Abstract
Four types of road dust, including main road, industrial road, campus road, and campus walking street dust, were analyzed in a suburban area of Chongqing, western China. The organophosphate esters (OPEs) concentrations varied from 3.69 to 1600 ng/g dry weight, with a median of 292, 476, 203, and 48.8 ng/g dw in main road, industrial road, campus road, and campus walking street dust, respectively. The industrial sources should be responsible for the elevated OPEs concentrations in industrial road dust, while the vehicle emissions may play a role in the OPEs distribution in main road dust. Semblable OPEs composition patterns were observed among different types of road dust; tributyl phosphate predominated followed by tris(methylphenyl) phosphate. Significantly positive correlations were obtained between industrial road dust and campus road dust and main road dust, respectively, and statistical correlations also were found between main road dust and other road dust. An increasing trend of OPEs was displayed with the descending particle size in industrial road dust, whereas highest values were at F3 (90–150 μm) (340 ng/g dw) and F5 (< 75 μm) (305 ng/g dw), with a peak value at F3 in main road dust. This result may suggest that OPEs are prone to accumulate in finer particles. The estimated daily intake values for toddlers were approximately two times greater than those for adults in each region, implying that toddlers may be more vulnerable to OPEs intake via road dust.
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References
Abdallah AE, Covaci A (2014) Organophosphate flame retardants in indoor dust from Egypt: implications for human exposure. Environ Sci Technol 48:4782–4789
Ali N, Dirtu AC, Van den Eede N, Goosey E, Harrad S, Neels H, Mannetje AT, Coakley J, Douwes J, Covaci A (2012) Occurrence of alternative flame retardants in indoor dust from New Zealand indoor sources and human exposure assessment. Chemosphere 88:1276–1282
Ali N, Ali L, Mehdi T, Dirtu AC, Al-Shammari F, Neels H, Covaci A (2013) Levels and profiles of organochlorines and flame retardants in car and house dust from Kuwait and Pakistan: implication for human exposure via dust ingestion. Environ Int 55:62–70
Andresen J, Grundmann A, Bester K (2004) Organophosphorus flame retardants and plasticisers in surface waters. Sci Total Environ 332:155–166
Araki A, Saito I, Kanazawa A, Morimoto K, Nakayama K, Shibata E, Tanaka M, Takigawa T, Yoshimura T, Chikara H, Saijo Y, Kishi R (2014) Phosphorus flame retardants in indoor dust and their relation to asthma and allergies of inhabitants. Indoor Air 24:3–15
Assami K, Ladji R, Moussaoui Y, Yassaa N, Meklati BY (2018) Influence of car body repair activities on particulate matter pollution in a suburban area (Bouzaréah City, Algiers). Int J Environ Sci Technol 15:1019–1028
Bergh C, Torgrip R, Emenius G, Ostman C (2011) Organophosphate and phthalate esters in air and settled dust—a multi-location indoor study. Indoor Air 21:67–76
Brandsma SH, De BJ, van Velzen MJ, Leonards PE (2014) Organophosphorus flame retardants (PFRs) and plasticizers in house and car dust and the influence of electronic equipment. Chemosphere 116:3–9
Brommer S, Harrad S (2015) Sources and human exposure implications of concentrations of organophosphate flame retardants in dust from UK cars, classrooms, living rooms, and offices. Environ Int 83:202–207
Brommer S, Harrad S, Van den Eede N, Covaci A (2012) Concentrations of organophosphate esters and brominated flame retardants in German indoor dust samples. J Environ Monit 14:2482–2487
Cao Z, Xu F, Covaci A, Wu M, Wang B, Yu G, Wang H, Huang J, Deng S, Wang X (2014) Distribution patterns of brominated, chlorinated and phosphorous flame retardants with particle size in indoor and outdoor dust and implications for human exposure. Environ Sci Technol 48:8839–8846
Castro-Jiménez J, González-Gaya B, Pizarro M, Casal P, Pizarro-Álvarez C, Dachs J (2016) Organophosphate ester flame retardants and plasticizers in the global oceanic atmosphere. Environ Sci Technol 50:12831–12839
Dirtu AC, Ali N, Van den Eede N, Neels H, Covaci A (2012) Country specific comparison for profile of chlorinated, brominated and phosphate organic contaminants in indoor dust. Case study for Eastern Romania, 2010. Environ Int 49:1–8
Fabiańska MJ, Kozielska B, Konieczyński J, Bielaczyc P (2019) Occurrence of organic phosphates in particulate matter of the vehicle exhausts and outdoor environment—a case study. Environ Pollut 244:351–360
Fang H, Tong WD, Branham WS, Moland CL, Dial SL, Hong HX, Xie Q, Perkins R, Owens W, Sheehan DM (2003) Study of 202 natural, synthetic, and environmental chemicals for binding to the androgen receptor. Chem Res Toxicol 16:1338–1358
Greaves AK, Letcher RJ, Chen D, McGoldrick DJ, Gauthier LT, Backus SM (2016) Retrospective analysis of organophosphate flame retardants in herring gull eggs and relation to the aquatic food web in the Laurentian Great Lakes of North America. Environ Res 150:255–263
Green N, Schlabach M, Bakke T, Brevik EM, Dye C, Herzke D, Huber S, Plosz B, Remberger M, Schoyen M, Uggerud HT, Vogelsang C (2008) Screening of selected metals and new organic contaminants 2007. Norwegian Pollution Control Agency, Oslo
Hartmann PC, Bürgi D, Giger W (2004) Organophosphate flame retardants and plasticizers in indoor air. Chemosphere 57:781–787
He MJ, Yang T, Yang ZH, Zhou H, Wei SQ (2018a) Current state, distribution, and sources of phthalate esters and organophosphate esters in soils of the Three Gorges Reservoir region, China. Arch Environ Contam Toxicol 74:502–513
He MJ, Lu JF, Ma JY, Wang H, Du XF (2018b) Organophosphate esters and phthalate esters in human hair from rural and urban areas, Chongqing, China: concentrations, composition profiles and sources in comparison to street dust. Environ Pollut 237:143–153
He RW, Li YZ, Xiang P, Li C, Cui XY, Ma LQ (2018c) Impact of particle size on distribution and human exposure of flame retardants in indoor dust. Environ Res 162:166–172
He MJ, Lu JF, Wei SQ (2019) Organophosphate esters in biota, water, and air from an agricultural area of Chongqing, western China: concentrations, composition profiles, partition and human exposure. Environ Pollut 244:388–397
Kim JW, Isobe T, Chang K-H, Amano A, Maneja RH, Zamora PB, Siringan FP, Tanabe S (2011) Levels and distribution of organophosphorus flame retardants and plasticizers in fishes from Manila Bay, the Philippines. Environ Pollut 159:3653–3659
Kim JW, Isobe T, Sudaryanto A, Malarvannan G, Chang KH, Muto M, Prudente M, Tanabe S (2013) Organophosphorus flame retardants in house dust from the Philippines: occurrence and assessment of human exposure. Environ Sci Pollut Res 20:812–822
Kim JW, Isobe T, Muto M, Tue NM, Katsura K, Malarvannan G, Sudaryanto A, Chang KH, Prudente M, Viet PH, Takahashi S, Tanabe S (2014) Organophosphorus flame retardants (PFRs) in human breast milk from several Asian countries. Chemosphere 116:91–97
Langer S, Fredricsson M, Weschler CJ, Beko G, Strandberg B, Remberger M, Toftum J, Clausen G (2016) Organophosphate esters in dust samples collected from Danish homes and daycare centers. Chemosphere 154:559–566
Lewis RG, Fortune CR, Willis RD, Camann DE, Antley JT (1999) Distribution of pesticides and polycyclic aromatic hydrocarbons in house dust as a function of particle size. Environ Health Perspect 107:721
Li W, Shi Y, Gao L, Wu C, Liu J, Cai Y (2018) Occurrence, distribution and risk of organophosphate esters in urban road dust in Beijing, China. Environ Pollut 241:566–575
Lu JF, He MJ, Yang ZH, Wei SQ (2018) Occurrence of tetrabromobisphenol a (TBBPA) and hexabromocyclododecane (HBCD) in soil and road dust in Chongqing, western China, with emphasis on diastereoisomer profiles, particle size distribution, and human exposure. Environ Pollut 242:219–228
Marklund A, Andersson B, Haglund P (2003) Screening of organophosphorus compounds and their distribution in various indoor environments. Chemosphere 53:1137–1146
Marklund A, Barbro Andersson A, Haglund P (2005) Traffic as a source of organophosphorus flame retardants and plasticizers in snow. Environ Sci Technol 39:3555–3562
Meeker JD, Stapleton HM (2010) House dust concentrations of organophosphate flame retardants in relation to hormone levels and semen quality parameters. Environ Health Perspect 118:318–323
Mihajlović I, Vojinović Miloradov M, Fries E (2011) Application of twisselmann extraction, SPME, and GC-MS to assess input sources for organophosphate esters into soil. Environ Sci Technol 45:2264–2269
Ou YX (2011) Developments of organic phosphorus flame retardant industry in China. Chem Ind Eng Prog 30:210–215 (In Chinese)
Paxéus N (1996) Vehicle washing as a source of organic pollutants in municipal wastewater. Water Sci Technol 33:1–8
Peng C, Tan H, Guo Y, Wu Y, Chen D (2017) Emerging and legacy flame retardants in indoor dust from East China. Chemosphere 186:635
Salamova A, Hermanson MH, Hites RA (2014) Organophosphate and halogenated flame retardants in atmospheric particles from a European Arctic site. Environ Sci Technol 48:6133–6140
Shi SX, Huang YR, Zhou L, Yang WL, Dong L, Zhang LF, Zhang XL (2013) A preliminary investigation of BDE-209, OCPs, and PAHs in urban road dust from Yangtze River Delta, China. Environ Monit Assess 185:4887–4896
Shi Y, Gao L, Li W, Wang Y, Liu J, Cai Y (2016) Occurrence, distribution and seasonal variation of organophosphate flame retardants and plasticizers in urban surface water in Beijing, China. Environ Pollut 209:1–10
Stapleton HM, Klosterhaus S, Eagle S, Fuh J, Meeker JD, Blum A, Webster TF (2009) Detection of organophosphate flame retardants in furniture foam and U.S. house dust. Environ Sci Technol 43:7490
Sühring R, Wolschke H, Diamond ML, Jantunen LM, Scheringer M (2016) Distribution of organophosphate esters between the gas and particle phase model predictions vs measured data. Environ Sci Technol 50:6644–6651
Takimoto K, Ito KM, Tetsuo Okada M, Hirakawa T (1999) Source and transport of tricresyl phosphate (TCP) isomers in Kurose river basin. Atmos Environ 33:3191–3200
Tan X, Luo X, Zheng X, Li Z, Sun R, Mai B (2016) Distribution of organophosphorus flame retardants in sediments from the Pearl River Delta in south China. Sci Total Environ 544:77–84
Tokumura M, Hatayama R, Tatsu K, Naito T, Takeda T, Raknuzzaman M, Al-Mamun MH, Masunaga S (2017) Organophosphate flame retardants in the indoor air and dust in cars in Japan. Environ Monit Assess 189:48
Van de Eede N, Dirtu A, Neels H, Covaci A (2011) Analytical developments and preliminary assessment of human exposure to organophosphate flame retardants from indoor dust. Environ Int 37:454–461
Van der Veen I, de Boer J (2012) Phosphorus flame retardants: properties, production, environmental occurrence, toxicity and analysis. Chemosphere 88:1119–1153
Wang W, Wu FY, Huang MJ, Kang Y, Cheung KC, Wong MH (2013) Size fraction effect on phthalate esters accumulation, bioaccessibility and in vitro cytotoxicity of indoor/outdoor dust, and risk assessment of human exposure. J Hazard Mater 261:753–762
Wang RM, Tang JH, Xie ZY, Mi WY, Chen YJ, Wolschke H, Tian CG, Pan XH, Luo YM, Ebinghaus R (2015) Occurrence and spatial distribution of organophosphate ester flame retardants and plasticizers in 40 rivers draining into the Bohai Sea, north China. Environ Pollut 198:172–178
Wei GL, Li DQ, Zhuo MN, Liao YS, Xie ZY, Guo TL, Li JJ, Zhang SY, Liang ZQ (2015) Organophosphorus flame retardants and plasticizers: sources, occurrence, toxicity and human exposure. Environ Pollut 196:29–46
World Health Organization (1991) Tributyl phosphate. Environmental health criteria. World Health Organization, Geneva
World Health Organization (1998) Environmental health criteria 209, flame retardants: tris(chloropropyl) phosphate and tris(2-chloroethyl) phosphate. World Health Organization, Geneva
Yadav IC, Devi NL, Zhong G, Li J, Zhang G, Covaci A (2017) Occurrence and fate of organophosphate ester flame retardants and plasticizers in indoor air and dust of Nepal: implication for human exposure. Environ Pollut 229:668–678
Yu Y, Yang D, Wang X, Huang N, Zhang X, Zhang D, Fu J (2013) Factors influencing on the bioaccessibility of polybrominated diphenyl ethers in size-specific dust from air conditioner filters. Chemosphere 93:2603–2611
Zhou L, Hiltscher M, Püttmann W (2017) Occurrence and human exposure assessment of organophosphate flame retardants in indoor dust from various microenvironments of the Rhine/Main region, Germany. Indoor Air 27:1113–1127
Acknowledgements
This research was financially supported by National Key Research and Development Program (2018YFD0800600), the National Natural Science Foundation of China (No. 41403078), Chongqing Research Program of Basic Research and Frontier Technology (Nos. cstc2016jcyjA0399 and cstc2018jcyjA0977).
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He, MJ. Organophosphate Esters in Road Dust from a Suburban Area of Chongqing, China: Characterization of Particle Size Distribution and Human Exposure. Arch Environ Contam Toxicol 76, 630–639 (2019). https://doi.org/10.1007/s00244-019-00612-1
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DOI: https://doi.org/10.1007/s00244-019-00612-1