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毒死蜱甲基与含硫物质的亲核取代反应。

Nucleophilic substitution reactions of chlorpyrifos-methyl with sulfur species.

作者信息

Wu Tong, Jans Urs

机构信息

Chemistry Department, The City College of The City University of New York, New York, New York 10031, USA.

出版信息

Environ Sci Technol. 2006 Feb 1;40(3):784-90. doi: 10.1021/es051468a.

Abstract

Chlorpyrifos-methyl is widely used in the control of insects on certain stored grain, including wheat, barley, oats, rice, and sorghum. The reactions of chlorpyrifos-methyl with hydrogensulfide/bisulfide (H2S/HS-), polysulfides (Sn(2-)), thiophenolate (PhS-), and thiosulfate (S2O3(2-)) were examined in well-defined aqueous solutions over a pH range from 5 to 9. The rates are first-order in the concentration of the different reduced sulfur species. The resulting data indicate that chlorpyrifos-methyl undergoes a S(N)2 reaction with the reduced sulfur species. The transformation products indicate that the nucleophilic substitution of reduced sulfur species occurs at the carbon atom of a methoxy group to form the desmethyl chlorpyrifos-methyl. The formation of trichloropyridinol, a minor degradation product, could be attributed entirelyto hydrolysis. The reaction of chlorpyrifos-methyl with thiophenolate leads to the formation of the corresponding methylated sulfur compound. The resulting pseudo-first-order rate constant for chlorpyrifos-methyl with bisulfide yielded a second-order rate constant of 2.2 (+/- 0.1) x 10(-3) M(-1) s(-1). The determined second-order rate constants show that the reaction of chlorpyrifos-methyl with HS- is of the same order of magnitude as the reaction of chlorpyrifos-methyl with S2O3(2-) with a second-order rate constant of 1.0 (+/- 0.1) x 10(-3) M(-1) s(-1). The second-order rate constant for chlorpyrifos-methyl with polysulfides (3.1 (+/- 0.3) x 10(-2) M(-1) s(-1)) is of the same order of magnitude as the one with thiophenolate (2.1 (+/- 0.2) x 10(-2) M(-1) s(-1)). The second-order rate constant for the reaction of polysulfides is approximately 1 order of magnitude greater than that for the reaction with HS-. When the determined second-order rate constants are multiplied by the concentration of HS-, polysulfides and thiosulfate reported in salt marshes and porewaters, predicted half-lives show that the inorganic reduced sulfur species present at environmentally relevant concentrations may represent an important sink for phosphorothionate triesters in coastal marine environments.

摘要

甲基毒死蜱广泛用于防治某些储存谷物上的害虫,包括小麦、大麦、燕麦、水稻和高粱。在pH值为5至9的明确水溶液中,研究了甲基毒死蜱与硫化氢/硫氢化物(H2S/HS-)、多硫化物(Sn(2-))、苯硫酚盐(PhS-)和硫代硫酸盐(S2O3(2-))的反应。反应速率对不同还原态硫物种的浓度呈一级反应。所得数据表明,甲基毒死蜱与还原态硫物种发生SN2反应。转化产物表明,还原态硫物种的亲核取代发生在甲氧基的碳原子上,形成去甲基甲基毒死蜱。微量降解产物三氯吡啶醇的形成可完全归因于水解。甲基毒死蜱与苯硫酚盐的反应导致相应甲基化硫化合物的形成。甲基毒死蜱与硫氢化物的拟一级反应速率常数产生的二级反应速率常数为2.2(±0.1)×10-3 M-1 s-1。所测定的二级反应速率常数表明,甲基毒死蜱与HS-的反应与甲基毒死蜱与S2O3(2-)的反应具有相同的数量级,后者的二级反应速率常数为1.0(±0.1)×10-3 M-1 s-1。甲基毒死蜱与多硫化物的二级反应速率常数(3.1(±0.3)×10-2 M-1 s-1)与与苯硫酚盐的二级反应速率常数(2.1(±0.2)×10-2 M-1 s-1)具有相同的数量级。多硫化物反应的二级反应速率常数比与HS-反应的二级反应速率常数大约高1个数量级。当将所测定的二级反应速率常数乘以盐沼和孔隙水中报告的HS-、多硫化物和硫代硫酸盐的浓度时,预测的半衰期表明,环境相关浓度下存在的无机还原态硫物种可能是沿海海洋环境中硫代磷酸酯三酯的重要汇。

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