References

  1. Q. Wu, S. Wang, G. Li, S. Liang, C.J. Lin, Y. Wang, S. Cai, K. Liu, J. Hao, Temporal trend and spatial distribution of speciated atmospheric mercury emissions in China during 1978–2014, Environ. Sci. Technol., 50(24) (2016) 13428–13435.
  2. I. Fricke, R. Götz, R. Schleyer, W. Püttmann, Analysis of sources and sinks of mercury in the urban water cycle of Frankfurt am Main, Germany, Water, 7 (2015) 6097–6116.
  3. L.M. Zhang, Z.Y. Wu, I. Cheng, L.P. Wright, M.L. Olson, D.A. Gay, M.R. Risch, S. Brooks, M.S. Castro, G.D. Conley, E.S. Edgerton, T.M. Holsen, M. Thomas, W. Luke, R. Tordon, P. Weiss-Penzias, The estimated six-year mercury dry deposition across North America, Environ. Sci. Technol., 50 (2016) 12864– 12873.
  4. S. Chung, H.T. Chon, Assessment of the level of mercury contamination from some anthropogenic sources in Ulaanbaatar, Mongolia, J. Geochem. Explor., 147(Part B) (2014) 237–244.
  5. X.B. Feng, G.L. Qiu, X.W. Fu, T.Y. He, P. Li, S.F. Wang, Environmental mercury pollution. Progress Chem., 21 (2009) 436–457. (in Chinese).
  6. D. Peixuan, T. Hui, H. Yongming, Concept, research content and method of urban dust, Geo. Shanxi, 22(1) (2004) 73–79.
  7. G. Sun, Z. Li, X. Bi, Y. Chen, S. Lu, X. Yuan, Distribution, sources and health risk assessment of mercury in kindergarten dust, Atmospheric Environ., 73 (2013) 169–176.
  8. Z. Huan, W. Wenxiong, Bioavailability of mercury in sediments: a review, Environ. Chem., 30(1) (2011) 168–178.
  9. A. Christoforidis, N. Stamatis, Heavy metal contamination in street dust and roadside soil along the major national road in Kavala’s region, Greece, J. Geoderma, 151 (2009) 257–263.
  10. I.A. Tazisong, Z.N. Senwo, M.I. Williams, Mercury speciation and effects on soil microbial activities, J. Environ. Sci. Health, Part A., 47(6) (2012) 854–862.
  11. S.M. Obeidat, I.F. Al-Momani, R.A. Othman, Partitioning of trace metals in sediments from the mediterranean coastal zone of Ajdabia to Benghazi, Libya: Case study, Jordan J. Chem., 11 (2016) 247–258.
  12. X. Hu, Y. Zhang, J. Luo, T. Wang, H. Lian, Z. Ding, Bioaccessibility and health risk of arsenic, mercury and other metals in urban street dusts from a mega-city, Nanjing, China. Environ. Pollut., 159 (2011) 1215–1221.
  13. Z. Mingkui, W. Hao, Concentrations and chemical forms of potentially toxic metals in road-deposited sediments from different zones of Hangzhou, China. J. Environ. Sci., 21 (2009) 625–631.
  14. C. Jing, L. Min, L. Xianhua, Y. Jie, L. Xiao, W. Li, G. Lei, Heavy metal mass accumulation of urban surface sediment in Shanghai city, Environ. Sci., 29(12) (2008) 3484–3488.
  15. P. Li, X.B. Feng, G.L. Qiu, L.H. Shang, Z.G. Li, Mercury pollution in Asia: a review of the contaminated sites, J. Hazard. Mater., 168 (2009) 591–601.
  16. X. Zhang, K. Luo, X. Sun, J. Tan, Y. Lu, Mercury in the topsoil and dust of Beijing City, Sci. Total Environ., 368 (2006) 713–722.
  17. Y. Han, P. Du, J. Cao, E.S. Posmentier, Multivariate analysis of heavy metal contamination in urban dusts of Xian, Central China. Sci. Total Environ., 355 (2006) 176–186.
  18. X. Chen, X. Xia, S. Wu, F. Wang, X. Guo, Mercury in urban soils with various types of land use in Beijing, China, Environ. Pollut., 158 (2010) 48–54.
  19. N. Zheng, Q. Wang, Z. Liang, Heavy metals exposure of children from stairway and sidewalk dust in the smelting district, northeast of China, Atmos. Environ., 44 (2010) 3239–3245.
  20. Y. Ye, P. Xu, Y. Zhai, L. Chen. Pollution characteristics of highway pavement sediments, Chinese J. Environ. Engi., 7 (2013) 1196–1200. (in Chinese)
  21. O.A. Khashman, The investigation of metal concentrations in street dust samples in Aqaba city, Jordan. J. Environ. Geochem. Hlth., 29 (2007) 197–207.
  22. Z. Mester, C. Cremisini, E. Ghiara, R. Morabito, Comparison of two sequential extraction procedures for metal fractionation in sediment samples, Analyt. Chim. Acta., 359 (1998) 133–142.
  23. S. Tokalioglu, Application of a three-stage sequential extraction procedure for the determination of extractable metal contents in highway soils, Turk. J. Chem., 27 (2003) 333–346.
  24. G. Shi, Z. Chen, C. Bi, Y. Li, J. Teng, L. Wang, S. Xu, Comprehensive assessment of toxic metals in urban and suburban street deposited sediments (SDSs) in the biggest metropolitan area of China, Environ. Pollut., 158 (2010) 694–703.
  25. NEPA (1995), GB 15618-1995 Environmental quality standard for soils. National Environmental Protection Agency, Beijing.
  26. X. Feng, S. Tang, L. Shang, H. Yan, J. Sommar, O. Lindqvist, Total gaseous mercury in the atmosphere of Guiyang, PR China. Sci. Total Environ., 304 (2003) 61–72.
  27. P.E. Rasmussen, K.S. Subramanian, B.J. Jessiman, Amult-ielement profile of house dust in relation to exterior dust and soils in the city of Ottawa, Canada. Sci. Total Environ., 267 (2001) 125–140.
  28. G. Müller. Index of geoaccumulation in sediments of the Rhine River, Geo. J., 2 (1969) 108–118.
  29. D. Zhenhu, L. Jin-ling, L. Liuqiang, L. Huin, W. Hao, H. Zhenzhen, Distribution of Hg in mangrove plants and correlation with Hg speciation in sediments, Environ. Sci., 9 (2010) 2235–2239.
  30. S. Tokalioglu, S. Kartal, Multivariate analysis of the data and speciation of heavy metals in street dust samples from the Organized Industrial District in Kayseri (Turkey), Atmos. Environ., 40 (2006) 2797–2805.
  31. X. Han, X. Lu, G. Qing, Y. Wu, Health risks and contamination levels of heavy metals in dusts from parks and squares of an industrial city in semi-arid area of China, Int. J. Environ. Res. Public Health, 14(8) (2017).
  32. Y.R. Liu, X. Lu, L. Zhao, J. An, J.Z. He, E.M. Pierce, A. Johs, B.H. Gu, Effects of cellular sorption on mercury bioavailability and methyl mercury production by desulfovibriodesulfuricans ND132, Environ. Sci. Technol., 50 (2016) 13335–13341.
  33. S.B. Nicolas, E. Preus, J. Katon, M. Hiltner, Selective extractions to assess the bio geo chemically relevant fractionation of inorganic mercury in sediments and soils, Anal. Chim. Acta., 479 (2003) 233–248.
  34. H. Zhu, C. Chen, C. Xu, Q. Zhu, D. Huang, Effects of soil acidification and liming on the phytoavailability of cadmium in paddy soils of central subtropical China, Environ. Poll., 219(Supplement C) (2016) 99–106.
  35. T. Larssen, G.R. Carmichael, Acid rain and acidification in China: the importance of base cation deposition. Environ Poll., 110(1) (2000) 89–102.
  36. S.A.M.A.S. Eqani, A.K. Bhowmik, S. Qamar, S.T.A. Shah, M. Sohail, S.I. Mulla, M. Fasola, H.Q. Shen, Mercury contamination in deposited dust and its bioaccumulation patterns throughout Pakistan, Sci. Total Environ., 569–570 (Sup. C) (2016) 585–593.
  37. M. Rajaee, N.R. Long, P.E. Renne, N. Basu, Mercury exposure assessment and spatial distribution in a Ghanaian small-scale gold mining community, Int. J. Environ. Res. Public Health., 12(9) (2015).
  38. J. Árvay, L. Demková, M. Hauptvog, M. Michalko, D. Bajčan, R. Stanovič, J. Thomas, M. Hrstkova, P. Trebichalsky, Assessment of environmental and health risks in former polymetallic ore mining and smelting area, Slovakia: Spatial distribution and accumulation of mercury in four different ecosystems, Ecotoxicol. Environ. Safety, 144 (Sup. C) (2017) 236–244.
  39. Y. Lin, F. Fang, J. Wu, Z. Zhu, D. Zhang, M. Xu, Indoor and outdoor levels, sources, and health risk assessment of mercury in dusts from a coal-industry city of China, Human Ecol. Risk Assess. Int. J., 23(5) (2017) 1028–1040.