Risk assessment of tropical storm surges for coastal regions of China

Risk assessment of tropical storm surges for coastal regions of China

Storm surges are responsible for much of the damage and loss of life associated with landfalling tropical cyclones (TCs). Thus, understanding the characteristics of risk associated with TC storm surges for the coastal regions of China is of great interest. Based on a comprehensive assessment of haza...

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Veröffentlicht in:Journal of geophysical research. Atmospheres 2014-05, Vol.119 (9), p.5364-5374
Hauptverfasser: Gao, Y., Wang, H., Liu, G. M., Sun, X. Y., Fei, X. Y., Wang, P. T., Lv, T. T., Xue, Z. S., He, Y. W.
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China
Coastal
coastal regions of China
Coastal zone
Cyclones
Disaster management
Emergency preparedness
Geophysics
hazard
Hazards
Heterogeneity
Hurricanes
Land use
Mathematical models
risk
Risk assessment
Risk levels
storm surge
Storm surges
Storms
Surges
Tidal waves
tropical cyclone
Tropical cyclones
vulnerability
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container_end_page 5374
container_issue 9
container_start_page 5364
container_title Journal of geophysical research. Atmospheres
container_volume 119
creator Gao, Y.
Wang, H.
Liu, G. M.
Sun, X. Y.
Fei, X. Y.
Wang, P. T.
Lv, T. T.
Xue, Z. S.
He, Y. W.
description Storm surges are responsible for much of the damage and loss of life associated with landfalling tropical cyclones (TCs). Thus, understanding the characteristics of risk associated with TC storm surges for the coastal regions of China is of great interest. Based on a comprehensive assessment of hazard indices for TC storm surges and vulnerability indices for coastal counties, we obtained a risk assessment for coastal regions of China as a county‐level unit. The hazard index was calculated using a model based on the parameters of a TC landfall frequency index (f) and maximum storm surge elevation (MSSE). The MSSE was calculated from the TC maximum sustained wind and tide gauge records using a regression function. Vulnerability indices were obtained from indices on socioeconomics, land use, the ecological environment, and resilience. From this study, it can be concluded that the hazard level of TC storm surges increases from north to south along the Chinese coast, the vulnerabilities have significant spatial heterogeneity, and coastal regions of China can be divided into four zones of risk level. The results of this study can provide scientific support for marine disaster mitigation and decision making. Additionally, the risk assessment methodology used here for storm surges could be extended and applied to other coastal areas. Key Points Developed a parametric representation of hazard on tropical storm surge Estimated the vulnerabilities for coastal regions of China Divided the coastal region of China into four risk level zones
doi_str_mv 10.1002/2013JD021268
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Vulnerability indices were obtained from indices on socioeconomics, land use, the ecological environment, and resilience. From this study, it can be concluded that the hazard level of TC storm surges increases from north to south along the Chinese coast, the vulnerabilities have significant spatial heterogeneity, and coastal regions of China can be divided into four zones of risk level. The results of this study can provide scientific support for marine disaster mitigation and decision making. Additionally, the risk assessment methodology used here for storm surges could be extended and applied to other coastal areas. 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source Wiley-Blackwell Journals; Wiley Online Library; Alma/SFX Local Collection
subjects China
Coastal
coastal regions of China
Coastal zone
Cyclones
Disaster management
Emergency preparedness
Geophysics
hazard
Hazards
Heterogeneity
Hurricanes
Land use
Mathematical models
risk
Risk assessment
Risk levels
storm surge
Storm surges
Storms
Surges
Tidal waves
tropical cyclone
Tropical cyclones
vulnerability
title Risk assessment of tropical storm surges for coastal regions of China
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