Chemical Differences Between PM1 and PM2.5 in Highly Polluted Environment and Implications in Air Pollution Studies

Sun Yele; He Yao; Kuang Ye; Xu Wanyun; Song Shaojie; Ma Nan; Tao Jiangchuan; Cheng Peng; Wu Cheng; Su Hang; Cheng Yafang; Xie Conghui; Chen Chun; Lei Lu; Qiu Yanmei; Fu Pingqing; Croteau Philip; Worsnop Douglas R.

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Chemical Differences Between PM1 and PM2.5 in Highly Polluted Environment and Implications in Air Pollution Studies

机译：PM1和PM2.5之间的化学差异在高度污染的环境中和空气污染研究中的影响

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Submicron aerosol (PM1) species measured by aerosol mass spectrometers have been widely used to validate chemical transport models; however, the uncertainties due to chemical differences between PM1 and PM2.5 are poorly constrained. Here we characterized such differences in a highly polluted environment in north China in winter. Our results showed that the changes in PM1/PM2.5 ratios as a function of relative humidity (RH) were largely different for primary and secondary species. Secondary organic and inorganic aerosol (SOA and SIA) presented clear decreases in PM1/PM2.5 ratios at RH > 60% during periods with high SIA contributions (>50%), likely driven by the changes in aerosol hygroscopicity and phase states, while the traffic and coal combustion OA had limited dependence on RH. Thermodynamic modeling showed negligible impacts of PM differences on predictions of particle acidity, yet these impacts can cause a difference in aerosol water content by up to 50-70%.

机译：由气溶胶质谱仪测量的亚微型气溶胶（PM1）物种已被广泛用于验证化学传输模型; 然而，由于PM1和PM2.5之间的化学差异导致的不确定性受到严重受损。在这里，我们在冬季表征了华北北方高度污染环境的差异。我们的研究结果表明，作为相对湿度（RH）的函数的PM1 / PM2.5比率的变化主要是对初级和次生物种的不同。在高SIA贡献（> 50％）的期间，rH> 60％的PM1 / PM2.5比率下的次级有机和无机气溶胶（SOA和SIA）呈现明显降低（> 50％），可能受气溶胶吸湿性和相位态的变化驱动交通和煤炭燃烧OA对RH有限。热力学建模显示PM对颗粒酸度预测的差异可忽略不计，但这些影响可能导致气溶胶含量差异达到50-70％。

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《Geophysical Research Letters》 |2020年第5期|共10页
作者
Sun Yele; He Yao; Kuang Ye; Xu Wanyun; Song Shaojie; Ma Nan; Tao Jiangchuan; Cheng Peng; Wu Cheng; Su Hang; Cheng Yafang; Xie Conghui; Chen Chun; Lei Lu; Qiu Yanmei; Fu Pingqing; Croteau Philip; Worsnop Douglas R.;
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作者单位

Chinese Acad Sci Inst Atmospher Phys State Key Lab Atmospher Boundary Layer Phys &

Atm Beijing Peoples R China;

Chinese Acad Sci Inst Atmospher Phys State Key Lab Atmospher Boundary Layer Phys &

Atm Beijing Peoples R China;

Jinan Univ Inst Environm &

Climate Res Guangzhou Peoples R China;

Chinese Acad Meteorol Sci Inst Atmospher Composit State Key Lab Severe Weather Beijing Peoples R China;

Harvard Univ Sch Engn &

Appl Sci Cambridge MA 02138 USA;

Jinan Univ Inst Environm &

Climate Res Guangzhou Peoples R China;

Jinan Univ Inst Environm &

Climate Res Guangzhou Peoples R China;

Jinan Univ Inst Mass Spectrometer &

Atmospher Environm Guangzhou Peoples R China;

Jinan Univ Inst Mass Spectrometer &

Atmospher Environm Guangzhou Peoples R China;

Max Planck Inst Chem Multiphase Chem Dept Mainz Germany;

Max Planck Inst Chem Multiphase Chem Dept Mainz Germany;

Chinese Acad Sci Inst Atmospher Phys State Key Lab Atmospher Boundary Layer Phys &

Atm Beijing Peoples R China;

Chinese Acad Sci Inst Atmospher Phys State Key Lab Atmospher Boundary Layer Phys &

Atm Beijing Peoples R China;

Chinese Acad Sci Inst Atmospher Phys State Key Lab Atmospher Boundary Layer Phys &

Atm Beijing Peoples R China;

Chinese Acad Sci Inst Atmospher Phys State Key Lab Atmospher Boundary Layer Phys &

Atm Beijing Peoples R China;

Tianjin Univ Inst Surface Earth Syst Sci Tianjin Peoples R China;

Aerodyne Res Inc Billerica MA 01821 USA;

Aerodyne Res Inc Billerica MA 01821 USA;

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正文语种 eng
中图分类地球物理学;
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1. Chemical Differences Between PM1 and PM2.5 in Highly Polluted Environment and Implications in Air Pollution Studies [J] . Sun Yele, He Yao, Kuang Ye, Geophysical Research Letters . 2020,第5期

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3. Toxicological and epidemiological studies of cardiovascular effects of ambient air fine particulate matter (PM2.5) and its chemical components: Coherence and public health implications [J] . Lippmann Morton Critical reviews in toxicology . 2014,第1a10期

机译：环境空气细颗粒物质（PM2.5）和化学成分的心血管作用毒理学和流行病学研究：一致性与公共卫生影响
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Chemical Differences Between PM1 and PM2.5 in Highly Polluted Environment and Implications in Air Pollution Studies

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