Using machine learning to quantify sources of light-absorbing water-soluble humic-like substances (HULISws) in Northeast China

Water-soluble humic-like substances (HULISws) are a group of heterogeneous organic compounds in the atmosphere, greatly impacting climate change and human health. As the most significant biomass burning (BB) and fossil fuel burning polluted area in China, Northeast China Plain could generate more li...

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Published inAtmospheric environment (1994) Vol. 291; p. 119371
Main Authors Hong, Yihang, Cao, Fang, Fan, Mei-Yi, Lin, Yu-Chi, Bao, Mengying, Xue, Yongwen, Wu, Jiyan, Yu, Mingyuan, Wu, Xia, Zhang, Yan-Lin
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.12.2022
Subjects
absorbance
absorption
algorithms
biomass
China
climate change
combustion
environment
FLEXPART model
fossil fuels
fossils
heat
Heating season
human health
Humic-like substances
Machine learning algorithm
Optical properties
Source apportionment
water solubility
China
Humic-like substances
Heating season
Source apportionment
FLEXPART model
Optical properties
Machine learning algorithm
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Abstract Water-soluble humic-like substances (HULISws) are a group of heterogeneous organic compounds in the atmosphere, greatly impacting climate change and human health. As the most significant biomass burning (BB) and fossil fuel burning polluted area in China, Northeast China Plain could generate more light absorbing HULISws to the atmosphere. In this work, daily fine particle (PM2.5) samples were collected in Changchun, located in Northeast China Plain, from October 17th to November 29th, 2016, to investigate the potential sources of optical properties of HULISws. Here, the whole sampling period was divided into three sub-periods using the density of fire spots and the timeline of the central heating: the non-heating (October 17th to October 24th), early heating (October 25th to November 13th), and normal heating (November 14th to November 29th) periods. The mean mass concentrations of HULISws were 4.2 ± 1.2, 8.6 ± 3.6, and 2.4 ± 1.3 μg m−3 during the non-heating, early heating, and normal heating periods, respectively. The positive matrix factorization (PMF) model results suggested that the contribution of primary BB, secondary BB, and fossil fuel burning emissions were 46%, 24%, and 19% during the non-heating period, 22%, 29%, and 17% during the early heating period, and 13%, 16%, and 50% during the normal heating period, respectively. Combining the PMF results with the random forest (RF) algorithm, the contribution of each source to the optical properties was quantified. Here, BB still dominated the optical properties of HULISws in Northeast China. During the study period, the primary BB and secondary BB contributed 25% and 34% in the light absorption coefficient (Abs), 22% and 33% in the mass absorption exponent (MAE), and 17% and 33% in the absorption Ångström exponent (AAE), respectively. Other sources like cooking and fossil combustion contributed 25% and 35% in Abs, 35% and 26% in MAE, and 16% and 33% in AAE, respectively. •72% biomass burning emission contributed 40%–50% to light absorption parameters.•4% cooking emission contributed 16%–35% to light absorption parameters.•This work provides a fast and easy way to quantify the contribution of sources to the light absorption properties.
AbstractList Water-soluble humic-like substances (HULISwₛ) are a group of heterogeneous organic compounds in the atmosphere, greatly impacting climate change and human health. As the most significant biomass burning (BB) and fossil fuel burning polluted area in China, Northeast China Plain could generate more light absorbing HULISwₛ to the atmosphere. In this work, daily fine particle (PM₂.₅) samples were collected in Changchun, located in Northeast China Plain, from October 17th to November 29th, 2016, to investigate the potential sources of optical properties of HULISwₛ. Here, the whole sampling period was divided into three sub-periods using the density of fire spots and the timeline of the central heating: the non-heating (October 17th to October 24th), early heating (October 25th to November 13th), and normal heating (November 14th to November 29th) periods. The mean mass concentrations of HULISwₛ were 4.2 ± 1.2, 8.6 ± 3.6, and 2.4 ± 1.3 μg m⁻³ during the non-heating, early heating, and normal heating periods, respectively. The positive matrix factorization (PMF) model results suggested that the contribution of primary BB, secondary BB, and fossil fuel burning emissions were 46%, 24%, and 19% during the non-heating period, 22%, 29%, and 17% during the early heating period, and 13%, 16%, and 50% during the normal heating period, respectively. Combining the PMF results with the random forest (RF) algorithm, the contribution of each source to the optical properties was quantified. Here, BB still dominated the optical properties of HULISwₛ in Northeast China. During the study period, the primary BB and secondary BB contributed 25% and 34% in the light absorption coefficient (Abs), 22% and 33% in the mass absorption exponent (MAE), and 17% and 33% in the absorption Ångström exponent (AAE), respectively. Other sources like cooking and fossil combustion contributed 25% and 35% in Abs, 35% and 26% in MAE, and 16% and 33% in AAE, respectively.
Water-soluble humic-like substances (HULISws) are a group of heterogeneous organic compounds in the atmosphere, greatly impacting climate change and human health. As the most significant biomass burning (BB) and fossil fuel burning polluted area in China, Northeast China Plain could generate more light absorbing HULISws to the atmosphere. In this work, daily fine particle (PM2.5) samples were collected in Changchun, located in Northeast China Plain, from October 17th to November 29th, 2016, to investigate the potential sources of optical properties of HULISws. Here, the whole sampling period was divided into three sub-periods using the density of fire spots and the timeline of the central heating: the non-heating (October 17th to October 24th), early heating (October 25th to November 13th), and normal heating (November 14th to November 29th) periods. The mean mass concentrations of HULISws were 4.2 ± 1.2, 8.6 ± 3.6, and 2.4 ± 1.3 μg m−3 during the non-heating, early heating, and normal heating periods, respectively. The positive matrix factorization (PMF) model results suggested that the contribution of primary BB, secondary BB, and fossil fuel burning emissions were 46%, 24%, and 19% during the non-heating period, 22%, 29%, and 17% during the early heating period, and 13%, 16%, and 50% during the normal heating period, respectively. Combining the PMF results with the random forest (RF) algorithm, the contribution of each source to the optical properties was quantified. Here, BB still dominated the optical properties of HULISws in Northeast China. During the study period, the primary BB and secondary BB contributed 25% and 34% in the light absorption coefficient (Abs), 22% and 33% in the mass absorption exponent (MAE), and 17% and 33% in the absorption Ångström exponent (AAE), respectively. Other sources like cooking and fossil combustion contributed 25% and 35% in Abs, 35% and 26% in MAE, and 16% and 33% in AAE, respectively. •72% biomass burning emission contributed 40%–50% to light absorption parameters.•4% cooking emission contributed 16%–35% to light absorption parameters.•This work provides a fast and easy way to quantify the contribution of sources to the light absorption properties.
ArticleNumber 119371
Author Cao, Fang
Lin, Yu-Chi
Fan, Mei-Yi
Bao, Mengying
Xue, Yongwen
Wu, Jiyan
Yu, Mingyuan
Zhang, Yan-Lin
Hong, Yihang
Wu, Xia
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  fullname: Wu, Jiyan
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  surname: Wu
  fullname: Wu, Xia
  organization: Atmospheric Environment Center, Joint Laboratory for International Cooperation on Climate and Environmental Change, Ministry of Education (ILCEC), Nanjing University of Information Science and Technology, Nanjing, 210044, China
– sequence: 10
  givenname: Yan-Lin
  surname: Zhang
  fullname: Zhang, Yan-Lin
  email: dryanlinzhang@outlook.com
  organization: Atmospheric Environment Center, Joint Laboratory for International Cooperation on Climate and Environmental Change, Ministry of Education (ILCEC), Nanjing University of Information Science and Technology, Nanjing, 210044, China
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Keywords Humic-like substances
Heating season
Source apportionment
FLEXPART model
Optical properties
Machine learning algorithm
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Snippet Water-soluble humic-like substances (HULISws) are a group of heterogeneous organic compounds in the atmosphere, greatly impacting climate change and human...
Water-soluble humic-like substances (HULISwₛ) are a group of heterogeneous organic compounds in the atmosphere, greatly impacting climate change and human...
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SubjectTerms absorbance
absorption
algorithms
biomass
China
climate change
combustion
environment
FLEXPART model
fossil fuels
fossils
heat
Heating season
human health
Humic-like substances
Machine learning algorithm
Optical properties
Source apportionment
water solubility
Title Using machine learning to quantify sources of light-absorbing water-soluble humic-like substances (HULISws) in Northeast China
URI https://dx.doi.org/10.1016/j.atmosenv.2022.119371
https://www.proquest.com/docview/2723102251
Volume 291
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