Effects of Flavonoids on ~(14)C[7,10]-Benzo[a]pyrene Degradation in Root Zone Soil

Xiujin Qiu; Brian E. Reed; Roger C. Viadero

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Effects of Flavonoids on ~(14)C[7,10]-Benzo[a]pyrene Degradation in Root Zone Soil

机译：黄酮类化合物对根区土壤〜（14）C [7,10]-苯并[a] py的降解作用

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Secondary plant metabolites, such as flavonoids, may have an important role in developing organic contaminant-degrading enzymes; however, the effects are complicated. The addition of morin (a naturally occurring hydroxylated flavonoid) and flavone (a synthetic nonhydroxylated flavonoid) at concentrations greater than 10 μmol/L hindered ~(14)C-B[a]P mineralization in root zone soil slurries. The reduction of ~(14)C-B[a]P mineralization was accompanied by a decreased solvent (ethyl acetate) extractability of the remaining ~(14)C-B[a]P and/or metabolites in the flavone-amended soil. In contrast, the solvent extractability of ~(14)C did not change in morin-amended soil. ~(14)C-B[a]P that remained in soil was not soluble into the water phase. The possible mechanisms of morin and flavone inhibition to B[a]P degradation are discussed.

机译：植物的次生代谢物，例如类黄酮，可能在开发降解有机污染物的酶中起重要作用；但是，效果复杂。浓度大于10μmol/ L的morin（天然存在的羟基化类黄酮）和黄酮（合成的非羟基化类黄酮）的添加阻碍了根区土壤淤浆中〜（14）C-B [a] P的矿化。〜（14）C-B [a] P矿化的减少伴随着黄酮改良土壤中剩余的〜（14）C-B [a] P和/或代谢物的溶剂（乙酸乙酯）可萃取性降低。相反，〜（14）C的溶剂萃取性在经过morin修饰的土壤中没有变化。残留在土壤中的〜（14）C-B [a] P不溶于水相。讨论了香兰素和黄酮抑制B [a] P降解的可能机制。

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《Environmental Engineering Science》 |2004年第5期|p.637-646|共10页
作者
Xiujin Qiu; Brian E. Reed; Roger C. Viadero;
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作者单位

1803 Building, Washington St. Office 82, Dow Chemical Company, Midland, MI 48674;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类环境科学、安全科学;
关键词
PAH; degradation; flavonoids; root zone; soil; sequestration;

机译：多环芳烃;降解;类黄酮;根区;土壤;螯合;
入库时间 2022-08-17 13:32:58

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Effects of Flavonoids on ~(14)C[7,10]-Benzo[a]pyrene Degradation in Root Zone Soil

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