Reductions in premature deaths from heat and particulate matter air pollution in South Asia, China, and the United States under decarbonization

Author:

Shindell Drew1ORCID,Faluvegi Greg23,Nagamoto Emily1,Parsons Luke14ORCID,Zhang Yuqiang5

Affiliation:

1. Earth and Climate Sciences Division, Nicholas School of the Environment, Duke University, Durham, NC 27708

2. Center for Climate Systems Research, Columbia University, New York, NY 10025

3. NASA Goddard Institute for Space Studies, New York, NY 10025

4. Global Science, The Nature Conservancy, Salt Lake City, UT 84102

5. Environment Research Institute, Shandong University, Qingdao, Shandong 250100, China

Abstract

Following a sustainable development pathway designed to keep warming below 2 °C will benefit human health. We quantify premature deaths attributable to fine particulate matter (PM 2.5 ) air pollution and heat exposures for China, South Asia, and the United States using projections from multiple climate models under high- and low-emission scenarios. Projected changes in premature deaths are typically dominated by population aging, primarily reflecting increased longevity leading to greater sensitivity to environmental risks. Changes in PM 2.5 exposure typically have small impacts on premature deaths under a high-emission scenario but provide substantial benefits under a low-emission scenario. PM 2.5 -attributable deaths increase in South Asia throughout the century under both scenarios but shift to decreases by late century in China, and US values decrease throughout the century. In contrast, heat exposure increases under both scenarios and combines with population aging to drive projected increases in deaths in all countries. Despite population aging, combined PM 2.5 - and heat-related deaths decrease under the low-emission scenario by ~2.4 million per year by midcentury and ~2.9 million by century’s end, with ~3% and ~21% of these reductions from heat, respectively. Intermodel variations in exposure projections generally lead to uncertainties of <40% except for US and China heat impacts. Health benefits of low emissions are larger from reduced heat exposure than improved air quality by the late 2090s in the United States. In contrast, in South and East Asia, the PM 2.5 -related benefits are largest throughout the century, and their valuation exceeds the cost of decarbonization, especially in China, over the next 30 y.

Funder

NASA | Earth Sciences Division

Publisher

Proceedings of the National Academy of Sciences

Reference66 articles.

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