Research of Super Typhoon Lekima: forecast, observation, numerical simulation and disaster survey
Jie TANG1(), Jianfang FEI2, Hui YU1
1. Shanghai Typhoon Institute,CMA, Shanghai 200030, China 2. College of Meteorology and Oceanography, National University of Defense Technology, Changsha 410073, China
L Bai, Z Meng, L Huang, L Yan, Z Li, X Mai, Y Huang, D Yao, X Wang (2017). An integrated damage, visual, and radar analysis of the 2015 Foshan, Guangdong, EF3 Tornado in China produced by the landfalling Typhoon Mujigae (2015). Bull Am Meteorol Soc, 98(12): 2619–2640
2
E E Ebert, J McBride (2000). Verification of precipitation in weather systems: determination of systematic errors. J Hydrol, 239: 179–202 https://doi.org/10.1016/S0022-1694(00)00343-7
3
N Mori, M Kato, S Kim, H Mase, Y Shibutani, T Takemi, K Tsuboki, T Yasuda (2014). Local amplification of storm surge by Super Typhoon Haiyan in Leyte Gulf. Geophys Res Lett, 41(14): 5106–5113 https://doi.org/10.1002/2014GL060689
pmid: 25821268
4
C W J Tay, S H Yun, S T Chin, A Bhardwaj, J Jung, E M Hill (2020). Rapid flood and damage mapping using synthetic aperture radar in response to Typhoon Hagibis, Japan. Sci Data, 7(1): 100 https://doi.org/10.1038/s41597-020-0443-5
pmid: 32214103
5
S Yang, X Tang, S Zhong, B Chen, Y Zhou, S Gao, C Wang (2019). Convective bursts episode of the rapidly intensified Typhoon Mujigae (2015). Adv Atmos Sci, 36: 541–556 https://doi.org/10.1007/s00376-019-8142-x
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X Zhang, J Tang, C Wu, D Wu (2020). An observational study of the inner core structure of Typhoon Meranti (2016) near landfall. Atmos Sci Lett, 21: e962
