Landfalling Tropical Cyclones: Physical Processes, Forecasting and Impacts

61.3K

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78

authors

26

articles

Landfalling Tropical Cyclones: Physical Processes, Forecasting and Impacts

61.3K

views

78

authors

26

articles

Editorial

25 November 2022

Editorial: Landfalling tropical cyclones: Physical processes, forecasting, and impacts

Yihong Duan

and

Qingqing Li

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Editors

6

Yihong Duan

Chinese Academy of Meteorological Sciences

Qingqing Li

Nanjing University of Information Science and Technology

Guanghua Chen

Institute of Atmospheric Physics, Chinese Academy of Sciences (CAS)

Hui Yu

Shanghai Typhoon Institute, China Meteorological Administration

Da-Lin Zhang

University of Maryland, College Park

Kun Zhao

School of Atmospheric Sciences, Nanjing University

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About

As one of the most destructive natural phenomena on the Earth, landfalling tropical cyclones (TCs) cause severe and indelible disasters, loss of life and property around the world. The characteristics of landfalling TCs and the development of forecasting techniques are thus in increasing focus. During landfall, the track, intensity, and structure of TCs are changed dramatically due to the interactions between the TC circulation, varying ambient atmospheric systems, and the complicated underlying surface.

There are strengthened challenges for the track, structure, and intensity forecasting of landfalling TCs, making it more difficult to prevent and mitigate disasters. Improved understanding of the physical processes affecting landfalling TCs and the development of corresponding forecasting techniques are essential to enhance TC disaster prevention and mitigation capabilities. In addition, an in-depth exploration of the disasters and its impacts will help to uncover the hazard-causing characteristics of landfalling TCs.

In this Research Topic, we welcome contributions of Original Research Articles and Review Articles regarding landfalling TCs. The highlights of this Research Topic include, but are not limited to, the following areas:

• Observational and modeling studies on the characteristics of track, intensity, structure, and precipitation of landfalling TCs;
• Traits and evolution of fine-scale features and structures within landfalling TCs;
• Multiscale dynamical and thermodynamic processes leading to the track, intensity, structure, and precipitation changes of landfalling TCs;
• Advances in landfalling TC forecasting techniques and forecast evaluation; and
• Risks, disasters, and impacts caused by landfalling TCs.

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Editors

Yihong Duan

Chinese Academy of Meteorological Sciences

Qingqing Li

Nanjing University of Information Science and Technology

Guanghua Chen

Institute of Atmospheric Physics, Chinese Academy of Sciences (CAS)

Hui Yu

Shanghai Typhoon Institute, China Meteorological Administration

Da-Lin Zhang

University of Maryland, College Park

Kun Zhao

School of Atmospheric Sciences, Nanjing University

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Published In

Frontiers in Earth Science

Atmospheric Science, Geohazards and Georisks

Frontiers in Environmental Science

Atmospheric Science

Frontiers in Physics

Atmospheric Science

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