Factors affecting the levels and pathways of atmospheric brominated flame retardant uptake by humans in different weather conditions

Peng-Tuan Hu; Shi-Min Zhong; Dong-Hai Liu; Liang Wang; Hao Yu; Zhi-Guo Cao; Yi-Fan Li

doi:10.20517/jeea.2022.30

Journal of Environmental Exposure Assessment ›› 2023, Vol. 2 ›› Issue (1) :4 DOI: 10.20517/jeea.2022.30

Research Article

Factors affecting the levels and pathways of atmospheric brominated flame retardant uptake by humans in different weather conditions

Author information +

History +

PDF

Abstract

The health risks posed by atmospheric brominated flame retardants (BFRs) have been widely studied, but there remains a lack of clarity about exposure differences between clear days and haze days. We sampled the total suspended particle (TSP) and gaseous BFRs on clear days in summer, clear days in winter, and haze days in winter in Harbin, China, to investigate the variations in the concentrations and intakes (dermal and inhalation) in the different weather conditions. The concentrations of atmospheric BFRs were highest on haze days in winter (185 pg/m³), followed by clear days in summer (158 pg/m³), and clear days in winter (79.2 pg/m³), and these concentrations were significantly correlated with the concentrations of TSP. The human intake in the different weather conditions followed the pattern of the BFR concentrations, and the human intake of atmospheric BFRs was dominated by inhalation. A comparison of the BFR levels showed that the human intake of gaseous and particulate BFRs varied in the three weather conditions and that the inhalation intake, but not the dermal intake, was influenced under high concentrations of gaseous BFRs with low molecular weight.

Keywords

Weather variations / flame retardants / dermal exposure / human health

Cite this article

Download citation ▾

Peng-Tuan Hu, Shi-Min Zhong, Dong-Hai Liu, Liang Wang, Hao Yu, Zhi-Guo Cao, Yi-Fan Li. Factors affecting the levels and pathways of atmospheric brominated flame retardant uptake by humans in different weather conditions. Journal of Environmental Exposure Assessment, 2023, 2(1): 4 DOI:10.20517/jeea.2022.30

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Birnbaum LS.Brominated flame retardants: cause for concern?.Environ Health Perspect2004;112:9-17 PMCID:PMC1241790

[2]	Covaci A,Abdallah MA.Novel brominated flame retardants: a review of their analysis, environmental fate and behaviour.Environ Int2011;37:532-56

[3]	Convention S. All POPs listed in the Stockholm Convention. Available from: http://chm.pops.int/TheConvention/ThePOPs/AllPOPs/tabid/2509/Default.aspx [Last accessed on 8 Dec 2022]

[4]	Papachlimitzou A,Losada S,Law RJ.A review of the analysis of novel brominated flame retardants.J Chromatogr A2012;1219:15-28

[5]	Xiong P,Zhu Q.A review of environmental occurrence, fate, and toxicity of novel brominated flame retardants.Environ Sci Technol2019;53:13551-69

[6]	Kuramochi H,Scheringer M.Estimation of physicochemical properties of 52 non-PBDE brominated flame retardants and evaluation of their overall persistence and long-range transport potential.Sci Total Environ2014;491-492:108-17

[7]	Wang Y,Tan F.Characteristics of halogenated flame retardants in the atmosphere of Dalian, China.Atmospheric Environ2020;223:117219

[8]	Wang L,Yang L,Yao Y.Dynamic analysis of particulate pollution in haze in Harbin city, Northeast China.Open Geosciences2021;13:1656-67

[9]	Rajagopalan S,Brook RD.Air pollution and cardiovascular disease: JACC state-of-the-art review.J Am Coll Cardiol2018;72:2054-70

[10]	Gautam D.Bolia N. Air pollution: impact and interventions.Air Qual Atmos Health2020;13:209-23

[11]	Jerrett M.Air pollution as a risk for death from infectious respiratory disease.Am J Respir Crit Care Med2022;205:1374-5

[12]	Lao JY,Wu CC,Tao S.Importance of dermal absorption of polycyclic aromatic hydrocarbons derived from barbecue fumes.Environ Sci Technol2018;52:8330-8

[13]	Cao Z,Ren M.Higher health risk resulted from dermal exposure to PCBs than HFRs and the influence of haze.Sci Total Environ2019;689:223-31

[14]	Fan Y,Wang Z.Identifying dermal exposure as the dominant pathway of children’s exposure to flame retardants in kindergartens.Sci Total Environ2022;808:152004

[15]	Harner T.Octanol-air partition coefficient for describing particle/gas partitioning of aromatic compounds in urban air.Environ Sci Technol1998;32:1494-502

[16]	Yamasaki H,Miyamoto H.Effects of ambient temperature on aspects of airborne polycyclic aromatic hydrocarbons.Environ Sci Technol1982;16:189-94

[17]	Meng Y,Qiu Y.Seasonal distribution, gas-particle partitioning and inhalation exposure of brominated flame retardants (BFRs) in gas and particle phases.Environ Sci Eur2019;31

[18]	Wang D,Zhu Y.Seasonal variation and human exposure assessment of legacy and novel brominated flame retardants in PM_2.5 in different microenvironments in Beijing, China.Ecotoxicol Environ Saf2019;173:526-34

[19]	Pal VK.Personal exposure and inhaled dose estimation of air pollutants during travel between Albany, NY and Boston, MA.Atmosphere2022;13:445

[20]	Li Y,Ngoc DM.Polybrominated diphenyl ethers (PBDEs) in PM_2.5, PM₁₀, TSP and gas phase in office environment in Shanghai, China: occurrence and human exposure.PLoS One2015;10:e0119144 PMCID:PMC4367993

[21]	Jin R,Jiang X.Profiles, sources and potential exposures of parent, chlorinated and brominated polycyclic aromatic hydrocarbons in haze associated atmosphere.Sci Total Environ2017;593-594:390-8

[22]	Li L,Wania F.How are humans exposed to organic chemicals released to indoor air?.Environ Sci Technol2019;53:11276-84

[23]	Cao Z,Zhang Y.Influence of air pollution on inhalation and dermal exposure of human to organophosphate flame retardants: a case study during a prolonged haze episode.Environ Sci Technol2019;53:3880-7

[24]	Goede H,Kuijpers E.A review of workplace risk management measures for nanomaterials to mitigate inhalation and dermal exposure.Ann Work Expo Health2018;62:907-22

[25]	Andersen C,Eriksson AC.Inhalation and dermal uptake of particle and gas-phase phthalates-a human exposure study.Environ Sci Technol2018;52:12792-800

[26]	Silva EZM,de Oliveira DP.A review of the success and challenges in characterizing human dermal exposure to flame retardants.Arch Toxicol2021;95:3459-73

[27]	Weschler CJ.Dermal uptake of organic vapors commonly found in indoor air.Environ Sci Technol2014;48:1230-7

[28]	Weschler CJ,Koch HM.Transdermal uptake of diethyl phthalate and Di(n-butyl) phthalate directly from air: experimental verification(.EHP123:928-34 PMCID:PMC4590762

[29]	Zhu G,Tang Q,Yuan C.Efficient and scalable functional dependency discovery on distributed data-parallel platforms.IEEE Trans Parallel Distrib Syst2019;30:2663-76

[30]	Luo Y,Che L.Analysis of temporal spatial distribution characteristics of PM(2.5) pollution and the influential meteorological factors using Big Data in Harbin, China.J Air Waste Manag Assoc2021;71:964-73

[31]	Hu PT,Zhang ZF.Approach to predicting the size-dependent inhalation intake of particulate novel brominated flame retardants.Environ Sci Technol2021;55:15236-45

[32]	Li YF,Ren NQ,Mackay D.Decabrominated diphenyl ethers (BDE-209) in Chinese and global air: levels, gas/particle partitioning, and long-range transport: is long-range transport of BDE-209 really governed by the movement of particles?.Environ Sci Technol2017;51:1035-42

[33]	Xu H,Cui Z,Fan G.Size distribution and seasonal variations of particle-associated organochlorine pesticides in Jinan, China.J Environ Monit2011;13:2605-11

[34]	Yadav IC,Zhong G,Zhang G.Occurrence and fate of organophosphate ester flame retardants and plasticizers in indoor air and dust of Nepal: implication for human exposure.Environ Pollut2017;229:668-78

[35]	Weschler CJ.SVOC exposure indoors: fresh look at dermal pathways.Indoor Air2012;22:356-77

[36]

China Environment Publishing Group. Ministry of Ecology and Environment. Exposure factors handbook of chinese population, 2013. Available from: https://www.researchgate.net/publication/294646021_zhongguorenqunbaolucanshushouce_Exposure_Factors_Handbook_of_Chinese_Population [Last accessed on 8 Dec 2022]