中国生物防治学报
中國生物防治學報
중국생물방치학보
CHINESE JOURNAL OF BIOLOGICAL CONTROL
2014年
4期
497-502
,共6页
余贤美%侯长明%王海荣%安淼%张琼%王中堂%周广芳
餘賢美%侯長明%王海榮%安淼%張瓊%王中堂%週廣芳
여현미%후장명%왕해영%안묘%장경%왕중당%주엄방
枯草芽孢杆菌%定殖%微生物种群%土壤微生物%功能多样性
枯草芽孢桿菌%定殖%微生物種群%土壤微生物%功能多樣性
고초아포간균%정식%미생물충군%토양미생물%공능다양성
Bacillus subtilis%colonization%microbial communities%soil microorganism%functional diversity
为明确枯草芽孢杆菌Bs-15在枣树定殖能力及其对土壤微生物多样性的影响,本研究通过盆栽试验研究了菌株Bs-15在枣树体内和土壤中的定殖情况,通过固体平板法和Biolog方法分析了菌株Bs-15对土壤微生物种群数量和功能多样性的影响。结果显示,通过浇灌法和涂抹叶片法,菌株Bs-15均能在枣树根、茎、叶和土壤中成功定殖,定殖量达到104 cfu/g以上的水平。接种菌株Bs-15后,土壤中细菌和放线菌的数量略有增加,而真菌数量的增长速度极显著下降。Biolog ECO微生物平板分析结果显示,菌株Bs-15提高了土壤中微生物的每孔颜色平均变化率,72 h后达到极显著差异;提高土壤微生物多样性指数,其中Shannon多样性指数、Simpson多样性指数和McIntosh多样性指数的差异达到极显著水平,Simpson均匀度和McIntosh均匀度的差异达到显著水平。本研究结果表明菌株Bs-15具有良好的定殖能力,提高了土壤微生物的整体活性以及土壤微生物种群和功能多样性。
為明確枯草芽孢桿菌Bs-15在棘樹定殖能力及其對土壤微生物多樣性的影響,本研究通過盆栽試驗研究瞭菌株Bs-15在棘樹體內和土壤中的定殖情況,通過固體平闆法和Biolog方法分析瞭菌株Bs-15對土壤微生物種群數量和功能多樣性的影響。結果顯示,通過澆灌法和塗抹葉片法,菌株Bs-15均能在棘樹根、莖、葉和土壤中成功定殖,定殖量達到104 cfu/g以上的水平。接種菌株Bs-15後,土壤中細菌和放線菌的數量略有增加,而真菌數量的增長速度極顯著下降。Biolog ECO微生物平闆分析結果顯示,菌株Bs-15提高瞭土壤中微生物的每孔顏色平均變化率,72 h後達到極顯著差異;提高土壤微生物多樣性指數,其中Shannon多樣性指數、Simpson多樣性指數和McIntosh多樣性指數的差異達到極顯著水平,Simpson均勻度和McIntosh均勻度的差異達到顯著水平。本研究結果錶明菌株Bs-15具有良好的定殖能力,提高瞭土壤微生物的整體活性以及土壤微生物種群和功能多樣性。
위명학고초아포간균Bs-15재조수정식능력급기대토양미생물다양성적영향,본연구통과분재시험연구료균주Bs-15재조수체내화토양중적정식정황,통과고체평판법화Biolog방법분석료균주Bs-15대토양미생물충군수량화공능다양성적영향。결과현시,통과요관법화도말협편법,균주Bs-15균능재조수근、경、협화토양중성공정식,정식량체도104 cfu/g이상적수평。접충균주Bs-15후,토양중세균화방선균적수량략유증가,이진균수량적증장속도겁현저하강。Biolog ECO미생물평판분석결과현시,균주Bs-15제고료토양중미생물적매공안색평균변화솔,72 h후체도겁현저차이;제고토양미생물다양성지수,기중Shannon다양성지수、Simpson다양성지수화McIntosh다양성지수적차이체도겁현저수평,Simpson균균도화McIntosh균균도적차이체도현저수평。본연구결과표명균주Bs-15구유량호적정식능력,제고료토양미생물적정체활성이급토양미생물충군화공능다양성。
We evaluated the colonization ofB. subtilis Bs-15 in jujube (Zizyphus jujuba Mill. ‘Jinsi 4’) plants and its rhizospheric soil via pot experiments, and measured its effects on the community structure and functional diversity of soil microbes. Results showed that the Bs-15 colonized well in jujube plant and soil by irrigating and leaf daubing, with no less than 104 cfu/g of colonization amount. The number of bacteria and actinomycetes in soil increased but without significance, while that of fungi decreased significantly after Bs-15 inoculation. The Biolog ECO microplates analysis showed that averaged well color development (AWCD) value of the microbial communities in the Bs-15 inoculated soil increased a little before 72 h, and increased significantly after 72 h. In the presence of Bs-15, the parameters (Shannon index, Simpson index and McIntosh index) of the functional diversity of the soil microbial communities increased significantly at 0.01 level, and Shannon uniformity and McIntosh uniformity increased significantly at 0.05 level.