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Author
Armstrong, Ben 1 Bell, Michelle L 1 Cvijanovic, Ivana 1 Gasparrini, Antonio 1 Guo, Qiang 1 Hashizume, Masahiro 1 Huber, Veronika 1 Katsouyanni, Klea 1 Kim, Yoonhee 1 Kino, Kanon 1 Kyselý, Jan 1 Masselot, Pierre 1 Mistry, Malcolm N 1 Ng, Chris Fook Sheng 1 Oki, Taikan 1 Satoh, Yusuke 1 Sera, Francesco 1 Tong, Shilu 1 Urban, Aleš 1 Vicedo-Cabrera, Ana M 1
- Organization
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Workplace
Barcelona Institute for Global Health ISGLOB... 1 Chair of Epidemiology Institute for Medical ... 1 Climate Air Quality Research Unit School of ... 1 Department of Civil Engineering Graduate Sch... 1 Department of Economics Ca' Foscari Universi... 1 Department of Global Environmental Health Gr... 1 Department of Global Health Policy Graduate ... 1 Department of Hygiene Epidemiology and Medic... 1 Department of Public Health Environments and... 1 Department of Statistics Computer Science an... 1 Environment and Health Modelling Lab Departm... 1 Environmental Research Group School of Publi... 1 Faculty of Environmental Sciences Czech Univ... 1 Institute of Atmospheric Physics Czech Acade... 1 Institute of Epidemiology Helmholtz Zentrum ... 1 Institute of Hydraulics and Ocean Engineerin... 1 Institute of Industrial Science The Universi... 1 Institute of Social and Preventive Medicine ... 1 Moon Soul Graduate School of Future Strategy... 1 Oeschger Center for Climate Change Research ... 1
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Most cited article - PubMed ID 37874919
Optimal heat stress metric for modelling heat-related mortality varies from country to country
- Guo, Qiang
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Mistry, Malcolm N
Author Mistry, Malcolm N ORCID Environment & Health Modelling (EHM) Lab, Department of Public Health, Environments and Society, London School of Hygiene & Tropical Medicine, 15-17 Tavistock Place, London WC1H 9SH, United Kingdom Department of Economics, Ca' Foscari University of Venice, San Giobbe, Cannaregio 873, Venice 30121, Italy
- Zhou, Xudong
- Zhao, Gang
- Kino, Kanon
- Wen, Bo
- Yoshimura, Kei
- Satoh, Yusuke
- Cvijanovic, Ivana
- Kim, Yoonhee
PubMed
39114575
PubMed Central
PMC11305137
DOI
10.1093/pnasnexus/pgae290
PII: pgae290
Knihovny.cz E-resources
The rising humid heat is regarded as a severe threat to human survivability, but the proper integration of humid heat into heat-health alerts is still being explored. Using state-of-the-art epidemiological and climatological datasets, we examined the association between multiple heat stress indicators (HSIs) and daily human mortality in 739 cities worldwide. Notable differences were observed in the long-term trends and timing of heat events detected by HSIs. Air temperature (Tair) predicts heat-related mortality well in cities with a robust negative Tair-relative humidity correlation (CT-RH). However, in cities with near-zero or weak positive CT-RH, HSIs considering humidity provide enhanced predictive power compared to Tair. Furthermore, the magnitude and timing of heat-related mortality measured by HSIs could differ largely from those associated with Tair in many cities. Our findings provide important insights into specific regions where humans are vulnerable to humid heat and can facilitate the further enhancement of heat-health alert systems.
- Keywords
- climate change, heat stress, humidity, mortality, urban climate,
- Publication type
- Journal Article MeSH
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