Achievements and Challenges in Improving Air Quality in China: Analysis of the Long-Term Trends from 2014 to 2022

Huang  Zheng; Shaofei  Kong; Jihoon  Seo; Yingying  Yan; Yi  Cheng; Liquan  Yao; Yanxin  Wang; Tianliang  Zhao; Roy Harrison

doi:10.1016/j.envint.2023.108361

Achievements and Challenges in Improving Air Quality in China: Analysis of the Long-Term Trends from 2014 to 2022

Huang Zheng, Shaofei Kong^*, Jihoon Seo, Yingying Yan, Yi Cheng, Liquan Yao, Yanxin Wang, Tianliang Zhao, Roy Harrison^*

^*Corresponding author for this work

Earth and Environmental Sciences

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Abstract

Due to the implementation of air pollution control measures in China, air quality has significantly improved, although there are still additional issues to be addressed. This study used the long-term trends of air pollutants to discuss the achievements and challenges in further improving air quality in China. The Kolmogorov-Zurbenko (KZ) filter and multiple-linear regression (MLR) were used to quantify the meteorology-related and emission-related trends of air pollutants from 2014 to 2022 in China. The KZ filter analysis showed that PM2.5 decreased by 7.36 ± 2.92% yr􀀀 1, while daily maximum 8-h ozone (MDA8 O3) showed an increasing trend with 3.71 ± 2.89% yr􀀀 1 in China. The decrease in PM2.5 and increase in MDA8 O3 were primarily attributed to changes in emission, with the relative contribution of 85.8% and 86.0%, respectively. Meteorology variations, including increased ambient temperature, boundary layer height, and reduced relative humidity, also contributed to the reduction of PM2.5 and the enhancement of MDA8 O3. The emission-related trends of PM2.5 and MDA8 O3 exhibited continuous decrease and increase, respectively, from 2014 to 2022, while the variation rates slowed during 2018–2020 compared to that during 2014–2017, highlighting the challenges in further improving air quality, particularly in simultaneously reducing PM2.5 and O3. This study recommends reducing NH3 emissions from the agriculture sector in rural areas and transport emissions in urban areas to further decrease PM2.5 levels. Addressing O3 pollution requires the reduction of O3 precursor gases based on site-specific atmospheric chemistry considerations.

Original language	English
Article number	108361
Number of pages	14
Journal	Environment international
Volume	183
Early online date	30 Nov 2023
DOIs	https://doi.org/10.1016/j.envint.2023.108361
Publication status	Published - Jan 2024

Bibliographical note

Acknowledgment
This study was financially supported by the National Natural Science Foundation of China (41830965) and the Key Program for Technical Innovation of Hubei Province (2017ACA089).

Keywords

Air pollution
PM2.5 reduction
O3 pollution
Kolmogorov-Zurbenko filter
Emission and meteorology impact

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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@article{df3f48ea38734d148a85b2ad64646624,

title = "Achievements and Challenges in Improving Air Quality in China: Analysis of the Long-Term Trends from 2014 to 2022",

abstract = "Due to the implementation of air pollution control measures in China, air quality has significantly improved, although there are still additional issues to be addressed. This study used the long-term trends of air pollutants to discuss the achievements and challenges in further improving air quality in China. The Kolmogorov-Zurbenko (KZ) filter and multiple-linear regression (MLR) were used to quantify the meteorology-related and emission-related trends of air pollutants from 2014 to 2022 in China. The KZ filter analysis showed that PM2.5 decreased by 7.36 ± 2.92% yr 1, while daily maximum 8-h ozone (MDA8 O3) showed an increasing trend with 3.71 ± 2.89% yr 1 in China. The decrease in PM2.5 and increase in MDA8 O3 were primarily attributed to changes in emission, with the relative contribution of 85.8% and 86.0%, respectively. Meteorology variations, including increased ambient temperature, boundary layer height, and reduced relative humidity, also contributed to the reduction of PM2.5 and the enhancement of MDA8 O3. The emission-related trends of PM2.5 and MDA8 O3 exhibited continuous decrease and increase, respectively, from 2014 to 2022, while the variation rates slowed during 2018–2020 compared to that during 2014–2017, highlighting the challenges in further improving air quality, particularly in simultaneously reducing PM2.5 and O3. This study recommends reducing NH3 emissions from the agriculture sector in rural areas and transport emissions in urban areas to further decrease PM2.5 levels. Addressing O3 pollution requires the reduction of O3 precursor gases based on site-specific atmospheric chemistry considerations.",

keywords = "Air pollution, PM2.5 reduction, O3 pollution, Kolmogorov-Zurbenko filter, Emission and meteorology impact",

author = "Huang Zheng and Shaofei Kong and Jihoon Seo and Yingying Yan and Yi Cheng and Liquan Yao and Yanxin Wang and Tianliang Zhao and Roy Harrison",

note = "Acknowledgment This study was financially supported by the National Natural Science Foundation of China (41830965) and the Key Program for Technical Innovation of Hubei Province (2017ACA089).",

year = "2024",

month = jan,

doi = "10.1016/j.envint.2023.108361",

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journal = "Environment international",

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AU - Zheng, Huang

AU - Kong, Shaofei

AU - Seo, Jihoon

AU - Yan, Yingying

AU - Cheng, Yi

AU - Yao, Liquan

AU - Wang, Yanxin

AU - Zhao, Tianliang

AU - Harrison, Roy

N1 - Acknowledgment This study was financially supported by the National Natural Science Foundation of China (41830965) and the Key Program for Technical Innovation of Hubei Province (2017ACA089).

PY - 2024/1

Y1 - 2024/1

N2 - Due to the implementation of air pollution control measures in China, air quality has significantly improved, although there are still additional issues to be addressed. This study used the long-term trends of air pollutants to discuss the achievements and challenges in further improving air quality in China. The Kolmogorov-Zurbenko (KZ) filter and multiple-linear regression (MLR) were used to quantify the meteorology-related and emission-related trends of air pollutants from 2014 to 2022 in China. The KZ filter analysis showed that PM2.5 decreased by 7.36 ± 2.92% yr 1, while daily maximum 8-h ozone (MDA8 O3) showed an increasing trend with 3.71 ± 2.89% yr 1 in China. The decrease in PM2.5 and increase in MDA8 O3 were primarily attributed to changes in emission, with the relative contribution of 85.8% and 86.0%, respectively. Meteorology variations, including increased ambient temperature, boundary layer height, and reduced relative humidity, also contributed to the reduction of PM2.5 and the enhancement of MDA8 O3. The emission-related trends of PM2.5 and MDA8 O3 exhibited continuous decrease and increase, respectively, from 2014 to 2022, while the variation rates slowed during 2018–2020 compared to that during 2014–2017, highlighting the challenges in further improving air quality, particularly in simultaneously reducing PM2.5 and O3. This study recommends reducing NH3 emissions from the agriculture sector in rural areas and transport emissions in urban areas to further decrease PM2.5 levels. Addressing O3 pollution requires the reduction of O3 precursor gases based on site-specific atmospheric chemistry considerations.

AB - Due to the implementation of air pollution control measures in China, air quality has significantly improved, although there are still additional issues to be addressed. This study used the long-term trends of air pollutants to discuss the achievements and challenges in further improving air quality in China. The Kolmogorov-Zurbenko (KZ) filter and multiple-linear regression (MLR) were used to quantify the meteorology-related and emission-related trends of air pollutants from 2014 to 2022 in China. The KZ filter analysis showed that PM2.5 decreased by 7.36 ± 2.92% yr 1, while daily maximum 8-h ozone (MDA8 O3) showed an increasing trend with 3.71 ± 2.89% yr 1 in China. The decrease in PM2.5 and increase in MDA8 O3 were primarily attributed to changes in emission, with the relative contribution of 85.8% and 86.0%, respectively. Meteorology variations, including increased ambient temperature, boundary layer height, and reduced relative humidity, also contributed to the reduction of PM2.5 and the enhancement of MDA8 O3. The emission-related trends of PM2.5 and MDA8 O3 exhibited continuous decrease and increase, respectively, from 2014 to 2022, while the variation rates slowed during 2018–2020 compared to that during 2014–2017, highlighting the challenges in further improving air quality, particularly in simultaneously reducing PM2.5 and O3. This study recommends reducing NH3 emissions from the agriculture sector in rural areas and transport emissions in urban areas to further decrease PM2.5 levels. Addressing O3 pollution requires the reduction of O3 precursor gases based on site-specific atmospheric chemistry considerations.

KW - Air pollution

KW - PM2.5 reduction

KW - O3 pollution

KW - Kolmogorov-Zurbenko filter

KW - Emission and meteorology impact

U2 - 10.1016/j.envint.2023.108361

DO - 10.1016/j.envint.2023.108361

M3 - Article

SN - 1873-6750

VL - 183

JO - Environment international

JF - Environment international

M1 - 108361

ER -

Achievements and Challenges in Improving Air Quality in China: Analysis of the Long-Term Trends from 2014 to 2022

Abstract

Bibliographical note

Keywords

UN SDGs

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