Effects of African BaP emission from wildfire biomass burning on regional and global environment and human health

[Display omitted] •BaP emissions from biomass burning are updated to assess the significance of nature sources.•BaP released from African wildfires is making increasing contribution to global BaP emission.•Remarkable high BaP concentrations in Africa contribute its contamination to other continents....

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Published inEnvironment international Vol. 162; p. 107162
Main Authors Wu, Min, Luo, Jinmu, Huang, Tao, Lian, Lulu, Chen, Tianlei, Song, Shijie, Wang, Zhanxiang, Ma, Shuxin, Xie, Chaoran, Zhao, Yuan, Mao, Xiaoxuan, Gao, Hong, Ma, Jianmin
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ltd 01.04.2022
Elsevier
Subjects
Aerosols
Africa
Air Pollutants - analysis
Air Pollutants - toxicity
Benzo(a)pyrene
Biomass
Environmental Monitoring
Exposure risk
Global impact
Humans
Polycyclic Aromatic Hydrocarbons - analysis
Wildfire
Wildfires
Wildfire
Benzo(a)pyrene
Exposure risk
Global impact
Africa
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Abstract [Display omitted] •BaP emissions from biomass burning are updated to assess the significance of nature sources.•BaP released from African wildfires is making increasing contribution to global BaP emission.•Remarkable high BaP concentrations in Africa contribute its contamination to other continents.•Residents in many sub-Saharan countries suffer from inhalation exposure risk to BaP emitted from wildfires. The vegetation burning caused by wildfires can release significant quantities of aerosols and toxic chemicals into the atmosphere and result in health risk. Among these emitted pollutants, Benzo(a)pyrene (BaP), the most toxic congener of 16 parent PAHs (polycyclic aromatic hydrocarbons), has received widespread concerns because of its carcinogenicity to human health. Efforts have been made to investigate the environmental and health consequences of wildfire-induced BaP emissions in Africa. Still, uncertainties remain due to knowledge and data gaps in wildfire incidences and biomass burning emissions. Based on a newly-developed BaP emission inventory, the present study assesses quantitatively the BaP environment cycling in Africa and its effects on other continents from 2001 to 2014. The new inventory reveals the increasing contribution of BaP emission from African wildfires to the global total primarily from anthropogenic sources, accounting for 48% since the 2000 s. We identify significantly higher BaP emissions and concentrations across sub-Saharan Africa, where the annual averaged BaP concentrations were as high as 5–8 ng/m3. The modeled BaP concentrations were implemented to estimate the lifetime cancer risk (LCR) from the inhalation exposure to BaP concentrations. The results reveal that the LCR values in many African countries exceeded the acceptable risk level at 1 × 10−6, some of which suffer from very high exposure risk with the LCR>1 × 10−4. We show that the African BaP emission from wildfires contributed, to some extent, BaP contamination to Europe as well as other regions, depending on source proximity and atmospheric pathways under favorable atmospheric circulation patterns.
AbstractList [Display omitted] •BaP emissions from biomass burning are updated to assess the significance of nature sources.•BaP released from African wildfires is making increasing contribution to global BaP emission.•Remarkable high BaP concentrations in Africa contribute its contamination to other continents.•Residents in many sub-Saharan countries suffer from inhalation exposure risk to BaP emitted from wildfires. The vegetation burning caused by wildfires can release significant quantities of aerosols and toxic chemicals into the atmosphere and result in health risk. Among these emitted pollutants, Benzo(a)pyrene (BaP), the most toxic congener of 16 parent PAHs (polycyclic aromatic hydrocarbons), has received widespread concerns because of its carcinogenicity to human health. Efforts have been made to investigate the environmental and health consequences of wildfire-induced BaP emissions in Africa. Still, uncertainties remain due to knowledge and data gaps in wildfire incidences and biomass burning emissions. Based on a newly-developed BaP emission inventory, the present study assesses quantitatively the BaP environment cycling in Africa and its effects on other continents from 2001 to 2014. The new inventory reveals the increasing contribution of BaP emission from African wildfires to the global total primarily from anthropogenic sources, accounting for 48% since the 2000 s. We identify significantly higher BaP emissions and concentrations across sub-Saharan Africa, where the annual averaged BaP concentrations were as high as 5–8 ng/m3. The modeled BaP concentrations were implemented to estimate the lifetime cancer risk (LCR) from the inhalation exposure to BaP concentrations. The results reveal that the LCR values in many African countries exceeded the acceptable risk level at 1 × 10−6, some of which suffer from very high exposure risk with the LCR>1 × 10−4. We show that the African BaP emission from wildfires contributed, to some extent, BaP contamination to Europe as well as other regions, depending on source proximity and atmospheric pathways under favorable atmospheric circulation patterns.
The vegetation burning caused by wildfires can release significant quantities of aerosols and toxic chemicals into the atmosphere and result in health risk. Among these emitted pollutants, Benzo(a)pyrene (BaP), the most toxic congener of 16 parent PAHs (polycyclic aromatic hydrocarbons), has received widespread concerns because of its carcinogenicity to human health. Efforts have been made to investigate the environmental and health consequences of wildfire-induced BaP emissions in Africa. Still, uncertainties remain due to knowledge and data gaps in wildfire incidences and biomass burning emissions. Based on a newly-developed BaP emission inventory, the present study assesses quantitatively the BaP environment cycling in Africa and its effects on other continents from 2001 to 2014. The new inventory reveals the increasing contribution of BaP emission from African wildfires to the global total primarily from anthropogenic sources, accounting for 48% since the 2000 s. We identify significantly higher BaP emissions and concentrations across sub-Saharan Africa, where the annual averaged BaP concentrations were as high as 5-8 ng/m . The modeled BaP concentrations were implemented to estimate the lifetime cancer risk (LCR) from the inhalation exposure to BaP concentrations. The results reveal that the LCR values in many African countries exceeded the acceptable risk level at 1 × 10 , some of which suffer from very high exposure risk with the LCR>1 × 10 . We show that the African BaP emission from wildfires contributed, to some extent, BaP contamination to Europe as well as other regions, depending on source proximity and atmospheric pathways under favorable atmospheric circulation patterns.
The vegetation burning caused by wildfires can release significant quantities of aerosols and toxic chemicals into the atmosphere and result in health risk. Among these emitted pollutants, Benzo(a)pyrene (BaP), the most toxic congener of 16 parent PAHs (polycyclic aromatic hydrocarbons), has received widespread concerns because of its carcinogenicity to human health. Efforts have been made to investigate the environmental and health consequences of wildfire-induced BaP emissions in Africa. Still, uncertainties remain due to knowledge and data gaps in wildfire incidences and biomass burning emissions. Based on a newly-developed BaP emission inventory, the present study assesses quantitatively the BaP environment cycling in Africa and its effects on other continents from 2001 to 2014. The new inventory reveals the increasing contribution of BaP emission from African wildfires to the global total primarily from anthropogenic sources, accounting for 48% since the 2000 s. We identify significantly higher BaP emissions and concentrations across sub-Saharan Africa, where the annual averaged BaP concentrations were as high as 5–8 ng/m3. The modeled BaP concentrations were implemented to estimate the lifetime cancer risk (LCR) from the inhalation exposure to BaP concentrations. The results reveal that the LCR values in many African countries exceeded the acceptable risk level at 1 × 10−6, some of which suffer from very high exposure risk with the LCR>1 × 10−4. We show that the African BaP emission from wildfires contributed, to some extent, BaP contamination to Europe as well as other regions, depending on source proximity and atmospheric pathways under favorable atmospheric circulation patterns.
ArticleNumber 107162
Author Wu, Min
Xie, Chaoran
Chen, Tianlei
Mao, Xiaoxuan
Lian, Lulu
Huang, Tao
Gao, Hong
Wang, Zhanxiang
Ma, Jianmin
Luo, Jinmu
Ma, Shuxin
Song, Shijie
Zhao, Yuan
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  organization: Key Laboratory for Environmental Pollution Prediction and Control, Gansu Province, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou 730000, China
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  surname: Wang
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  organization: Key Laboratory for Environmental Pollution Prediction and Control, Gansu Province, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou 730000, China
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  givenname: Shuxin
  surname: Ma
  fullname: Ma, Shuxin
  organization: Key Laboratory for Environmental Pollution Prediction and Control, Gansu Province, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou 730000, China
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  givenname: Yuan
  surname: Zhao
  fullname: Zhao, Yuan
  organization: Key Laboratory for Environmental Pollution Prediction and Control, Gansu Province, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou 730000, China
– sequence: 11
  givenname: Xiaoxuan
  surname: Mao
  fullname: Mao, Xiaoxuan
  organization: Key Laboratory for Environmental Pollution Prediction and Control, Gansu Province, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou 730000, China
– sequence: 12
  givenname: Hong
  surname: Gao
  fullname: Gao, Hong
  organization: Key Laboratory for Environmental Pollution Prediction and Control, Gansu Province, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou 730000, China
– sequence: 13
  givenname: Jianmin
  surname: Ma
  fullname: Ma, Jianmin
  email: jmma@pku.edu.cn
  organization: Key Laboratory for Environmental Pollution Prediction and Control, Gansu Province, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou 730000, China
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Keywords Wildfire
Benzo(a)pyrene
Exposure risk
Global impact
Africa
Language English
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Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.
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Snippet [Display omitted] •BaP emissions from biomass burning are updated to assess the significance of nature sources.•BaP released from African wildfires is making...
The vegetation burning caused by wildfires can release significant quantities of aerosols and toxic chemicals into the atmosphere and result in health risk....
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StartPage 107162
SubjectTerms Aerosols
Africa
Air Pollutants - analysis
Air Pollutants - toxicity
Benzo(a)pyrene
Biomass
Environmental Monitoring
Exposure risk
Global impact
Humans
Polycyclic Aromatic Hydrocarbons - analysis
Wildfire
Wildfires
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Title Effects of African BaP emission from wildfire biomass burning on regional and global environment and human health
URI https://dx.doi.org/10.1016/j.envint.2022.107162
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