Temperature-related mortality impacts under and beyond Paris Agreement climate change scenarios

被引：0

作者：

Ana Maria Vicedo-Cabrera

Yuming Guo

Francesco Sera

Veronika Huber

Carl-Friedrich Schleussner

Dann Mitchell

Shilu Tong

Micheline de Sousa Zanotti Stagliorio Coelho

Paulo Hilario Nascimento Saldiva

Eric Lavigne

Patricia Matus Correa

Nicolas Valdes Ortega

Haidong Kan

Samuel Osorio

Jan Kyselý

Aleš Urban

Jouni J. K. Jaakkola

Niilo R. I. Ryti

Mathilde Pascal

Patrick G. Goodman

Ariana Zeka

Paola Michelozzi

Matteo Scortichini

Masahiro Hashizume

Yasushi Honda

Magali Hurtado-Diaz

Julio Cruz

Xerxes Seposo

Ho Kim

Aurelio Tobias

Carmen Íñiguez

Bertil Forsberg

Daniel Oudin Åström

Martina S. Ragettli

Martin Röösli

Yue Leon Guo

Chang-fu Wu

Antonella Zanobetti

Joel Schwartz

Michelle L. Bell

Tran Ngoc Dang

Dung Do Van

Clare Heaviside

Sotiris Vardoulakis

Shakoor Hajat

Andy Haines

Ben Armstrong

Kristie L. Ebi

Antonio Gasparrini

机构：

[1] London School of Hygiene & Tropical Medicine,Department of Public Health, Environments and Society

[2] Monash University,Department of Epidemiology and Preventive Medicine, School of Public Health and Preventive Medicine

[3] University of Queensland,Division of Epidemiology and Biostatistics, School of Population Health

[4] Potsdam Institute for Climate Impact Research,School of Geographical Sciences

[5] Universidad Pablo de Olavide,School of Public Health and Institute of Environment and Human Health

[6] Climate Analytics,Shanghai Children’s Medical Centre

[7] University of Bristol,School of Public Health and Social Work

[8] Anhui Medical University,Institute of Advanced Studies

[9] Shanghai Jiao-Tong University,School of Epidemiology and Public Health

[10] Queensland University of Technology,Department of Public Health

[11] University of São Paulo,Department of Environmental Health, School of Public Health

[12] University of Ottawa,Department of Environmental Health

[13] Healthy Environments and Consumer Safety Branch,Institute of Atmospheric Physics

[14] Health Canada,Faculty of Environmental Sciences

[15] Universidad de los Andes,Center for Environmental and Respiratory Health Research

[16] Fudan University,School of Physics

[17] University of São Paulo,Institute of Environment, Health and Societies

[18] Academy of Sciences of the Czech Republic,Department of Pediatric Infectious Diseases, Institute of Tropical Medicine

[19] Czech University of Life Sciences,Faculty of Health and Sport Sciences

[20] University of Oulu,Department of Environmental Health

[21] Santé Publique France,Department of Environmental Engineering, Graduate School of Engineering

[22] French National Public Health Agency,Department of Global Ecology

[23] Dublin Institute of Technology,Graduate School of Public Health

[24] Brunel University London,Institute of Environmental Assessment and Water Research (IDAEA)

[25] Department of Epidemiology,Department of Statistics and Computational Research, Environmental Health Joint Research Unit FISABIO

[26] Lazio Regional Health Service,UV

[27] Nagasaki University,UJI CIBERESP

[28] University of Tsukuba,Department of Public Health and Clinical Medicine

[29] National Institute of Public Health,Environmental and Occupational Medicine, and Institute of Occupational Medicine and Industrial Hygiene

[30] Kyoto University,Department of Environmental Health

[31] Graduate School of Global Environmental Studies,School of Forestry and Environmental Studies

[32] Seoul National University,Faculty of Public Health

[33] Spanish Council for Scientific Research (CSIC),Institute of Research and Development

[34] University of Valencia,Chemical and Environmental Effects, Centre for Radiation, Chemical & Environmental Hazards

[35] Umeå University,Center for Health and the Global Environment (CHanGE)

[36] Swiss Tropical and Public Health Institute,undefined

[37] University of Basel,undefined

[38] National Taiwan University (NTU) and NTU Hospital,undefined

[39] National Institute of Environmental Health Sciences,undefined

[40] National Health Research Institutes,undefined

[41] Harvard T.H. Chan School of Public Health,undefined

[42] Yale University,undefined

[43] University of Medicine and Pharmacy,undefined

[44] Duy Tan University,undefined

[45] Public Health England,undefined

[46] Institute of Occupational Medicine,undefined

[47] University of Washington,undefined

来源：

Climatic Change | 2018年 / 150卷

关键词：

Climate change; Mortality; Temperature; Projections;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The Paris Agreement binds all nations to undertake ambitious efforts to combat climate change, with the commitment to “hold warming well below 2 °C in global mean temperature (GMT), relative to pre-industrial levels, and to pursue efforts to limit warming to 1.5 °C”. The 1.5 °C limit constitutes an ambitious goal for which greater evidence on its benefits for health would help guide policy and potentially increase the motivation for action. Here we contribute to this gap with an assessment on the potential health benefits, in terms of reductions in temperature-related mortality, derived from the compliance to the agreed temperature targets, compared to more extreme warming scenarios. We performed a multi-region analysis in 451 locations in 23 countries with different climate zones, and evaluated changes in heat and cold-related mortality under scenarios consistent with the Paris Agreement targets (1.5 and 2 °C) and more extreme GMT increases (3 and 4 °C), and under the assumption of no changes in demographic distribution and vulnerability. Our results suggest that limiting warming below 2 °C could prevent large increases in temperature-related mortality in most regions worldwide. The comparison between 1.5 and 2 °C is more complex and characterized by higher uncertainty, with geographical differences that indicate potential benefits limited to areas located in warmer climates, where direct climate change impacts will be more discernible.

引用

页码：391 / 402

页数：11

共 83 条

[1]

Benmarhnia T(2014)Variability in temperature-related mortality projections under climate change Environ Health Perspect 122 1293-1298

[2]

Sottile M-F(2014)Climate change and health modeling: horses for courses Glob Health Action 7 24154-375

[3]

Plante C(2014)Attributable risk from distributed lag models BMC Med Res Methodol 14 55-e367

[4]

Ebi KL(2015)Mortality risk attributable to high and low ambient temperature: a multicountry observational study Lancet Lond Engl 386 369-570

[5]

Rocklöv J(2017)Projections of temperature-related excess mortality under climate change scenarios Lancet Planet Health 1 e360-263

[6]

Gasparrini A(2017)Adaptation to climate change: a comparative analysis of modeling methods for heat-related mortality Environ Health Perspect 125 e457-260

[7]

Leone M(2016)Poorest countries experience earlier anthropogenic emergence of daily temperature extremes Environ Res Lett 11 543-2089

[8]

Gasparrini A(2017)Characterizing half-a-degree difference: a review of methods for identifying regional climate responses to global warming targets Wiley Interdisciplinary Reviews: Climate Change 8 259-506

[9]

Guo Y(2011)The HadGEM2-ES implementation of CMIP5 centennial simulations Geosci Model Dev 4 245-351

[10]

Hashizume M(2006)World Map of the Köppen-Geiger climate classification updated Meteorologische Zeitschrift 15 e1700066-483

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