Effects of repeated applications of fungicide carbendazim on its persistence and microbial community in soil

Carbendazim, a systemic benzimidazole fungicide, is applied repeatedly to control of plant diseases including soilborne diseases, over a growing season. Studies were carried out under laboratory conditions to assess the effects of repeated carbendazim applications on its persistence and microbial community in soil. The results indicate that dissipation of carbendazim in soil was accelerated with its application frequency. The degradation rate constant of carbendazim was increased significantly from 0.074 d-1 to 0.79 d-1. The corresponding half-life was shorten markedly from 9.3 d to 0.9 d after four repeated applications. No significant inhibitory effect of carbendazim on soil microbial utilization of the carbon sources was observed after first treatment, but a slight increase in average well color development (AWCD) was shown after second, third, and fourth applications. It suggested that soil microorganisms become adapted to carbendazim after repeated application. Simpson and Shannon indexes of soil microbial community from carbendazim treated soil were also similar to those from the control soil, indicating that the richness and dominant character of soil microorganisms remain unchangeable after repeated application. However, after first, second, and third addition of carbendazim, McIntosh indexes on day 21 were significantly increased as compared with the control, suggesting that balance of soil microorganisms was altered due to the enrichment of the specific carbendazim-adapting strains in soil.     

Microbial response to CaCO3 application in an acid soil in southern China

Calcium carbonate (CaCO₃) application is widely used to ameliorate soil acidification. To counteract soil and bacterial community response to CaCO₃ application in an acidic paddy soil in southern China, a field experiment was conducted with four different dosages of CaCO₃ addition, 0, 2.25, 4.5 and 7.5?tons/ha, respectively. After one seasonal growth of rice, soil physicochemical properties, soil respiration and bacterial communities were investigated. Results showed that soil pH increased accordingly with increasing dose of CaCO₃ addition, and 7.5?tons/ha addition increased soil pH to neutral condition. Moderate dose of CaCO₃ application (4.5?tons/ha) significantly increased soil dissolved organic carbon (DOC) and dissolved organic nitrogen (DON) content, enhanced soil respiration, while the excessive CaCO₃ application (7.5?tons/ha) decreased these soil properties. High-throughput sequencing results illustrated that moderate dose of CaCO₃ application increased the richness and alpha diversity of soil bacterial community. Compared with control, the relative abundance of Anaerolineaceae family belonging to Chloroflexi phylum increased by 38.7%, 35.4% and 24.5% under 2.25, 4.5 and 7.5?tons/ha treatments, respectively. Redundancy analysis (RDA) showed that soil pH was the most important factor shaping soil bacterial community. The results of this study suggest that proper dose of CaCO₃ additions to acid paddy soil in southern China could have positive effects on soil properties and bacterial community.     

Soil fungistasis and its relations to soil microbial composition and diversity: a case study of a series of soils with different fungistasis

Fungistasis is one of the important approaches to control soil-borne plant pathogens.Some hypotheses about the mechanisms for soil fungistasis had been established,which mainly focused on the soil bacterial community composition,structure,diversity as well as function.In this study,the bacterial community composition and diversity of a series of soils treated by autoclaving,which coming from the same original soil sample and showing gradient fungistasis to the target soil-borne pathogen fungi Fusarium gr...     

Changes in functional structure of soil bacterial communities due to fungicide and insecticide applications in canola

The fungicide vinclozolin and insecticide λ-cyhalothrin are widely used to control canola (Brassica spp.) diseases and insect pests, respectively, in Canada. We investigated non-target effects of these pesticides, applied at recommended rates, on soil microbial biomass, functional bacterial diversity and functional community structure of soil bacteria (by evaluating patterns of C substrate utilization) in canola rhizosphere and bulk soil at three locations in Alberta from 2002 to 2004. Experimental treatments were (a) untreated control, (b) vinclozolin fungicide foliar application, (c) λ-cyhalothrin insecticide foliar application, and (d) vinclozolin and λ-cyhalothrin applications. No significant pesticide effects on soil microbial biomass or functional bacterial diversity were observed, but the functional structures of soil bacteria were altered. In 1 of 12 cases, the control treatment had a different soil bacterial community structure from the 3 pesticide treatments. The fungicide treatment had different bacterial community structures from the control or insecticide treatments in 3 of 12 cases, the insecticide treatment had different community structures from the control or fungicide treatments in 4 of 12 cases, and the combined fungicide and insecticide treatment had different community structures from the other treatments in 3 of 12 cases. Therefore, evaluating soil bacterial functional structures revealed pesticide effects that were not detected when bacterial diversity or microbial biomass were measured in canola rhizosphere or bulk soil.     

Soil fungistasis and its relations to soil microbial composition and diversity: A case study of a series of soils with di erent fungistasis

Fungistasis is one of the important approaches to control soil-borne plant pathogens.Some hypotheses about the mechanisms for soil fungistasis had been established,which mainly focused on the soil bacterial community composition,structure,diversity as well as function.In this study,the bacterial community composition and diversity of a series of soils treated by autoclaving,which coming from the same original soil sample and showing gradient fungistasis to the target soil-borne pathogen fungi Fusarium gr...     

Diversity surveys of soil bacterial community by cultivation--based methods and molecular fingerprinting techniques

By combining the cultivation methods with molecular fingerprinting techniques, the diversity surveys of soil bacterial community in 13 areas of China were carded out. The cultivable heterotrophic diversity was investigated by colony morphology on solid LB medium. Genetic diversity was measured as bands on denaturing gradient gel electrophoresis(DGGE) by the extraction and purification of the total soil DNA, and amplification of bacterial 16S rDNA fragments by polymerase chain reaction(PCR). The Shannon-Wiener indices of diversity(H), richness(S) and evenness(EH) were employed to estimate the diversity of soil bacterial community. The results showed that there was an obvious diversification existed in soil from the different areas. However, the genetic diverslty estimated by PCR-DGGE can provide more comprehensive information on bacterial community than the cultivation-based methods. Therefore, it is suggested to combine the traditional methods with genetic fingerprinting techniques to survey and estimate soil bacterial diversity.     

水田土壤细菌群落对不同重金属污染水平的响应分析——以A县为例

重金属污染问题长期存在于土壤环境中,并对土壤细菌群落结构造成了较大影响,从而引起了广泛的研究.本文选取水田土壤为测试样本,通过高通量测序技术和土壤性质化验对样本进行处理,采用Spearman相关性分析等统计分析方法对不同重金属污染水平下的水田土壤细菌群落进行结构和多样性分析.结果显示,研究区内土壤样点的重金属污染水平可被划分为4个等级,其中,轻度重金属污染水平(LL)区域土壤细菌群落的多样性指数总体上显著低于其他区域,即轻度污染的环境将降低该区域的细菌群落多样性.Nitrospira和Candidatus_Solibacter等菌属在重度重金属污染水平(SL)区域中显示出较强的重金属耐受性.Proteobacteria、Firmicutes和Gemmatimonadetes等菌门在不同等级重金属污染水平区域中表现出一定的耐受性.此外,土壤含水量(SWC)、酸碱度(pH)、速效磷(AP)、有效钾(AK)、总氮(TN)、有机质(OM)、铜(Cu)、铅(Pb)、砷(As)和锌(Zn)等土壤环境因子与细菌群落结构存在显著相关性(p0.05).因此,应该尽快开发利用这些具有重金属耐性和生物修复功能的微生物,为粮食作物的健康生长提供适宜的土壤环境.     

不同秸秆还田方式对旱地红壤细菌群落、有机碳矿化及玉米产量的影响

为探讨长期不同秸秆还田方式对旱地红壤细菌群落、有机碳矿化及玉米产量的影响,基于中国科学院鹰潭红壤生态实验站设置的不同秸秆还田方式长期定位试验(9 a),选取不施肥(CK)、单施化肥(N)、化肥+秸秆(NS)、化肥+秸秆猪粪配施(NSM)和化肥+生物质炭(NB)这5个处理,通过高通量测序技术研究旱地红壤细菌多样性和群落结构差异,揭示了细菌群落对土壤有机碳矿化和玉米产量的影响机制.结果表明:①不同秸秆还田处理下,红壤化学性质发生显著变化,其中NSM处理对旱地红壤肥力的综合提升效果最好,并显著提高了玉米产量.②相比于CK和N处理,秸秆还田处理均提高了细菌多样性.主成分分析发现,秸秆还田处理改变了土壤细菌群落结构.③秸秆还田处理提高了土壤有机碳矿化能力,NSM处理的土壤有机碳矿化速率和累积矿化量最高.④相关性分析表明土壤AN/AP比值显著改变了细菌群落结构,结构方程模型结果表明,土壤AN/AP比可能通过影响土壤细菌多样性和群落结构,间接提高了土壤有机碳矿化能力和玉米产量.本研究结果为协同提升旱地红壤生物多样性和耕地地力水平,保障健康红壤生态系统和粮食安全提供了科学依据.     

有机肥处理对旱地红壤细菌群落及玉米生产力的影响

为探明旱地红壤细菌群落特征及玉米生产力对不同有机肥处理的响应，基于自2002年设置在中国科学院鹰潭红壤生态实验站的有机培肥长期定位试验，采用Illumina高通量测序，研究不同有机肥（不施肥，M0；低量有机肥，M1；高量有机肥，M2；高量有机肥加石灰，M3）处理下土壤细菌群落多样性和结构以及玉米生产力的变化.结果发现，与M0相比，土壤pH、有机质（SOM）、全氮（TN）、全磷（TP）含量和玉米生产力在不同有机肥（M1、M2和M3）处理下均显著增加，其中M3处理的提升效果最佳.施用有机肥显著提高了土壤细菌群落的Shannon、Evenness、Chao1与ACE指数，重塑了细菌群落结构.基于随机森林模型分析，土壤性质中的pH和TP显著影响土壤细菌多样性，而pH、SOM、TP和TN对土壤细菌群落结构影响显著.相关性分析和结构方程模型分析表明，土壤TP和SOM可以通过改变土壤细菌多样性和群落组成间接影响玉米生产力.研究结果从指导我国南方红壤区农田合理施肥的角度，为农田土壤质量提高及耕地产能提升提供科学依据.     

模拟酸雨对福州平原稻田土壤细菌丰度及多样性的影响

为了探讨酸雨对稻田土壤细菌的影响,以福州平原某稻田为研究对象,测定和分析模拟不同酸度酸雨处理下早、晚稻土壤细菌群落组成及其丰度.结果表明：模拟酸雨处理提高了早稻土壤细菌的多样性,但却降低了晚稻土壤细菌的多样性;酸雨改变了稻田土壤细菌的丰度及群落结构,经模拟不同酸度的酸雨处理,稻田土壤细菌的优势菌属及其丰度并不一致;早稻pH3.5处理组与早稻对照组之间的物种多样性及群落结构差异最大,晚稻pH2.5处理组与晚稻对照组之间的物种多样性及群落结构差异最大;在酸雨作用下,溶杆菌属（Lysobacter）和产黄杆菌属（Rhodanobacter）的丰度明显升高,而马赛菌属（Massilia）的丰度则显著降低,说明溶杆菌属（Lysobacter）和产黄杆菌属（Rhodanobacter）为耐受酸雨的主要菌属,马赛菌属（Massilia）则为受酸雨影响最大的菌属;细菌属H16的相对丰度与土壤电导率（EC）呈极显著负相关（P<0.01）,Lysobacter的相对丰度与土壤pH值呈极显著负相关（P<0.01）,Arenimonas的相对丰度与土壤总有机碳（SOC）呈极显著正相关（P<0.01）.     

Nitrogen deposition alters soil chemical properties and bacterial communities in the Inner Mongolia grassland

Nitrogen deposition has dramatically altered biodiversity and ecosystem functioning on the earth; however, its effects on soil bacterial community and the underlying mechanisms of these effects have not been thoroughly examined. Changes in ecosystems caused by nitrogen deposition have traditionally been attributed to increased nitrogen content. In fact, nitrogen deposition not only leads to increased soil total N content, but also changes in the NH₄⁺-N content, NO₃^--N content and pH, as well as changes in the heterogeneity of the four indexes. The soil indexes for these four factors, their heterogeneity and even the plant community might be routes through which nitrogen deposition alters the bacterial community. Here, we describe a 6-year nitrogen addition experiment conducted in a typical steppe ecosystem to investigate the ecological mechanism by which nitrogen deposition alters bacterial abundance, diversity and composition. We found that various characteristics of the bacterial community were explained by different environmental factors. Nitrogen deposition decreased bacterial abundance that is positively related to soil pH value. In addition, nitrogen addition decreased bacterial diversity, which is negatively related to soil total N content and positively related to soil NO₃^--N heterogeneity. Finally, nitrogen addition altered bacterial composition that is significantly related to soil NH₄⁺-N content. Although nitrogen deposition significantly altered plant biomass, diversity and composition, these characteristics of plant community did not have a significant impact on processes of nitrogen deposition that led to alterations in bacterial abundance, diversity and composition. Therefore, more sensitive molecular technologies should be adopted to detect the subtle shifts of microbial community structure induced by the changes of plant community upon nitrogen deposition.     

生态修复区盐地碱蓬群落碳、氮储量及其影响因素分析——以辽河三角洲大凌河口湿地为例

为揭示土壤环境变化及植物群落结构对修复初期河口湿地碳汇格局的影响,本文运用方差分解方法测算了群落尺度辽河口湿地生态修复区碳、氮储量分配格局,并定量阐明了盐度、含水率、高程等环境因子对碳、氮储量的影响贡献率。结果表明：（1）春、秋季,土壤碳储量分别为41.93 t/ha和44.72 t/ha,氮储量分别为8.65 t/ha和8.80 t/ha;植物碳储量分别为8.97 kg/ha和180.48 kg/ha,氮储量分别为0.61 kg/ha和16.27 kg/ha。（2）植物碳氮储量与株高、盖度呈显著对数函数关系,与土壤微生物量碳氮及土壤氮的周转速率呈显著负相关性。（3）土壤含水率、群落盖度和高程是影响碳、氮储量的最主要因子,地形高程和含水率能解释幼苗期碳、氮储量分异的45.6%以及成熟期碳、氮储量分异的54.5%。研究结果证明了微地形改造、生态补水等措施对湿地碳汇能力的提升具有重要作用。     

内蒙古河套灌区不同盐碱程度的土壤细菌群落多样性

采用变性梯度凝胶电泳(DGGE)技术对内蒙古河套灌区三种不同盐碱程度土壤(盐土,强度盐化土,轻度盐化土)不同深度(0~20cm和20~30cm)土壤细菌16S rDNA V3~V6可变区扩增片段进行分析,并对土壤理化性质进行了测定.结果表明:细菌群落多样性随土壤盐碱化程度的加深而减少(轻度盐化土 > 强度盐化土 > 盐土),随土壤深度的增加而降低(细菌群落多样性0~20cm土层大于20~30cm土层).细菌Shannon-Wiener指数在轻度盐化土中最大为3.36,在强度盐化土和盐土分别为3.05和2.49.不同盐碱程度土壤以细菌相似系数聚类,分为0~20cm层与20~30cm层两大族群,土壤细菌群落Shannon-Wiener指数在0~20cm层中(盐土为3.04,强度盐化土为3.29,轻度盐化土为3.36)均大于在20~30cm层(盐土为2.49,强度盐化土为3.05,轻度盐化土为3.14).相关性分析和典范对应分析表明,土壤w(EC)、pH值、w(SOC)、w(TP)是土壤细菌群落结构多样性的显著影响因素,不同盐碱程度土壤中细菌群落的Shannon-Wiener指数与土壤w(EC)(r=-0.542,P < 0.05)、pH(r=-0.526,P < 0.05)呈显著负相关,与土壤w(SOC)(r=0.700,P < 0.01)和w(TP)(r=0.805,P < 0.01)呈极显著正相关.w(EC)和pH对盐碱土壤细菌群落结构的影响力最大. 回收DGGE图谱中20个优势条带进行测序分析,结果显示,变形菌纲(α-变形菌纲、β-变形菌纲、γ-变形菌纲和δ-变形菌纲)是盐碱土壤的主要类群.     

呼伦贝尔沙区土壤细菌群落结构与功能预测

以呼伦贝尔沙区裸沙地、草地、沙地樟子松（Pinus sylvestris var. mongolica）人工林和沙地樟子松天然林四种生境土壤为研究对象,采用野外调查、16S rRNA基因高通量测序和PICRUSt功能预测相结合的研究方法比较分析不同生境土壤细菌群落结构和潜在功能组成特征.结果显示：呼伦贝尔沙区沙地樟子松天然林土壤细菌多样性最高,人工林土壤细菌多样性最低,Shannon指数分别为（8.623±0.193）和（7.432±0.028）,不同生境土壤细菌alpha和beta多样性存在显著差异.草地、沙地樟子松人工林和天然林土壤中变形菌门（Proteobacteria）相对丰度最高,均值分别为29.83%±1.14%、34.73%±1.99%、31.95%±0.21%,裸沙地土壤放线菌门（Actinobacteria）相对丰度最高,均值为26.13%±0.43%.不同生境土壤细菌主要优势属为慢生根瘤菌属（Bradyrhizobium）、RB41,其相对丰度在四种生境中的均值分别为5.29%±2.24%、4.22%±1.23%.PICRUSt功能预测共得到6个一级功能层,40个二级功能层,土壤细菌功能较为丰富,土壤细菌群落在环境信息处理、代谢、遗传信息处理和有机系统方面功能活跃.沙地樟子松天然林核苷酸代谢、酶家族、氨基酸代谢、碳水化合物代谢功能基因较为丰富,保证了沙地樟子松天然林土壤细菌的存活,使其具有较高的多样性.呼伦贝尔沙区不同生境土壤细菌功能基因丰度波动,反映了四种生境的土壤细菌群落组成及多样性的变化,指示了不同生境功能基因对土壤细菌群落的影响规律,可为预测和理解沙区土壤细菌代谢潜力和功能提供参考借鉴.     

双酚A对稻田土壤细菌群落特征及土壤酶活的影响

采用FQ-PCR(实时荧光定量PCR)、PCR-DGGE(PCR扩增和变性梯度凝胶电泳)技术和土壤酶学研究法对不同浓度双酚A污染的稻田土壤细菌群落特征及土壤酶活性进行了研究.结果表明:经双酚A高浓度处理〔即w(双酚A)分别为200和1 000 mg/kg〕的稻田土壤细菌数量显著低于未受污染的对照(CK)和低浓度处理〔w(双酚A)为50 mg/kg〕,并且高浓度处理分别较CK处理(3.64×109 g-1)下降90.44%和99.83%.细菌16S rDNA V3可变区DGGE图谱表明,受双酚A污染的土壤明显产生了数条特征性条带.UPGMA(非加权组平均法)聚类分析进一步表明,双酚A污染明显改变了稻田土壤的细菌群落组成.2次采样土壤总体酶活性参数均为CK>w(双酚A)为50 mg/kg处理>w(双酚A)为200 mg/kg处理>w(双酚A)为1 000 mg/kg处理.可见,高浓度的双酚A污染明显影响稻田土壤细菌数量以及细菌优势菌群,使农田土壤细菌群落多样性发生变化.      

Soil microbial response to herbicides applied to glyphosate-resistant canola

Adoption of glyphosate-resistant canola (Brassica napus L.) has increased glyphosate applications to this crop, and concerns have been raised about unintended consequences of these multiple applications. A field trial was conducted to evaluate the effects of pre-seed and in-crop glyphosate and alternative herbicides on soil microbial community functional structure, diversity and biomass. Pre-seed treatments were 2,4-D, glyphosate and 2,4-D + glyphosate, and in-crop treatments were glyphosate applied once, glyphosate applied twice, ethalfluralin, ethalfluralin + sethoxydim + ethametsulfuron + clopyralid, and sethoxydim + ethametsulfuron. Rhizosphere and bulk soil was collected at flowering stage of canola and analyzed for bacterial community-level substrate utilization patterns and microbial biomass C (MBC). Where differences were significant, pre-seed application of both 2,4-D and glyphosate altered the functional structure and reduced the functional diversity of soil bacteria, but increased MBC. These effects were not necessarily concurrent. The reduction in functional diversity was due to reduction in evenness, which means that the soil where both pre-seed herbicides had been applied was dominated by only few functional groups. In 1 year, two in-crop applications of glyphosate also reduced the functional diversity of soil bacteria when applied after pre-seed 2,4-D, as did in-crop sethoxydim + ethametsulfuron following pre-seed glyphosate. Even though significant differences between herbicides were fewer than non-significant differences, i.e., there were no changes in soil microbial community structure, diversity or biomass in response to glyphosate or alternative herbicides applied to glyphosate-resistant canola in most cases, the observed changes in soil microbial communities could affect soil food webs and biological processes.     

生物合成Bio-MnOx对砷污染土壤的稳定化效果分析

通过室内模拟实验,研究了生物合成锰氧化物（Bio-MnO_x）材料对污染土壤中砷（As）的稳定化效果。结果表明:1）Bio-MnO_x的加入能够有效降低砷的浸出量,其中水溶性砷含量由2.28 mg/kg降至0.86 mg/kg,减少62.3%;2）五步连续法浸提结果发现,Bio-MnO_x处理后水溶态砷和表面吸附态砷的相对含量显著降低;3）风险分析进一步表明Bio-MnO_x处理后砷的环境风险降低;4）基于细菌16s RNA生物多样性分析表明,经过Bio-MnO_x处理后,土壤微生物多样性的丰富度显著增加;5）微生物群落结构分析发现,土壤微生物群落结构发生明显演替,属水平下的细菌结构由芽孢杆菌属向梭状芽孢菌属、丛毛单胞菌属、敏感梭菌属等转变。总体而言,Bio-MnO_x是一种比较有效的修复砷污染土壤的生物材料。     

长期覆膜条件下农田土壤微生物群落的响应特征

地膜覆盖是农业生产中保障粮食增产增收的重要措施.为明确长期地膜覆盖对农田土壤微生物群落结构特征的影响,采集4个不同覆膜年限的农田土壤,利用高通量测序技术分析土壤细菌和真菌群落结构变化,探讨长期覆膜农田土壤中微生物群落的变化及其对微生物生态环境效应的影响.结果表明,长期覆膜对土壤细菌多样性无显著影响,但降低真菌多样性;长期覆膜使土壤细菌酸杆菌（Acidobacteriota）和真菌被孢霉菌（Mortierellomycetes）物种丰度降低,增加土壤放线菌（Actinobacteriota）物种丰度.长期覆膜可以使土壤富集细菌中的芽孢杆菌（Bacillus）和类诺卡氏菌（Nocardioidaceae）,及真菌中的肉座菌目（Hypocreales）和曲霉菌（Aspergillus）等有益微生物菌群.然而长期覆膜使土壤真菌共生网络变得简单而脆弱,其关键物种仅有子囊菌门中的粪壳菌目（Sordariales）中的未知菌属一种,因此对农田土壤生态环境带来潜在风险.本研究为深化了解长期覆膜对农田微生物生态环境效应的影响提供理论依据.     

Dynamic changes in microbial activity and community structure during biodegradation of petroleum compounds： A laboratory experiment

With 110-d incubation experiment in laboratory,the responses of microbial quantity,soil enzymatic activity,and bacterial community structure to different amounts of diesel fuel amendments were studied to reveal whether certain biological and biochemical characteristics could serve as reliable indicators of petroleum hydrocarbon contamination in meadow-brown soil,and use these indicators to evaluate the actual ecological impacts of 50-year petroleum-refining wastewater irrigation on soil function in Sbenfu irrigation area.Results showed that amendments of≤1000 mg/kg diesel fuel stimulated the growth of aerobic beterotrophic bacteria,and increased the activity of soil dehydrogenase,hydrogenperoxidase,polypbenol oxidase and substrate-induced respiration.Soil bacterial diversity decreased slightly during the first 15 d of incubation and recovered to the control level on day 30.The significant decrease of the colony forming units of soil actinomyces and filamentous fungi can be taken as the sensitive biological indicators of petroleum contamination when soil was amended with≥5000 mg/kg diesel fuel.The sharp decrease in urease activity was recommended as the most sensitive biochemical indicator of heavy diesel fuel contamination.The shifts in community structure to a community documented by Sphingomonadaceae withinα-subgroup of Proteobacteria could be served as a sensitive and precise indicator of diesel fuel contamination.Based on the results described in this paper,the soil function in Shenfu irrigation area was disturbed to some extent.     

微生物有机肥对樱桃园土壤细菌群落的影响

采用田间试验,探究微生物有机肥对樱桃园土壤细菌群落的影响.利用高通量测序和实时定量PCR技术,研究不施肥（CK）、常规施肥（CN）和施微生物有机肥（CB）处理土壤细菌数量、多样性和群落结构的变化.结果表明,施微生物有机肥显著提高了土壤有机质、全氮、碱解氮和速效磷含量.结合16S rRNA基因拷贝数和α^-多样性指数结果,发现施微生物有机肥能提高细菌数量,且提高细菌多样性和丰富度.不同施肥处理显著改变了细菌群落结构.门水平上,变形菌门、酸杆菌门、厚壁菌门、芽单胞菌门、放线菌门为优势类群,共占细菌总量的74.3%~85.1%.目水平上,CB处理中Acidobacteria_Gp4和Gp6相对丰度显著低于CK处理,而Acidobacteria_Gp7较CK处理增加了75.4%.冗余分析结果表明,环境因子解释了细菌群落变化的92.3%,土壤有机质、全氮含量和pH值是造成樱桃园土壤细菌群落结构差异的主要原因.因此,施用微生物有机肥能显著提高土壤养分含量、土壤细菌数量及群落多样性,对于培肥地力极为重要.