Geographical Variations of the Minimum Mortality Temperature at a Global Scale

Aurelio Tobías; Masahiro Hashizume; Yasushi Honda; Francesco Sera; Chris Fook Sheng Ng; Yoonhee Kim; Dominic Roye; Yeonseung Chung; Tran Ngoc Dang; Ho Kim; Whanhee Lee; Carmen Íñiguez; Ana Vicedo-Cabrera; Rosana Abrutzky; Yuming Guo; Shilu Tong; Micheline de Sousa Zanotti Stagliorio Coelho; Paulo Hilario Nascimento Saldiva; Eric Lavigne; Patricia Matus Correa; Nicolás Valdés Ortega; Haidong Kan; Samuel Osorio; Jan Kyselý; Aleš Urban; Hans Orru; Ene Indermitte; Jouni J.K. Jaakkola; Niilo R.I. Ryti; Mathilde Pascal; Veronika Huber; Alexandra Schneider; Klea Katsouyanni; Antonis Analitis; Alireza Entezari; Fatemeh Mayvaneh; Patrick Goodman; Ariana Zeka; Paola Michelozzi; Francesca de'Donato; Barrak Alahmad; Magali Hurtado Diaz; César de la Cruz Valencia; Ala Overcenco; Danny Houthuijs; Caroline Ameling; Shilpa Rao; Francesco Di Ruscio; Gabriel Carrasco; Xerxes Seposo

doi:10.1097/EE9.0000000000000169

Geographical Variations of the Minimum Mortality Temperature at a Global Scale

Aurelio Tobías, Masahiro Hashizume, Yasushi Honda, Francesco Sera, Chris Fook Sheng Ng, Yoonhee Kim, Dominic Roye, Yeonseung Chung, Tran Ngoc Dang, Ho Kim, Whanhee Lee, Carmen Íñiguez, Ana Vicedo-Cabrera, Rosana Abrutzky, Yuming Guo, Shilu Tong, Micheline de Sousa Zanotti Stagliorio Coelho, Paulo Hilario Nascimento Saldiva, Eric Lavigne, Patricia Matus CorreaNicolás Valdés Ortega, Haidong Kan, Samuel Osorio, Jan Kyselý, Aleš Urban, Hans Orru, Ene Indermitte, Jouni J.K. Jaakkola, Niilo R.I. Ryti, Mathilde Pascal, Veronika Huber, Alexandra Schneider, Klea Katsouyanni, Antonis Analitis, Alireza Entezari, Fatemeh Mayvaneh, Patrick Goodman, Ariana Zeka, Paola Michelozzi, Francesca de'Donato, Barrak Alahmad, Magali Hurtado Diaz, César de la Cruz Valencia, Ala Overcenco, Danny Houthuijs, Caroline Ameling, Shilpa Rao, Francesco Di Ruscio, Gabriel Carrasco, Xerxes Seposo

HUS Perioperative, Intensive Care and Pain Medicine

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

Background: Minimum mortality temperature (MMT) is an important indicator to assess the temperature-mortality association, indicating long-term adaptation to local climate. Limited evidence about the geographical variability of the MMT is available at a global scale. Methods: We collected data from 658 communities in 43 countries under different climates. We estimated temperature-mortality associations to derive the MMT for each community using Poisson regression with distributed lag nonlinear models. We investigated the variation in MMT by climatic zone using a mixed-effects meta-analysis and explored the association with climatic and socioeconomic indicators. Results: The geographical distribution of MMTs varied considerably by country between 14.2 and 31.1 ºC decreasing by latitude. For climatic zones, the MMTs increased from alpine (13.0 ºC) to continental (19.3 ºC), temperate (21.7 ºC), arid (24.5 ºC), and tropical (26.5 ºC). The MMT percentiles (MMTPs) corresponding to the MMTs decreased from temperate (79.5th) to continental (75.4th), arid (68.0th), tropical (58.5th), and alpine (41.4th). The MMTs indreased by 0.8 ºC for a 1 ºC rise in a community's annual mean temperature, and by 1 ºC for a 1 ºC rise in its SD. While the MMTP decreased by 0.3 centile points for a 1 ºC rise in a community's annual mean temperature and by 1.3 for a 1 ºC rise in its SD. Conclusions: The geographical distribution of the MMTs and MMTPs is driven mainly by the mean annual temperature, which seems to be a valuable indicator of overall adaptation across populations. Our results suggest that populations have adapted to the average temperature, although there is still more room for adaptation.

Original language	English
Article number	e169
Journal	Environmental epidemiology
Volume	5
Issue number	5
Number of pages	7
ISSN	2474-7882
DOIs	https://doi.org/10.1097/EE9.0000000000000169
Publication status	Published - 1 Oct 2021
MoE publication type	A1 Journal article-refereed

Bibliographical note

Publisher Copyright:
Copyright © 2021 The Authors.

Fields of Science

Adaptation
Climate
Distributed lag nonlinear models
Minimum mortality temperature
Multi-city
Multi-country
Time-series

Access to Document

10.1097/EE9.0000000000000169

Cite this

Tobías, A., Hashizume, M., Honda, Y., Sera, F., Ng, C. F. S., Kim, Y., Roye, D., Chung, Y., Dang, T. N., Kim, H., Lee, W., Íñiguez, C., Vicedo-Cabrera, A., Abrutzky, R., Guo, Y., Tong, S., de Sousa Zanotti Stagliorio Coelho, M., Saldiva, P. H. N., Lavigne, E., ... Seposo, X. (2021). Geographical Variations of the Minimum Mortality Temperature at a Global Scale. Environmental epidemiology, 5(5), Article e169. https://doi.org/10.1097/EE9.0000000000000169

@article{b3e700fbe76845b092c3105a07f27092,

title = "Geographical Variations of the Minimum Mortality Temperature at a Global Scale",

abstract = "Background: Minimum mortality temperature (MMT) is an important indicator to assess the temperature-mortality association, indicating long-term adaptation to local climate. Limited evidence about the geographical variability of the MMT is available at a global scale. Methods: We collected data from 658 communities in 43 countries under different climates. We estimated temperature-mortality associations to derive the MMT for each community using Poisson regression with distributed lag nonlinear models. We investigated the variation in MMT by climatic zone using a mixed-effects meta-analysis and explored the association with climatic and socioeconomic indicators. Results: The geographical distribution of MMTs varied considerably by country between 14.2 and 31.1 ºC decreasing by latitude. For climatic zones, the MMTs increased from alpine (13.0 ºC) to continental (19.3 ºC), temperate (21.7 ºC), arid (24.5 ºC), and tropical (26.5 ºC). The MMT percentiles (MMTPs) corresponding to the MMTs decreased from temperate (79.5th) to continental (75.4th), arid (68.0th), tropical (58.5th), and alpine (41.4th). The MMTs indreased by 0.8 ºC for a 1 ºC rise in a community's annual mean temperature, and by 1 ºC for a 1 ºC rise in its SD. While the MMTP decreased by 0.3 centile points for a 1 ºC rise in a community's annual mean temperature and by 1.3 for a 1 ºC rise in its SD. Conclusions: The geographical distribution of the MMTs and MMTPs is driven mainly by the mean annual temperature, which seems to be a valuable indicator of overall adaptation across populations. Our results suggest that populations have adapted to the average temperature, although there is still more room for adaptation.",

keywords = "Adaptation, Climate, Distributed lag nonlinear models, Minimum mortality temperature, Multi-city, Multi-country, Time-series",

author = "Aurelio Tob{\'i}as and Masahiro Hashizume and Yasushi Honda and Francesco Sera and Ng, {Chris Fook Sheng} and Yoonhee Kim and Dominic Roye and Yeonseung Chung and Dang, {Tran Ngoc} and Ho Kim and Whanhee Lee and Carmen {\'I}{\~n}iguez and Ana Vicedo-Cabrera and Rosana Abrutzky and Yuming Guo and Shilu Tong and {de Sousa Zanotti Stagliorio Coelho}, Micheline and Saldiva, {Paulo Hilario Nascimento} and Eric Lavigne and Correa, {Patricia Matus} and Ortega, {Nicol{\'a}s Vald{\'e}s} and Haidong Kan and Samuel Osorio and Jan Kysel{\'y} and Ale{\v s} Urban and Hans Orru and Ene Indermitte and Jaakkola, {Jouni J.K.} and Ryti, {Niilo R.I.} and Mathilde Pascal and Veronika Huber and Alexandra Schneider and Klea Katsouyanni and Antonis Analitis and Alireza Entezari and Fatemeh Mayvaneh and Patrick Goodman and Ariana Zeka and Paola Michelozzi and Francesca de'Donato and Barrak Alahmad and Diaz, {Magali Hurtado} and {de la Cruz Valencia}, C{\'e}sar and Ala Overcenco and Danny Houthuijs and Caroline Ameling and Shilpa Rao and {Di Ruscio}, Francesco and Gabriel Carrasco and Xerxes Seposo",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 The Authors.",

year = "2021",

month = oct,

day = "1",

doi = "10.1097/EE9.0000000000000169",

language = "English",

volume = "5",

journal = "Environmental epidemiology",

issn = "2474-7882",

publisher = "Wolters Kluwer Health",

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Tobías, A, Hashizume, M, Honda, Y, Sera, F, Ng, CFS, Kim, Y, Roye, D, Chung, Y, Dang, TN, Kim, H, Lee, W, Íñiguez, C, Vicedo-Cabrera, A, Abrutzky, R, Guo, Y, Tong, S, de Sousa Zanotti Stagliorio Coelho, M, Saldiva, PHN, Lavigne, E, Correa, PM, Ortega, NV, Kan, H, Osorio, S, Kyselý, J, Urban, A, Orru, H, Indermitte, E, Jaakkola, JJK, Ryti, NRI, Pascal, M, Huber, V, Schneider, A, Katsouyanni, K, Analitis, A, Entezari, A, Mayvaneh, F, Goodman, P, Zeka, A, Michelozzi, P, de'Donato, F, Alahmad, B, Diaz, MH, de la Cruz Valencia, C, Overcenco, A, Houthuijs, D, Ameling, C, Rao, S, Di Ruscio, F, Carrasco, G & Seposo, X 2021, 'Geographical Variations of the Minimum Mortality Temperature at a Global Scale', Environmental epidemiology, vol. 5, no. 5, e169. https://doi.org/10.1097/EE9.0000000000000169

TY - JOUR

T1 - Geographical Variations of the Minimum Mortality Temperature at a Global Scale

AU - Tobías, Aurelio

AU - Hashizume, Masahiro

AU - Honda, Yasushi

AU - Sera, Francesco

AU - Ng, Chris Fook Sheng

AU - Kim, Yoonhee

AU - Roye, Dominic

AU - Chung, Yeonseung

AU - Dang, Tran Ngoc

AU - Kim, Ho

AU - Lee, Whanhee

AU - Íñiguez, Carmen

AU - Vicedo-Cabrera, Ana

AU - Abrutzky, Rosana

AU - Guo, Yuming

AU - Tong, Shilu

AU - de Sousa Zanotti Stagliorio Coelho, Micheline

AU - Saldiva, Paulo Hilario Nascimento

AU - Lavigne, Eric

AU - Correa, Patricia Matus

AU - Ortega, Nicolás Valdés

AU - Kan, Haidong

AU - Osorio, Samuel

AU - Kyselý, Jan

AU - Urban, Aleš

AU - Orru, Hans

AU - Indermitte, Ene

AU - Jaakkola, Jouni J.K.

AU - Ryti, Niilo R.I.

AU - Pascal, Mathilde

AU - Huber, Veronika

AU - Schneider, Alexandra

AU - Katsouyanni, Klea

AU - Analitis, Antonis

AU - Entezari, Alireza

AU - Mayvaneh, Fatemeh

AU - Goodman, Patrick

AU - Zeka, Ariana

AU - Michelozzi, Paola

AU - de'Donato, Francesca

AU - Alahmad, Barrak

AU - Diaz, Magali Hurtado

AU - de la Cruz Valencia, César

AU - Overcenco, Ala

AU - Houthuijs, Danny

AU - Ameling, Caroline

AU - Rao, Shilpa

AU - Di Ruscio, Francesco

AU - Carrasco, Gabriel

AU - Seposo, Xerxes

PY - 2021/10/1

Y1 - 2021/10/1

N2 - Background: Minimum mortality temperature (MMT) is an important indicator to assess the temperature-mortality association, indicating long-term adaptation to local climate. Limited evidence about the geographical variability of the MMT is available at a global scale. Methods: We collected data from 658 communities in 43 countries under different climates. We estimated temperature-mortality associations to derive the MMT for each community using Poisson regression with distributed lag nonlinear models. We investigated the variation in MMT by climatic zone using a mixed-effects meta-analysis and explored the association with climatic and socioeconomic indicators. Results: The geographical distribution of MMTs varied considerably by country between 14.2 and 31.1 ºC decreasing by latitude. For climatic zones, the MMTs increased from alpine (13.0 ºC) to continental (19.3 ºC), temperate (21.7 ºC), arid (24.5 ºC), and tropical (26.5 ºC). The MMT percentiles (MMTPs) corresponding to the MMTs decreased from temperate (79.5th) to continental (75.4th), arid (68.0th), tropical (58.5th), and alpine (41.4th). The MMTs indreased by 0.8 ºC for a 1 ºC rise in a community's annual mean temperature, and by 1 ºC for a 1 ºC rise in its SD. While the MMTP decreased by 0.3 centile points for a 1 ºC rise in a community's annual mean temperature and by 1.3 for a 1 ºC rise in its SD. Conclusions: The geographical distribution of the MMTs and MMTPs is driven mainly by the mean annual temperature, which seems to be a valuable indicator of overall adaptation across populations. Our results suggest that populations have adapted to the average temperature, although there is still more room for adaptation.

AB - Background: Minimum mortality temperature (MMT) is an important indicator to assess the temperature-mortality association, indicating long-term adaptation to local climate. Limited evidence about the geographical variability of the MMT is available at a global scale. Methods: We collected data from 658 communities in 43 countries under different climates. We estimated temperature-mortality associations to derive the MMT for each community using Poisson regression with distributed lag nonlinear models. We investigated the variation in MMT by climatic zone using a mixed-effects meta-analysis and explored the association with climatic and socioeconomic indicators. Results: The geographical distribution of MMTs varied considerably by country between 14.2 and 31.1 ºC decreasing by latitude. For climatic zones, the MMTs increased from alpine (13.0 ºC) to continental (19.3 ºC), temperate (21.7 ºC), arid (24.5 ºC), and tropical (26.5 ºC). The MMT percentiles (MMTPs) corresponding to the MMTs decreased from temperate (79.5th) to continental (75.4th), arid (68.0th), tropical (58.5th), and alpine (41.4th). The MMTs indreased by 0.8 ºC for a 1 ºC rise in a community's annual mean temperature, and by 1 ºC for a 1 ºC rise in its SD. While the MMTP decreased by 0.3 centile points for a 1 ºC rise in a community's annual mean temperature and by 1.3 for a 1 ºC rise in its SD. Conclusions: The geographical distribution of the MMTs and MMTPs is driven mainly by the mean annual temperature, which seems to be a valuable indicator of overall adaptation across populations. Our results suggest that populations have adapted to the average temperature, although there is still more room for adaptation.

KW - Adaptation

KW - Climate

KW - Distributed lag nonlinear models

KW - Minimum mortality temperature

KW - Multi-city

KW - Multi-country

KW - Time-series

U2 - 10.1097/EE9.0000000000000169

DO - 10.1097/EE9.0000000000000169

M3 - Article

SN - 2474-7882

VL - 5

JO - Environmental epidemiology

JF - Environmental epidemiology

IS - 5

M1 - e169

ER -