Assessing outdoor air quality and public health impact attributable to residential black carbon emissions in rural China

•Residential BC emissions in rural China at 1×1 km resolution was developed based on field investigation.•Residential combustion of solid fuel in rural China accounted for 51.8% of ground-level BC concentrations annually after dispersion.•171,000 premature mortalities in China that were attributable...

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Veröffentlicht in:Resources, conservation and recycling conservation and recycling, 2020-08, Vol.159, p.104812, Article 104812
Hauptverfasser: Gu, Yefu, Zhang, Weishi, Yang, Yuanjian, Wang, Can, Streets, David G., Yim, Steve Hung Lam
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container_start_page 104812
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creator Gu, Yefu
Zhang, Weishi
Yang, Yuanjian
Wang, Can
Streets, David G.
Yim, Steve Hung Lam
description •Residential BC emissions in rural China at 1×1 km resolution was developed based on field investigation.•Residential combustion of solid fuel in rural China accounted for 51.8% of ground-level BC concentrations annually after dispersion.•171,000 premature mortalities in China that were attributable to exposure to rural residential BC Black carbon (BC) is a significant component of particulate matter (PM) that relates to air pollution, climate forcing, and further implications for public health. BC is predominantly released from the combustion of solid fuels. Combustion of low-quality fuels in rural China may induce severe respiratory and cardiopulmonary health outcomes for residents, which have however been inadequately assessed. One major reason for the limited understanding is the lack of a high-resolution inventory. An improved method of estimating the BC-associated public health burden is needed. This work quantified premature mortalities due to residential BC emissions in rural China. Domestic BC emissions at 1×1 km resolution were compiled based on previous field investigation, which were further configured for air quality simulation. A chemistry transport model, WRF–CMAQ v5.2, was employed for simulating BC concentrations. The consequent premature mortalities were quantified by a BC-specific concentration-response function (CRF) derived from an epidemiological study. Results show that residential combustion of solid fuel in rural China emitted 648.0 Gg (95%CI: 361.0–965.9) BC in 2014, after dispersion, accounting for 51.8% of annual mean ground-level BC concentration in China. Such impact was most severe in North and Northeast China, and the Sichuan Basin. The further investigation estimated 171,000 (95%CI: 69,000–387,000) premature mortalities that were attributable to exposure to rural residential BC. These findings reveal the major contribution of rural residential BC emissions to air pollution formation and public health impacts. Our findings are anticipated to provide useful information for enacting the next-stage environmental strategy for the residential sector in China.
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This work quantified premature mortalities due to residential BC emissions in rural China. Domestic BC emissions at 1×1 km resolution were compiled based on previous field investigation, which were further configured for air quality simulation. A chemistry transport model, WRF–CMAQ v5.2, was employed for simulating BC concentrations. The consequent premature mortalities were quantified by a BC-specific concentration-response function (CRF) derived from an epidemiological study. Results show that residential combustion of solid fuel in rural China emitted 648.0 Gg (95%CI: 361.0–965.9) BC in 2014, after dispersion, accounting for 51.8% of annual mean ground-level BC concentration in China. Such impact was most severe in North and Northeast China, and the Sichuan Basin. The further investigation estimated 171,000 (95%CI: 69,000–387,000) premature mortalities that were attributable to exposure to rural residential BC. 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(ANL), Argonne, IL (United States)</creatorcontrib><title>Assessing outdoor air quality and public health impact attributable to residential black carbon emissions in rural China</title><title>Resources, conservation and recycling</title><description>•Residential BC emissions in rural China at 1×1 km resolution was developed based on field investigation.•Residential combustion of solid fuel in rural China accounted for 51.8% of ground-level BC concentrations annually after dispersion.•171,000 premature mortalities in China that were attributable to exposure to rural residential BC Black carbon (BC) is a significant component of particulate matter (PM) that relates to air pollution, climate forcing, and further implications for public health. BC is predominantly released from the combustion of solid fuels. Combustion of low-quality fuels in rural China may induce severe respiratory and cardiopulmonary health outcomes for residents, which have however been inadequately assessed. One major reason for the limited understanding is the lack of a high-resolution inventory. An improved method of estimating the BC-associated public health burden is needed. This work quantified premature mortalities due to residential BC emissions in rural China. Domestic BC emissions at 1×1 km resolution were compiled based on previous field investigation, which were further configured for air quality simulation. A chemistry transport model, WRF–CMAQ v5.2, was employed for simulating BC concentrations. The consequent premature mortalities were quantified by a BC-specific concentration-response function (CRF) derived from an epidemiological study. Results show that residential combustion of solid fuel in rural China emitted 648.0 Gg (95%CI: 361.0–965.9) BC in 2014, after dispersion, accounting for 51.8% of annual mean ground-level BC concentration in China. Such impact was most severe in North and Northeast China, and the Sichuan Basin. The further investigation estimated 171,000 (95%CI: 69,000–387,000) premature mortalities that were attributable to exposure to rural residential BC. These findings reveal the major contribution of rural residential BC emissions to air pollution formation and public health impacts. Our findings are anticipated to provide useful information for enacting the next-stage environmental strategy for the residential sector in China.</description><subject>Black carbon</subject><subject>CMAQ</subject><subject>Concentration response</subject><subject>Premature mortality</subject><subject>RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. 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(ANL), Argonne, IL (United States)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Assessing outdoor air quality and public health impact attributable to residential black carbon emissions in rural China</atitle><jtitle>Resources, conservation and recycling</jtitle><date>2020-08-01</date><risdate>2020</risdate><volume>159</volume><spage>104812</spage><pages>104812-</pages><artnum>104812</artnum><issn>0921-3449</issn><eissn>1879-0658</eissn><abstract>•Residential BC emissions in rural China at 1×1 km resolution was developed based on field investigation.•Residential combustion of solid fuel in rural China accounted for 51.8% of ground-level BC concentrations annually after dispersion.•171,000 premature mortalities in China that were attributable to exposure to rural residential BC Black carbon (BC) is a significant component of particulate matter (PM) that relates to air pollution, climate forcing, and further implications for public health. 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subjects Black carbon
CMAQ
Concentration response
Premature mortality
RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. MAT
Regional transportation
Residential consumption
title Assessing outdoor air quality and public health impact attributable to residential black carbon emissions in rural China
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