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Degradation of Chlorotriazine Pesticides by Sulfate Radicals and the Influence of Organic Matter

机译:硫酸根离子降解氯三嗪类农药及有机物的影响

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摘要

Atrazine, propazine, and terbuthylazine are chlorotriazine herbicides that have been frequently used in agriculture and thus are potential drinking water contaminants. Hydroxyl radicals produced by advanced oxidation processes can degrade these persistent compounds. These herbicides are also very reactive with sulfate radicals (2.2-3.5 × 10~9 M~(-1) s~(-1)). However, the dealkylated products of chlorotriazine pesticides are less reactive toward sulfate radicals (e.g., desethyl-desisopropyl-atrazine (DEDIA; 1.5 × 10~8 M~(-1) s~(-1))). The high reactivity of the herbicides is largely due to the ethyl or isopropyl group. For example, desisopropyl-atrazine (DIA) reacts quickly (k = 2 × 10~9 M~(-1) s~(-1)), whereas desethyl-atrazine (DEA) reacts more slowly (k - 9.6 × 10~8 M~(-1) s~(-1)). The tert-butyl group does not have a strong effect on reaction rate, as shown by the similar second order reaction rates between desethyl-terbuthylazine (DET; k = 3.6 × 10~8 M~(-1) s~(-1)) and DEDIA. Sulfate radicals degrade a significant proportion of atrazine (63%) via dealkylation, in which deethylation significantly dominates over deisopropylation (10:1). Sulfate and hydroxyl radicals react at an equally fast rate with atrazine (k (hydroxyl radical + atrazine) = 3 × 10~9 M~(-1) s~(-1)). However, sulfate and hydroxyl radicals differ considerably in their reaction rates with humic acids (k (sulfate radical + humic acids) = 6.8 × 10~3 L mgC~(-1) s~(-1) (mgC = mg carbon); k (hydroxyl radical + humic acids) = 1.4 × 10~4 L mgC~(-1) s~(-1)). Thus, in the presence of humic acids, atrazine is degraded more efficiently by sulfate radicals than by hydroxyl radicals.
机译:阿特拉津,丙嗪和叔丁嗪是氯三嗪除草剂,在农业上经常使用,因此是潜在的饮用水污染物。通过高级氧化过程产生的羟基自由基可以降解这些持久性化合物。这些除草剂也与硫酸根自由基(2.2-3.5×10〜9 M〜(-1)s〜(-1))具有很高的反应性。但是,氯三嗪农药的脱烷基产物对硫酸根的反应性较低(例如,去乙基-去异丙基-r去津(DEDIA; 1.5×10〜8 M〜(-1)s〜(-1)))。除草剂的高反应性很大程度上归因于乙基或异丙基。例如,去异丙基-去津(DIA)反应快(k = 2×10〜9 M〜(-1)s〜(-1)),而去乙基去r津(DEA)反应更慢(k-9.6×10〜 8 M〜(-1)s〜(-1))。叔丁基对反应速率的影响不大,如去乙基叔丁基嗪(DET; k = 3.6×10〜8 M〜(-1)s〜(-1) )和DEDIA。硫酸根自由基通过脱烷基作用可降解大部分的阿特拉津(63%),其中脱乙基作用明显优于脱异丙基作用(10:1)。硫酸根和羟基自由基与阿特拉津的反应速度相同(k(羟基自由基+阿特拉津)= 3×10〜9 M〜(-1)s〜(-1))。但是,硫酸根和羟基自由基与腐殖酸的反应速率相差很大(k(硫酸根+腐殖酸)= 6.8×10〜3 L mgC〜(-1)s〜(-1)(mgC =毫克碳); k(羟基自由基+腐殖酸)= 1.4×10〜4 L mgC〜(-1)s〜(-1))。因此,在腐殖酸的存在下,at去津被硫酸根比羟基更有效地降解。

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  • 来源
    《Environmental Science & Technology》 |2015年第3期|1673-1680|共8页
  • 作者

    Holger V. Lutze; Stephanie Bircher; Insa Rapp; Nils Kerlin; Rani Bakkour; Melanie Geisler; Clemens von Sonntag; Torsten C. Schmidt;

  • 作者单位

    University of Duisburg-Essen, Instrumental Analytical Chemistry, Universitaetsstr. 5, D-45141 Essen, Germany,IWW Water Centre, Moritzstr. 26, D-45476 Muelheim an der Ruhr, Germany;

    University of Duisburg-Essen, Instrumental Analytical Chemistry, Universitaetsstr. 5, D-45141 Essen, Germany;

    University of Duisburg-Essen, Instrumental Analytical Chemistry, Universitaetsstr. 5, D-45141 Essen, Germany;

    University of Duisburg-Essen, Instrumental Analytical Chemistry, Universitaetsstr. 5, D-45141 Essen, Germany;

    University of Duisburg-Essen, Instrumental Analytical Chemistry, Universitaetsstr. 5, D-45141 Essen, Germany;

    University of Duisburg-Essen, Instrumental Analytical Chemistry, Universitaetsstr. 5, D-45141 Essen, Germany;

    University of Duisburg-Essen, Instrumental Analytical Chemistry, Universitaetsstr. 5, D-45141 Essen, Germany,Max-Planck-Institut fuer chemische Energiekonversion, Stiftstrasse 34-36, P.O. Box 101365, D-45470 Muelheim an der Ruhr, Germany;

    University of Duisburg-Essen, Instrumental Analytical Chemistry, Universitaetsstr. 5, D-45141 Essen, Germany,IWW Water Centre, Moritzstr. 26, D-45476 Muelheim an der Ruhr, Germany,Centre for Water and Environmental Research, Universitaetsstrasse 2, D-45117 Essen, Germany;

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