生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
4期
598-602
,共5页
余贤美%安淼%王海荣%沈广宁%田寿乐%孙晓莉%王路红
餘賢美%安淼%王海榮%瀋廣寧%田壽樂%孫曉莉%王路紅
여현미%안묘%왕해영%침엄저%전수악%손효리%왕로홍
枯草芽孢杆菌%微生物种群%BIOLOG分析%功能多样性
枯草芽孢桿菌%微生物種群%BIOLOG分析%功能多樣性
고초아포간균%미생물충군%BIOLOG분석%공능다양성
Bacillus subtilis%microbial communities%BIOLOG analysis%functional diversity
土壤微生物是维持土壤质量的重要组成部分,是土壤中生物活性的具体体现。土壤微生物多样性的变异可反映其对环境的响应与适应,能敏感反映生态系统的功能演变和生态环境的变化。本研究采用固体平板法研究了枯草芽孢杆菌(Bacillus subtilis)Bs-15对板栗(Castanea mollissimaBL)土壤微生物种群数量的影响,并通过BIOLOG ECO微孔板法分析Bs-15对板栗土壤功能多样性的影响。结果表明,接种Bs-15后,土壤中细菌数量比对照略有增加,但差异不显著;接种后放线菌的数量与对照相比有所减少,第7天达到极显著(p<0.01)差异,之后差异变小,第14 d开始,处理与对照之间放线菌数量基本持平;真菌数量则先增加后减少,第7天开始接种后的真菌数量与对照相比达极显著(p<0.01)差异。BIOLOG ECO微孔板分析显示,Bs-15使得土壤中微生物的AWCD值变大,72小时以后,AWCD值与对照相比差异达到极显著(p<0.01)水平;接种Bs-15后增大了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多样性指数分别增加了4.09%、6.01%和7.20%,对对照相比差异均达到极显著水平(p<0.01),Simpson均匀度和McIntosh均匀度分别增加了2.07%和2.53%,与对照相比差异均达到显著水平(p<0.05)。本研究结果表明,Bs-15不但提高了板栗土壤微生物的整体活性,丰富了土壤微生物种群,有利于保持和促进土壤肥力和健康状况;还提高了板栗土壤微生物功能多样性,使板栗土壤微生态系统功能更加稳定。
土壤微生物是維持土壤質量的重要組成部分,是土壤中生物活性的具體體現。土壤微生物多樣性的變異可反映其對環境的響應與適應,能敏感反映生態繫統的功能縯變和生態環境的變化。本研究採用固體平闆法研究瞭枯草芽孢桿菌(Bacillus subtilis)Bs-15對闆慄(Castanea mollissimaBL)土壤微生物種群數量的影響,併通過BIOLOG ECO微孔闆法分析Bs-15對闆慄土壤功能多樣性的影響。結果錶明,接種Bs-15後,土壤中細菌數量比對照略有增加,但差異不顯著;接種後放線菌的數量與對照相比有所減少,第7天達到極顯著(p<0.01)差異,之後差異變小,第14 d開始,處理與對照之間放線菌數量基本持平;真菌數量則先增加後減少,第7天開始接種後的真菌數量與對照相比達極顯著(p<0.01)差異。BIOLOG ECO微孔闆分析顯示,Bs-15使得土壤中微生物的AWCD值變大,72小時以後,AWCD值與對照相比差異達到極顯著(p<0.01)水平;接種Bs-15後增大瞭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多樣性指數分彆增加瞭4.09%、6.01%和7.20%,對對照相比差異均達到極顯著水平(p<0.01),Simpson均勻度和McIntosh均勻度分彆增加瞭2.07%和2.53%,與對照相比差異均達到顯著水平(p<0.05)。本研究結果錶明,Bs-15不但提高瞭闆慄土壤微生物的整體活性,豐富瞭土壤微生物種群,有利于保持和促進土壤肥力和健康狀況;還提高瞭闆慄土壤微生物功能多樣性,使闆慄土壤微生態繫統功能更加穩定。
토양미생물시유지토양질량적중요조성부분,시토양중생물활성적구체체현。토양미생물다양성적변이가반영기대배경적향응여괄응,능민감반영생태계통적공능연변화생태배경적변화。본연구채용고체평판법연구료고초아포간균(Bacillus subtilis)Bs-15대판률(Castanea mollissimaBL)토양미생물충군수량적영향,병통과BIOLOG ECO미공판법분석Bs-15대판률토양공능다양성적영향。결과표명,접충Bs-15후,토양중세균수량비대조략유증가,단차이불현저;접충후방선균적수량여대조상비유소감소,제7천체도겁현저(p<0.01)차이,지후차이변소,제14 d개시,처리여대조지간방선균수량기본지평;진균수량칙선증가후감소,제7천개시접충후적진균수량여대조상비체겁현저(p<0.01)차이。BIOLOG ECO미공판분석현시,Bs-15사득토양중미생물적AWCD치변대,72소시이후,AWCD치여대조상비차이체도겁현저(p<0.01)수평;접충Bs-15후증대료토양미생물다양성지수,기중Shannon다양성지수、Simpson다양성지수화McIntosh다양성지수분별증가료4.09%、6.01%화7.20%,대대조상비차이균체도겁현저수평(p<0.01),Simpson균균도화McIntosh균균도분별증가료2.07%화2.53%,여대조상비차이균체도현저수평(p<0.05)。본연구결과표명,Bs-15불단제고료판률토양미생물적정체활성,봉부료토양미생물충군,유리우보지화촉진토양비력화건강상황;환제고료판률토양미생물공능다양성,사판률토양미생태계통공능경가은정。
Soil microbial communities and its functional biodiversity are important ecologically-relevant information about the soil biological quality and fertility, and the variation of biodiversity would reflect its response and adaptation to the environment, and reflect the functional evolution of ecosystem and changes of ecological environment. In this research, we investigate the potential effects of Bs-15 on the microbial community and its functional diversity of soil microbes from chestnut plants via solid plate method and BIOLOG ECO microplate assay respectively. The results showed that after Bs-15 inoculation, the number of bacteria in soil increased without significant difference, and the number of actinomycetes decreased a little at first, with significant difference at p<0.01 level in 7 d, after that the number of actinomycetes increased, and recovered to the control lever since 14 d. While the number of fungi increase first and then decreased, with significant difference atp<0.01 level since 7 d. The BIOLOG ECO plates analysis showed that average well color development (AWCD) value of the microbial communities in the Bs-15-inoculated soil increased a little before 72 h, and significantly (p<0.01) after 72 h. In the presence Bs-15, the parameters (Shannon index, Simpson index and McIntosh index) of the functional diversity of the soil microbial communities increased 4.09%, 6.01% and 7.20% respectively, with significant difference atp<0.01 level, and Shannon uniformity and McIntosh uniformity increased 2.07% and 2.53% respectively, with significant difference atp<0.05 level, which well reflected positive changes in utilization capacity of Bs-15 and the soil microbial communities, and indicated that Bs-15 may trigger an increase in total microbial activity of chestnut soil, increase of soil fertility, enrichment of soil communities and stabilization of soil ecosystem.
