Water Resources and Environmental Institute, Xiamen University of Technology, Xiamen, 361005, China.
Key Laboratory of Drinking Water Science and Technology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing, 100085, China; University of the Chinese Academy of Sciences, Beijing, 100019, China.
Chemosphere. 2018 Sep;207:449-456. doi: 10.1016/j.chemosphere.2018.05.065. Epub 2018 May 14.
The mechanism and toxicity of TCS degradation by ClO was investigated. Intermediate products during the oxidation process were identified by GC/MS and LC/MS. A microtox bioassay and a SOS/umu assay were employed to evaluate the acute toxicity and genotoxicity of the resulting solutions during the chlorination process. The results showed that the reaction between TCS and ClO was of second-order overall. The pseudo first-order rate constants (k) exhibited significant dependence on solution pH and chlorine dioxide concentration, with the apparent second-order rate constant, k, being 7.07 × 10 Ms in the pH range of 6.80-7.02. TCS decomposition was accompanied by the accumulation of 2,4-dichlorophenol (2,4-DCP), and the maximum molar yield ratios of 2,4-DCP/TCS were in the range of 31.71%-35.43%. The major intermediates identified were 2,7/2,8-dichlorodibenzop-dioxin (2,7/2.8-ClDD), 2,4-DCP, 2,4,6-trichlorophenol (2,4,6-TCP), tetraclosan and pentaclosan. The proposed mechanism for TCS oxidation involved the cleavage of the ether link in TCS, chlorination of the phenolic ring and ring closure of a single TCS molecule. The transformation and degradation of TCS led to reduction of the acute toxicity and genotoxicity. However, irregular fluctuations in the toxicity changes indicated that the oxidation of TCS was not a simultaneous detoxification process.
研究了 ClO 降解 TCS 的机制和毒性。通过 GC/MS 和 LC/MS 鉴定了氧化过程中的中间产物。采用微毒生物测定法和 SOS/umu 测定法评价了氯化过程中产生的溶液的急性毒性和遗传毒性。结果表明,TCS 与 ClO 的反应为二级总反应。假一级速率常数(k)显著依赖于溶液 pH 和二氧化氯浓度,在 pH 为 6.80-7.02 的范围内,表观二级速率常数 k 为 7.07×10 Ms。TCS 分解伴随着 2,4-二氯苯酚(2,4-DCP)的积累,2,4-DCP/TCS 的最大摩尔产率比在 31.71%-35.43%之间。鉴定出的主要中间体为 2,7/2,8-二氯二苯并-p-二噁英(2,7/2.8-ClDD)、2,4-DCP、2,4,6-三氯苯酚(2,4,6-TCP)、四氯生和五氯生。TCS 氧化的提出机制涉及 TCS 中醚键的断裂、酚环的氯化和单个 TCS 分子的环化。TCS 的转化和降解导致急性毒性和遗传毒性降低。然而,毒性变化的不规则波动表明 TCS 的氧化不是一个同时解毒的过程。
