1. K. Nödler, T. Licha, M. Barbieri, S. Pérez, Evidence for the microbially mediated abiotic formation of reversible and non-reversible sulfamethoxazole transformation products during denitrification, Water Res., 46 (2012) 2131–2139.
  2. Y.H. Jiang, M.X. Li, C.S. Guo, J. Xu, Y. Zhang, B.D. Xi, Distribution and ecological risk of antibiotics in a typical effluent-receiving river (Wangyang River) in North China, Chemosphere, 112 (2014) 267–274.
  3. K. Kümmerer, Significance of antibiotics in the environment, J. Antimicrob. Chemoth., 52 (2003) 5–7.
  4. J. Xu, Y. Zhang, C.B. Zhou, C.S. Guo, D.M. Wang, P. Du, Y. Luo, J. Wan, W. Meng, Distribution, sources and composition of antibiotics in sediment, overlying water and pore water from Taihu Lake, China, Sci. Total Environ., 497 (2014) 267–273.
  5. Q.Q. Zhang, G.G. Ying, C.G. Pan, Y.S. Liu, J.L. Zhao, Comprehensive evaluation of antibiotics emission and fate in the river basins of China: source analysis, multimedia modeling, and linkage to bacterial resistance, Environ. Sci. Technol., 49 (2015) 6772–6782.
  6. B.J. Richardson, P.K. Lam, M. Martin, Emerging chemicals of concern: pharmaceuticals and personal care products (PPCPs) in Asia, with particular reference to Southern China, Mar. Pollut. Bull., 50 (2005) 913–920.
  7. K. Kümmerer, Antibiotics in the aquatic environment–a review–part I, Chemosphere, 75 (2009) 417–434.
  8. J. Tang, T.Z. Shi, X.W. Wu, H.Q. Cao, X.D. Li, R.M. Hua, F. Tang, Y.D. Yue, The occurrence and distribution of antibiotics in Lake Chaohu, China: seasonal variation, potential source and risk assessment, Chemosphere, 122 (2015) 154–161.
  9. H. Heuer, A. Focks, M. Lamshöft, K. Smalla, M. Matthies, M. Spiteller, Fate of sulfadiazine administered to pigs and its quantitative effect on the dynamics of bacterial resistance genes in manure and manured soil, Soil Biol. Biochem., 40 (2008) 1892–1900.
  10. L. Migliore, G. Brambilla, P. Casoria, C. Civitareale, S. Cozzolino, L. Gaudio, Effect of sulphadimethoxine contamination on barley (Hordeum distichum L., Poaceae, Liliposida), Agr. Ecosyst. Environ., 60 (1996) 121–128.
  11. H. Hempel, A. Scheffczyk, H.J. Schallnaß, J.P. Lumaret, M. Alvinerie, J. Römbke, Toxicity of four veterinary parasiticides on larvae of the dung beetle Aphodiusconstans in the laboratory, Environ. Toxicol. Chem., 25 (2006) 3155–3163.
  12. F. Liu, G.G. Ying, R. Tao, J.L. Zhao, J.F. Yang, L.F. Zhao, Effects of six selected antibiotics on plant growth and soil microbial and enzymatic activities, Environ. Pollut., 157 (2009) 1636–1642.
  13. A.A. Robinson, J.B. Belden, M.J. Lydy, Toxicity of fluoroquinolone antibiotics to aquatic organisms, Environ. Toxicol. Chem., 24 (2005) 423–430.
  14. M. González-Pleiter, S. Gonzalo, I. Rodea-Palomares, F. Leganés, R. Rosal, K. Boltes, F. Fernández-Piñas, Toxicity of five antibiotics and their mixtures towards photosynthetic aquatic organisms: implications for environmental risk assessment, Water Res., 47 (2013) 2050–2064.
  15. M.J. Benotti, R.A. Trenholm, B.J. Vanderford, J.C. Holady, B.D. Stanford, S.A. Snyder, Pharmaceuticals and endocrine disrupting compounds in US drinking water, Environ. Sci. Technol., 43 (2008) 597–603.
  16. S.H. Zhang, X.Y. Lv, B. Han, X. Gu, P.F. Wang, C. Wang, Z. He, Prevalence of antibiotic resistance genes in antibiotic-resistant Escherichia coli isolates in surface water of Taihu Lake Basin, China, Environ. Sci. Pollut. Res., 22 (2015) 11412–11421.
  17. S.C. Kim, K. Carlson, Occurrence of ionophore antibiotics in water and sediments of a mixed-landscape watershed, Water Res., 40 (2006) 2549–2560.
  18. Y. Wu, C.P. Yu, M. Yue, S.P. Liu, X.Y. Yang, Occurrence of selected PPCPs and sulfonamide resistance genes associated with heavy metals pollution in surface sediments from Chao Lake, China, Environ. Earth Sci., 75 (2016) 43.
  19. S. Managaki, A. Murata, H. Takada, B.C. Tuyen, N.H. Chiem, Distribution of macrolides, sulfonamides, and trimethoprim in tropical waters: ubiquitous occurrence of veterinary antibiotics in the Mekong Delta, Environ. Sci. Technol., 41 (2007) 8004–8010.
  20. F. Tamtam, F. Mercier, B.B Le, J. Eurin, Q.T. Dinh, M. Clément, M. Chevreuil, Occurrence and fate of antibiotics in the Seine River in various hydrological conditions, Sci. Total Environ., 39(2008) 84–95.
  21. O.A. Arikan, C. Rice, E. Codling, Occurrence of antibiotics and hormones in a major agricultural watershed, Desalination, 226 (2008) 121–133.
  22. W.H. Zhang, G. Xu, S.C. Zou, X.D. Li, Y.C. Liu, Determination of selected antibiotics in the Victoria Harbour and the Pearl River, South China using high-performance liquid chromatography- electrospray ionization tandem mass spectrometry, Environ. Pollut., 145 (2007) 672–679.
  23. W.H. Li, Y.L. Shi, L.H. Gao, J.M. Liu, Y.Q. Cai, Occurrence of antibiotics in water, sediments, aquatic plants, and animals from Baiyangdian Lake in North China, Chemosphere, 89 (2012) 1307–1315.
  24. Y. Luo, L. Xu, M. Rysz, Y.Q. Wang, H. Zhang, P.J. Alvarez, Occurrence and transport of tetracycline, sulfonamide, quinolone, and macrolide antibiotics in the Haihe River Basin, China, Environ. Sci. Technol., 45 (2011) 1827–1833.
  25. J.F. Yang, G.G. Ying, J.L. Zhao, R. Tao, H.C. Su, Y.S. Liu, Spatial and seasonal distribution of selected antibiotics in surface waters of the Pearl Rivers, China, J. Environ. Sci. Heal. B., 46 (2011) 272–280.
  26. C.X. Yan, Y. Yang, J.L. Zhou, M. Liu, M.H. Nie, H. Shi, L.J. Gu, Antibiotics in the surface water of the Yangtze Estuary: occurrence, distribution and risk assessment, Environ. Pollut., 175 (2013) 22–29.
  27. M.M. Afyuni, M.G. Wagger, R.B. Leidy, Runoff of two sulfonylurea herbicides in relation to tillage system and rainfall intensity, J. Environ. Qual., 26 (1997) 1318–1326.
  28. C. Wang, Y. Yao, P.F. Wang, J. Hou, J. Qian, Y. Yuan, X.L. Fan, In situ high-resolution evaluation of labile arsenic and mercury in sediment of a large shallow lake, Sci. Total Environ., 541 (2016) 83–91.
  29. J. Gao, H.F. Zhou, G.Q. Pan, J.Z. Wang, B.Q. Chen, Factors influencing the persistence of organochlorine pesticides in surface soil from the region around the Hongze Lake, China, Sci. Total Environ., 443 (2013) 7–13.
  30. L. Huang, K. Sun, J. Ban, J. Bi, Public perception of blue-algae bloom risk in Hongze Lake of China, Environ. Manage., 45 (2010) 1065–1075.
  31. Q.D. Wang, Z.J. Li, Y.X. Lian, X. Du, S.Y. Zhang, J. Yuan, J.S. Liu, S.S. DeSilva, Farming system transformation yields significant reduction in nutrient loading: Case study of Hongze Lake, Yangtze River Basin, China, Aquaculture, 457 (2016) 109–117.
  32. S.M.L. De Souza, E.C. de Vasconcelos, M. Dziedzic, C.M.R. de Oliveira, Environmental risk assessment of antibiotics: an intensive care unit analysis, Chemosphere, 77 (2009) 962–967.
  33. H.J. Ding, Y.X. Wu, W.H. Zhang, J.Y. Zhong, Q. Lou, P. Yang, Y.Y. Fang, Occurrence, distribution, and risk assessment of antibiotics in the surface water of Poyang Lake, the largest freshwater lake in China, Chemosphere, 184 (2017) 137–147.
  34. A.J. Watkinson, E.J. Murby, D.W. Kolpin, S.D. Costanzo, The occurrence of antibiotics in an urban watershed: from wastewater to drinking water, Sci. Total Environ., 407 (2009) 2711–2723.
  35. X.N. Lei, J.J. Lu, Z.L. Liu, Y.B. Tong, S.M. Li, Concentration and distribution of antibiotics in water–sediment system of Bosten Lake, Xinjiang, Environ. Sci. Pollut. Res., 22 (2015) 1670–1678.
  36. C. Wu, J.D. Witter, A.L. Spongberg, K.P. Czajkowski, Occurrence of selected pharmaceuticals in an agricultural landscape, western Lake Erie basin, Water Res., 43 (2009) 3407–3416.
  37. D.W. Kolpin, E.T. Furlong, M.T. Meyer, E.M. Thurman, S.D. Zaugg, L.B. Barber, H.T. Buxton, Pharmaceuticals, hormones, and other organic wastewater contaminants in US streams, 1999–2000: A national reconnaissance, Environ. Sci. Technol., 36 (2002) 1202–1211.
  38. X.L. Gao, S.Z. Peng, J.Z. Xu, S.H. Yang, W.G. Wang, Proper methods and its calibration for estimating reference evapotranspiration using limited climatic data in Southwestern China, Arch. Agron. Soil Sci., 61 (2015) 415–426.
  39. W.G. Wang, Z.B. Yu, W. Zhang, Q.X. Shao, Y.W. Zhang, Y.F. Luo, J.Z. Xu, Responses of rice yield, irrigation water requirement and water use efficiency to climate change in China: Historical simulation and future projections, Agr. Water Manage., 146 (2014) 249–261.
  40. H.T.T. Thuy, T.T.C. Loan, Antibiotic contaminants in coastal wetlands from Vietnamese shrimp farming, Environ. Sci. Pollut. Res., 18 (2011) 835–841.
  41. X.H. Liu, S.Y. Lu, W. Meng, W.L. Wang, Occurrence, source, and ecological risk of antibiotics in Dongting Lake, China, Environ. Sci. Pollut. Res., (2018) 1–11.
  42. R.A. Figueroa, A.A. MacKay, Sorption of oxytetracycline to iron oxides and iron oxide-rich soils, Environ. Sci. Technol., 39 (2005) 6664–6671.
  43. A.A. MacKay, B. Canterbury, Oxytetracycline sorption to organic matter by metal-bridging, J. Environ. Qual., 34 (2005) 1964–1971.
  44. S.C. Zou, W.H. Xu, R.J. Zhang, J.H. Tang, Y.J. Chen, G. Zhang, Occurrence and distribution of antibiotics in coastal water of the Bohai Bay, China: impacts of river discharge and aquaculture activities, Environ. Pollut., 159 (2011) 2913–2920.
  45. J.P. Hassett, Dissolved natural organic matter as a microreactor, Science, 311 (2006) 1723–1724.
  46. J.R. Garbin, D.M. Milori, M.L. Simoes, W.T. Da Silva, L.M. Neto, Influence of humic substances on the photolysis of aqueous pesticide residues, Chemosphere, 66 (2007) 1692–1698.
  47. H.T. Piao, X.C. Jiao, N. Gai, S. Chen, G.H. Lu, X.C. Yin, J. Pan, Perfluoroalkyl substances in waters along the Grand Canal, China, Chemosphere, 179 (2017) 387–394.
  48. S.Q. Wei, Environmental Chemistry, China Agricultural Press, 2006.
  49. H.S. Ou, J.S. Ye, S. Ma, C.H. Wei, N.Y. Gao, J.Z. He, Degradation of ciprofloxacin by UV and UV/H2O2 via multiple-wavelength ultraviolet light-emitting diodes: Effectiveness, intermediates and antibacterial activity, Chem. Eng. J., 289 (2016) 391–401.
  50. B.Y. He, M.H. Dai, W.D. Zhai, L.F. Wang, K.J. Wang, J.H. Chen, J.Y. Lin, A.Q. Han, Y.P. Xu, Distribution, degradation and dynamics of dissolved organic carbon and its major compound classes in the Pearl River estuary, China, Mar. Chem., 119 (2010) 52–64.