
    Nature Communications, 15
  • [28] Long-term trend of the tropical cyclone translation speed over the western North Pacific with track change
    Fu, Kai-Jie
    Guo, Yi-Peng
    Tan, Zhe-Min
    CLIMATE DYNAMICS, 2025, 63 (01)
  • [29] Speed of Tropical Cyclone Motion in Field of Gravity Anomalies
    M. I. Yaroshevich
    Izvestiya, Atmospheric and Oceanic Physics, 2018, 54 : 542 - 544
  • [30] SAR and ASCAT Tropical Cyclone Wind Speed Reconciliation
    Ni, Weicheng
    Stoffelen, Ad
    Ren, Kaijun
    Yang, Xiaofeng
    Vogelzang, Jur
    REMOTE SENSING, 2022, 14 (21)
12345