Quantifying the historical and future heat-related mortality above the heat alert thresholds of the inaugural Chinese national heat-health action plan

China published its inaugural national heat-health action plan (HHAP) in 2023, but the mortality burden associated with temperatures exceeding the heat alert thresholds specified by this HHAP (maximum temperatures >35, 37, or 40 °C) remains unknown. We aimed to estimate the historical and future...

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Bibliographic Details
Published in:Environmental research 2024-12, Vol.262 (Pt 1), p.119869, Article 119869
Main Authors: Yi, Weizhuo, Bach, Aaron, Tong, Shilu, Cheng, Jian, Yang, Jun, Zheng, Hao, Ho, Hung Chak, Song, Jian, Pan, Rubing, Su, Hong, Xu, Zhiwei
Format: Article
Language:English
Subjects:
Adult
Aged
China - epidemiology
Climate Change
Female
Heat Stress Disorders - mortality
Heat-health action plan
Hot Temperature - adverse effects
Humans
Inequality
Male
Middle Aged
Mortality
Mortality - trends
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Summary:China published its inaugural national heat-health action plan (HHAP) in 2023, but the mortality burden associated with temperatures exceeding the heat alert thresholds specified by this HHAP (maximum temperatures >35, 37, or 40 °C) remains unknown. We aimed to estimate the historical and future mortality burden associated with temperatures above the heat alert thresholds of the Chinese national HHAP. We conducted time-series analyses to estimate the mortality burden associated with temperatures exceeding the three heat alert thresholds from 2016 to 2019 in Jiangsu Province (including 13 cities, population ∼80.7 million), China. A quasi-Poisson regression in conjunction with a distributed lag non-linear model was used to estimate the dose-response association between maximum temperature and mortality risk from 2016 to 2019, adjusting for potential covariates. We then projected the future mortality burden associated with temperatures exceeding these thresholds under three distinct levels of greenhouse gas (GHG) emission scenarios via scenario shared socioeconomic pathways [SSP] 1–2.6 (low), SSP2-4.5 (intermediate), and SSP5-8.5 (high), respectively, by assuming that there will be no adaptation to heat. Climate scenarios derived from the General Circulation Model (GCM) under the Coupled Model Intercomparison Project Phase 6 (CMIP6) were used. From 2016 to 2019, temperatures above 35 °C were associated with 0.51% of mortality, including 0.40% associated with 35 °C–37 °C and 0.11% associated with >37 °C. Heat-related mortality risk was most prominent in those who were single/divorced/widowed and had 37 °C would increase by 1.4 times in the 2050s and 1.7 times in the 2090s. Under SSP5-8.5, the annual number of days with maximum temperature >37 °C would approximately double every 20 years (67 days annually in the 2090s). Consequently, compared with the 2020s, the excess mortality associated with >37 °C would increase by 2.8 times in the 2050s and 18.4 times in the 2090s. Significant mortality risk is associated with temperatures above the lowest heat alert threshold of the Chinese national HHAP (35 °C). If the high GHG emission scenario occurred, the annual number of days and excess mortality associated with maximum temperatures >37 °C would largely increase in the coming decades. [Display omitted] •Maximum temperatures above 35 °C were associated with 0.51% of
ISSN:0013-9351
1096-0953
1096-0953
DOI:10.1016/j.envres.2024.119869