Abstract
Characterizing sorption processes is essential to understand the environmental distribution and toxicity potential of endocrine disruptors in terrestrial and aquatic systems. The sorption behaviors of three endocrine disruptors (bisphenol A (BPA), 17β-estradiol (E2), and 17α-ethynylestradiol (EE2)) on sediments were investigated using batch techniques. Samples were taken from some representative reaches in several major Chinese rivers. More attention has been paid to the effect of sediment organic components on the sorption of BPA, E2, and EE2. The results show that the sediment organic carbon-normalized partition coefficients (K oc(sed)) for three endocrine disruptors are in the order of EE2 > E2 > BPA, which corresponds to the octanol-water partitioning coefficients (logK ow) of the compounds. Moreover, the K oc values for humic substances (K oc(hs)) are comparable with the K oc(sed) values and highly dependent on the physico-chemical properties of humic substances in sediments. The UV absorptivity at 272 nm (A 272), which suggests the abundance of aromatic rings in humic substance structure, correlates well with the K oc(hs) values. In addition, the infrared spectra of the humic substances extracted from sediments show four strong bands centered at 3,400 cm−1, 1,625 cm−1, 1,390 cm−1, and 1,025 cm−1. The K oc(hs) values have a positive linear relation with the peak area ratio for peak at 1,025 cm−1 and a negative linear relation with the peak area ratio between peaks at 1,625 cm−1 and 1,025 cm−1. Hence, the hydrogen bonds play a critical role to the sorption of selected endocrine disruptors.
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References
Chang, H., Hu, J. Y., Shao, B., & Xu, Y. (2003). Determination of trace estrogens in surface water using SPE-LC-MS. Environmental Chemistry, 22(4), 400–403.
Cornelissen, G., Kukulska, Z., Kalaitzidis, S., Christanis, K., & Gustafsson, O. (2004). Relation between environmental black carbon sorption and geochemical sorbent characteristics. Environmental Science & Technology, 38(13), 3632–3640.
Davis, W. M., Erickson, C. L., Johnston, C. T., Delfino, J. J., & Porter, J. E. (1999). Quantitation fourier transform infrared spectroscopic investigation of humic substance functional group composition. Chemosphere, 38(12), 2913–2928.
Fent, G., Hein, J. W., Moendel, J. M., & Kubiak, R. (2003). Fate of 14C-bisphenol A in soils. Chemosphere, 51(8), 735–746.
Gauthier, D. T., Seitz, W. R., & Grant, L. C. (1987). Effects of structural and compositional variations of dissolved humic materials on pyrene K oc values. Environmental Science & Technology, 21(3), 243–248.
Hur, J., & Schlautman, A. M. (2004). Influence of humic substance adsorptive fractionation on pyrene partitioning to dissolved and mineral-associated humic substances. Environmental Science & Technology, 38(22), 5871–5877.
Kang, S., & Xing, B. (2005). Phenanthrene sorption to sequentially extracted soil humic acids and humins. Environmental Science & Technology, 39(1), 134–140.
Kashiwada, S., Ishikawa, H., Miyamoto, N., Ohnishi, Y., & Magara, Y. (2002). Fish test for endocrine-disruption and estimation of water quality of Japanese rivers. Water Research, 36(8), 2161–2166.
Kolpin, W. D., Furlong, T. E., Meyer, T. M., Thurman, E. M., Zaugg, D. S., Barber, B. L., et al. (2002). Pharmaceuticals, hormones, and other organic wastewater contaminants in US streams, 1999–2000: A national reconnaissance. Environmental Science & Technology, 36(6), 1202–1211.
Lee, S. L., Strock, J. T., Sarmah, K. A., & Rao, C. S. P. (2003). Sorption and dissipation of testosterone, estrogens, and their primary transfornation products in soils and sediment. Environmental Science & Technology, 37(18), 4098–4105.
Schnitzer, M. (1982). Organic matter extraction. In A. L. Page (Ed.), Methods of soil analysis. (pp. 581). Madison, USA: WI.
Spark, K. M., & Swift, R. S. (2002). Effect of soil composition and dissolved organic matter on pesticide sorption. Science of the Total Environment, 298(1–3), 147–161.
Sun, W. L., Ni, J. R., & HAO, P. P. (2005a). Analysis of endocrine in water by solid phase extraction-liquid chromatography-ion trap mass/mass spectrometry. Journal of the Chinese Mass Spectrometry Society, 26(1), 22–26.
Sun, W. L., Ni, J. R., O’Brien, K. C., HAO, P. P., & Sun, L. Y. (2005b). Adsorption of bisphenol A on sediments in the Yellow River. Water, Air and Soil Pollution, 167(1–4), 353–364.
Vethaak, A. D., Lahr, J., Schrap, S. M., Belfroid, A. C., Rijs, G. B., Gerritsen, A., et al. (2005). An integrated assessment of estrogenic contamination and biological effects in the aquatic environment of The Netherlands. Chemosphere, 59(4), 511–524.
Yamamoto, H., Liljestrand, M. H., Shimizu, Y., & Morita, M. (2003). Effects of physical-chemical characteristics on the sorption of selected endocrine disruptors by dissolved organic matter surrogates. Environmental Science & Technology, 37(12), 2646–2657.
Ying, G.-G., Kookana, S. R., & Dillon, P. (2003). Sorption and degradation of selected five endocrine disrupting chemicals in aquifer material. Water Research, 37(15), 3785–3791.
Zhang, H. F., Hu, J. Y., Chang, H., & Wang, X. L. (2004). Determination of bisphenol A in surface and drinking water in Hangzhou by SPE-LC-MS method. Environmental Chemistry, 23(5), 584–586.
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Sun, W.L., Ni, J.R., Liu, T.T. (2006). Effect of Sediment Humic Substances on Sorption of Selected Endocrine Disruptors. In: Kronvang, B., Faganeli, J., Ogrinc, N. (eds) The Interactions Between Sediments and Water. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-5478-5_23
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DOI: https://doi.org/10.1007/978-1-4020-5478-5_23
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