Regional Policies Targeting Residential Solid Fuel and Agricultural Emissions Can Improve Air Quality and Public Health in the Greater Bay Area and Across China
Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM2.5) exposure, with smaller contributions from ozone (O3) exposure. Recent emission reductions have reduced PM2.5 exposure. However, levels of...
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| Published in | Geohealth Vol. 5; no. 4; pp. e2020GH000341 - n/a |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
John Wiley & Sons, Inc
01.04.2021
John Wiley and Sons Inc American Geophysical Union (AGU) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM2.5) exposure, with smaller contributions from ozone (O3) exposure. Recent emission reductions have reduced PM2.5 exposure. However, levels of exposure and the associated risk remain high, some pollutant emissions have increased, and some sectors lack effective emission control measures. We quantified the potential impacts of relevant policy scenarios on ambient air quality and public health across China. We show that PM2.5 exposure inside the Greater Bay Area (GBA) is strongly controlled by emissions outside the GBA. We find that reductions in residential solid fuel use and agricultural fertilizer emissions result in the greatest reductions in PM2.5 exposure and the largest health benefits. A 50% transition from residential solid fuel use to liquefied petroleum gas outside the GBA reduced PM2.5 exposure by 15% in China and 3% within the GBA, and avoided 191,400 premature deaths each year across China. Reducing agricultural fertilizer emissions of ammonia by 30% outside the GBA reduced PM2.5 exposure by 4% in China and 3% in the GBA, avoiding 56,500 annual premature deaths across China. Our simulations suggest that reducing residential solid fuel or industrial emissions will reduce both PM2.5 and O3 exposure, whereas other policies may increase O3 exposure. Improving particulate air quality inside the GBA will require consideration of residential solid fuel and agricultural sectors, which currently lack targeted policies, and regional cooperation both inside and outside the GBA.
Key Points
Ambient fine particulate matter exposure inside the Greater Bay Area is strongly controlled by emissions outside the Greater Bay Area
Residential solid fuel and agricultural emissions lack effective controls that could improve air quality and public health across China
Improving particulate air quality inside the Greater Bay Area will require regional cooperation inside and outside the Greater Bay Area |
|---|---|
| AbstractList | Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM2.5) exposure, with smaller contributions from ozone (O3) exposure. Recent emission reductions have reduced PM2.5 exposure. However, levels of exposure and the associated risk remain high, some pollutant emissions have increased, and some sectors lack effective emission control measures. We quantified the potential impacts of relevant policy scenarios on ambient air quality and public health across China. We show that PM2.5 exposure inside the Greater Bay Area (GBA) is strongly controlled by emissions outside the GBA. We find that reductions in residential solid fuel use and agricultural fertilizer emissions result in the greatest reductions in PM2.5 exposure and the largest health benefits. A 50% transition from residential solid fuel use to liquefied petroleum gas outside the GBA reduced PM2.5 exposure by 15% in China and 3% within the GBA, and avoided 191,400 premature deaths each year across China. Reducing agricultural fertilizer emissions of ammonia by 30% outside the GBA reduced PM2.5 exposure by 4% in China and 3% in the GBA, avoiding 56,500 annual premature deaths across China. Our simulations suggest that reducing residential solid fuel or industrial emissions will reduce both PM2.5 and O3 exposure, whereas other policies may increase O3 exposure. Improving particulate air quality inside the GBA will require consideration of residential solid fuel and agricultural sectors, which currently lack targeted policies, and regional cooperation both inside and outside the GBA. Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM2.5) exposure, with smaller contributions from ozone (O3) exposure. Recent emission reductions have reduced PM2.5 exposure. However, levels of exposure and the associated risk remain high, some pollutant emissions have increased, and some sectors lack effective emission control measures. We quantified the potential impacts of relevant policy scenarios on ambient air quality and public health across China. We show that PM2.5 exposure inside the Greater Bay Area (GBA) is strongly controlled by emissions outside the GBA. We find that reductions in residential solid fuel use and agricultural fertilizer emissions result in the greatest reductions in PM2.5 exposure and the largest health benefits. A 50% transition from residential solid fuel use to liquefied petroleum gas outside the GBA reduced PM2.5 exposure by 15% in China and 3% within the GBA, and avoided 191,400 premature deaths each year across China. Reducing agricultural fertilizer emissions of ammonia by 30% outside the GBA reduced PM2.5 exposure by 4% in China and 3% in the GBA, avoiding 56,500 annual premature deaths across China. Our simulations suggest that reducing residential solid fuel or industrial emissions will reduce both PM2.5 and O3 exposure, whereas other policies may increase O3 exposure. Improving particulate air quality inside the GBA will require consideration of residential solid fuel and agricultural sectors, which currently lack targeted policies, and regional cooperation both inside and outside the GBA. Key Points Ambient fine particulate matter exposure inside the Greater Bay Area is strongly controlled by emissions outside the Greater Bay Area Residential solid fuel and agricultural emissions lack effective controls that could improve air quality and public health across China Improving particulate air quality inside the Greater Bay Area will require regional cooperation inside and outside the Greater Bay Area Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM ) exposure, with smaller contributions from ozone (O ) exposure. Recent emission reductions have reduced PM exposure. However, levels of exposure and the associated risk remain high, some pollutant emissions have increased, and some sectors lack effective emission control measures. We quantified the potential impacts of relevant policy scenarios on ambient air quality and public health across China. We show that PM exposure inside the Greater Bay Area (GBA) is strongly controlled by emissions outside the GBA. We find that reductions in residential solid fuel use and agricultural fertilizer emissions result in the greatest reductions in PM exposure and the largest health benefits. A 50% transition from residential solid fuel use to liquefied petroleum gas outside the GBA reduced PM exposure by 15% in China and 3% within the GBA, and avoided 191,400 premature deaths each year across China. Reducing agricultural fertilizer emissions of ammonia by 30% outside the GBA reduced PM exposure by 4% in China and 3% in the GBA, avoiding 56,500 annual premature deaths across China. Our simulations suggest that reducing residential solid fuel or industrial emissions will reduce both PM and O exposure, whereas other policies may increase O exposure. Improving particulate air quality inside the GBA will require consideration of residential solid fuel and agricultural sectors, which currently lack targeted policies, and regional cooperation both inside and outside the GBA. Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM 2.5 ) exposure, with smaller contributions from ozone (O 3 ) exposure. Recent emission reductions have reduced PM 2.5 exposure. However, levels of exposure and the associated risk remain high, some pollutant emissions have increased, and some sectors lack effective emission control measures. We quantified the potential impacts of relevant policy scenarios on ambient air quality and public health across China. We show that PM 2.5 exposure inside the Greater Bay Area (GBA) is strongly controlled by emissions outside the GBA. We find that reductions in residential solid fuel use and agricultural fertilizer emissions result in the greatest reductions in PM 2.5 exposure and the largest health benefits. A 50% transition from residential solid fuel use to liquefied petroleum gas outside the GBA reduced PM 2.5 exposure by 15% in China and 3% within the GBA, and avoided 191,400 premature deaths each year across China. Reducing agricultural fertilizer emissions of ammonia by 30% outside the GBA reduced PM 2.5 exposure by 4% in China and 3% in the GBA, avoiding 56,500 annual premature deaths across China. Our simulations suggest that reducing residential solid fuel or industrial emissions will reduce both PM 2.5 and O 3 exposure, whereas other policies may increase O 3 exposure. Improving particulate air quality inside the GBA will require consideration of residential solid fuel and agricultural sectors, which currently lack targeted policies, and regional cooperation both inside and outside the GBA. Ambient fine particulate matter exposure inside the Greater Bay Area is strongly controlled by emissions outside the Greater Bay Area Residential solid fuel and agricultural emissions lack effective controls that could improve air quality and public health across China Improving particulate air quality inside the Greater Bay Area will require regional cooperation inside and outside the Greater Bay Area Abstract Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM2.5) exposure, with smaller contributions from ozone (O3) exposure. Recent emission reductions have reduced PM2.5 exposure. However, levels of exposure and the associated risk remain high, some pollutant emissions have increased, and some sectors lack effective emission control measures. We quantified the potential impacts of relevant policy scenarios on ambient air quality and public health across China. We show that PM2.5 exposure inside the Greater Bay Area (GBA) is strongly controlled by emissions outside the GBA. We find that reductions in residential solid fuel use and agricultural fertilizer emissions result in the greatest reductions in PM2.5 exposure and the largest health benefits. A 50% transition from residential solid fuel use to liquefied petroleum gas outside the GBA reduced PM2.5 exposure by 15% in China and 3% within the GBA, and avoided 191,400 premature deaths each year across China. Reducing agricultural fertilizer emissions of ammonia by 30% outside the GBA reduced PM2.5 exposure by 4% in China and 3% in the GBA, avoiding 56,500 annual premature deaths across China. Our simulations suggest that reducing residential solid fuel or industrial emissions will reduce both PM2.5 and O3 exposure, whereas other policies may increase O3 exposure. Improving particulate air quality inside the GBA will require consideration of residential solid fuel and agricultural sectors, which currently lack targeted policies, and regional cooperation both inside and outside the GBA. Abstract Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM 2.5 ) exposure, with smaller contributions from ozone (O 3 ) exposure. Recent emission reductions have reduced PM 2.5 exposure. However, levels of exposure and the associated risk remain high, some pollutant emissions have increased, and some sectors lack effective emission control measures. We quantified the potential impacts of relevant policy scenarios on ambient air quality and public health across China. We show that PM 2.5 exposure inside the Greater Bay Area (GBA) is strongly controlled by emissions outside the GBA. We find that reductions in residential solid fuel use and agricultural fertilizer emissions result in the greatest reductions in PM 2.5 exposure and the largest health benefits. A 50% transition from residential solid fuel use to liquefied petroleum gas outside the GBA reduced PM 2.5 exposure by 15% in China and 3% within the GBA, and avoided 191,400 premature deaths each year across China. Reducing agricultural fertilizer emissions of ammonia by 30% outside the GBA reduced PM 2.5 exposure by 4% in China and 3% in the GBA, avoiding 56,500 annual premature deaths across China. Our simulations suggest that reducing residential solid fuel or industrial emissions will reduce both PM 2.5 and O 3 exposure, whereas other policies may increase O 3 exposure. Improving particulate air quality inside the GBA will require consideration of residential solid fuel and agricultural sectors, which currently lack targeted policies, and regional cooperation both inside and outside the GBA. Key Points Ambient fine particulate matter exposure inside the Greater Bay Area is strongly controlled by emissions outside the Greater Bay Area Residential solid fuel and agricultural emissions lack effective controls that could improve air quality and public health across China Improving particulate air quality inside the Greater Bay Area will require regional cooperation inside and outside the Greater Bay Area |
| Author | Silver, Ben J. Knote, Christoph Reddington, Carly L. Conibear, Luke Spracklen, Dominick V. Arnold, Stephen R. |
| AuthorAffiliation | 2 Faculty of Medicine University of Augsburg Germany 1 Institute for Climate and Atmospheric Science School of Earth and Environment University of Leeds Leeds UK |
| AuthorAffiliation_xml | – name: 2 Faculty of Medicine University of Augsburg Germany – name: 1 Institute for Climate and Atmospheric Science School of Earth and Environment University of Leeds Leeds UK |
| Author_xml | – sequence: 1 givenname: Luke orcidid: 0000-0003-2801-8862 surname: Conibear fullname: Conibear, Luke email: L.A.Conibear@leeds.ac.uk organization: University of Leeds – sequence: 2 givenname: Carly L. surname: Reddington fullname: Reddington, Carly L. organization: University of Leeds – sequence: 3 givenname: Ben J. orcidid: 0000-0003-0395-0637 surname: Silver fullname: Silver, Ben J. organization: University of Leeds – sequence: 4 givenname: Christoph surname: Knote fullname: Knote, Christoph organization: University of Augsburg – sequence: 5 givenname: Stephen R. orcidid: 0000-0002-4881-5685 surname: Arnold fullname: Arnold, Stephen R. organization: University of Leeds – sequence: 6 givenname: Dominick V. surname: Spracklen fullname: Spracklen, Dominick V. organization: University of Leeds |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33898905$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_atmosenv_2023_120146 crossref_primary_10_1029_2021GH000506 crossref_primary_10_1029_2021GH000570 crossref_primary_10_1088_1748_9326_ac6f6f crossref_primary_10_1021_acs_est_3c03585 crossref_primary_10_1016_j_apr_2024_102201 crossref_primary_10_1029_2023GH000812 crossref_primary_10_1016_j_envpol_2023_121544 crossref_primary_10_3390_atmos13030485 crossref_primary_10_1029_2021GH000567 |
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| Publisher | John Wiley & Sons, Inc John Wiley and Sons Inc American Geophysical Union (AGU) |
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| Snippet | Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter... Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate matter (PM... Abstract Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate... Abstract Air pollution exposure is a leading public health problem in China. The majority of the total air pollution disease burden is from fine particulate... |
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| SubjectTerms | Aerosols Aerosols and Particles Agricultural policy Agriculture Air pollution Air pollution measurements Air quality Airborne particulates ambient air pollution Atmospheric Composition and Structure Biogeosciences Carbon Chemistry China Emission measurements Emissions Emissions control Environmental policy Environmental protection Environmental risk Exposure Fertilizers Geohealth greater bay area Health care health impact assessment Industrial emissions Liquefied petroleum gas Marine Pollution Megacities and Urban Environment Natural Hazards Oceanography: Biological and Chemical Oceanography: General Outdoor air quality Ozone Paleoceanography Particulate matter policy scenario Pollutants Pollution: Urban and Regional Pollution: Urban, Regional and Global Public Health Risk factors Urban Systems VOCs Volatile organic compounds Weather |
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| Title | Regional Policies Targeting Residential Solid Fuel and Agricultural Emissions Can Improve Air Quality and Public Health in the Greater Bay Area and Across China |
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