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Rising compound hot-dry extremes engendering more inequality in human exposure risks

Junhong Guo, Feng Wang, Yizhuo Wen, Xiaoxuan Wang, Zhenda Hao, Heran Zheng, Yurui Fan, Chunming Shen

2025npj natural hazards.10 citationsDOIOpen Access PDF

Abstract

Abstract Compound hot-dry events, with their amplified negative impacts on ecosystems and societies, are attracting growing attention. This study investigates the global-scale inequality and risks of hot-dry compound events under various shared socioeconomic pathways (SSP) scenarios, considering hazards, exposure, and vulnerability. Results show a worldwide increase in hot-dry extreme events and population exposure by mid-century (2041–2070), with variations among scenarios and regions. Climate factors are identified as the primary contributors to future changes in population exposure. SSP1-2.6 shows lower risks than SSP5-8.5 notably. Spatially, ASIA and the Middle East and Africa (MAF) will likely face higher exposure risks due to large populations, lower income levels and aging demographics, which amplify climate impacts. Under SSP3-7.0, rapid population growth introduces greater uncertainty in exposure estimates, particularly in ASIA, MAF, Latin America and the Caribbean (LAM). Aging populations, especially under SSP3-7.0 and SSP5-8.5 scenarios, exacerbate exposure risks through climate-demographic interactions.

Topics & Concepts

GeographyClimate changeVulnerability (computing)PopulationLatin AmericansPopulation growthEast AsiaSocioeconomic statusDemographicsInequalitySocioeconomicsDevelopment economicsEnvironmental protectionEnvironmental healthDemographyChinaBiologyEcologyEconomicsPolitical scienceMedicineArchaeologyMathematicsComputer securityLawMathematical analysisSociologyComputer scienceClimate Change and Health ImpactsAir Quality and Health ImpactsClimate Change Policy and Economics
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