5株北极微藻藻际环境的细菌多样性

对5株北极微藻,如脆杆藻(Fragilariopsis sp.)、微单胞藻(Micromonas sp.)、四棘藻(Attheya septentrionalis)、海链藻(Thalassiosira sp.)和小球藻(Chlorella sp.)的不同生长时期的粘附细菌和游离细菌的16S rRNA基因进行PCR-DGGE分析,研究藻际环境的细菌多样性。结果表明,5株微藻具有不同的藻际微生物群落结构组成,其中微单胞藻、脆杆藻、四棘藻和海链藻的藻际细菌主要由Cyanobacteria(藻蓝细菌)、α-Proteobacteria(α-变形菌纲)和γ-Proteobacteria(γ-变形菌纲)组成,仅微单胞藻和脆杆藻检测出CFB(Cytophaga-Flexibacter-Bacteroides,噬纤维菌-屈挠杆菌-拟杆菌)。小球藻由Cyanobacteria、CFB、α-Proteobacteria和β-Proteobacteria(β-变形菌纲)组成。微单胞藻的藻际菌群结构稳定,不同生长时期的游离细菌和粘附细菌组成差异不明显。3株硅藻-脆杆藻、四棘藻和海链藻的游离细菌主要由γ-Proteobacteria组成,小球藻的游离细菌主要为β-Proteobacteria,而5株微藻的粘附细菌主要由Cyanobacteria组成。从DGGE图谱来看,在脆杆藻生长的延滞期、指数期和稳定期,其藻际游离细菌和粘附细菌的16S rRNA基因扩增条带数量和位置均有明显差异,但优势扩增条带较稳定;其他4株藻粘附细菌和游离细菌的扩增条带比较稳定,说明藻际关联菌群结构较稳定。藻菌种间特异性关系为不同微藻藻株提供了重要的线索,同时也带来更多的隐藏在藻际环境中的信息。     

Microbial community interactions and population dynamics of an algicidal bacterium active against Karenia brevis (Dinophyceae)

The population dynamics of Cytophaga strain 41-DBG2, a bacterium algicidal to the harmful algal bloom (HAB) dinoflagellate Karenia brevis, were investigated in laboratory experiments using fluorescent in-situ hybridization (FISH) and denaturing gradient gel electrophoresis (DGGE). Following its introduction into non-axenic K. brevis cultures at concentrations of 10³ or 10⁵ bacterial cells per milliliter, 41-DBG2 increased to 10⁶ cells per milliliter before initiation of its algicidal activity. Such threshold concentrations were not achieved when starting algal cell numbers were relatively low (10³ cells per milliliter), suggesting that the growth of this bacterium may require high levels of dissolved organic matter (DOM) excreted by the algae. It remains to be determined whether this threshold concentration is required to trigger an algicidal response by 41-DBG2 or, alternatively, is the point at which the bacterium accumulates to an effective killing concentration. The ambient microbial community associated with these algal cultures, as determined by DGGE profiles, did not change until after K. brevis cells were in the process of lysing, indicating a response to the rapid input of algal-derived organic matter. Resistance to algicidal attack exhibited by several K. brevis clones was found to result from the inhibition of 41-DBG2 growth in the presence of currently unculturable bacteria associated with those clones. These bacteria apparently prevented 41-DBG2 from reaching the threshold concentration required for initiation of algicidal activity. Remarkably, resistance and susceptibility to the algicidal activity of 41-DBG2 could be transferred between K. brevis clones with the exchange of their respective unattached bacterial communities, which included several dominant phylotypes belonging to the α-proteobacteria, γ-proteobacteria, and Cytophaga–Flavobacterium–Bacteroides (CFB) groups. We hypothesize that CFB bacteria may be successfully competing with 41-DBG2 (also a member of the CFB) for nutrients, thereby inhibiting growth of the latter and indirectly providing resistance against algicidal attack. We conclude that if algicidal bacteria play a significant role in regulating HAB dynamics, as some authors have inferred, bacterial community interactions are crucial factors that must be taken into consideration in future studies.     

Actual distribution of bacteriocytes in the trophosome of a beard worm (Oligobrachia mashikoi, Siboglinidae, Annelida): clarification using whole-mount in situ hybridization

Beard worms (Siboglinidae, Polychaeta) lack a mouth and a digestive tract and harbour chaemosynthetic bacteria in the bacteriocytes of the trophosome. Since beard worms depend on the organic compounds produced by the bacteria for nourishment, the bacteriocytes should be efficient in exchanging various substances with body fluids. For this reason, it is important to determine how the bacteriocytes are organized in the trophosome. As the first step of the present study, the appearance of bacteriocytes was examined in routinely stained paraffin sections. Second, visualization of the actual distribution of the bacteriocytes was attempted using whole‐mount in situ hybridization with a probe of the 16S rRNA nucleotide sequence of the bacterium. After routine haematoxylin & eosin staining, the bacteriocytes appeared to be aligned in cell cords accompanied with nutrient‐deposit cells that extended from both sides of the trophosome toward the dorsal side and folded up in the coelomic spaces. In whole‐mount preparations, however, bacteriocytes with intense signals of 16S rRNA were seen three‐dimensionally as many irregular leaves arranged from both sides of the ventral vessel toward the dorsal vessel. We will discuss the physiological significance of this characteristic distribution of the bacteriocytes in the present species.     

Microbial community structure and biogeochemistry of Miocene subsurface sediments: implications for long-term microbial survival

Thirty closely spaced cores were obtained from Miocene-aged fluvial, lacustrine and palaeosol subsurface sediments ranging in depth from 173 to 197 m at a site in south-central Washington to investigate the size and composition of the microbial community in relation to sediment geochemical and geophysical properties. Total phospholipid fatty acid (PLFA) analysis indicated that the greatest concentrations of microbial bio-mass were in low-permeability lacustrine sediments that also contained high concentrations of organic carbon. Community structure, based on lipid analyses and on in situ hybridization of bacterial cells with 16S RNA-directed DNA probes, also revealed the presence of metabolically active bacteria that respire sulphate and/or Fe(III) in the lacustrine sediments. Concentrations of pore water sulphate were low (4–8 mg/L) and HCI-extractable Fe was predominantly Fe(II) in the same samples where total biomass and organic carbon were highest. The low hydraulic conductivity (10^-6 to < 10^-9 cm/s) of these sediments has likely contributed to the long term maintenance of both bacteria and organic carbon by limiting the supply of soluble electron acceptors for microbial respiration. These results suggest that the current subsurface microbial population was derived from organisms that were present during lake sedimentation = 6–8 million years ago.     

Specific detection of Pseudomonas spp. in milk by fluorescence in situ hybridization using ribosomal RNA directed probes

AIMS: Pseudomonas spp. are considered the most important milk spoilage organisms. Here we describe development of a fluorescence in situ hybridization (FISH) probe specific for detection and enumeration of Pseudomonas spp. in milk. METHODS AND RESULTS: 16S rRNA sequences were analysed to develop specific oligonucleotide probe for the genus Pseudomonas. Twenty different Pseudomonas spp. and 23 bacterial species from genera other than Pseudomonas (as negative controls) were tested. All tested Pseudomonas spp. yielded a positive FISH reaction, whereas negative controls showed no FISH reaction except for Burkholderia cepacia that showed a relatively weak FISH reaction. The FISH assay specifically stains Pseudomonas in milk when the milk contains a mixture of other bacterial species. The FISH assay takes 2 h and compares favourably with current culturing methods, which take a minimum of 48 h. Specificity of the probe was validated using polymerase chain reaction to selectively amplifying the Pseudomonas rDNA gene and sequencing the gene products. CONCLUSIONS: The method presented in this study allows simultaneously detection, identification and enumeration of Pseudomonas spp. in milk. SIGNIFICANCE AND IMPACT OF THE STUDY: Rapid and accurate enumeration of Pseudomonas facilitates the identification of specific contamination sources in dairy plants, the accurate validation of pasteurization treatments and the prediction of shelf life of processed milk.     

普洱地区茶叶内生细菌与根际土壤细菌群落结构分析

[目的]茶叶内生细菌、根际土壤细菌在普洱茶的发酵中起着重要的作用,还可以促进茶树生长,诱导茶树抗病性.研究其群落结构组成及相互关系可为微生物资源开发利用提供理论依据.[方法]本研究以普洱地区茶树叶片和根际土壤为材料,采用高通量测序技术,对茶叶及根际土壤细菌的16S核糖体RNA基因(16S rRNA)进行测序,比较分析茶...     

Seven-hour fluorescence in situ hybridization technique for enumeration of Enterobacteriaceae in food and environmental water sample

AIMS: A fluorescent in situ hybridization (FISH) technique using an Enterobacteriaceae-specific probe (probe D) to target 16S rRNA was improved in order to enumerate, within a single working day, Enterobacteriaceae present in food and environmental water samples. METHODS AND RESULTS: In order to minimize the time required for the FISH procedure, each step of FISH with probe D was re-evaluated using cultured Escherichia coli. Five minutes of ethanol treatment for cell fixation and hybridization were sufficient to visualize cultured E. coli, and FISH could be performed within 1 h. Because of the difficulties in detecting low levels of bacterial cells by FISH without cultivation, a FISH technique for detecting microcolonies on membrane filters was investigated to improve the bacterial detection limit. FISH with probe D following 6 h of cultivation to grow microcolonies on a 13 mm diameter membrane filter was performed, and whole Enterobacteriaceae microcolonies on the filter were then detected and enumerated by manual epifluorescence microscopic scanning at magnification of x100 in ca 5 min. The total time for FISH with probe D following cultivation (FISHFC) was reduced to within 7 h. FISHFC can be applied to enumerate cultivable Enterobacteriaceae in food (above 100 cells g-1) and environmental water samples (above 1 cell ml-1). CONCLUSIONS: Cultivable Enterobacteriaceae in food and water samples were enumerated accurately within 7 h using the FISHFC method. SIGNIFICANCE AND IMPACT OF THE STUDY: A FISHFC method capable of evaluating Enterobacteriaceae contamination in food and environmental water within a single working day was developed.     

Quantification of Leuconostoc populations in mixed dairy starter cultures using fluorescence in situ hybridization

AIMS: Development of a rapid method to identify and quantify Leuconostoc populations in mesophilic starter cultures. METHODS AND RESULTS: 16S rRNA-targeted oligonucleotide probes were used in a whole cell in situ hybridization assay for the identification of the genus Leuconostoc and an undescribed Leuconostoc ribospecies. The probes were fluorescently labelled and used to quantify the Leuconostoc populations in five different mixed starter cultures. CONCLUSIONS: There was a good correlation between the results obtained using fluorescence in situ hybridization (FISH) with that of standard plate counting methods. SIGNIFICANCE AND IMPACT OF THE STUDY: To develop a FISH method capable of identifying and quantifying the Leuconostoc population in starter cultures within 1 day.     

Composition,uniqueness and variability of the epiphytic bacterial community of the green alga Ulva australis

Green Ulvacean marine macroalgae are distributed worldwide in coastal tidal and subtidal ecosystems. As for many living surfaces in the marine environment, little is known concerning the epiphytic bacterial biofilm communities that inhabit algal surfaces. This study reports on the largest published libraries of near full-length 16S rRNA genes from a marine algal surface (5293 sequences from six samples) allowing for an in-depth assessment of the diversity and phylogenetic profile of the bacterial community on a green Ulvacean alga. Large 16S rRNA gene libraries of surrounding seawater were also used to determine the uniqueness of this bacterial community. The surface of Ulva australis is dominated by sequences of Alphaproteobacteria and the Bacteroidetes, especially within the Rhodobacteriaceae, Sphingomonadaceae, Flavobacteriaceae and Sapropiraceae families. Seawater libraries were also dominated by Alphaproteobacteria and Bacteroidetes sequences, but were shown to be clearly distinct from U. australis libraries through the clustering of sequences into operational taxonomic units and Bray–Curtis similarity analysis. Almost no similarity was observed between these two environments at the species level, and only minor similarity was observed at levels of sequence clustering representing clades of bacteria within family and genus taxonomic groups. Variability between libraries of U. australis was relatively high, and a consistent sub-population of bacterial species was not detected. The competitive lottery model, originally derived to explain diversity in coral reef fishes, may explain the pattern of colonization of this algal surface.     

家蚕肠道细菌群体调查与分析

目前,环境微生物中绝大部分是无法获得纯培养的。为了比较全面地了解家蚕肠道的细菌群体结构,研究采用了非培养法和传统培养法相结合的方法进行调查分析。非培养法是先直接提取家蚕肠道中的微生物群体基因组DNA,用PCR法扩增细菌16S rRNA基因,建立16S rDNA文库;再以限制性片段长度多态性(RFLP)方法从文库中筛选可能不同细菌来源的克隆,并测定其核苷酸序列。将所获得的序列与GenBank数据库进行BLAST比对分析,并通过系统发育分析,推测它们可能代表的细菌种属,以及对家蚕生长发育所起的作用。结果表明,家蚕肠道中的细菌主要是节杆菌属、乳杆菌属、大肠杆菌属、芽胞杆菌属、葡萄球菌属、假单胞菌属。它们在家蚕消化利用桑叶和疾病预防中可能有着重要意义。非培养法和培养法均有各自的长处和不足,两者具有较强的互补性。     

Detection of ingested bacteria in benthic ciliates using fluorescence in situ hybridization

Fluorescence in situ hybridization (FISH) was applied to detect ingested natural bacteria within the food vacuoles of ciliates harvested from the natural sediment. In addition to this important qualitative aspect, FISH was also successfully used to measure the bacterivory of a culture of the ciliate Tetrahymena pyriformis on natural field sediment bacteria. In this feeding experiment, we compared the FISH technique with the only available alternative technique using fluorescently stained sediment (FS-sediment). The ingestion rate of unstained sediment bacteria determined by FISH was 4.6 bacteria per ciliate and hour. In contrast, Tetrahymena pyriformis cells that fed on bacteria from FS-sediment ingested 12.7 bacteria per ciliate and hour. Bacterial abundances in the sediment were equal in both sediment types (4 x 10(8) cells g sediment dry weight(-1)) when determined by DAPI counts. However, when analyzed using DTAF-counts, the number of bacteria in the FS-sediment increased to 9.7 x 10(8) cells g sediment dry weight(-1). From our findings we conclude that bacterivory by ciliates is overestimated when FS-sediment is used because DTAF stains bacteria as well as protein-containing detritus particles, which are also ingested by many ciliates. In contrast, FISH is a direct, a posteriori method that specifically stains phylogenetic lineages, e.g. eubacteria, after ingestion and thereby avoids a false determination of the number of ingested bacteria. Thus this method can also be used for the study of natural ciliate bacterivory in benthic systems.     

Spatial distribution of bacterial phylotypes in the gut of the termite Reticulitermes speratus and the bacterial community colonizing the gut epithelium

The bacterial community colonizing the gut wall of the termite Reticulitermes speratus was characterized without cultivation. Analysis of 16S rRNA genes after fractionation of the gut revealed that the bacterial composition on the gut wall was diverse and significantly different from that able to move unconfined in the gut fluid or physically associated with the gut protists. Actinobacteria, Firmicutes and Bacteroidetes were dominant on the gut wall, but Spirochaetes and the Termite group 1 phylum, abundant in the gut lumen, were relatively rare. A sequence-specific probe enabled the in situ detection of a rod-shaped Actinobacteria member, abundantly colonizing the gut paunch epithelium.     

Design of species-specific oligonucleotide probes for the detection of Bacteroides and Parabacteroides by fluorescence in situ hybridization and their application to the analysis of mouse caecal Bacteroides-Parabacteroides microbiota

Aims: To develop species‐specific monitoring techniques for rapid detection of Bacteroides and Parabacteroides inhabiting the mouse intestine by fluorescence in situ hybridization. Methods and Results: The specificity of oligonucleotide probes was evaluated by fluorescence whole‐cell hybridization. Oligonucleotide probes specific for each species hybridized only with the target bacteria. Using these probes, caecal Bacteroides–Parabacteroides microbiota of conventional mice and specific pathogen‐free (SPF) mice from three different breeders were analysed. It was shown that Bacteroides acidifaciens Group‐1, Group‐2 and Group‐3 were dominant in conventional mice and SPF mice from two out of three breeders. Bacteroides vulgatus and Parabacteroides distasonis were detected in one of these two SPF breeding colonies in addition to Bact. acidifaciens. SPF mice of the remaining breeder harboured characteristic Bacteroides–Parabacteroides microbiota, consisting of Bacteroides sp. ASF519 and Bacteroides caccae. Conclusions: Bacteroides acidifaciens is the dominant and most typical species in the mouse Bacteroides–Parabacteroides microbiota. The Group‐3 was identified as a novel group and revealed to occupy a major niche together with Bact. acidifaciens Group‐1 and Group‐2. Significance and Impact of the Study: The species‐specific probe set developed in this study was the efficient tool for rapid detection of target bacterial groups inhabiting the mouse intestine. The results of this study provide important new information on the mouse Bacteroides–Parabacteroides community.     

Development of specific fluorescent oligonucleotide probes for in situ identification of wine lactic acid bacteria

A rapid method for the identification of lactic acid bacteria (LAB) from wine has been developed. This method is based on fluorescence in situ hybridisation (FISH), using fluorescent oligonucleotide probes, homologous to 16S rDNA of those species of LAB commonly found in wines. The protocol for the specific detection of these bacteria was established through the hybridisation of 36 reference strains. The specificity of the probes was evaluated by using pure cultures. Probes were used to identify species in different wines, making it evident that direct identification and quantification from natural samples without culturing is also possible. The results show that FISH is a promising technique for the rapid identification of LAB, allowing positive identification in a few hours (4-16 h).     

Microbial Community Composition in Crude Oils and Asphalts from the Kurdistan Region of Iraq

Abstract

To identify hydrocarbon-degrading microorganisms contributing to the formation of heavy oil we investigated the microbial community composition in different types of crude oils from oil-production facilities and in crude oil and asphalt from different natural seeps from the Kurdistan Region of Iraq (KRI). Crude oils from five out of six production facilities did not contain microorganisms detectable by 16S rRNA gene PCR amplicon sequencing likely reflecting a low microbial abundance in these samples. Crude oil and asphalt from the natural seeps hosted diverse microbial communities. The same phylotypes of uncultivated Deferribacteres and Thermodesulfobacteraceae were predominant community members across crude oils and asphalts from separate geographical locations. Soils surrounding seeps did not contain these phylotypes suggesting that they originate from the subsurface and although they seem commonly detected in hydrocarbon-rich environments their role in hydrocarbon-degradation is unknown. GC-MS analyses showed that mainly aromatic hydrocarbons were present in the crude oil and asphalt and that they were undergoing biodegradation - likely with sulfate and nitrate as terminal oxidants. In agreement, only bssA gene, but not assA gene-carrying microorganisms were detectable in the analyzed sampled. Overall our study identified several abundant uncultivated taxa with likely roles in transformation of nitrate, sulfate and hydrocarbons.     

Identification of bacterial diversity in the oyster Crassostrea gigas by fluorescent in situ hybridization and polymerase chain reaction

AIMS: To carry out a rapid and reliable identification of bacterial diversity in the oyster Crassostrea gigas from Todos Santos Bay, México, in the current study we applied the molecular techniques of fluorescent in situ hybridization (FISH) and polymerase chain reaction (PCR). In order to reach this goal, genus and group-specific oligonucleotides targeted to 16S rDNA/rRNA were used. METHODS AND RESULTS: Oysters were collected and different tissues were analysed by means of culture-independent methodologies. In the digestive glands and gonads gamma-Proteobacteria and Gram-positive bacteria with a low G+C content, were identified as metabolically active by FISH. In the oyster gills a higher active diversity was observed, including Gram-positive bacteria with a low and high G+C content, members of the Cytophaga/Flavobacterium cluster and gamma-Proteobacteria. Consistent with FISH analysis, the amplification of 16S rDNA genes fragments with genus and group-specific oligonucleotides confirmed the presence of the same groups, as well as members of the alpha- and beta-Proteobacterias, Pseudomonas spp. and Bacillus spp. CONCLUSIONS: The combination of accurate and very easy-to-apply molecular methods allowed us to carry out a rapid screening of high bacterial diversity in oysters. SIGNIFICANCE AND IMPACT OF THE STUDY: This work is the first report about bacterial diversity in oyster tissues analysed by FISH and PCR, without using culture-dependent methods and allowed us to determine the phylogenetic diversity of the bacterial communities present in oyster cultures, including bacteria with and without metabolic activity, as well as uncultivable cells, which are generally underestimated by traditional identification.     

Phylogenetic analysis and in situ identification of the intestinal microbial community of rainbow trout (Oncorhynchus mykiss, Walbaum)

AIMS: To identify the dominant culturable and nonculturable microbiota of rainbow trout intestine. METHODS AND RESULTS: Microbial density of rainbow trout intestine was estimated by direct microscopic counts (4',6-diamidino-2-phenylindole, DAPI) and by culturing on tryptone soya agar (TSA). Differential gradient gel electrophoresis analysis of bacterial DNA from intestinal samples, re-amplification of bands and sequence analysis was used to identify the bacteria that dominated samples where aerobic counts were < or =2% of the DAPI counts. 16S rDNA gene sequences of 146 bacterial isolates and three sequences of uncultured bacteria were identified. A set of oligonucleotide probes was constructed and used to detect and enumerate the bacterial community structure of the gastrointestinal tract of rainbow trout by fluorescence in situ hybridization (FISH). Members of the gamma subclass of Proteobacteria (mainly Aeromonas and Enterobacteriaceae) dominated the bacterial population structure. Acinetobacter, Pseudomonas, Shewanella, Plesiomonas and Proteus were also identified together with isolates belonging to the beta subclass of Proteobacteria and Gram-positive bacteria with high and low DNA G + C content. In most samples, the aerobic count (on TSA) was 50-90% of the direct (DAPI) count. A bacterium representing a previously unknown phylogenetic lineage with only 89% 16S rRNA gene sequence similarity to Anaerofilum pentosovorans was detected in intestinal samples where aerobic counts were < or =2% of direct (DAPI) counts. Ten to 75% of the microbial population in samples with low aerobic counts hybridized (FISH) with a probe constructed against this not-yet cultured bacterium. CONCLUSIONS: Proteobacteria belonging to the gamma subclass dominated the intestinal microbiota of rainbow trout. However, in some samples the microflora was dominated by uncultivated, presumed anaerobic, micro-organisms. The bacterial population structure of rainbow trout intestine, as well as total bacterial counts, varied from fish to fish. SIGNIFICANCE AND IMPACT OF THE STUDY: Good correlation was seen between cultivation results and in situ analysis, however, a molecular approach was crucial for the identification of organisms uncultivated on TSA.     

Microbial community succession and bacterial diversity in soils during 77,000 years of ecosystem development

The origins of the biological complexity and the factors that regulate the development of community composition, diversity and richness in soil remain largely unknown. To gain a better understanding of how bacterial communities change during soil ecosystem development, their composition and diversity in soils that developed over c. 77 000 years of intermittent aeolian deposition were studied. 16S rRNA gene clone libraries and fatty acid methyl ester (FAME) analyses were used to assess the diversity and composition of the communities. The bacterial community composition changed with soil age, and the overall diversity, richness and evenness of the communities increased as the soil habitat matured. When analysed using a multivariate Bray-Curtis ordination technique, the distribution of ribotypes showed an orderly pattern of bacterial community development that was clearly associated with soil and ecosystem development. Similarly, changes in the composition of the FAMEs across the chronosequence were associated with biomarkers for fungi, actinomycetes and Gram-positive bacteria. The development of the soil ecosystem promoted the development of distinctive microbial communities that were reminiscent of successional processes often evoked to describe change during the development of plant communities in terrestrial ecosystems.     

蜜蜂成虫工蜂肠道可培养细菌群落结构分析

【目的】研究2种蜜蜂(健康意大利蜜蜂和健康中华蜜蜂)成虫工蜂肠道可培养细菌的群落结构组成。【方法】利用16S r RNA基因的聚合酶链式反应-变性梯度凝胶电泳(PCR-DGGE)分析技术,结合菌落形态观察和生理生化特征鉴定细菌种类。【结果】从2种蜜蜂成虫工蜂肠道200株可培养细菌得到18种不同细菌遗传型,分属于肠杆菌科(Enterobacteriaceae)、弧菌科(Vibrionaceae)和肠球菌科(Enterococcaceae)3个科。其中肠杆菌科是肠道可培养细菌最优势的细菌种类。同样以序列相似性大于97%的菌株归为相同细菌种类为标准,找到了2种蜜蜂可培养细菌的共有菌种,结合菌落形态观察和生理生化特征鉴定,确定肠道可培养细菌为肠杆菌属8株,克雷伯氏菌属1株,肠球菌属2株,以及气单胞菌属1株。【结论】通过研究健康意大利蜜蜂和中华蜜蜂成虫工蜂肠道可培养细菌群落结构组成,可为开展蜜蜂的微生态研究提供基础性资料。