Microbial Community of a Hydrothermal Mud Vent Underneath the Deep-Sea Anoxic Brine Lake Urania (Eastern Mediterranean)

The composition of a metabolically active prokaryotic community thriving in hydrothermal mud fluids of the deep-sea hypersaline anoxic Western Urania Basin was characterized using rRNA-based phylogenetic analysis of a clone library. The physiologically active prokaryotic assemblage in this extreme environment showed a great genetic diversity. Most members of the microbial community appeared to be affiliated to yet uncultured organisms from similar ecosystems, i.e., deep-sea hypersaline basins and hydrothermal vents. The bacterial clone library was dominated by phylotypes affiliated with the epsilon-Proteobacteria subdivision recognized as an ecologically significant group of bacteria inhabiting deep-sea hydrothermal environments. Almost 18% of all bacterial clones were related to delta-Proteobacteria, suggesting that sulfate reduction is one of the dominant metabolic processes occurring in warm mud fluids. The remaining bacterial phylotypes were related to alpha- and beta-Proteobacteria, Actinobacteria, Bacteroides, Deinococcus-Thermus, KB1 and OP-11 candidate divisions. Moreover, a novel monophyletic clade, deeply branched with unaffiliated 16S rDNA clones was also retrieved from deep-sea sediments and halocline of Urania Basin. Archaeal diversity was much lower and detected phylotypes included organisms affiliated exclusively with the Euryarchaeota. More than 96% of the archaeal clones belonged to the MSBL-1 candidate order recently found in hypersaline anoxic environments, such as endoevaporitic microbial mats, Mediterranean deep-sea mud volcanoes and anoxic basins. Two phylotypes, represented by single clones were related to uncultured groups DHVE-1 and ANME-1. Thus, the hydrothermal mud of hypersaline Urania Basin seems to contain new microbial diversity. The prokaryotic community was significantly different from that occurring in the upper layers of the Urania Basin since 60% of all bacterial and 40% of all archaeal phylotypes were obtained only from mud fluids. The uniqueness of the composition of the active prokaryotic community could be explained by the complex environmental conditions at the site. The interaction of oxygenated warm mud fluids with the cold hypersaline brine of the Urania Basin seems to simultaneously select for various metabolic processes, such as aerobic and anaerobic heterotrophy, sulfide- and methane-dependent chemotrophy along with anaerobic oxidation of methane, sulfate- and metal-reduction.     

Biodiversity of denitrifying and dinitrogen-fixing bacteria in an acid forest soil

Isolated soil DNA from an oak-hornbeam forest close to Cologne, Germany, was suitable for PCR amplification of gene segments coding for the 16S rRNA and nitrogenase reductase (NifH), nitrous oxide reductase (NosZ), cytochrome cd(1)-containing nitrite reductase (NirS), and Cu-containing nitrite reductase (NirK) of denitrification. For each gene segment, diverse PCR products were characterized by cloning and sequencing. None of the 16S rRNA gene sequences was identical to any deposited in the data banks, and therefore each of them belonged to a noncharacterized bacterium. In contrast, the analyzed clones of nifH gave only a few different sequences, which occurred many times, indicating a low level of species richness in the N2-fixing bacterial population in this soil. Identical nifH sequences were also detected in PCR amplification products of DNA of a soil approximately 600 km distant from the Cologne area. Whereas biodiversity was high in the case of nosZ, only a few different sequences were obtained with nirK. With respect to nirS, cloning and sequencing of the PCR products revealed that many false gene segments had been amplified with DNA from soil but not from cultured bacteria. With the 16S rRNA gene data, many sequences of uncultured bacteria belonging to the Acidobacterium phylum and actinomycetes showed up in the PCR products when isolated DNA was used as the template, whereas sequences obtained for nifH and for the denitrification genes were closely related to those of the proteobacteria. Although in such an experimental approach one has to cope with the enormous biodiversity in soils and only a few PCR products can be selected at random, the data suggest that denitrification and N2 fixation are not genetic traits of most of the uncultured bacteria.     

口虾蛄肠道细菌种群多样性的分子分析

目的探讨口虾蛄肠道细菌种群的多样性。方法通过不依赖于分离培养的分子生物学分析方法,以直接提取虾蛄肠道细菌的总DNA为模板经过PCR扩增16S DNA,然后经与T载体连接建立质粒文库。用限制性内切酶(BsuRⅠ和Hin6Ⅰ)对阳性克隆的PCR扩增产物进行限制性酶切片段长度多态性(RFLP)分析,选取有代表性的克隆进行测序。结果16S DNA序列通过CLUSTALX进行多序列比对及NCBI数据库中的BLAST分析后发现口虾蛄肠道细菌主要分成4类:未培养细菌,未培养支原体科细菌,未培养δ变形菌和马特斯支原体。结论口虾蛄肠道细菌种类较为简单,且多为未培养的细菌。     

Biodiversity of Denitrifying and Dinitrogen-Fixing Bacteria in an Acid Forest Soil

Isolated soil DNA from an oak-hornbeam forest close to Cologne, Germany, was suitable for PCR amplification of gene segments coding for the 16S rRNA and nitrogenase reductase (NifH), nitrous oxide reductase (NosZ), cytochrome cd₁-containing nitrite reductase (NirS), and Cu-containing nitrite reductase (NirK) of denitrification. For each gene segment, diverse PCR products were characterized by cloning and sequencing. None of the 16S rRNA gene sequences was identical to any deposited in the data banks, and therefore each of them belonged to a noncharacterized bacterium. In contrast, the analyzed clones of nifH gave only a few different sequences, which occurred many times, indicating a low level of species richness in the N₂-fixing bacterial population in this soil. Identical nifH sequences were also detected in PCR amplification products of DNA of a soil approximately 600 km distant from the Cologne area. Whereas biodiversity was high in the case of nosZ, only a few different sequences were obtained with nirK. With respect to nirS, cloning and sequencing of the PCR products revealed that many false gene segments had been amplified with DNA from soil but not from cultured bacteria. With the 16S rRNA gene data, many sequences of uncultured bacteria belonging to the Acidobacterium phylum and actinomycetes showed up in the PCR products when isolated DNA was used as the template, whereas sequences obtained for nifH and for the denitrification genes were closely related to those of the proteobacteria. Although in such an experimental approach one has to cope with the enormous biodiversity in soils and only a few PCR products can be selected at random, the data suggest that denitrification and N₂ fixation are not genetic traits of most of the uncultured bacteria.     

Design and Experimental Application of a Novel Non-Degenerate Universal Primer Set that Amplifies Prokaryotic 16S rRNA Genes with a Low Possibility to Amplify Eukaryotic rRNA Genes

The deep sequencing of 16S rRNA genes amplified by universal primers has revolutionized our understanding of microbial communities by allowing the characterization of the diversity of the uncultured majority. However, some universal primers also amplify eukaryotic rRNA genes, leading to a decrease in the efficiency of sequencing of prokaryotic 16S rRNA genes with possible mischaracterization of the diversity in the microbial community. In this study, we compared 16S rRNA gene sequences from genome-sequenced strains and identified candidates for non-degenerate universal primers that could be used for the amplification of prokaryotic 16S rRNA genes. The 50 identified candidates were investigated to calculate their coverage for prokaryotic and eukaryotic rRNA genes, including those from uncultured taxa and eukaryotic organelles, and a novel universal primer set, 342F-806R, covering many prokaryotic, but not eukaryotic, rRNA genes was identified. This primer set was validated by the amplification of 16S rRNA genes from a soil metagenomic sample and subsequent pyrosequencing using the Roche 454 platform. The same sample was also used for pyrosequencing of the amplicons by employing a commonly used primer set, 338F-533R, and for shotgun metagenomic sequencing using the Illumina platform. Our comparison of the taxonomic compositions inferred by the three sequencing experiments indicated that the non-degenerate 342F-806R primer set can characterize the taxonomic composition of the microbial community without substantial bias, and is highly expected to be applicable to the analysis of a wide variety of microbial communities.     

Impact of cultivation on characterisation of species composition of soil bacterial communities

The species composition of culturable bacteria in Scottish grassland soils was investigated using a combination of Biolog and 16S rDNA analysis for characterisation of isolates. The inclusion of a molecular approach allowed direct comparison of sequences from culturable bacteria with sequences obtained during analysis of DNA extracted directly from the same soil samples. Bacterial strains were isolated on Pseudomonas isolation agar (PIA), a selective medium, and on tryptone soya agar (TSA), a general laboratory medium. In total, 12 and 21 morphologically different bacterial cultures were isolated on PIA and TSA, respectively. Biolog and sequencing placed PIA isolates in the same taxonomic groups, the majority of cultures belonging to the Pseudomonas (sensu stricto) group. However, analysis of 16S rDNA sequences proved more efficient than Biolog for characterising TSA isolates due to limitations of the Microlog database for identifying environmental bacteria. In general, 16S rDNA sequences from TSA isolates showed high similarities to cultured species represented in sequence databases, although TSA-8 showed only 92.5% similarity to the nearest relative, Bacillus insolitus. In general, there was very little overlap between the culturable and uncultured bacterial communities, although two sequences, PIA-2 and TSA-13, showed >99% similarity to soil clones. A cloning step was included prior to sequence analysis of two isolates, TSA-5 and TSA-14, and analysis of several clones confirmed that these cultures comprised at least four and three sequence types, respectively. All isolate clones were most closely related to uncultured bacteria, with clone TSA-5.1 showing 99.8% similarity to a sequence amplified directly from the same soil sample. Interestingly, one clone, TSA-5.4, clustered within a novel group comprising only uncultured sequences. This group, which is associated with the novel, deep-branching Acidobacterium capsulatum lineage, also included clones isolated during direct analysis of the same soil and from a wide range of other sample types studied elsewhere. The study demonstrates the value of fine-scale molecular analysis for identification of laboratory isolates and indicates the culturability of approximately 1% of the total population but under a restricted range of media and cultivation conditions.     

Archaeal and bacterial communities of heavy metal contaminated acidic waters from zinc mine residues in Sepetiba Bay

Mining of metallic sulfide ore produces acidic water with high metal concentrations that have harmful consequences for aquatic life. To understand the composition and structure of microbial communities in acid mine drainage (AMD) waters associated with Zn mine tailings, molecular diversity of 16S genes was examined using a PCR, cloning, and sequencing approach. A total of 78 operational taxonomic units (OTUs) were obtained from samples collected at five different sites in and around mining residues in Sepetiba Bay, Brazil. We analyzed metal concentration, physical, chemical, and microbiological parameters related to prokaryotic diversity in low metal impacted compared to highly polluted environments with Zn at level of gram per liter and Cd–Pb at level of microgram per liter. Application of molecular methods for community structure analyses showed that Archaea and Bacteria groups present a phylogenetic relationship with uncultured environmental organisms. Phylogenetic analysis revealed that bacteria present at the five sites fell into seven known divisions, α-Proteobacteria (13.4%), β-Proteobacteria (16.3%), γ-Proteobacteria (4.3%), Sphingobacteriales (4.3%), Actinobacteria (3.2%) Acidobacteria (2.1%), Cyanobacteria (11.9%), and unclassified bacteria (44.5%). Almost all archaeal clones were related to uncultivated Crenarchaeota species, which were shared between high impacted and low impacted waters. Rarefaction curves showed that bacterial groups are more diverse than archaeal groups while the overall prokaryotic biodiversity is lower in high metal impacted environments than in less polluted habitats. Knowledge of this microbial community structure will help in understanding prokaryotic diversity, biogeography, and the role of microorganisms in zinc smelting AMD generation and perhaps it may be exploited for environmental remediation procedures in this area.     

Bacterial Communities Inside and Surrounding Soil Iron-Manganese Nodules

Bacterial community structures of a Fe-Mn nodule sample and its surrounding soil were investigated using PCR, amplified ribosomal DNA restriction analysis, cloning and sequencing methods. Result showed that phylogenetically diverse bacteria were present in the nodule and soil samples, and Acidobacteria- and Proteobacteria-affiliated bacteria dominated in both samples. However, Firmicutes were only found in the nodules, while the soil had much more Acidobacteria and Verrucomicrobia than the nodules. Many clones retrieved in this study closely resembled the clones previously obtained from environments with high metal contents. These findings may shed light on the biological formation of Mn oxides in soil environment.     

Specific single-cell isolation and genomic amplification of uncultured microorganisms

We in this study describe a new method for genomic studies of individual uncultured prokaryotic organisms, which was used for the isolation and partial genome sequencing of a soil archaeon. The diversity of Archaea in a soil sample was mapped by generating a clone library using group-specific primers in combination with a terminal restriction fragment length polymorphism profile. Intact cells were extracted from the environmental sample, and fluorescent in situ hybridization probing with Cy3-labeled probes designed from the clone library was subsequently used to detect the organisms of interest. Single cells with a bright fluorescent signal were isolated using a micromanipulator and the genome of the single isolated cells served as a template for multiple displacement amplification (MDA) using the Phi29 DNA polymerase. The generated MDA product was afterwards used for 16S rRNA gene sequence analysis and shotgun-cloned for additional genomic analysis. Sequence analysis showed >99% 16S rRNA gene homology to soil crenarchaeotal clone SCA1170 and shotgun fragments had the closest match to a crenarchaeotal BAC clone previously retrieved from a soil sample. The system was validated using Methanothermobacter thermoautotrophicus as single-cell test organism, and the validation setup produced 100% sequence homology to the ten tested regions of the genome of this organism.     

Enrichment of previously uncultured bacteria from natural complex communities by adhesion to solid surfaces

The adhesion to inert solid surfaces was explored as a novel approach for the enrichment of previously uncultured bacteria from natural microbial communities. Enrichments on solid steel, glass and synthetic polymeric surfaces were established using samples from five freshwater lakes, a marine microbial mat and an alpine soil, and were subsequently analysed by molecular fingerprinting and sequencing of their 16S rRNA gene fragments. The majority of the enriched phylotypes grouped with the Alphaproteobacteria, Betaproteobacteria or Bacteroidetes and in several cases were related to typical biofilm‐forming species and genera. Most enrichments were most closely related to previously uncultured phylotypes and none had previously been cultivated from the original environments even when applying improved high throughput liquid cultivation techniques. Of the 13 phylotypes enriched from freshwater samples, seven were previously unknown, three matched so‐far uncultured environmental clones, and three were identical to previously cultivated bacteria. Of the 17 phylotypes recovered from soil, 12 were previously unknown with five of these phylotypes representing novel genera, whereas five phylotypes were identical to previously cultured soil bacteria. The feasibility of the biofilm‐enrichment approach was exemplified by the successful isolation of a not‐yet cultured Betaproteobacterium that constituted a discernible component of the alpine soil microbial community in situ and exhibited only 93% similarity to its closest cultured relative. Based on these results, cultivation on solid surfaces represents a promising approach to recover isolates that have so far escaped cultivation as suspended cultures in liquid media.     

Culture-independent nested PCR method reveals high diversity of actinobacteria associated with the marine sponges <Emphasis Type="Italic">Hymeniacidon perleve</Emphasis> and <Emphasis Type="Italic">Sponge</Emphasis> sp.

A culture-independent nested polymerase chain reaction (PCR) technique was used to investigate the diversity of actinobacteria communities associated with the sponges Hymeniacidon perleve and Sponge sp. The phylogenetic affiliation of sponge-derived actinobacteria was then assessed by 16S rRNA sequencing of cloned DNA fragments. A total of 196 positive clones were screened by restriction fragment length polymorphism (RFLP) analysis; 48 unique operational taxonomic units (OTUs) were selected for sequencing. Rarefaction analysis indicated that the clone libraries represented 93% and 94% of the total estimated diversity for the two species, respectively. Phylogenetic analysis of sequence data revealed representatives of various phylogenetic divisions, which were related to the following ten actinobacterial genera: Acidimicrobium, Corynebacterium, Propionibacterium, Actinomyces, Micrococcus, Microbacterium, Streptomyces, Mycobacterium, Cellulosimicrobium, Sporichthya, and unidentified actinobacterial clones. A sponge-specific, previously uncultured actinobacteria community grouped within the subclass Acidimicrobidae was discovered from both H. perleve and Sponge sp. Sequences belonging to Acidimicrobium in the H. perleve and the Sponge sp. clone libraries represented 33% and 24% of the clones, respectively. In the Sponge sp. clone library Mycobacterium dominated, accounting for 70% of all clones. The presence of Acidimicrobium and mycobacteria within two sponges can lay the groundwork for attempts to culture these interesting bacteria for industrial applications.     

Characterization of Soil Bacterial Communities in Rhizospheric and Nonrhizospheric Soil of Panax ginseng

A culture-independent approach was used to evaluate the bacterial community in rhizospheric and nonrhizospheric soil in which Panax ginseng had grown for 3?years. For each sample, soil was randomly collected from multiple sampling points and mixed thoroughly before genomic DNA extraction. Universal primers 27f and 1492r were used to amplify 16S rRNA genes. Clone libraries were constructed using the amplified 16S rRNA genes, and 192 white clones were chosen for further sequencing. After digestion with restriction endonuclease, 44 operational taxonomic units (OTUs) were generated for rhizospheric and 21 OTUs for nonrhizospheric soils, and the clones of each OTU were sequenced. Blast analysis showed that bacillus, acidobacteria, and proteobacteria were the dominant populations in rhizospheric soil, and proteobacteria were dominant in nonrhizospheric soil. Phylogenetic results showed that bacillus and acidobacteria were clustered into the group of uncultured bacteria in rhizospheric soil; however, proteobacteria were the unique dominant in nonrhizospheric soil.     

PHACCS,an online tool for estimating the structure and diversity of uncultured viral communities using metagenomic information

Background  

Phages, viruses that infect prokaryotes, are the most abundant microbes in the world. A major limitation to studying these viruses is the difficulty of cultivating the appropriate prokaryotic hosts. One way around this limitation is to directly clone and sequence shotgun libraries of uncultured viral communities (i.e., metagenomic analyses). PHACCS, Phage Communities from Contig Spectrum, is an online bioinformatic tool to assess the biodiversity of uncultured viral communities. PHACCS uses the contig spectrum from shotgun DNA sequence assemblies to mathematically model the structure of viral communities and make predictions about diversity.     

昆明盐矿古老岩盐沉积中的原核生物多样性

应用PCR-DGGE和rRNA分析法研究了昆明盐矿古老岩盐沉积中的原核生物多样性。样品的细菌DGGE分析得到27条带,古菌得到18条带。样品与纯培养得到的19个属菌株的DGGE图谱对比分析发现,细菌18个属菌株,只有1个属菌株与样品中的1条带迁移位置都不一致;古菌1个属的菌株不与样品中任何条带迁移位置一致。表明纯培养所得菌株并非该环境中的优势类群。同时,建立了样品细菌和古菌的16S rDNA克隆文库,从中分别挑取36个细菌克隆和20个古菌克隆进行ARDRA分析。细菌可分为10个OTUs,其中3个OTUs是优势类群,分别占38.9%,25.0%,16.7%,其余7个OTUs各含有1个克隆。古菌分为8个OTUs,没有明显的优势类群。每个OTU的代表克隆16S rDNA序列分析表明,细菌分属3大类群:α-Proteobacteria,γ-Proteobacteria和Actinobacteria,以Pseudomonas属菌为优势,含有其它岩盐沉积中没有发现的Actinobacteria。古菌主要是Halorubrum属、Haloterrigena属菌和未培养古菌。本研究表明,昆明盐矿古老岩盐沉积具有较丰富的原核生物多样性,含有大量未知的、未培养或不可培养的原核生物,但在原核生物物种组成和丰度上,免培养与此前的纯培养研究结果存在一定差异。因此,结合使用两类方法才能较全面地认识高盐极端环境微生物的多样性。     

Genetic diversity of soil microorganisms assessed by analysis ofhsp70 (dnaK) sequences

The genetic diversity of a soil microbial community was assessed by analysis of clonedhsp70 sequences. A clone library was generated by polymerase chain reaction-mediated amplification of a 650-base pair fragment of thehsp70 gene, using DNA extracted from soil, without culturing the microorganisms. Fifty-five random clones were sequenced and their amino acid sequences deduced. Analysis of the amino acid sequence of the clones revealed the presence of signature sequences in common with known prokaryotic and lower eukaryotic HSP70 homologs. None of the 55 analyzed sequences were identical to each other or to a published sequence. These results confirm the presence of considerable genetic diversity within soil microbial communities, the major proportion of which remains uncharacterized.     

Archaeal Community Revealed by 16s rRNA and Fluorescence in situ Hybridization in a Sulphuric Hydrothermal Hot Spring, Northern Taiwan

Summary The archaeal community composition of Yangmingshan National Park in northern Taiwan was investigated by 16S rRNA and fluorescence in situ hybridization (FISH). Optimization of tetrameric restriction enzyme (TRE) was performed to achieve efficient digestion and differentiation in the restriction fragment length polymorphism (RFLP) fragments, and AciI, BstUI and RsaI were shown to be the optimal TREs for TRE-RFLP. Nine clones were obtained in the studies, with clones M70 and M6 being found to be phylogenetically affiliated to Sulfolobus and Caldisphaera in domain Crenarchaeota, respectively, whereas seven other clones were found to be affiliated to an uncultured and unidentified archaeon isolated from thermoacidic environments. In FISH, soil and water region cells were hybridized with DAPI (4′, 6-diamidino-2-phenylindole) and specific fluorescently labelled probes. 15.69 and 7.16% of the DAPI-stained cells hybridized with universal archaeal probe ARC915 and sulphate-reducing bacterial probe SRB385, respectively.     

不同耕作方式稻田土壤细菌的多样性

对水稻-油菜双序列复种免耕(NT)、翻耕(CT)稻田土壤细菌多样性进行研究。采用平板计数法计数可培养细菌及放线菌数量,Miseq测序分析物种多样性及群落结构。结果表明,分别把3个样点的NT、CT耕作方式土样细菌、放线菌菌落总数之和作为NT、CT可培养细菌数量进行比较,NT可培养菌落总数比CT高10%;土壤未培养样品中共获得224 563条有效序列,其中NT 114 433条、CT 110 220条;指数分析表明CT相对丰度略低于NT、群落多样性略低于NT;样本中的细菌种类覆盖35个门、269个科、373个属。尽管从不同分类水平上,CT、NT样本物种相对丰度没有显著性差异,但NT中细菌门最大的变形菌门和有待深入研究的酸杆菌门物种的序列多于CT,厌氧绳菌科、未分类的硝化螺旋菌科和亚硝化单胞菌科序列多于CT,另外,未知和未培养的科、属水平上物种多于CT,根据物种特性,认为它们可能对固氮、降解纤维素等改变土壤理化特性,维持免耕土壤肥力起着重要的作用。     

Prokaryotic Community Characterization in a Mesothermic and Water- Flooded Oil Reservoir in Colombia

The prokaryotic community at the “La Cira-Infantas” oil field, located in Colombia's Middle Magdalena Valley Basin, was characterized using 16S rRNA gene sequence analysis. This characterization is a first-step in assessing the dynamics of microbial degradation and defining strategies that may increase oil recovery and quality at the site. Two 16S rRNA gene libraries were generated from the total community DNA extracted from production water using both Eubacterial and Archaea universal primers. Sequence analysis of the libraries indicated that a large percentage of Eubacteria clones were affiliated with class α-, β- and δ-Proteobacteria, Clostridia and Bacteroidetes. Archaea clones were dominated by Methanobacteria and Methanococci. Annotations at these generic levels indicate that the prokaryotic community has the following metabolic capacities: i) reduction of sulfur-compounds and fermentation, ii) nitrate reduction and sulfide oxidation, iii) decomposition of aromatic compounds, and iv) methane production. These results are discussed in the context of the importance of the characterized metabolic capacities for oil biodegradation in the mesothermic and water-flooded environment of this reservoir.     

Phylogenetic analysis of the fecal flora of the wild pygmy loris

The bacterial diversity in fecal samples from the wild pygmy loris was examined with a 16S rDNA clone library and restriction fragment length polymorphism analysis. The clones were classified as Firmicutes (43.1%), Proteobacteria (34.5%), Actinobacteria (5.2%), and Bacteroidetes (17.2%). The 58 different kinds of 16S rDNA sequences were classified into 16 genera and 20 uncultured bacteria. According to phylogenetic analysis, the major genera within the Proteobacteria was Pseudomonas, comprising 13.79% of the analyzed clone sequences. Many of the isolated rDNA sequences did not correspond to known microorganisms, but had high homology to uncultured clones found in human feces. Am. J. Primatol. 72:699–706, 2010. © 2010 Wiley‐Liss, Inc.     

围栏对青藏高原不同类型草地土壤原核微生物多样性的影响

草地退化是草地植被的倒退演替,导致生物多样性丧失和生态系统功能退化,围栏是恢复退化草地生态系统功能的有效管理措施。微生物是土壤中的重要组成部分,在维持草地生态系统稳定性和功能方面发挥着重要作用。然而,目前尚不清楚围栏如何影响不同类型草地土壤微生物群落。以青藏高原草甸、草原和荒漠草地三种草地类型的退化草地为研究对象,设置围栏和放牧两种处理,采用Illumina HiSeq高通量测序技术研究了围栏对土壤原核微生物群落多样性和群落结构的影响。结果表明：围栏未显著影响草甸土壤原核微生物的丰富度、Shannon多样性和均匀度,但显著增加了草原土壤的原核微生物的丰富度、Shannon多样性和均匀度（P<0.05）,稍降低了荒漠草地土壤原核微生物的丰富度、Shannon多样性和均匀度（P=0.086、0.072和0.099）。在围栏处理的草地中,土壤原核微生物丰富度、Shannon多样性和均匀度与年均温、干旱度和pH显著负相关（P<0.01）,与年平均降水量、溶解性有机碳、地上生物量和植物多样性显著正相关（P<0.01）。在放牧处理的草地中,土壤原核微生物丰富度、Shannon多样性和均匀度与年均温和干旱度显著负相关（P<0.05）,但原核微生物丰富度和Shannon多样性与所有土壤理化和植被因素均无显著相关性。冗余分析（RDA）表明,不同类型草地土壤原核微生物群落结构发生了显著的变化,并沿草甸、草原和荒漠草地的过渡逐渐转变（P<0.001）。方差分解分析（VPA）进一步表明,原核微生物群落结构变化主要受年均温、年平均降水量、干旱度和pH的驱动。围栏显著改变了不同类型草地中部分样点土壤原核微生物群落结构。三种草地类型的主要原核微生物优势门均为放线菌门（Actinobacteria）、变形菌门（Proteobacteria）和酸杆菌门（Acidobacteria）。放线菌门（Actinobacteria）的相对丰度在荒漠草地土壤中最高,而变形菌门（Proteobacteria）和酸杆菌门（Acidobacteria）的相对丰度在草甸土壤中最高。此外,不同类型围栏和放牧草地土壤原核微生物类群的相对丰度均无显著差异。研究表明不同类型草地土壤原核微生物群落对围栏的响应不同,这为因地制宜制定草地管理措施提供了数据支持,为草地退化的防治提供了理论支持。