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Human and Ecological Risk Assessment: An International Journal Volume 26, 2020 - Issue 10
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Original Articles

Pollution characteristics, source apportionment and health risks assessment of fine particulate matter during a typical winter and summer time period in urban Taiyuan, China

Mei ZhangInstitute of Environmental Science, Shanxi University, Taiyuan, China; View further author information
,
Zhiping LiShanxi Unisdom Testing Technologies Co., Ltd., Taiyuan, China; View further author information
,
Min XuShanxi Unisdom Testing Technologies Co., Ltd., Taiyuan, China; View further author information
,
Jianwei YueShanxi Unisdom Testing Technologies Co., Ltd., Taiyuan, China; View further author information
,
Zongwei CaiState Key Laboratory of Environmental and Biological Analysis, Department of Biology, Hong Kong Baptist University, Hong Kong SAR, ChinaORCID Iconhttp://orcid.org/0000-0002-8724-7684View further author information
ORCID Icon,
Ken Kin Lam YungInstitute of Environmental Science, Shanxi University, Taiyuan, China; ;State Key Laboratory of Environmental and Biological Analysis, Department of Biology, Hong Kong Baptist University, Hong Kong SAR, ChinaCorrespondence[email protected]
View further author information
&
Ruijin LiInstitute of Environmental Science, Shanxi University, Taiyuan, China; Correspondence[email protected]
View further author information
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Pages 2737-2750 | Received 06 Jun 2019, Accepted 21 Oct 2019, Published online: 05 Nov 2019

References

  • Albinet A, Leoz-Garziandia E, Budzinski H, ViIlenave E. 2007. Polycyclic aromatic hydrocarbons (PAHs), nitrated PAHs and oxygenated PAHs in ambient air of the Marseilles area (South of France): concentrations and sources. Sci Total Environ. 384(1–3):280–292.
  • Apeagyei E, Bank MS, Spengler JD. 2011. Distribution of heavy metals in road dust along an urban-rural gradient in Massachusetts. Atmos Environ. 45(13):2310–2323.
  • Arimoto R, Duce RA, Savoie DL, Prospero JM, Talbot R, Cullen JD, Tomza U, Lewis NF, Ray BJ. 1996. Relationships among aerosol constituents from Asia and the North Pacific during Pem-West A. J Geophys Res. 101(D1):2011–2023.
  • Badyda AJ, Grellier J, Dąbrowiecki P. 2017. Ambient PM2.5 exposure and mortality due to lung cancer and cardiopulmonary diseases in Polish Cities. Adv Exp Med Biol. 944:9–17.
  • Cao J-J, Shen Z-X, Chow JC, Watson JG, Lee S-C, Tie X-X, Ho K-F, Wang G-H, Han Y-M. 2012. Winter and summer PM2.5 chemical compositions in fourteen Chinese cities. J Air Waste Manage. 62(10):1214–1226.
  • Chen J, Liu G, Kang Y, Wu B, Sun R, Zhou C, Wu D. 2013. Atmospheric emissions of F, As, Se, Hg, and Sb from coal-fired power and heat generation in China. Chemosphere. 90(6):1925–1932.
  • Dong YW, Du XL, Li YY Cao L, Zhang J Y,Meng RL, Tang XW ,Zhao YX. 2015. Pollution characteristics of mass concentration of PM2.5 and PM10 in Xi’an City. Environ Monitor. 31(5):45–49.
  • Geng H, Ryu JY, Maskey S, Jung H-J, Ro C-U. 2011. Characterisation of individual aerosol particles collected during a haze episode in Incheon, Korea using the quantitative ED-EPMA technique. Atmos Chem Phys. 11(3):1327–1337.
  • Geng N, Wang J, Xu Y, Zhang W, Chen C, Zhang R. 2013. PM2.5 in an industrial district of Zhengzhou, China: chemical composition and source apportionment. Particuology. 11(1):99–109.
  • Hao C, Xin WL, Loretta YL. 2014. Spatial distribution and risk assessment of metals in dust based on samples from nursery and primary schools of Xi’an, China. Atmos Environ. 88:172–182.
  • Harrison RM, Yin JX. 2010. Chemical speciation of PM2.5 particles at urban background and rural sites in the UK atmosphere. J Environ Monit. 12(7):1404–1414.
  • Hu X, Zhang Y, Ding Z, Wang T, Lian H, Sun Y, Wu J. 2012. Bioaccessibility and health risk of arsenic and heavy metals (Cd, Co, Cr,Cu, Ni, Pb, Zn and Mn) in TSP and PM 2.5 in Nanjing. China. Atmos Environ. 57:146–152.
  • IARC. 2017. Monographs on the evaluation of carcinogenic risks to humans. Vol. 109. Lyon, France: IARC Publications.
  • Kato N. 1996. Analysis of structure of energy consumption and dynamics of emission of atmospheric species related to the global environmental change (SOx, NOx, and CO2) in Asia. Atmos Environ. 30(5):757–2785.
  • Kinney PL. 2018. Interactions of climate change, air pollution, and human health. Curr Envir Health Rpt. 5(1):179–186.
  • Li L, Wen Y, Peng L, Bai HL, Liu FX, Shi MX. 2014. Characteristic of elements in PM2.5 and health risk assessment of heavy metals during heating season in Taiyuan. Environ Sci. 35(12):4431–4438.
  • Li P-H, Kong S-F, Geng C-M, Han B, Lu B, Sun R-F, Zhao R-J, Bai Z-P. 2013. Health risk assessment for vehicle inspection workers exposed to airborne polycyclic aromatic hydrocarbons (PAHs) in their work place. Environ Sci: Process Impacts. 15(3):623–632.
  • Li R-J, Kou X-J, Geng H, Dong C, Cai Z-W. 2014. Pollution characteristics of ambient PM2.5-bound PAHs and NPAHs in a typical winter time period in Taiyuan. Chin Chem Lett. 25(5):663–666.
  • Li YH, Rao ZG, Tan JH, Duan JC, Ma YL, He KB. 2016. Pollutional characteristics and sources analysis of polycyclic aromatic hydrocarbons in atmospheric fine particulate matter in Lanzhou City. Environ Sci. 37(7):2428–2435.
  • Mukherjee A, Agrawal M. 2018. A global perspective of fine particulate matter pollution and its health effects. Rev Environ Contam Toxicol. 244:5–51.
  • Pongpiachan S. 2016. Incremental lifetime cancer risk of PM2.5 bound polycyclic aromatic hydrocarbons (PAHs) before and after the wildland fire episode. Aerosol Air Qual Res. 16(11):2907–2919.
  • Qiu X, Duan L, Gao J, Wang S, Chai F, Hu J, Zhang J, Yun Y. 2016. Chemical composition and source apportionment of PM10 and PM2.5 in different functional areas of Lanzhou, China. J Environ Sci. 40(2):75–83.
  • USEPA. 1989. Risk assessment guidance for superfund. Vol. I, Human health evaluation manual (Part A, EPA/540/1-89/002). Washington, DC: Office of Superfund Remediation and Technology Innovation, Environmental Protection Agency.
  • USEPA. 1996. Soil screening guidance: Technical background document (EPA/540/R-95/128). Washington, DC: Office of Solid Waste and Emergency Response.
  • USEPA. 2001. Supplemental guidance for developing soil screening levels for superfund sites (OSWER 9355.4e24). Washington, DC: Office of Solid Waste and Emergency Response.
  • USEPA. 2009. Risk assessment guidance for superfund Volume I human health evaluation manual (Part F, Supplemental guidance for inhalation risk assessment, EPA-540-R-070-002, OSWER9285.7-82). Washington, DC: Office of Superfund Remediation and Technology Innovation, U.S. Environmental Protection Agency.
  • USEPA. 2017. Integrated Risk Information System, National Center for Environmental Assessment, Office of Research and Development. Toxicological review of benzo[a] pyrene executive summary (EPA/635/-17/003Fc). Washington, DC: U.S. Environmental Protection Agency.
  • Wang J-L, Zhang Y-H, Shao M, Liu X-L, Zeng L-M, Cheng C-L, Xu X-F. 2004. The chemical composition and quantitative relationship between meteorological condition and fine particles in Beijing. J Environ Sci (China). 16(5):860–864.
  • Wang WQ, Sun LR, Tuerxun TRH, et al. 2012. Concentration and enrichment characteristic of heavy metal elements in PM2.5 of Urumqi. Environ Monitor Manage Technol. 24(5):23–27.
  • Wang Y, Zhuang G, Tang A, Yuan H, Sun Y, Chen S, Zheng A. 2005. The ion chemistry and the source of PM2.5 aerosol in Beijing. Atmos Environ. 39(21):3771–3784.
  • Wu SW, Deng FR. 2016. Ambient PM2.5 and health from exposure, health hazards to intervention. China J Pharm Toxicol. 30(8):797–801.
  • Xia Z, Duan X, Tao S, Qiu W, Liu D, Wang Y, Wei S, Wang B, Jiang Q, Lu B, et al. 2013. Pollution level, inhalation exposure and lung cancer risk of ambient atmospheric polycyclic aromatic hydrocarbons (PAHs) in Taiyuan, China. Environ Pollut. 173(1):150–156.
  • Xiao S, Wang QY, Cao JJ, Huang R-J, Chen WD, Han YM, Xu HM, Liu SX, Zhou YQ, Wang P, et al. 2014. Long-term trends in visibility and impacts of aerosol composition on visibility impairment in Baoji, China. Atmos Res. 149(6):88–95.
  • Xing P, Guo LS, Gui RL, Jiao X, Ying ZT, Yu FZ, Yin CF, Russell AG. 2017. Source apportionment and heavy metal health risk (HMHR) quantification from sources in a southern city in China, using an ME2-HMHR model. Environ Pollut. 221:335–342.
  • Zhang Y. 2016. Study on factors affecting the mass concentration and compositions of atmospheric PM2.5 in Taiyuan. Taiyuan, China: Shanxi University.
  • Zhang Y, Li R, Fang J, Wang C, Cai Z. 2018. Simultaneous determination of eighteen nitro-polyaromatic hydrocarbons in PM2.5 by atmospheric pressure gas chromatography-tandem mass spectrometry. Chemosphere. 198:303–310.

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