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Potential effects of rainwater-borne H2O2 on competitive
degradation of herbicides and in the presence of humic acid

Qin, J; Li, Y; Li, S; Li, H; Lin, C

Potential effects of rainwater-borne H2O2 on competitive
degradation of herbicides and in the presence of humic acid Thumbnail


Authors

J Qin

Y Li

S Li

H Li

C Lin



Abstract

In a previous piece of work, we reported some preliminary experimental results showing that hydrogen peroxide at a concentration range frequently encountered in rainwater could lead to degradation of three common herbicides (diuron, butachlor and glyphosate). However, the work was limited to the observation on the effects of Fenton process on the individual herbicides. In field conditions, different types of herbicides along with other organic molecules may occur concurrently. It is unclear how different herbicides and various organic molecules compete for the available hydroxyl radical. In this study, further microcosm experiments were conducted to observe the changes in the herbicides in the scenarios where multiple herbicides or humic acid are present. The results show that humic acid impeded hydroxyl radical-driven degradation of the diuron and butachlor. However, humic acid had no significant effects on reducing glyphosate removal rate. Glyphosate could compete strongly with the humic acid for the available hydroxyl radical in the reaction systems. The reactivity of glyphosate with hydroxyl radical was much higher than those of diuron and butachlor due possibly to its relatively simpler chemical structure, as compared to either diuron or butachlor. Butachlor degradation was much weaker in the combined diuron and butachlor system than in the combined glyphosate and butachlor system. In the glyphosate-butachlor system, the opposite was observed. The findings have moved another step forward to understanding the potential role of rainwater-borne H2O2 in degrading herbicides in open water environments.

Citation

degradation of herbicides and in the presence of humic acid. Chemosphere, 170, 146-152. https://doi.org/10.1016/j.chemosphere.2016.12.021

Journal Article Type Article
Acceptance Date Dec 4, 2016
Online Publication Date Dec 5, 2016
Publication Date Mar 1, 2017
Deposit Date Dec 7, 2016
Publicly Available Date Dec 5, 2017
Journal Chemosphere
Print ISSN 0045-6535
Electronic ISSN 1879-1298
Publisher Elsevier
Volume 170
Pages 146-152
DOI https://doi.org/10.1016/j.chemosphere.2016.12.021
Publisher URL http://dx.doi.org/10.1016/j.chemosphere.2016.12.021
Related Public URLs http://www.journals.elsevier.com/chemosphere/
Additional Information Funders : Natural Science Foundation of China
Grant Number: 41271469

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