Disentangling fine particles (PM2.5) composition in Hanoi, Vietnam: Emission sources and oxidative potential

A comprehensive chemical characterization of fine particulate matter (PM2.5) was conducted at an urban site in one of the most densely populated cities of Vietnam, Hanoi. Chemical analysis of a series of 57 daily PM2.5 samples obtained in 2019–2020 included the quantification of a detailed set of ch...

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Vydáno v:The Science of the total environment Ročník 923; s. 171466
Hlavní autoři: Dominutti, Pamela A., Mari, Xavier, Jaffrezo, Jean-Luc, Dinh, Vy Thuy Ngoc, Chifflet, Sandrine, Guigue, Catherine, Guyomarc'h, Lea, Vu, Cam Tu, Darfeuil, Sophie, Ginot, Patrick, Elazzouzi, Rhabira, Mhadhbi, Takoua, Voiron, Céline, Martinot, Pauline, Uzu, Gaëlle
Médium: Journal Article
Jazyk:angličtina
Vydáno: Netherlands Elsevier B.V 01.05.2024
Elsevier
Témata:
air pollution
biomass
chemical analysis
combustion
environment
Environmental Sciences
fuel oils
humans
OP apportionment
Oxidative potential
oxidative stress
particulates
PM2.5
reactive oxygen species
Source apportionment
traffic
Vietnam
Vietnam
Vietnam
OP apportionment
Oxidative potential
Source apportionment
PM2.5
PM(2.5)
ISSN:0048-9697, 1879-1026, 1879-1026
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Abstract A comprehensive chemical characterization of fine particulate matter (PM2.5) was conducted at an urban site in one of the most densely populated cities of Vietnam, Hanoi. Chemical analysis of a series of 57 daily PM2.5 samples obtained in 2019–2020 included the quantification of a detailed set of chemical tracers as well as the oxidative potential (OP), which estimates the ability of PM to catalyze reactive oxygen species (ROS) generation in vivo as an initial step of health effects due to oxidative stress. The PM2.5 concentrations ranged from 8.3 to 148 μg m−3, with an annual average of 40.2 ± 26.3 μg m−3 (from September 2019 to December 2020). Our results obtained by applying the Positive Matrix Factorization (PMF) source-receptor apportionment model showed the contribution of nine PM2.5 sources. The main anthropogenic sources contributing to the PM mass concentrations were heavy fuel oil (HFO) combustion (25.3 %), biomass burning (20 %), primary traffic (7.6 %) and long-range transport aerosols (10.6 %). The OP activities were evaluated for the first time in an urban site in Vietnam. The average OPv levels obtained in our study were 3.9 ± 2.4 and 4.5 ± 3.2 nmol min−1 m−3 for OPDTT and OPAA, respectively. We assessed the contribution to OPDTT and OPAA of each PM2.5 source by applying multilinear regression models. It shows that the sources associated with human activities (HFO combustion, biomass burning and primary traffic) are the sources driving OP exposure, suggesting that they should be the first sources to be controlled in future mitigation strategies. This study gives for the first time an extensive and long-term chemical characterization of PM2.5, providing also a link between emission sources, ambient concentrations and exposure to air pollution at an urban site in Hanoi, Vietnam. [Display omitted] •PM2.5 levels are 2 times higher than the national threshold and surpass the daily WHO guidelines.•The PMF model disentangled nine sources contributing to the total PM2.5 mass at the sampling site.•Anthropogenic sources strongly impact the PM2.5 and the oxidative potential in Hanoi.•Traffic, biomass burning, and heavy oil fuel are the sources ruling the oxidative potential of PM2.5.•The largest exposure benefits may be achieved via reductions in fossil fuel combustion emissions.
AbstractList A comprehensive chemical characterization of fine particulate matter (PM₂.₅) was conducted at an urban site in one of the most densely populated cities of Vietnam, Hanoi. Chemical analysis of a series of 57 daily PM₂.₅ samples obtained in 2019–2020 included the quantification of a detailed set of chemical tracers as well as the oxidative potential (OP), which estimates the ability of PM to catalyze reactive oxygen species (ROS) generation in vivo as an initial step of health effects due to oxidative stress. The PM₂.₅ concentrations ranged from 8.3 to 148 μg m⁻³, with an annual average of 40.2 ± 26.3 μg m⁻³ (from September 2019 to December 2020). Our results obtained by applying the Positive Matrix Factorization (PMF) source-receptor apportionment model showed the contribution of nine PM₂.₅ sources. The main anthropogenic sources contributing to the PM mass concentrations were heavy fuel oil (HFO) combustion (25.3 %), biomass burning (20 %), primary traffic (7.6 %) and long-range transport aerosols (10.6 %). The OP activities were evaluated for the first time in an urban site in Vietnam. The average OPᵥ levels obtained in our study were 3.9 ± 2.4 and 4.5 ± 3.2 nmol min⁻¹ m⁻³ for OPᴰᵀᵀ and OPᴬᴬ, respectively. We assessed the contribution to OPᴰᵀᵀ and OPᴬᴬ of each PM₂.₅ source by applying multilinear regression models. It shows that the sources associated with human activities (HFO combustion, biomass burning and primary traffic) are the sources driving OP exposure, suggesting that they should be the first sources to be controlled in future mitigation strategies. This study gives for the first time an extensive and long-term chemical characterization of PM₂.₅, providing also a link between emission sources, ambient concentrations and exposure to air pollution at an urban site in Hanoi, Vietnam.
A comprehensive chemical characterization of fine particulate matter (PM2.5) was conducted at an urban site in one of the most densely populated cities of Vietnam, Hanoi. Chemical analysis of a series of 57 daily PM2.5 samples obtained in 2019-2020 included the quantification of a detailed set of chemical tracers as well as the oxidative potential (OP), which estimates the ability of PM to catalyze reactive oxygen species (ROS) generation in vivo as an initial step of health effects due to oxidative stress. The PM2.5 concentrations ranged from 8.3 to 148 μg m−3 , with an annual average of 40.2 ± 26.3 μg m−3 (from September 2019 to December 2020). Our results obtained by applying the Positive Matrix Factorization (PMF) source-receptor apportionment model showed the contribution of nine PM2.5 sources. The main anthropogenic sources contributing to the PM mass concentrations were heavy fuel oil (HFO) combustion (25.3 %), biomass burning (20 %), primary traffic (7.6 %) and long-range transport aerosols (10.6 %). The OP activities were evaluated for the first time in an urban site in Vietnam. The average OP v levels obtained in our study were 3.9 ± 2.4 and 4.5 ± 3.2 nmol min -1 m−3 for OP DTT.
A comprehensive chemical characterization of fine particulate matter (PM2.5) was conducted at an urban site in one of the most densely populated cities of Vietnam, Hanoi. Chemical analysis of a series of 57 daily PM2.5 samples obtained in 2019–2020 included the quantification of a detailed set of chemical tracers as well as the oxidative potential (OP), which estimates the ability of PM to catalyze reactive oxygen species (ROS) generation in vivo as an initial step of health effects due to oxidative stress. The PM2.5 concentrations ranged from 8.3 to 148 μg m−3, with an annual average of 40.2 ± 26.3 μg m−3 (from September 2019 to December 2020). Our results obtained by applying the Positive Matrix Factorization (PMF) source-receptor apportionment model showed the contribution of nine PM2.5 sources. The main anthropogenic sources contributing to the PM mass concentrations were heavy fuel oil (HFO) combustion (25.3 %), biomass burning (20 %), primary traffic (7.6 %) and long-range transport aerosols (10.6 %). The OP activities were evaluated for the first time in an urban site in Vietnam. The average OPv levels obtained in our study were 3.9 ± 2.4 and 4.5 ± 3.2 nmol min−1 m−3 for OPDTT and OPAA, respectively. We assessed the contribution to OPDTT and OPAA of each PM2.5 source by applying multilinear regression models. It shows that the sources associated with human activities (HFO combustion, biomass burning and primary traffic) are the sources driving OP exposure, suggesting that they should be the first sources to be controlled in future mitigation strategies. This study gives for the first time an extensive and long-term chemical characterization of PM2.5, providing also a link between emission sources, ambient concentrations and exposure to air pollution at an urban site in Hanoi, Vietnam. [Display omitted] •PM2.5 levels are 2 times higher than the national threshold and surpass the daily WHO guidelines.•The PMF model disentangled nine sources contributing to the total PM2.5 mass at the sampling site.•Anthropogenic sources strongly impact the PM2.5 and the oxidative potential in Hanoi.•Traffic, biomass burning, and heavy oil fuel are the sources ruling the oxidative potential of PM2.5.•The largest exposure benefits may be achieved via reductions in fossil fuel combustion emissions.
A comprehensive chemical characterization of fine particulate matter (PM ) was conducted at an urban site in one of the most densely populated cities of Vietnam, Hanoi. Chemical analysis of a series of 57 daily PM samples obtained in 2019-2020 included the quantification of a detailed set of chemical tracers as well as the oxidative potential (OP), which estimates the ability of PM to catalyze reactive oxygen species (ROS) generation in vivo as an initial step of health effects due to oxidative stress. The PM concentrations ranged from 8.3 to 148 μg m , with an annual average of 40.2 ± 26.3 μg m (from September 2019 to December 2020). Our results obtained by applying the Positive Matrix Factorization (PMF) source-receptor apportionment model showed the contribution of nine PM sources. The main anthropogenic sources contributing to the PM mass concentrations were heavy fuel oil (HFO) combustion (25.3 %), biomass burning (20 %), primary traffic (7.6 %) and long-range transport aerosols (10.6 %). The OP activities were evaluated for the first time in an urban site in Vietnam. The average OP levels obtained in our study were 3.9 ± 2.4 and 4.5 ± 3.2 nmol min  m for OP and OP , respectively. We assessed the contribution to OP and OP of each PM source by applying multilinear regression models. It shows that the sources associated with human activities (HFO combustion, biomass burning and primary traffic) are the sources driving OP exposure, suggesting that they should be the first sources to be controlled in future mitigation strategies. This study gives for the first time an extensive and long-term chemical characterization of PM providing also a link between emission sources, ambient concentrations and exposure to air pollution at an urban site in Hanoi, Vietnam.
A comprehensive chemical characterization of fine particulate matter (PM2.5) was conducted at an urban site in one of the most densely populated cities of Vietnam, Hanoi. Chemical analysis of a series of 57 daily PM2.5 samples obtained in 2019-2020 included the quantification of a detailed set of chemical tracers as well as the oxidative potential (OP), which estimates the ability of PM to catalyze reactive oxygen species (ROS) generation in vivo as an initial step of health effects due to oxidative stress. The PM2.5 concentrations ranged from 8.3 to 148 μg m-3, with an annual average of 40.2 ± 26.3 μg m-3 (from September 2019 to December 2020). Our results obtained by applying the Positive Matrix Factorization (PMF) source-receptor apportionment model showed the contribution of nine PM2.5 sources. The main anthropogenic sources contributing to the PM mass concentrations were heavy fuel oil (HFO) combustion (25.3 %), biomass burning (20 %), primary traffic (7.6 %) and long-range transport aerosols (10.6 %). The OP activities were evaluated for the first time in an urban site in Vietnam. The average OPv levels obtained in our study were 3.9 ± 2.4 and 4.5 ± 3.2 nmol min-1 m-3 for OPDTT and OPAA, respectively. We assessed the contribution to OPDTT and OPAA of each PM2.5 source by applying multilinear regression models. It shows that the sources associated with human activities (HFO combustion, biomass burning and primary traffic) are the sources driving OP exposure, suggesting that they should be the first sources to be controlled in future mitigation strategies. This study gives for the first time an extensive and long-term chemical characterization of PM2.5, providing also a link between emission sources, ambient concentrations and exposure to air pollution at an urban site in Hanoi, Vietnam.A comprehensive chemical characterization of fine particulate matter (PM2.5) was conducted at an urban site in one of the most densely populated cities of Vietnam, Hanoi. Chemical analysis of a series of 57 daily PM2.5 samples obtained in 2019-2020 included the quantification of a detailed set of chemical tracers as well as the oxidative potential (OP), which estimates the ability of PM to catalyze reactive oxygen species (ROS) generation in vivo as an initial step of health effects due to oxidative stress. The PM2.5 concentrations ranged from 8.3 to 148 μg m-3, with an annual average of 40.2 ± 26.3 μg m-3 (from September 2019 to December 2020). Our results obtained by applying the Positive Matrix Factorization (PMF) source-receptor apportionment model showed the contribution of nine PM2.5 sources. The main anthropogenic sources contributing to the PM mass concentrations were heavy fuel oil (HFO) combustion (25.3 %), biomass burning (20 %), primary traffic (7.6 %) and long-range transport aerosols (10.6 %). The OP activities were evaluated for the first time in an urban site in Vietnam. The average OPv levels obtained in our study were 3.9 ± 2.4 and 4.5 ± 3.2 nmol min-1 m-3 for OPDTT and OPAA, respectively. We assessed the contribution to OPDTT and OPAA of each PM2.5 source by applying multilinear regression models. It shows that the sources associated with human activities (HFO combustion, biomass burning and primary traffic) are the sources driving OP exposure, suggesting that they should be the first sources to be controlled in future mitigation strategies. This study gives for the first time an extensive and long-term chemical characterization of PM2.5, providing also a link between emission sources, ambient concentrations and exposure to air pollution at an urban site in Hanoi, Vietnam.
ArticleNumber 171466
Author Ginot, Patrick
Uzu, Gaëlle
Dominutti, Pamela A.
Darfeuil, Sophie
Vu, Cam Tu
Guigue, Catherine
Dinh, Vy Thuy Ngoc
Voiron, Céline
Jaffrezo, Jean-Luc
Mhadhbi, Takoua
Mari, Xavier
Chifflet, Sandrine
Elazzouzi, Rhabira
Martinot, Pauline
Guyomarc'h, Lea
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  organization: Aix Marseille Univ, Université de Toulon, CNRS, IRD, MIO UM 110, Marseille, France
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  givenname: Jean-Luc
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  organization: Univ. Grenoble Alpes, CNRS, INRAE, IRD, G-INP, IGE (UMR 5001), 38000 Grenoble, France
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  givenname: Vy Thuy Ngoc
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  organization: Aix Marseille Univ, Université de Toulon, CNRS, IRD, MIO UM 110, Marseille, France
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  givenname: Cam Tu
  surname: Vu
  fullname: Vu, Cam Tu
  organization: Water-Environment-Oceanography (WEO) Department, University of Science and Technology of Hanoi (USTH), Vietnam Academy of Science and Technology (VAST), 18 Hoang Quoc Viet, Hanoi, Viet Nam
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  surname: Darfeuil
  fullname: Darfeuil, Sophie
  organization: Univ. Grenoble Alpes, CNRS, INRAE, IRD, G-INP, IGE (UMR 5001), 38000 Grenoble, France
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  surname: Mhadhbi
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  surname: Uzu
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  email: gaelle.uzu@ird.fr
  organization: Univ. Grenoble Alpes, CNRS, INRAE, IRD, G-INP, IGE (UMR 5001), 38000 Grenoble, France
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ISSN 0048-9697
1879-1026
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Wed Oct 01 15:03:39 EDT 2025
Sun Nov 09 13:31:08 EST 2025
Mon Jul 21 06:05:42 EDT 2025
Sat Nov 29 07:23:49 EST 2025
Tue Nov 18 22:26:03 EST 2025
Sat Apr 20 15:58:33 EDT 2024
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Keywords Vietnam
OP apportionment
Oxidative potential
Source apportionment
PM2.5
PM(2.5)
Language English
License This is an open access article under the CC BY license.
Copyright © 2024. Published by Elsevier B.V.
Attribution: http://creativecommons.org/licenses/by
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PublicationTitle The Science of the total environment
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Snippet A comprehensive chemical characterization of fine particulate matter (PM2.5) was conducted at an urban site in one of the most densely populated cities of...
A comprehensive chemical characterization of fine particulate matter (PM ) was conducted at an urban site in one of the most densely populated cities of...
A comprehensive chemical characterization of fine particulate matter (PM₂.₅) was conducted at an urban site in one of the most densely populated cities of...
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SubjectTerms air pollution
biomass
chemical analysis
combustion
environment
Environmental Sciences
fuel oils
humans
OP apportionment
Oxidative potential
oxidative stress
particulates
PM2.5
reactive oxygen species
Source apportionment
traffic
Vietnam
Title Disentangling fine particles (PM2.5) composition in Hanoi, Vietnam: Emission sources and oxidative potential
URI https://dx.doi.org/10.1016/j.scitotenv.2024.171466
https://www.ncbi.nlm.nih.gov/pubmed/38447718
https://www.proquest.com/docview/2942188564
https://www.proquest.com/docview/3153605263
https://hal.science/hal-04704140
Volume 923
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