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| Effects of Imazapic on Soil Microbial Communities and Soil Enzyme Activities in Paddy Fields |
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| DOI:10.16768/j.issn.1004-874X.2022.10.010 |
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| Abstract: |
| 【Objective】The study was conducted to monitor the effects of imazapic on the number of culturable
microorganisms, the number of herbicide-resistant microorganisms and soil enzyme activities of rice fields in Guangdong
area, aiming to provide a reference basis for the effects of herbicide application on soil ecology in agricultural fields.
【Method】The number of culturable microorganisms and herbicide-resistant bacteria in paddy field soil under water direct�seeding and dry direct-seeding modes were monitored by plate counting method. Activities of soil urease, phosphatase,
peroxidase and peroxidase were determined by sodium phenol-sodium hypochlorite colorimetric method, sodium phosphate
colorimetric method, o-phenylene triol-ether extraction method and potassium permanganate titration method. 【Result】After
planting one crop of rice, the application of imazapic enhanced soil peroxidase activity significantly by 30% under water direct�seeding mode, and increasing soil acid phosphatase and urease enzyme activities significantly by 136.2% and 9.6% respectively
under dry direct-seeding mode. Under both direct-seeding modes, the imazapic had no significant influence on the number of
culturable fungi. However, under water direct-seeding mode, the number of bacteria and imazapic-tolerant bacteria decreased
by 28.7% and 29.5%, respectively. The total number of actinomycetes and imazapic-resistant actinomycetes decreased by
24.2% and 40.7%, respectively. Under the dry direct-seeding mode, imazapic treatment had little effect on bacteria. The
total number of actinomycetes decreased by 26.7%, and the number of herbicide-tolerant actinomycetes decreased by 45.9%.
【Conclusion】The application of imazapic was effective in enhancing soil peroxidase activity under water direct-seeding
mode, and enhancing the enzyme activities of soil acid phosphatase and urease under dry direct-seeding mode. Compared with
manual weeding treatments, application of imazapic under water direct-seeding mode inhibited the growth of soil bacteria, and
the application of herbicide inhibited the growth of soil actinomycetes under both water- and dry direct-seeding modes. |
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