吴凌云, 陶传江, 宗伏霖, 朴秀英, 姜辉, 李学锋, 王成菊. 乙羧氟草醚水解动态[J]. 农药学学报, 2007, 9(1): 96-99.
    引用本文: 吴凌云, 陶传江, 宗伏霖, 朴秀英, 姜辉, 李学锋, 王成菊. 乙羧氟草醚水解动态[J]. 农药学学报, 2007, 9(1): 96-99.
    shu
    WU Ling-yun, TAO Chuan-jiang, ZONG Fu-lin, PIAO Xiu-ying, JIANG Hui, LI Xue-feng, WANG Cheng-ju. Degradation Dynamics of Fluoroglycofen-ethyl in Water[J]. Chinese Journal of Pesticide Science, 2007, 9(1): 96-99.
    Citation: WU Ling-yun, TAO Chuan-jiang, ZONG Fu-lin, PIAO Xiu-ying, JIANG Hui, LI Xue-feng, WANG Cheng-ju. Degradation Dynamics of Fluoroglycofen-ethyl in Water[J]. Chinese Journal of Pesticide Science, 2007, 9(1): 96-99.
    shu

    乙羧氟草醚水解动态

    Degradation Dynamics of Fluoroglycofen-ethyl in Water

      摘要
    • 摘要: 采用气相色谱仪,建立了水中乙羧氟草醚残留量的分析检测方法,并在室内研究了其在不同温度、不同pH值缓冲溶液中的降解动态。结果表明:乙羧氟草醚在不同温度和不同pH值条件下的降解均符合典型的一级动力学规律。在同一温度下,其水解速率常数随着pH的升高而增大;在同一pH值条件下,温度升高,降解速率加快。在25℃时,乙羧氟草醚在pH值分别为9、7、5的缓冲溶液中的降解半衰期分别为85.6 min、144.4 h和12.2 d;在50℃时,其在相应缓冲溶液中的降解半衰期分别为23.3 min、13.4 h和10.7 d。研究表明乙羧氟草醚为易水解农药。

       

      Abstract: An analytical method for residue of fluoroglycofen-ethyl in buffer solutions was established by gas chromatography.The degradation in three different buffer solutions under various temperature was studied.The results showed that the degradation of fluoroglycofen-ethyl followed the first-order kinetics.The half-lives of degradation of fluoroglycofen-ethyl in three different buffer solutions with pH value of 5,7 and 9 were 12.2 d,144.4 h and 85.6 min at 25℃,respectively,and were 10.7 d,13.4 h and 23.3 min at 50℃,respectively.The hydrolytic rate of fluoroglycofen-ethyl increased with the increasing of pH value and temperature in reaction medium.

       

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