Segura P A, Francois M, Gagnon C, et al. Review of the occurrence of anti-infectives in contaminated wastewaters and natural and drinking waters[J]. Environmental Health Perspectives, 2009, 117(5): 675-684
[2]
Larsson D G J, De Pedro C, Paxeus N. Effluent from drug manufactures contains extremely high levels of pharmaceuticals[J]. Journal of Hazardous Materials, 2007, 148(3):751-755
[3]
Yiruhan, Wang Q J, Mo C H, et al. Determination of four fluoroquinolone antibiotics in tap water in Guangzhou and Macao[J]. Environmental Pollution, 2010, 158(7): 2350-2358
[4]
Gullberg E, Cao S, Berg O G, et al. Selection of resistant bacteria at very low antibiotic concentrations[J]. PLoS Pathogens, 2011, 7(7): e1002158
[5]
Hu J Y, Wang W, Zhu Z, et al. Quantitative structure-Activity relationship model for prediction of genotoxic potential for quinolone antibacterials[J]. Environment Science & Technology, 2007, 41(13): 4806-4812
[6]
Ge L K, Chen J W, Wei X X, et al. Aquatic photochemistry of fluoroquinolone antibiotics: Kinetics, pathways, and multivariate effects of main water constituents[J]. Environment Science & Technology, 2010, 44(7): 2400-2405
[7]
Li Y, Niu J F, Wang W L. Photolysis of enrofloxacin in aqueous systems under simulated sunlight irradiation: Kinetics, mechanism and toxicity of photolysis products[J]. Chemosphere, 2011, 85(5): 892-897
[8]
Sturini M, Speltini A, Maraschi F, et al. Photodegradation of fluoroquinolones in surface water and antimicrobial activity of the photoproducts[J]. Water Research 2012, 46(17): 5575-5582
Ge L K, Chen J W, Lin J, et al. Light-source-dependent effects of main water constituents on photodegradation of phenicol antibiotics: Mechanism and kinetics[J]. Environment Science & Technology, 2009, 43(9): 3101-3107
[11]
Chen Y, Hu C, Qu J H, et al. Photodegradation of tetracycline and formation of reactive oxygen species in aqueous tetracycline solution under simulated sunlight irradiation[J]. Journal of Photochemistry and Photobiology A: Chemistry, 2008,197(1): 81-87
[12]
Boreen A L, Arnold W A, McNeill K. Photochemical fate of sulfa drugs in the aquatic environment: Sulfa drugs containing five-membered heterocyclic groups[J]. Environment Science & Technology, 2004, 38(14): 3933-3940
[13]
Boreen A L, Arnold W A, McNeill K. Triplet-sensitized photodegradation of sulfa drugs containing six-membered heterocyclic groups: Identification of an SO2 extrusion photoproduct[J]. Environment Science & Technology, 2005, 39(10): 3630-3638
[14]
Werner J J, Arnold W A, McNeill K. Water hardness as a photochemical parameter: Tetracycline photolysis as a function of calcium concentration, magnesium concentration, and pH[J]. Environment Science & Technology, 2006, 40(23): 7236-7241
[15]
Zhou D N, Huang W Y, Wu F, et al. Photodegradation of chloromycetin in aqueous solutions: Kinetics and influencing factors[J]. Reaction Kinetics, Mechanisms and Catalysis, 2010, 100(1): 45-53
[16]
Vione D, Feitosa-Felizzola J, Minero C, et al. Phototransformation of selected human-used macrolides in surface water: Kinetics, model predictions and degradation pathways[J]. Water Research, 2009, 43(7): 1959-1967
Xie Q, Chen J W, Zhao H X, et al. Different photolysis kinetics and photooxidation reactivities of neutral and anionic hydroxylated polybrominated diphenyl ethers[J]. Chemosphere, 2013, 90 (2): 188-194
[19]
Espinoza L A T, Neamtu M, Frimmel F H. The effect of nitrate, Fe(Ⅲ) and bicarbonate on the degradation of bisphenol A by simulated solar UV-irradiation[J]. Water Research, 2007, 41(19): 4479-4487
[20]
Qiang Z M, Adams C. Potentiometric determination of acid dissociation constants (pKa) for human and veterinary antibiotics[J]. Water Research, 2004, 38(12): 2874-2890
[21]
Wei X X, Chen J W, Xie Q, et al. Distinct photolytic mechanisms and products for different dissociation species of ciprofloxacin[J]. Environment Science & Technology, 2013, 47(9): 4284-4290
[22]
Wenk J, von Gunten U, Canonica S. Effect of dissolved organic matter on the transformation of contaminants induced by excited triplet states and the hydroxyl radical[J]. Environment Science & Technology, 2011, 45(4): 1334-1340
[23]
Jiao S J, Zheng S R, Yin D Q, et al. Aqueous photolysis of tetracycline and toxicity of photolytic products to luminescent bacteria[J]. Chemosphere, 2008,73(3): 377-382
[24]
Park H R, Chung K Y, Lee H C, et al. Ionization and divalent cation complexation of quinolone antibiotics in aqueous solution[J]. Bulletin of the Korean Chemical Society, 2000, 21(9):849-854
[25]
Urbaniak B, Mrestani Y, Kokot Z J, et al. Investigation of interaction of fluoroquinolones with aluminum, iron and magnesium ions using capillary zone eletrophoresis[J]. Chromatographia, 2007, 65(7/8): 489-492
[26]
Haag W R, Yao C C D. Rate constants for reaction of hydroxyl radicals with several drinking-water contaminants[J]. Environmental Science & Technology, 1992, 26(5): 1005-1013
