Health & Environmental Research Online (HERO)


Print Feedback Export to File
7719297 
Journal Article 
Health risks of warming of 1.5 degrees C, 2 degrees C, and higher, above pre-industrial temperatures 
Ebi, KL; Hasegawa, T; Hayes, K; Monaghan, A; Paz, S; Berry, P 
2018 
Environmental Research Letters
ISSN: 1748-9326 
IOP Publishing Ltd 
BRISTOL 
13 
063007 
English 
WOS:000435364500001 
Background: In response to the Paris Agreement under the United Nations Framework Convention on Climate Change, the research community was asked to estimate differences in sectoral-specific risks at 1.5 degrees C and 2 degrees C increases in global mean surface air temperature (SAT) above pre-industrial temperatures. Projections of the health risks of climate change typically focus on time periods and not on the magnitude of temperature change. Objective: Summarize projections of health risks associated with temperature extremes and occupational heat stress, air quality, undernutrition, and vector-borne diseases to estimate how these risks would differ at increases in warming of 1.5 degrees C, 2 degrees C, and higher. Methods: A comprehensive search strategy included English language publications since 2008 projecting health risks of climate change identified through established databases. Of 109 relevant publications, nearly all were for future time periods (e.g. in 2030 and 2050) rather than future SAT thresholds. Time periods were therefore converted to temperature changes based on the models and scenarios used. Results: Warming of 1.5 degrees C is reached in about the 2030s for all multi-model means under all scenarios and warming of 2 degrees C is reached in about the 2050s under most scenarios. Of the 40 studies projecting risks at 1.5 and 2 degrees C increases of SAT, risks were higher at 2 degrees C for adverse health consequences associated with exposures to high ambient temperatures, ground-level ozone, and undernutrition, with regional variations. Risks for vector-borne diseases could increase or decrease with higher global mean temperatures, depending on regional climate responses and disease ecology. Conclusions: The burden of many climate-sensitive health risks are projected to be greater at an increase of 2 degrees C SAT above pre-industrial temperatures than at 1.5 degrees C. Future projection studies should report results based on changes in global and regional mean SATs and time, to facilitate quantitative analyses of health risks and to inform the level of ambition and timing of adaptation interventions. 
climate change; dengue; occupational health; malaria; temperature-related mortality; undernutrition; ozone 
ENVIRONMENTAL RESEARCH LETTERS