Severe haze in northern China: A synergy of anthropogenic emissions and atmospheric processes

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Severe haze events with large temporal/spatial coverages have occurred frequently in wintertime northern China. These extremes result from a complex interplay between emissions and atmospheric processes and provide a unique scientific platform to gain insights into many aspects of the relevant atmospheric chemistry and physics. Here we synthesize recent progress in understanding severe haze formation in northern China. In particular, we highlight that improved understanding of the emission sources, physical/chemical processes during haze evolution, and interactions with meteorological/climatic changes are necessary to unravel the causes, mechanisms, and trends for haze pollution. This viewpoint established on the basis of sound science is critical for improving haze prediction/forecast, formulating effective regulatory policies by decision makers, and raising public awareness of environmental protection.

Abstract

Regional severe haze represents an enormous environmental problem in China, influencing air quality, human health, ecosystem, weather, and climate. These extremes are characterized by exceedingly high concentrations of fine particulate matter (smaller than 2.5 µm, or PM _2.5) and occur with extensive temporal (on a daily, weekly, to monthly timescale) and spatial (over a million square kilometers) coverage. Although significant advances have been made in field measurements, model simulations, and laboratory experiments for fine PM over recent years, the causes for severe haze formation have not yet to be systematically/comprehensively evaluated. This review provides a synthetic synopsis of recent advances in understanding the fundamental mechanisms of severe haze formation in northern China, focusing on emission sources, chemical formation and transformation, and meteorological and climatic conditions. In particular, we highlight the synergetic effects from the interactions between anthropogenic emissions and atmospheric processes. Current challenges and future research directions to improve the understanding of severe haze pollution as well as plausible regulatory implications on a scientific basis are also discussed.

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Most cited references 135

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Elucidating severe urban haze formation in China.

Song-Xue Guo, Yi-Min Hu, Misti L Zamora … (2015)

As the world's second largest economy, China has experienced severe haze pollution, with fine particulate matter (PM) recently reaching unprecedentedly high levels across many cities, and an understanding of the PM formation mechanism is critical in the development of efficient mediation policies to minimize its regional to global impacts. We demonstrate a periodic cycle of PM episodes in Beijing that is governed by meteorological conditions and characterized by two distinct aerosol formation processes of nucleation and growth, but with a small contribution from primary emissions and regional transport of particles. Nucleation consistently precedes a polluted period, producing a high number concentration of nano-sized particles under clean conditions. Accumulation of the particle mass concentration exceeding several hundred micrograms per cubic meter is accompanied by a continuous size growth from the nucleation-mode particles over multiple days to yield numerous larger particles, distinctive from the aerosol formation typically observed in other regions worldwide. The particle compositions in Beijing, on the other hand, exhibit a similarity to those commonly measured in many global areas, consistent with the chemical constituents dominated by secondary aerosol formation. Our results highlight that regulatory controls of gaseous emissions for volatile organic compounds and nitrogen oxides from local transportation and sulfur dioxide from regional industrial sources represent the key steps to reduce the urban PM level in China.

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Evidence on the impact of sustained exposure to air pollution on life expectancy from China's Huai River policy.

Yuyu Chen, Avraham Ebenstein, Michael Greenstone … (2013)

This paper's findings suggest that an arbitrary Chinese policy that greatly increases total suspended particulates (TSPs) air pollution is causing the 500 million residents of Northern China to lose more than 2.5 billion life years of life expectancy. The quasi-experimental empirical approach is based on China's Huai River policy, which provided free winter heating via the provision of coal for boilers in cities north of the Huai River but denied heat to the south. Using a regression discontinuity design based on distance from the Huai River, we find that ambient concentrations of TSPs are about 184 μg/m(3) [95% confidence interval (CI): 61, 307] or 55% higher in the north. Further, the results indicate that life expectancies are about 5.5 y (95% CI: 0.8, 10.2) lower in the north owing to an increased incidence of cardiorespiratory mortality. More generally, the analysis suggests that long-term exposure to an additional 100 μg/m(3) of TSPs is associated with a reduction in life expectancy at birth of about 3.0 y (95% CI: 0.4, 5.6).

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Transboundary health impacts of transported global air pollution and international trade

Qiang Zhang, Xujia Jiang, Dan Tong-Cacsire … (2017)

Millions of people die every year from diseases caused by exposure to outdoor air pollution. Some studies have estimated premature mortality related to local sources of air pollution, but local air quality can also be affected by atmospheric transport of pollution from distant sources. International trade is contributing to the globalization of emission and pollution as a result of the production of goods (and their associated emissions) in one region for consumption in another region. The effects of international trade on air pollutant emissions, air quality and health have been investigated regionally, but a combined, global assessment of the health impacts related to international trade and the transport of atmospheric air pollution is lacking. Here we combine four global models to estimate premature mortality caused by fine particulate matter (PM2.5) pollution as a result of atmospheric transport and the production and consumption of goods and services in different world regions. We find that, of the 3.45 million premature deaths related to PM2.5 pollution in 2007 worldwide, about 12 per cent (411,100 deaths) were related to air pollutants emitted in a region of the world other than that in which the death occurred, and about 22 per cent (762,400 deaths) were associated with goods and services produced in one region for consumption in another. For example, PM2.5 pollution produced in China in 2007 is linked to more than 64,800 premature deaths in regions other than China, including more than 3,100 premature deaths in western Europe and the USA; on the other hand, consumption in western Europe and the USA is linked to more than 108,600 premature deaths in China. Our results reveal that the transboundary health impacts of PM2.5 pollution associated with international trade are greater than those associated with long-distance atmospheric pollutant transport.

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Author and article information

Journal

Journal ID (nlm-ta): Proc Natl Acad Sci U S A

Journal ID (iso-abbrev): Proc. Natl. Acad. Sci. U.S.A

Journal ID (hwp): pnas

Journal ID (pmc): pnas

Journal ID (publisher-id): PNAS

Title: Proceedings of the National Academy of Sciences of the United States of America

Publisher: National Academy of Sciences

ISSN (Print): 0027-8424

ISSN (Electronic): 1091-6490

Publication date (Print): 30 April 2019

Publication date (Electronic): 15 April 2019

Publication date PMC-release: 15 April 2019

Volume: 116

Issue: 18

Pages: 8657-8666

Affiliations

[1] ^aState Key Laboratory of Loess and Quaternary Geology, Institute of Earth Environment, Chinese Academy of Sciences , Xi’an 710061, China;

[2] ^bCenter for Excellence in Quaternary Science and Global Change, Chinese Academy of Sciences , Xi’an 710061, China;

[3] ^cKey Laboratory of Aerosol Chemistry and Physics, Institute of Earth Environment, Chinese Academy of Sciences , Xi’an 710061, China;

[4] ^dInterdisciplinary Research Center of Earth Science Frontier, Beijing Normal University , Beijing 100875, China;

[5] ^eOpen Studio for Oceanic-Continental Climate and Environment Changes, Pilot National Laboratory for Marine Science and Technology (Qingdao) , Qingdao 266061, China;

[6] ^fDepartment of Atmospheric Sciences, Texas A&M University , College Station, TX 77843;

[7] ^gDepartment of Chemistry, Texas A&M University , College Station, TX 77843;

[8] ^hDepartment of Earth and Environmental Sciences, Xi’an Jiaotong University , Xi’an 710049, China;

[9] ⁱGuangzhou Key Laboratory of Environmental Catalysis and Pollution Control, School of Environmental Science and Engineering, Guangdong University of Technology , Guangzhou 510006, China

Author notes

¹To whom correspondence should be addressed. Email: anzs@ 123456loess.llqg.ac.cn .

This contribution is part of the special series of Inaugural Articles by members of the National Academy of Sciences elected in 2016.

Contributed by Zhisheng An, March 14, 2019 (sent for review January 4, 2019; reviewed by Qiang Fu and Jianping Huang)

Author contributions: Z.A., X.T., J.C., and W.Z. designed research; Z.A., R.-J.H., R.Z., X.T., G.L., J.C., W.Z., and Z.S. performed research; G.L., Y.H., Z.G., and Y.J. analyzed data; and Z.A., R.-J.H., R.Z., G.L., Z.S., and Y.H. wrote the paper.

Reviewers: Q.F., University of Washington; and J.H., Lanzhou University.

Article

Publisher ID: 201900125

DOI: 10.1073/pnas.1900125116

PMC ID: 6500134

PubMed ID: 30988177

SO-VID: 2d35df25-f2f7-4403-ba3c-3055e87cea01

License:

This open access article is distributed under Creative Commons Attribution License 4.0 (CC BY).

History

Page count

Pages: 10

Funding

Funded by: National Research Program for Key Issues in Air Pollution Control

Award ID: DQGG0104

Award Recipient : Zhisheng An Award Recipient : Renyi Zhang Award Recipient : Junji Cao

Funded by: National Research Program for Key Issues in Air Pollution Control

Award ID: DQGG0105

Award Recipient : Zhisheng An Award Recipient : Renyi Zhang Award Recipient : Junji Cao

Funded by: State Key Laboratory of Loess and Quaternary Geology

Award ID: SKLLQGZD1701

Award Recipient : Zhisheng An Award Recipient : Renyi Zhang Award Recipient : Junji Cao

Funded by: Robert A. Welch Foundation

Award ID: A-1417

Award Recipient : Zhisheng An Award Recipient : Renyi Zhang Award Recipient : Junji Cao

Severe haze in northern China: A synergy of anthropogenic emissions and atmospheric processes

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Climate Change: Open Access

Most cited references 135

Elucidating severe urban haze formation in China.

Evidence on the impact of sustained exposure to air pollution on life expectancy from China's Huai River policy.

Transboundary health impacts of transported global air pollution and international trade

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