Trends in China's anthropogenic emissions since 2010 as the consequence of clean air actions

To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air pollutants have decreased and the air quality has substantially improved. Here, we quantified China's anthropogenic emission trends from 2...

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Published inAtmospheric chemistry and physics Vol. 18; no. 19; pp. 14095 - 14111
Main Authors Zheng, Bo, Tong, Dan, Li, Meng, Liu, Fei, Hong, Chaopeng, Geng, Guannan, Li, Haiyan, Li, Xin, Peng, Liqun, Qi, Ji, Yan, Liu, Zhang, Yuxuan, Zhao, Hongyan, Zheng, Yixuan, He, Kebin, Zhang, Qiang
Format Journal Article
LanguageEnglish
Published Katlenburg-Lindau Copernicus GmbH 04.10.2018
European Geosciences Union
Copernicus Publications
Subjects
Air cleanliness
Air pollution
Air pollution control
Air quality
Ammonia
Anthropogenic factors
Carbon dioxide
Climatology
Earth Sciences
Electric power generation
Emission analysis
Emission inventories
Emission measurements
Emissions
Emissions control
Environmental law
Environmental research
Forces (mechanics)
Industrial plant emissions
Industrial plants
Industry
Mitigation
Nitrogen compounds
Nitrogen oxides
open climate campaign
Organic compounds
Ozone
Particulate matter
Policies
Pollutants
Pollution control
Power plants
Sciences of the Universe
Sulfur dioxide
Trends
VOCs
Volatile organic compounds
China
Online AccessGet full text
ISSN1680-7324
1680-7316
1680-7324
DOI10.5194/acp-18-14095-2018

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Abstract To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air pollutants have decreased and the air quality has substantially improved. Here, we quantified China's anthropogenic emission trends from 2010 to 2017 and identified the major driving forces of these trends by using a combination of bottom-up emission inventory and index decomposition analysis (IDA) approaches. The relative change rates of China's anthropogenic emissions during 2010–2017 are estimated as follows: −62 % for SO2, −17 % for NOx, +11 % for nonmethane volatile organic compounds (NMVOCs), +1 % for NH3, −27 % for CO, −38 % for PM10, −35 % for PM2.5, −27 % for BC, −35 % for OC, and +16 % for CO2. The IDA results suggest that emission control measures are the main drivers of this reduction, in which the pollution controls on power plants and industries are the most effective mitigation measures. The emission reduction rates markedly accelerated after the year 2013, confirming the effectiveness of China's Clean Air Action that was implemented since 2013. We estimated that during 2013–2017, China's anthropogenic emissions decreased by 59 % for SO2, 21 % for NOx, 23 % for CO, 36 % for PM10, 33 % for PM2.5, 28 % for BC, and 32 % for OC. NMVOC emissions increased and NH3 emissions remained stable during 2010–2017, representing the absence of effective mitigation measures for NMVOCs and NH3 in current policies. The relative contributions of different sectors to emissions have significantly changed after several years' implementation of clean air policies, indicating that it is paramount to introduce new policies to enable further emission reductions in the future.
AbstractList To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air pollutants have decreased and the air quality has substantially improved. Here, we quantified China's anthropogenic emission trends from 2010 to 2017 and identified the major driving forces of these trends by using a combination of bottom-up emission inventory and index decomposition analysis (IDA) approaches. The relative change rates of China's anthropogenic emissions during 2010–2017 are estimated as follows: -62 % forSO2, -17 % for NOx, +11 % for nonmethane volatile organic compounds (NMVOCs), +1 % for NH3, -27 % for CO, -38 % for PM10, -35 % for PM2.5, -27 % for BC, -35 % for OC, and +16 % for CO2. The IDA results suggest that emission control measures are the main drivers of this reduction, in which the pollution controls on power plants and industries are the most effective mitigation measures. The emission reduction rates markedly accelerated after the year 2013, confirming the effectiveness of China's Clean Air Action that was implemented since 2013. We estimated that during 2013–2017, China's anthropogenic emissions decreased by 59 % forSO2, 21 % for NOx, 23 % for CO, 36 % for PM10, 33 % for PM2.5, 28 % for BC, and 32 % for OC. NMVOC emissions increased and NH3 emissions remained stable during 2010–2017, representing the absence of effective mitigation measures for NMVOCs and NH3 in current policies. The relative contributions of different sectors to emissions have significantly changed after several years' implementation of clean air policies, indicating that it is paramount to introduce new policies to enable further emission reductions in the future.
To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air pollutants have decreased and the air quality has substantially improved. Here, we quantified China's anthropogenic emission trends from 2010 to 2017 and identified the major driving forces of these trends by using a combination of bottom-up emission inventory and index decomposition analysis (IDA) approaches. The relative change rates of China's anthropogenic emissions during 2010–2017 are estimated as follows: −62 % for SO2, −17 % for NOx, +11 % for nonmethane volatile organic compounds (NMVOCs), +1 % for NH3, −27 % for CO, −38 % for PM10, −35 % for PM2.5, −27 % for BC, −35 % for OC, and +16 % for CO2. The IDA results suggest that emission control measures are the main drivers of this reduction, in which the pollution controls on power plants and industries are the most effective mitigation measures. The emission reduction rates markedly accelerated after the year 2013, confirming the effectiveness of China's Clean Air Action that was implemented since 2013. We estimated that during 2013–2017, China's anthropogenic emissions decreased by 59 % for SO2, 21 % for NOx, 23 % for CO, 36 % for PM10, 33 % for PM2.5, 28 % for BC, and 32 % for OC. NMVOC emissions increased and NH3 emissions remained stable during 2010–2017, representing the absence of effective mitigation measures for NMVOCs and NH3 in current policies. The relative contributions of different sectors to emissions have significantly changed after several years' implementation of clean air policies, indicating that it is paramount to introduce new policies to enable further emission reductions in the future.
To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air pollutants have decreased and the air quality has substantially improved. Here, we quantified China's anthropogenic emission trends from 2010 to 2017 and identified the major driving forces of these trends by using a combination of bottom-up emission inventory and index decomposition analysis (IDA) approaches. The relative change rates of China's anthropogenic emissions during 2010–2017 are estimated as follows: −62 % for SO2, −17 % for NOx, +11 % for nonmethane volatile organic compounds (NMVOCs), +1 % for NH3, −27 % for CO, −38 % for PM10, −35 % for PM2.5, −27 % for BC, −35 % for OC, and +16 % for CO2. The IDA results suggest that emission control measures are the main drivers of this reduction, in which the pollution controls on power plants and industries are the most effective mitigation measures. The emission reduction rates markedly accelerated after the year 2013, confirming the effectiveness of China's Clean Air Action that was implemented since 2013. We estimated that during 2013–2017, China's anthropogenic emissions decreased by 59 % for SO2, 21 % for NOx, 23 % for CO, 36 % for PM10, 33 % for PM2.5, 28 % for BC, and 32 % for OC. NMVOC emissions increased and NH3 emissions remained stable during 2010–2017, representing the absence of effective mitigation measures for NMVOCs and NH3 in current policies. The relative contributions of different sectors to emissions have significantly changed after several years' implementation of clean air policies, indicating that it is paramount to introduce new policies to enable further emission reductions in the future.
To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air pollutants have decreased and the air quality has substantially improved. Here, we quantified China's anthropogenic emission trends from 2010 to 2017 and identified the major driving forces of these trends by using a combination of bottom-up emission inventory and index decomposition analysis (IDA) approaches. The relative change rates of China's anthropogenic emissions during 2010-2017 are estimated as follows: -62 % for SO.sub.2, -17 % for NO.sub.x, +11 % for nonmethane volatile organic compounds (NMVOCs), +1 % for NH.sub.3, -27 % for CO, -38 % for PM.sub.10, -35 % for PM.sub.2.5, -27 % for BC, -35 % for OC, and +16 % for CO.sub.2 . The IDA results suggest that emission control measures are the main drivers of this reduction, in which the pollution controls on power plants and industries are the most effective mitigation measures. The emission reduction rates markedly accelerated after the year 2013, confirming the effectiveness of China's Clean Air Action that was implemented since 2013. We estimated that during 2013-2017, China's anthropogenic emissions decreased by 59 % for SO.sub.2, 21 % for NO.sub.x, 23 % for CO, 36 % for PM.sub.10, 33 % for PM.sub.2.5, 28 % for BC, and 32 % for OC. NMVOC emissions increased and NH.sub.3 emissions remained stable during 2010-2017, representing the absence of effective mitigation measures for NMVOCs and NH.sub.3 in current policies. The relative contributions of different sectors to emissions have significantly changed after several years' implementation of clean air policies, indicating that it is paramount to introduce new policies to enable further emission reductions in the future.
To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air pollutants have decreased and the air quality has substantially improved. Here, we quantified China's anthropogenic emission trends from 2010 to 2017 and identified the major driving forces of these trends by using a combination of bottom-up emission inventory and index decomposition analysis (IDA) approaches. The relative change rates of China's anthropogenic emissions during 2010-2017 are estimated as follows: -62 % for SO2, -17 % for NOx, +11 % for nonmethane volatile organic compounds (NMVOCs), +1 % for NH3, -27 % for CO, -38 % for PM10, -35 % for PM2.5, -27 % for BC, -35 % for OC, and +16 % for CO2. The IDA results suggest that emission control measures are the main drivers of this reduction, in which the pollution controls on power plants and industries are the most effective mitigation measures. The emission reduction rates markedly accelerated after the year 2013, confirming the effectiveness of China's Clean Air Action that was implemented since 2013. We estimated that during 2013-2017, China's anthropogenic emissions decreased by 59 % for SO2, 21 % for NOx, 23 % for CO, 36 % for PM10, 33 % for PM2.5, 28 % for BC, and 32 % for OC. NMVOC emissions increased and NH3 emissions remained stable during 2010-2017, representing the absence of effective mitigation measures for NMVOCs and NH3 in current policies. The relative contributions of different sectors to emissions have significantly changed after several years' implementation of clean air policies, indicating that it is paramount to introduce new policies to enable further emission reductions in the future.
Audience Academic
Author Zheng, Bo
Li, Meng
Geng, Guannan
Zhang, Qiang
Tong, Dan
Yan, Liu
Li, Xin
He, Kebin
Hong, Chaopeng
Liu, Fei
Peng, Liqun
Li, Haiyan
Zheng, Yixuan
Zhang, Yuxuan
Zhao, Hongyan
Qi, Ji
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  orcidid: 0000-0001-8344-3445
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  surname: Tong
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  orcidid: 0000-0002-0357-0274
  surname: Liu
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BackLink https://insu.hal.science/insu-03721860$$DView record in HAL
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Snippet To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air...
To tackle the problem of severe air pollution, China has implemented active clean air policies in recent years. As a consequence, the emissions of major air...
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SubjectTerms Air cleanliness
Air pollution
Air pollution control
Air quality
Ammonia
Anthropogenic factors
Carbon dioxide
Climatology
Earth Sciences
Electric power generation
Emission analysis
Emission inventories
Emission measurements
Emissions
Emissions control
Environmental law
Environmental research
Forces (mechanics)
Industrial plant emissions
Industrial plants
Industry
Mitigation
Nitrogen compounds
Nitrogen oxides
open climate campaign
Organic compounds
Ozone
Particulate matter
Policies
Pollutants
Pollution control
Power plants
Sciences of the Universe
Sulfur dioxide
Trends
VOCs
Volatile organic compounds
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Title Trends in China's anthropogenic emissions since 2010 as the consequence of clean air actions
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