Increasing Socioeconomic Exposure to Extreme Tropical Cyclone Precipitation over China Journal Article uri icon

Overview

abstract

  • Abstract; This study investigates spatiotemporal changes in socioeconomic exposure to tropical cyclone precipitation (TCP) extremes across China using high-resolution rainfall and gridded population datasets. Results show that extreme TCP exhibits a significant increasing trend over central-southern China, while decreasing trends are observed in parts of the Yangtze River delta. These contrasting patterns are linked to changes in TC characteristics, including intensified precipitation rates and reduced translation speeds over coastal regions, which enhance rainfall persistence and accumulation and thereby contribute to increasing extreme TCP events inland. Regions with high socioeconomic exposure are mainly concentrated in southeastern and central-eastern China. Based on a modified exposure index that integrates physical hazard and socioeconomic factors, we find that although exposure is jointly determined by these components, its recent increase is primarily driven by intensified TCP intensity and duration, with population growth and economic development further amplifying the impacts. Population and gross domestic product exposure to extreme TCP events (>200 mm) increase by approximately 27% and 17%, respectively, with pronounced spatial heterogeneity. Rapid urbanization and economic expansion in recent decades have further elevated vulnerability to TC-induced precipitation extremes. This multiscale framework provides actionable insights for prioritizing mitigation and adaptation strategies, enhancing climate resilience in high-risk zones.; ; Significance Statement; This study highlights the increasing threat of extreme precipitation events associated with tropical cyclones (TCs) to both coastal and inland regions of China and reveals significant changes in the spatiotemporal distribution of socioeconomic exposure to TC-induced precipitation extremes. By integrating high-resolution rainfall data and socioeconomic indices, the research demonstrates a remarkable increase in exposure to extreme TC precipitation events, particularly over the rapidly urbanizing and economically developing regions. The findings emphasize the dual role of intensified rainfall and population/economic growth in amplifying vulnerability to such extreme events. The results offer critical insights into the increasing risks faced by high-risk zones and provide a framework for targeted mitigation and adaptation strategies to strengthen climate resilience, ensuring better preparedness for future TC-related flooding events.;

publication date

  • June 1, 2026

Date in CU Experts

  • June 29, 2026 10:29 AM

Full Author List

  • Yang Y; Gao T; Xu Y; Yu Y; Liu X; Xie L; Zhang W; Zhang B; Guo X; Long X

author count

  • 11

Other Profiles

International Standard Serial Number (ISSN)

  • 1525-755X

Electronic International Standard Serial Number (EISSN)

  • 1525-7541

Additional Document Info

start page

  • 937

end page

  • 949

volume

  • 27

issue

  • 6