解淀粉芽孢杆菌B9601-Y2对玉米叶际微生物群落的影响
为了明确解淀粉芽孢杆菌B9601-Y2(Y2)对施用环境微生物的影响,采用Biolog-ECO板培养法研究了其对玉米叶际微生物群落结构的动态变化。结果表明,喷施Y2 1、3和5天后,玉米叶际微生物对碳源的代谢活性(AWCD值)都显著低于空白对照,9天和12天后代谢活性开始高于空白对照;而药剂对照百菌清处理后的代谢活性均为最低(7天除外)。Y2对Shannon、 Simpson和McIntosh指数的影响较小,而百菌清对其的影响显著(前6次采样)。Y2与空白对照的叶际微生物存在相似的碳源利用种类(前4次采样),而百菌清处理的叶际微生物有其独自利用的主要碳源,与其他处理间均存在很大差异;6次采样中,对PC1贡献率大的碳源种类主要为糖类,所占比例介于31.25%~50%期间。试验说明,玉米叶际微生物对外源物质反应敏感,喷施生防菌Y2和百菌清对其群落结构均会产生影响;但Y2影响远小于百菌清。
英文摘要:
In order to clarify the effect of Bacillus amyloliquefaciens B9601-Y2 (Y2) on the application of environmental microbes, the dynamic changes of maize interstitial microbial community were studied by Biolog-ECO plate culture method.The results showed that the average well color development(AWCD) value of phyllospheric microorganisms of corn with Y2 SC spray was remarkably lower than the negative control with spray at 1, 3 and 5 days, but higher at 9 and 12 days. Chlorothalonil, however, had have much lower AWCD value than Y2 SC except for 7 day. The results of Shannon, Simpson and McIntosh analysis showed that Y2 had little effect on each index, and the effect of chlorothalonil was significant with spray at 1, 3, 5, 7 and 9 days. Principal component analysis showed that the microorganisms from the phyllosphere treated with Y2 SC and the control used the similar carbon sources, those from chlorothalonil treatment used its own preferred carbon source.Meanwhile,the contribution rate of PC1 large carbon source types of sugars, the proportion of between 31.25% to 50%. In conclusion, the effect of biocontrol strains Y2 and chlorothalonilon maize phyllosphere microbial communities were affected. However, the effect of Y2 is much smaller than that ofchlorothalonil.
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