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Main Authors: Duan, Tianle, Li, Qingchun, Zhang, Fengxiu, Xi, Dazhi, Lin, Ning
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.16878
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author Duan, Tianle
Li, Qingchun
Zhang, Fengxiu
Xi, Dazhi
Lin, Ning
author_facet Duan, Tianle
Li, Qingchun
Zhang, Fengxiu
Xi, Dazhi
Lin, Ning
contents Sequential tropical cyclone hazards--two tropical cyclones (TCs) making landfall in the same region within a short time--are becoming increasingly likely. This study investigates situational preparedness dynamics for six sequential TC events that affected seven states in the United States from 2020 to 2024. We find a combined effect of forecast wind speed and landfall sequence of a TC. Stronger forecast wind is always associated with higher preparedness levels. People tend to show a higher preparedness level for the second TC but are more sensitive to the increasing forecast wind speed of the first TC. We also find that the counties showing high preparedness levels for the first TC consistently show high preparedness levels for the subsequent one. Power outages induced by the first TC significantly increase preparedness for the subsequent TC (e.g., approximately 13% pct for mobility needs preparedness and 24% for structural reinforcement preparedness when increasing one-unit customers out). We identified spatial dependency in preparedness across counties. Power outage experiences in first TCs show statistically significant spillover effects on neighboring counties' preparedness levels for second TCs. Throughout sequential TCs, people with access and functional needs consistently show lower preparedness levels.
format Preprint
id arxiv_https___arxiv_org_abs_2504_16878
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Situational Preparedness Dynamics for Sequential Tropical Cyclone Hazards
Duan, Tianle
Li, Qingchun
Zhang, Fengxiu
Xi, Dazhi
Lin, Ning
Physics and Society
Sequential tropical cyclone hazards--two tropical cyclones (TCs) making landfall in the same region within a short time--are becoming increasingly likely. This study investigates situational preparedness dynamics for six sequential TC events that affected seven states in the United States from 2020 to 2024. We find a combined effect of forecast wind speed and landfall sequence of a TC. Stronger forecast wind is always associated with higher preparedness levels. People tend to show a higher preparedness level for the second TC but are more sensitive to the increasing forecast wind speed of the first TC. We also find that the counties showing high preparedness levels for the first TC consistently show high preparedness levels for the subsequent one. Power outages induced by the first TC significantly increase preparedness for the subsequent TC (e.g., approximately 13% pct for mobility needs preparedness and 24% for structural reinforcement preparedness when increasing one-unit customers out). We identified spatial dependency in preparedness across counties. Power outage experiences in first TCs show statistically significant spillover effects on neighboring counties' preparedness levels for second TCs. Throughout sequential TCs, people with access and functional needs consistently show lower preparedness levels.
title Situational Preparedness Dynamics for Sequential Tropical Cyclone Hazards
topic Physics and Society
url https://arxiv.org/abs/2504.16878