Global excess deaths associated with heatwaves in 2023 and the contribution of human-induced climate change
Hundessa, Samuel Huang, Wenzhong Xu, Rongbin Yang, Zhengyu Zhao, Qi Gasparrini, Antonio Armstrong, Ben Bell, Michelle L Huber, Veronika Urban, Aleš
Hundessa, Samuel
Huang, Wenzhong
Xu, Rongbin
Yang, Zhengyu
Zhao, Qi
Gasparrini, Antonio
Armstrong, Ben
Bell, Michelle L
Huber, Veronika
Urban, Aleš
Series / Report no.
Open Access
Type
Journal Article
Article
Article
Language
en
Date of publication
2025-10
Year of publication
Research Projects
Organizational Units
Journal Issue
Title
Global excess deaths associated with heatwaves in 2023 and the contribution of human-induced climate change
Translated Title
Published in
Innovation (Camb) 2025;(10):101110
Abstract
An unprecedented heatwave swept the globe in 2023, marking it one of the hottest years on record and raising concerns about its health impacts. However, a comprehensive assessment of the heatwave-related mortality and its attribution to human-induced climate change remains lacking. We aim to address this gap by analyzing high-resolution climate and mortality data from 2,013 locations across 67 countries/territories using a three-stage modeling approach. First, we estimated historical heatwave-mortality associations using a quasi-Poisson regression model with distributed lag structures, considering lag effects, seasonality, and within-week variations. Second, we pooled the estimates in meta-regression, accounting for spatial heterogeneity and potential changes in heatwave-mortality associations over time. Third, we predicted grid-specific (0.5 0.5) association in 2023 and calculated the heatwave-related excess deaths, death ratio, and death rate per million people. Attribution analysis was conducted by comparing heatwave-related mortality under factual and counterfactual climate scenarios. We estimated 178,486 excess deaths (95% empirical confidence interval [eCI], 159,892≥204,147) related to the 2023 heatwave, accounting for 0.73% of global deaths, corresponding to 23 deaths per million people. The highest mortality rates occurred in Southern (120, 95% eCI, 116≥126), Eastern (107, 95% eCI, 100≥114), and Western Europe (66, 95% eCI, 62≥70), where the excess death ratio was also higher. Notably, 54.29% (95% eCI, 45.71%≥61.36%) of the global heatwave-related deaths were attributable to human-induced climate change. These results underscore the urgent need for adaptive public health interventions and climate mitigation strategies to reduce future mortality burdens in the context of increasing global warming.