俄罗斯堪察加地区热泉及其周边生境的泉古菌多样性

【目的】泉古菌为陆地热泉系统的主要古菌类群,可能在自然界生源元素的地球化学循环中发挥着重要作用。本研究旨在揭示俄罗斯堪察加地区热泉以及热泉周边区域的泉古菌多样性,同时基于之前已获得的我国云南地区热泉数据,比较两地区泉古菌群落差异。【方法】通过构建16S rRNA基因片段克隆文库获得序列信息和丰度,随后进行物种多样性、系统发育和群落结构差异分析。【结果】高温热泉Burlyashi Liza(BSL,89℃)中的泉古菌全部属于热变形菌纲(Thermoprotei)内的物种。中温热泉TF Vent 2(TFV,49℃)的群落结构主要由不确定的热变形菌纲类群、不确定的泉古菌类群、高温水环境泉古菌类群Ⅱ(HWCG-Ⅱ)和奇古菌下的Group1.1b类群组成。热泉周边常温环境的主要物种与热泉环境的代表性克隆pJP41一起聚成一个较大的遗传分枝。Jackknife聚类树和主坐标分析(Principal coordinates analysis,PCoA)的结果显示:温度相似的样点,其泉古菌群落结构相对来说更为相似。【结论】俄罗斯堪察加地区与我国云南地区热泉中的泉古菌存在着一定程度上的不同。陆地热泉系统影响着其周边环境的泉古菌类群。热泉中泉古菌群落结构受温度的明显影响。     

西藏米拉山土壤古茵16S rRNA及amoA基因多样性分析

[目的]本研究旨在了解西藏米拉山高寒草甸土壤中古菌及氨氧化古菌群落结构组成情况.[方法]采用未培养技术直接从土壤中提取微生物总DNA,分别利用通用引物构建古菌16S rRNA基因和氨氧化古菌amoA基因克隆文库.利用DOTUR软件将古菌和氨氧化古菌序列按照相似性97%的标准分成若干个可操作分类单元(OTUs).[结果]通过构建系统发育树,表明古菌16s rRNA基因克隆文库包括泉古菌门和未分类的古菌两大类,并且所有泉古菌均属于热变形菌纲.氨氧化古菌amoA基因克隆文库中序列均为泉古菌.古菌16s rRNA基因和古菌amoA基因克隆文库分别包括64个OTUs和75个OTUs.[结论]西藏米拉山高寒草甸土壤中古菌多样性比较丰富,表明古菌在高寒草甸土壤的氮循环中可能具有重要的作用.     

腾冲热海眼镜泉粉红色菌藻席的细菌组成分析

应用免培养法系统研究眼镜泉粉红色菌藻席的细菌组成。经过克隆筛选,测定了23个克隆的16S rDNA插入片段的近全序列。与GenBank的序列进行比对和相似性分析,结果表明,组成该菌藻席的细菌分属于Proteobacteria、Firmicutes、Bacteroidetes、Actinobacter、Deinococcus-thermus、Aquificals 6个类群(phylum),表现出了高度的细菌多样性。结合分析温度相近的5个热泉：Octopus spring、Haegindi and Fluidir spring、Olkelduhals、Grendalur spring中的菌藻席细菌组成,表明生态位相近的不同环境中,其物种组成相近。Aquificales是中性或弱碱性高温热泉菌藻席群落的优势物种。     

新疆沙湾冷泉沉积物中免培养古菌多样性初步研究

【目的】了解新疆沙湾冷泉沉积物的古菌组成及多样性。【方法】采用免培养法,液氮研磨提取冷泉沉积物总DNA,使用古菌通用引物进行16S rRNA基因扩增,构建16S rRNA基因文库。对阳性克隆进行HhaI限制性酶切分型,选出具有不同酶切图谱的序列进行测序,将所得序列与GenBank数据库中序列比对并构建16S rRNA基因系统发育树。【结果】从冷泉沉积物古菌16S rRNA基因文库中随机挑选了121个阳性克隆,共得到22个不同的可操作分类单元,BLAST结果表明全部克隆子归属于泉古菌门(Crenarchaeote)中免培养类群。系统发育分析归类为Soil-Freshwater-subsurface group和MarinegroupI,2个亚群并且各占整个文库的50%。其中40%左右的克隆子与具有无机碳和硝酸盐同化能力的泉古菌有高的相似性。此外还发现40%的克隆子与低温泉古菌类群具有很高的相似性。【结论】新疆沙湾冷泉沉积物中古菌类群多样性较低,但存有大量高度适应此低温、贫营养环境的泉古菌类群。     

免培养法对一热泉细菌多样性的初步研究

应用免培养法（Cultureindependent）对云南腾冲热海大滚锅高温热泉中细菌的多样性进行初步的分析。经过克隆筛选,测定了5个克隆的16S rDNA插入片段的近全序列,系统发育分析的结果表明,它们分属于Bacillus、Hydrogenobacter和Pseudomonas,有一个克隆尚难确定其分类地位,它属于Thermodesulfobacteriaceae科,介于Geothermbacterium属和Thermodesulfobacteria属之间。经PCR扩增出上述5个克隆16S rDNA插入序列中及环境样品总DNA中的16S rDNA V8高变区约600bp片段,进行变性梯度电泳（DGGE）。所得电泳图谱和5个序列的系统发育树不仅表明该高温热泉存在着丰富的细菌多样性,还显示了它们是该高温热泉中细菌的优势物种。     

一个新的古菌类群———奇古菌门(Thaumarchaeota)

基于16S rRNA基因的系统发育关系,古菌域(Archaea)被分为两个主要类群:广古菌门(Euryarchaeota)和泉古菌门(Crenarchaeota)。近20年来,微生物分子生态学技术的快速发展和应用显示,在中温环境中广泛存在着大量的未培养古菌,而且它们可能在自然界重要元素(N、C)的生物地球化学循环中发挥着重要作用。最初,这些未培养古菌因在16S rRNA基因系统发育上与泉古菌关系较密切而被称作中温泉古菌(non-thermophilic Crenarchaeota)。而近年来,对更多新发现的中温古菌核糖体RNA基因序列和其它分子标记物进行的分析均不支持中温泉古菌由嗜热泉古菌进化而来的假设,而揭示其可能代表古菌域中一个独立的系统发育分支。基因组学、生理生态特征等分析也显示中温泉古菌与泉古菌具有明显不同的特征。因而专家建议将这些古菌(中温泉古菌)划分为一个新的门,成为古菌域的第三个主要类群—Thaumarchaeota(意译为奇古菌门)。这一新古菌门提出后得到其他研究证据的支持和认可。本文对目前已知的奇古菌门的分类地位演化、基因组学、多样性和生理代谢特征等作一简要综述。     

西藏米拉山土壤古菌16S rRNA及amoA基因多样性?分析

摘要：【目的】硝化作用在全球土壤氮循环中具有重要的作用,虽然细菌一度被认为单独负责催化这个过程的限速步骤,但是最近一些研究结果表明泉古菌具有氨氧化的能力。本文通过构建古菌16S rRNA 基因克隆文库和氨氧化古菌amoA基因文库,分析西藏米拉山高寒草甸土壤中古菌及氨氧化古菌群落结构组成情况,为揭示青藏高原高寒草甸土壤古菌的多样性提供理论基础。【方法】采用未培养技术直接从土壤中提取微生物总DNA,分别利用通用引物构建古菌16S rRNA 基因和氨氧化古菌amoA基因克隆文库。【结果】通过构建系统发育树,表明古菌16S rRNA 基因克隆文库包括泉古菌门和未分类的古菌两大类,并且所有泉古菌均属于热变形菌纲。氨氧化古菌amoA基因克隆文库中序列均为泉古菌。通过DOTUR软件分析,古菌16S rRNA基因和古菌amoA基因克隆文库分别包括64个OTUs和 75个OTUs。【结论】西藏米拉山高寒草甸土壤中古菌多样性比较丰富,表明古菌在高寒草甸土壤的氮循环中可能具有重要的作用。所获得的一些序列与已知环境中土壤、淡水及海洋沉积物中获得的一些序列具有很高的相似性,其古菌及氨氧化古菌来自不同环境的可能性比较大,可能与青藏高原的地质历史变迁过程有关。米拉山古菌及氨氧化古菌与陆地设施土壤中相似性最高,说明与西藏米拉山高寒草甸土壤的退化有关。     

云南洱源牛街热泉原核微生物多样性分析

【目的】通过分析富含高分子有机物的云南洱源牛街热泉原核微生物16SrRNA基因克隆文库,丰富对高温热泉原核微生物多样性的认识,为进一步开发和利用该热泉微生物资源奠定基础。【方法】构建洱源牛街高温热泉原核微生物16SrRNA基因克隆文库,通过测序和序列相似性比对以及聚类分析研究该热泉原核微生物的多样性。【结果】该热泉原核微生物以细菌为主,包括变形菌门(Proteobacteria)、厚壁菌门(Firmicutes)、梭杆菌门(Fusobacteria)等在内的约10个细菌类群,其中变形菌门中的β-变形菌纲(β-Proteobacteria)为优势菌群,其次为拟杆菌门(Bacteroidetes)、绿菌门(Chlorobi);古菌的生物量和丰度较细菌少,分属广古菌(Euryarchaeota)和泉古菌(Crenarchaeota)两个类群,以广古菌为优势类群。     

新疆乌鲁木齐10号冷泉古菌群落结构多样性

[目的]探究新疆地震断裂带含硫冷泉泉水古菌群落组成及多样性.[方法]利用酶解法直接从冷泉泉水样品中提取环境总DNA,采用古菌通用引物对16S rRNA基因进行扩增,构建16S rRNA基因克隆文库,通过Alu Ⅰ和AfaⅠ两种限制性内切酶对随机挑选的115个阳性克隆子进行酶切分型,将不同酶切带型对应的克隆子送样测序,测序结果与GenBank序列进行比对并构建16S rRNA基因系统发育树.[结果]古菌克隆文库中共得到44个不同的酶切带型,BLAST序列比对和系统发育分析将它们划分于广古菌门(Euryarchaeota,94.78％)和奇古菌门(Thaumarchaeota,4.35％).奇古菌门克隆与Nitrosopumilus.sp序列相似性达到了93％;而广古菌门类群较为多样,其中,42.61％的克隆子属于RC-V cluster,20.87％与13.91％的克隆子分别属于LDS cluster和Methanomicrobiales,4.35％的克隆子与甲烷厌氧氧化相关的类群(ANME-1a-FW)具有较高的的相似.另外,13.05％的克隆子属于广古菌门中的未知类群.[结论]乌鲁木齐10号泉水体中广古菌类群多样,可能蕴藏有大量潜在的古菌新类群.     

高通量测序分析云南腾冲热海热泉真菌多样性

【目的】本研究揭示云南腾冲热海热泉真菌多样性及群落分布格局,探讨其理化因子对真菌群落结构的影响。【方法】利用Illumina Hi Seq2500高通量测序平台对腾冲热海热泉沉积物宏基因组ITS基因进行测序,并进行生物信息分析。【结果】从5个热泉样品中共检测到343484条有效序列,包括5个真菌门,20个纲,66个目。右姐妹泉(JMQR)、左姐妹泉(JMQL)、蛤蟆嘴泉(M)、桥泉(QQ)及鼓明泉(GMQP)分别以Agaricales、Eurotiales、Capnodiales和Hypocreales等为优势目。在属水平上,共获得365个属,从JMQR中检测到212个属,以裂褶菌属(Schizophyllum)为最优势;从JMQL中挖掘到197个属,以青霉属(Penicillium)为最优势类群;从M和QQ中分别获得222个和270个属,均以枝孢属(Cladosporium)为最优势;从GMQP中发现179个属,以侧齿霉属(Engyodontium)丰度最高。NH4+含量、温度及pH影响不同优势真菌的分布,其中以pH与优势类群(OTU1%)结构变化显著性最高(P=0.05)。【结论】云南腾冲热海高温热泉蕴藏着极其丰富的真菌物种,其不同样品真菌分布具有差异性,pH可能是影响热泉真菌群落分布的重要因素之一。     

Actinobacterial Diversity in Hot Springs in Tengchong (China), Kamchatka (Russia), and Nevada (USA)

Actinobacterial diversity was investigated in three hot springs [Tengchong Frog Mouth (TFM) hot spring (in Tengchong, China), Kamchatka Robb Flag hot spring (in Kamchatka, Russia), and Nevada Boiling Spring (in Nevada, USA)], a Tengchong Frog Mouth hot spring-derived pond and a soil sample near the TFM hot spring. Culture-independent techniques were employed including denaturing gradient gel electrophoresis and actinobacterial 16S rRNA gene phylogenetic analysis. The three hot springs and the hot spring-derived pond had pH of 6.8 to 7.9 and temperature of 50 to 81°C. Actinobacteria were for the first time found to be very diverse in hot springs with temperature up to 81°C, indicating that they have an unexpected capability of adapting to hot spring environments. A total of 346 actinobacterial clones were obtained from the three hot springs, and these clones were identified as 31 RFLP types, falling into the Actinomycetales (only limit to the Frankineae suborder), the Rubrobacterales, uncultured Candidatus Microthrix, unclassified Actinobacteria, and uncultured Candidate Division OP10. Our data have implications for a better understanding of the distribution of Actinobacteria in hot springs.     

Diversity of Crenarchaeota in terrestrial hot springs in Tengchong, China

Diversity of Crenarchaeota was investigated in eight terrestrial hot springs (pH 2.8–7.7; temperature 44–96°C) located in Tengchong, China, using 16S rRNA gene phylogenetic analysis. A total of 826 crenarchaeotal clones were sequenced and a total of 47 operational taxonomic units (OTUs) were identified. Most (93%) of the identified OTUs were closely related (89–99%) to those retrieved from hot springs and other thermal environments. Our data showed that temperature may predominate over pH in affecting crenarchaeotal diversity in Tengchong hot springs. Crenarchaeotal diversity in moderate-temperature (59–77°C) hot springs was the highest, indicating that the moderately hot-temperature springs may provide optimal conditions for speciation of Crenarchaeota.     

Phylogenetic analysis of several Thermus strains from Rehai of Tengchong, Yunnan, China

Several Thermus strains were isolated from 10 hot springs of the Rehai geothermal area in Tengchong, Yunnan province. The diversity of Thermus strains was examined by sequencing the 16S rRNA genes and comparing their sequences. Phylogenetic analysis showed that the 16S rDNA sequences from the Rehai geothermal isolates form four branches in the phylogenetic tree and had greater than 95.9% similarity in the phylogroup. Secondary structure comparison also indicated that the 16S rRNA from the Rehai geothermal isolates have unique secondary structure characteristics in helix 6, helix 9, and helix 10 (reference to Escherichia coli). This research is the first attempt to reveal the diversity of Thermus strains that are distributed in the Rehai geothermal area.     

河北承德地区两个温泉中细菌的多样性分析

通过构建16S rDNA克隆文库,对承德地区两温泉中的细菌多样性水平及系统发育关系进行了初步研究。研究表明:68°C的A11文库中阳性克隆的16S rDNA序列分属5个细菌类群,分别为Firmicutes(6.25%)、Deinococcus-Thermus(25.0%)、Gammaproteobacteria(12.5%)、Betaproteobacteria(50.0%)、Alphaproteobacteria(6.25%);而74.5°C的A12文库仅属于一个细菌类群:厚壁菌门(Firmicutes)。两温泉中细菌多样性的差异表明,温度是影响温泉中细菌多样性水平的重要因素。此外,A11文库中克隆的16S rDNA序列与许多已知的可产色素的好氧菌相似性很高,而A12文库中的细菌多数为专性厌氧或兼性厌氧型,其中厌氧芽孢杆菌属(Anoxybacillus)中的Anoxybacillus flavithermus可以作为研究泉华形成的理想材料。     

Crenarchaeota and their role in the nitrogen cycle in a subsurface radioactive thermal spring in the Austrian Central Alps

Previous results from a 16S rRNA gene library analysis showed high diversity within the prokaryotic community of a subterranean radioactive thermal spring, the "Franz-Josef-Quelle" (FJQ) in Bad Gastein, Austria, as well as evidence for ammonia oxidation by crenarchaeota. This study reports further characterization of the community by denaturing gradient gel electrophoresis (DGGE) analysis, fluorescence in situ hybridization (FISH), and semiquantitative nitrification measurements. DGGE bands from three types of samples (filtered water, biofilms on glass slides, and naturally grown biofilms), including samples collected at two distinct times (January 2005 and July 2006), were analyzed. The archaeal community consisted mainly of Crenarchaeota of the soil-subsurface-freshwater group (group 1.1b) and showed a higher diversity than in the previous 16S rRNA gene library analysis, as was also found for crenarchaeal amoA genes. No bacterial amoA genes were detected. FISH analysis of biofilms indicated the presence of archaeal cells with an abundance of 5.3% (+/-4.5%) in the total 4',6-diamidino-2-phenylindole (DAPI)-stained community. Microcosm experiments of several weeks in duration showed a decline of ammonium that correlated with an increase of nitrite, the presence of crenarchaeal amoA genes, and the absence of bacterial amoA genes. The data suggested that only ammonia-oxidizing archaea (AOA) perform the first step of nitrification in this 45 degrees C environment. The crenarchaeal amoA gene sequences grouped within a novel cluster of amoA sequences from the database, originating from geothermally influenced environments, for which we propose the designation "thermal spring" cluster and which may be older than most AOA from soils on earth.     

Novel major bacterial candidate division within a municipal anaerobic sludge digester

In a previous study, we analyzed the molecular diversity of Planctomycetales by PCR amplification and sequencing of 16S rRNA clone libraries generated from a municipal wastewater plant, using planctomycete-specific and universal primer sets (R. Chouari, D. Le Paslier, P. Daegelen, P. Ginestet, J. Weissenbach, and A. Sghir, Appl. Environ. Microbiol. 69:7354-7363, 2003). Only a small fraction (4%) of the 16S rRNA gene sequences of the digester clone library corresponded to the Planctomycetales division. Importantly, 85.9% of the digester clone sequences are grouped into two different clusters named WWE1 (81.4% of the sequences) and WWE2 (4.5%) and are distantly affiliated with unidentified bacterial sequences retrieved from a methanogenic reactor community and from a termite gut, respectively. In phylogenetic analysis using 16S rRNA gene sequence representatives of the main phylogenetic bacterial divisions, the two clusters are monophyletic, branch apart from each other, and are distantly related to Planctomycetales and other bacterial divisions. A novel candidate division is proposed for WWE1, while the WWE2 cluster strongly affiliates with the recently proposed Lentisphearae phylum. We designed and validated a 16S rRNA probe targeting WWE1 16S rRNA sequences by both fluorescent in situ hybridization (FISH) and dot blot hybridization (DBH). Results of FISH analysis show that WWE1 representative microorganisms are rods or filamentous shaped, while DBH shows that WWE1 accounts for 12% of the total bacterial rRNA within the anaerobic digester. The remaining 16S rRNA gene sequences are affiliated with Verrucomicrobia or recently described candidate divisions with no known pure culture representatives, such as OD1, BRC1, or NBL-UPA2, making up less than 3.5% of the clone library, respectively. This inventory expands the known diversity of the latter bacterial division-level lineages.     

Novel Major Bacterial Candidate Division within a Municipal Anaerobic Sludge Digester

In a previous study, we analyzed the molecular diversity of Planctomycetales by PCR amplification and sequencing of 16S rRNA clone libraries generated from a municipal wastewater plant, using planctomycete-specific and universal primer sets (R. Chouari, D. Le Paslier, P. Daegelen, P. Ginestet, J. Weissenbach, and A. Sghir, Appl. Environ. Microbiol. 69:7354-7363, 2003). Only a small fraction (4%) of the 16S rRNA gene sequences of the digester clone library corresponded to the Planctomycetales division. Importantly, 85.9% of the digester clone sequences are grouped into two different clusters named WWE1 (81.4% of the sequences) and WWE2 (4.5%) and are distantly affiliated with unidentified bacterial sequences retrieved from a methanogenic reactor community and from a termite gut, respectively. In phylogenetic analysis using 16S rRNA gene sequence representatives of the main phylogenetic bacterial divisions, the two clusters are monophyletic, branch apart from each other, and are distantly related to Planctomycetales and other bacterial divisions. A novel candidate division is proposed for WWE1, while the WWE2 cluster strongly affiliates with the recently proposed Lentisphearae phylum. We designed and validated a 16S rRNA probe targeting WWE1 16S rRNA sequences by both fluorescent in situ hybridization (FISH) and dot blot hybridization (DBH). Results of FISH analysis show that WWE1 representative microorganisms are rods or filamentous shaped, while DBH shows that WWE1 accounts for 12% of the total bacterial rRNA within the anaerobic digester. The remaining 16S rRNA gene sequences are affiliated with Verrucomicrobia or recently described candidate divisions with no known pure culture representatives, such as OD1, BRC1, or NBL-UPA2, making up less than 3.5% of the clone library, respectively. This inventory expands the known diversity of the latter bacterial division-level lineages.     

Hydrogen production potential of fermentative microorganisms from the Sargasso Sea

Mounting evidence suggests that ammonia-oxidizing archaea (AOA) may play important roles in nitrogen cycling in geothermal environments. In this study, the diversity, distribution and ecological significance of AOA in terrestrial hot springs in Kamchatka (Far East Russia) were explored using amoA genes complemented by analysis of glycerol dialkyl glycerol tetraethers (GDGTs) of archaea. PCR amplification of functional genes (amoA) from AOA and ammonia-oxidizing bacteria (AOB) was performed on microbial mats/streamers and sediments collected from three hot springs (42°C to 87°C and pH 5.5-7.0). No amoA genes of AOB were detected. The amoA genes of AOA formed three distinct phylogenetic clusters with Cluster 3 representing the majority (～59%) of OTUs. Some of the sequences from Cluster 3 were closely related to those from acidic soil environments, which is consistent with the predominance of low pH (<7.0) in these hot springs. Species richness (estimated by Chao1) was more frequently higher at temperatures below 75°C than above it, indicating that AOA may be favored in the moderately high temperature environments. Quantitative PCR of 16S rRNA genes showed that crenarchaeota counted for up to 80% of total archaea. S-LIBSHUFF separated all samples into two phylogenetic groups. The profiles of GDGTs were well separated among the studied springs, suggesting a spatial patterning of archaeal lipid biomarkers. However, this patterning did not correlate significantly with variation in archaeal amoA, suggesting that AOA are not the predominant archaeal group in these springs producing the observed GDGTs.     

Characterization of the prokaryotic diversity in cold saline perennial springs of the Canadian high Arctic

The springs at Gypsum Hill and Colour Peak on Axel Heiberg Island in the Canadian Arctic originate from deep salt aquifers and are among the few known examples of cold springs in thick permafrost on Earth. The springs discharge cold anoxic brines (7.5 to 15.8% salts), with a mean oxidoreduction potential of -325 mV, and contain high concentrations of sulfate and sulfide. We surveyed the microbial diversity in the sediments of seven springs by denaturing gradient gel electrophoresis (DGGE) and analyzing clone libraries of 16S rRNA genes amplified with Bacteria and Archaea-specific primers. Dendrogram analysis of the DGGE banding patterns divided the springs into two clusters based on their geographic origin. Bacterial 16S rRNA clone sequences from the Gypsum Hill library (spring GH-4) were classified into seven phyla (Actinobacteria, Bacteroidetes, Firmicutes, Gemmatimonadetes, Proteobacteria, Spirochaetes, and Verrucomicrobia); Deltaproteobacteria and Gammaproteobacteria sequences represented half of the clone library. Sequences related to Proteobacteria (82%), Firmicutes (9%), and Bacteroidetes (6%) constituted 97% of the bacterial clone library from Colour Peak (spring CP-1). Most GH-4 archaeal clone sequences (79%) were related to the Crenarchaeota while half of the CP-1 sequences were related to orders Halobacteriales and Methanosarcinales of the Euryarchaeota. Sequences related to the sulfur-oxidizing bacterium Thiomicrospira psychrophila dominated both the GH-4 (19%) and CP-1 (45%) bacterial libraries, and 56 to 76% of the bacterial sequences were from potential sulfur-metabolizing bacteria. These results suggest that the utilization and cycling of sulfur compounds may play a major role in the energy production and maintenance of microbial communities in these unique, cold environments.     

利用小亚基核糖体RNA 技术分析温室黄瓜近根土壤古菌和真菌多样性

土壤古菌和真菌在温室生态系统是仅次于细菌的微生物,具有类似于细菌的重要生态功能。通过构建古菌16S rRNA和真菌18S rRNA基因克隆文库,分析温室黄瓜近根土壤古菌和真菌群落结构组成,为开发利用温室这一特殊的生态环境中丰富的微生物资源以及理解微生物与植物间的互作提供参考依据。采用研磨-冻融-溶菌酶-蛋白酶K-SDS热处理以及CTAB处理等理化方法,提取和纯化微生物总DNA,构建古菌16S rRNA和真菌18S rRNA基因克隆文库。利用DOTUR软件将古菌和真菌序列按照相似性97％的标准分成若干个可操作分类单元 (OTUs)。土壤古菌克隆文库主要包括泉古菌门和未分类的古菌两大类,并有少部分广域古菌类群,所有泉古菌均属于热变形菌纲,共45个OTUs;真菌克隆文库包括真菌门的大多数亚门真菌,共24个OTUs,未发现担子菌亚门真菌。古菌多样性比较丰富,且发现少量的广域古菌 (甲烷菌),这一情况可能与温室长期高温高湿,高有机质含量,土壤处于缺氧环境有关;土壤真菌的优势种群为子囊菌,占到土壤真菌的80％以上,这可能与绝大多数植物真菌性病害属于土传病害,通过菌丝体、菌核或子囊壳在土壤病残体中越冬有一定的关系。