Heavy near-surface PM2.5 pollution in Lhasa, China during a relatively static winter period

Chaoliu Li; Xiaowen Han; Shichang Kang; Fangping Yan; Pengfei Chen; Zhaofu Hu; Junhua Yang; Duojie Ciren; Shaopeng Gao; Mika Sillanpää; Yongming Han; Yuyan Cui; Shang Liu; Kirk R. Smith

doi:10.1016/j.chemosphere.2018.09.135

Heavy near-surface PM_2.5 pollution in Lhasa, China during a relatively static winter period

Chaoliu Li, Xiaowen Han, Shichang Kang, Fangping Yan, Pengfei Chen, Zhaofu Hu, Junhua Yang, Duojie Ciren, Shaopeng Gao, Mika Sillanpää, Yongming Han, Yuyan Cui, Shang Liu, Kirk R. Smith

Meteorology and Atmospheric Science

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Fairly high near-surface PM_2.5 concentrations were found during relatively static winter conditions within Lhasa – a Tibetan Plateau city normally considered to have a clean atmosphere. The average daily PM_2.5 concentration reached 118 ± 60 μg m⁻³ during the study period, was approximately 3.4 times the United States Environmental Protection Agency 24-h standard. PM_2.5 concentration of Lhasa increased from 20:00 until 23:00, which was probably caused by space heating, waste incineration activities and decreased boundary layer at night. Furthermore, we found traditional religious butter lamp lighting of local Tibetan residents during festivals could cause PM_2.5 concentration to reach an alarmingly high level, 240 ± 30 μg m⁻³. Therefore, to protect the atmosphere of Lhasa, the government may wish to conduct more complete monitoring and find ways to encourage clean heating and cooking fuels, enforce the supervision on illegal emission activities such as waste incineration, and guide residents to transfer to more environmentally friendly activities during festivals. We found abnormal high outdoor PM_2.5 concentration of Lhasa city was caused by butter lamp lighting during a local festival.

Original language	English (US)
Pages (from-to)	314-318
Number of pages	5
Journal	Chemosphere
Volume	214
DOIs	https://doi.org/10.1016/j.chemosphere.2018.09.135
State	Published - Jan 2019

All Science Journal Classification (ASJC) codes

Environmental Engineering
Environmental Chemistry
General Chemistry
Pollution
Public Health, Environmental and Occupational Health
Health, Toxicology and Mutagenesis

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10.1016/j.chemosphere.2018.09.135

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title = "Heavy near-surface PM2.5 pollution in Lhasa, China during a relatively static winter period",

abstract = "Fairly high near-surface PM2.5 concentrations were found during relatively static winter conditions within Lhasa – a Tibetan Plateau city normally considered to have a clean atmosphere. The average daily PM2.5 concentration reached 118 ± 60 μg m−3 during the study period, was approximately 3.4 times the United States Environmental Protection Agency 24-h standard. PM2.5 concentration of Lhasa increased from 20:00 until 23:00, which was probably caused by space heating, waste incineration activities and decreased boundary layer at night. Furthermore, we found traditional religious butter lamp lighting of local Tibetan residents during festivals could cause PM2.5 concentration to reach an alarmingly high level, 240 ± 30 μg m−3. Therefore, to protect the atmosphere of Lhasa, the government may wish to conduct more complete monitoring and find ways to encourage clean heating and cooking fuels, enforce the supervision on illegal emission activities such as waste incineration, and guide residents to transfer to more environmentally friendly activities during festivals. We found abnormal high outdoor PM2.5 concentration of Lhasa city was caused by butter lamp lighting during a local festival.",

author = "Chaoliu Li and Xiaowen Han and Shichang Kang and Fangping Yan and Pengfei Chen and Zhaofu Hu and Junhua Yang and Duojie Ciren and Shaopeng Gao and Mika Sillanp{\"a}{\"a} and Yongming Han and Yuyan Cui and Shang Liu and Smith, {Kirk R.}",

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doi = "10.1016/j.chemosphere.2018.09.135",

language = "English (US)",

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T1 - Heavy near-surface PM2.5 pollution in Lhasa, China during a relatively static winter period

AU - Li, Chaoliu

AU - Han, Xiaowen

AU - Kang, Shichang

AU - Yan, Fangping

AU - Chen, Pengfei

AU - Hu, Zhaofu

AU - Yang, Junhua

AU - Ciren, Duojie

AU - Gao, Shaopeng

AU - Sillanpää, Mika

AU - Han, Yongming

AU - Cui, Yuyan

AU - Liu, Shang

AU - Smith, Kirk R.

PY - 2019/1

Y1 - 2019/1

N2 - Fairly high near-surface PM2.5 concentrations were found during relatively static winter conditions within Lhasa – a Tibetan Plateau city normally considered to have a clean atmosphere. The average daily PM2.5 concentration reached 118 ± 60 μg m−3 during the study period, was approximately 3.4 times the United States Environmental Protection Agency 24-h standard. PM2.5 concentration of Lhasa increased from 20:00 until 23:00, which was probably caused by space heating, waste incineration activities and decreased boundary layer at night. Furthermore, we found traditional religious butter lamp lighting of local Tibetan residents during festivals could cause PM2.5 concentration to reach an alarmingly high level, 240 ± 30 μg m−3. Therefore, to protect the atmosphere of Lhasa, the government may wish to conduct more complete monitoring and find ways to encourage clean heating and cooking fuels, enforce the supervision on illegal emission activities such as waste incineration, and guide residents to transfer to more environmentally friendly activities during festivals. We found abnormal high outdoor PM2.5 concentration of Lhasa city was caused by butter lamp lighting during a local festival.

AB - Fairly high near-surface PM2.5 concentrations were found during relatively static winter conditions within Lhasa – a Tibetan Plateau city normally considered to have a clean atmosphere. The average daily PM2.5 concentration reached 118 ± 60 μg m−3 during the study period, was approximately 3.4 times the United States Environmental Protection Agency 24-h standard. PM2.5 concentration of Lhasa increased from 20:00 until 23:00, which was probably caused by space heating, waste incineration activities and decreased boundary layer at night. Furthermore, we found traditional religious butter lamp lighting of local Tibetan residents during festivals could cause PM2.5 concentration to reach an alarmingly high level, 240 ± 30 μg m−3. Therefore, to protect the atmosphere of Lhasa, the government may wish to conduct more complete monitoring and find ways to encourage clean heating and cooking fuels, enforce the supervision on illegal emission activities such as waste incineration, and guide residents to transfer to more environmentally friendly activities during festivals. We found abnormal high outdoor PM2.5 concentration of Lhasa city was caused by butter lamp lighting during a local festival.

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Heavy near-surface PM_2.5 pollution in Lhasa, China during a relatively static winter period

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