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 it...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 threestage 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.展开更多
基金supported by the Australian Research Council(DP210102076)the Australian National Health and Medical Research Council(APP2000581)+15 种基金supported by the China Scholarship Council(no.202006380055)supported by the Monash Graduate Scholarship and the Monash International Tuition Scholarshipsupported by an Emerging Leader Fellowship of the Australian National Health and Medical Research Council(no.APP2009866)supported by the Program of Qilu Young Scholars of Shandong University,Jinan,Chinasupported by the Fellowship(no.APP2008813)of the Australian National Health and Medical Research Councilsupported by the VicHealth Postdoctoral Fellowship 2022supported by the Science and Technology Commission of Shanghai Municipality(grant no.18411951600),Chinasupported by the EU’s Horizon 2020 project,Exhaustion(grant no.820655)Wellcome-funded project BREATHE(grant no.308914/Z/23/Z)funding from the Czech Ministry of Education Youth and Sport’s programme ERC CZ(ID:LL2410)supported by the JSPS KAKENHI(grant no.24K13527)supported by the Medical Research Council,United Kingdom(grant no.MR/R013349/1)the Natural Environment Research Council United Kingdom(grant no.NE/R009384/1)the EU’s Horizon 2020 project,Exhaustion(grant no.820655)supported by a‘Ramón y Cajal’fellowship program of the Spanish Ministry of Science and Innovation(no.RYC2022-036948-I)supported by the Leader Fellowship(no.APP2008813)of the Australian National Health and Medical Research Council.
文摘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 threestage 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.
