Molecular analysis of the bacterial community in a continental high-temperature and water-flooded petroleum reservoir

Water from a continental high-temperature, long-term water-flooded petroleum reservoir in Huabei Oilfield in China was analysed for its bacterial community and diversity. The bacteria were characterized by their 16S rRNA genes. A 16S rRNA gene clone library was constructed from the community DNA, and using restriction fragment length polymorphism analysis, 337 randomly selected clones were clustered with 74 operational taxonomic units. Sequencing and phylogenetic analyses showed that the screened clones were affiliated with Gammaproteobacteria (85.7%), Thermotogales (6.8%), Epsilonproteobacteria (2.4%), low-G+C Gram-positive (2.1%), high-G+C Gram-positive, Betaproteobacteria and Nitrospira (each <1.0%). Thermopilic bacteria were found in the high-temperature water from the flooded petroleum reservoir, as well as mesophilic bacteria such as Pseudomonas-like clones. The mesophilic bacteria were probably introduced into the reservoir as it was being exploited. This work provides significant information on the structure of bacterial communities in high-temperature, long-term water-flooded petroleum reservoirs.     

Characterization of the bacterial community associated with the surface and mucus layer of whiting (Merlangius merlangus)

The bacterial community inhabiting the mucus layer and surface of whiting was examined to determine whether the bacteria present are a reflection of the surrounding water or an indigenous bacterial flora is present. The outer mucus, mouth mucus and gut of four whiting harvested from a site in the Irish Sea and the surrounding water were examined by terminal restriction fragment length polymorphism (tRFLP) analysis of the 16S rRNA gene and clone library construction. The water community was the most diverse, with only a small number of shared water-mucus phylotypes present. The bacterial flora associated with the outer mucus layer were more diverse than that of the mouth mucus and gut. All three mucus layers were characterized by the presence of a dominant phylotype, identified as clone wom-1, highly similar to Photobacterium iliopiscarium. In addition to other Photobacterium phylotypes, members of the CFB and Clostridia groups were also detected. Subsequently, whiting from 11 different sites along the east and south coast of Ireland were compared by tRFLP analysis. Strikingly, the mucus layer of whiting at all sites was characterized by the presence and dominance of a TRF corresponding to the clone wom-1 which was virtually absent from the water column.     

Bacterial community composition of a shallow hypertrophic freshwater lake in China, revealed by 16S rRNA gene sequences

The phylogenetic composition of a bacterial community from a hypertrophic freshwater lake in China was investigated by sequencing cloned 16S rRNA genes. Three hundred and thirty-six bacterial clones from four clone libraries in different months (March, May, July and September in 2004) were classified into 142 operational taxonomic units, most of which were affiliated with bacterial divisions commonly found in freshwater ecosystem, e.g. Alpha-, Beta-, Gamma- and Deltaproteobacteria, Bacteriodetes and Actinobacteria. The results showed that the composition of bacterial community in the July library was the most diverse one. Actinobacteria was the most significant lineage in Lake Taihu, with dominant numbers of operational taxonomic units in the May, July and September libraries. Phylogenetic analysis suggested that 53 sequences were grouped into six novel clusters which may represent specific populations indigenous to the environment. Coverage analyses indicated that the clone libraries could provide a fine inventory of bacterial diversity in the lake.     

有机污染物对水体真细菌群落结构的影响

为了揭示有机污染物对环境真细菌组成和多样性的影响,应用末端限制性片段长度多态性(tRFLP)和16S rDNA文库技术并结合水质分析方法,比较分析了松花江流域内受不同程度有机污染的4个水体及其沉积物中真细菌的群落结构。tRFLP分析表明各水体及底泥均呈现较为复杂的群落结构模式,不同底泥群落形成的末端限制性片段(TRF)图谱具有很高的相似性,但随着污染程度的加强,部分类群明显富集,而且在水样组和泥样组内,群落结构的相似性同水质相似性是一致的,主成分分析(PCA)显示水样和泥样中的真细菌TRF形成不同的群。16SrDNA文库分析表明松花江哈尔滨段底泥中真细菌分布于10个门,Proteobacteria门占优势,达群落总数的21.92%(β-Proteobacteria亚门占10.96%),而有机染污物严重超标的生活污水排污道底泥中的微生物多样性较低,分布于7个门,Proteobacteria门为优势群,占群落的47.37%(α-Proteobacteria亚门占21.05%,δ/ε-Proteobacteria亚门占15.79%)。该研究表明向水体中长期排放高浓度有机物能使系统中微生物群落多样性降低,与污染物降解相关的功能微生物类群明显富集。     

Comparison of DNA‐ and RNA‐based bacterial community structures in soil exposed to 2,4‐dichlorophenol

Aims: To examine the effect of the pollutant 2,4‐dichlorophenol on DNA‐ and RNA‐based bacterial communities in soil. Methods and Results: Soil was exposed to 100 mg kg^?1 of 2,4‐dichlorophenol (2,4‐DCP), and degradation was monitored over 35 days. DNA and RNA were coextracted, and terminal restriction fragment length polymorphism (T‐RFLP) was used to report changes in bacterial communities in response to the presence of the chlorophenol. The phylogenetic composition of the soil during degradation was determined by creating a clone library of amplified 16S rRNA sequences from both DNA and reverse‐transcribed RNA from exposed soil. Resulting clones were sequenced, and putative identities were assigned. Conclusions: A significant difference between active (RNA‐based) and total (DNA‐based) bacterial community structure was observed for both T‐RFLP and phylogenetic analyses in response to 2,4‐DCP, with more pronounced changes seen in RNA‐based communities. Phylogenetic analysis indicated the dominance of Proteobacteria in both profiles. Significance and Impact of the Study: This study describes the response of soil bacterial communities to the addition of the xenobiotic compound 2,4‐DCP, and highlights the importance of including RNA‐based 16S rRNA analysis to complement any molecular study in a perturbed soil.     

Analysis of bacterial community structure in the natural circulation system wastewater bioreactor by using a 16S rRNA gene clone library

A variety of physical and chemical parameters are routinely monitored during operation of the Natural Circulation System, a wastewater purification bioreactor in which only natural materials and no synthetic chemicals are used. However, the microbial community structures existing in the Natural Circulation System have not been well characterized. Thus, bacterial community structure and composition in this system were studied using clone library analysis of 16S ribosomal RNA genes amplified using PCR with universal bacterial primer sets. The PCR products were then subcloned into the pGEM-T vector. Each unique restriction fragment length polymorphism pattern, created by using two pairs of restriction endonucleases, was designated as an operational taxonomic unit (OTU). The Natural Circulation System comprises five tanks, the second and third of which play a major role in the bioreactor. Clone library pro-files and principal component analysis revealed differences in the bacterial community structures of the second (anaerobic chamber) and the third (aerobic chamber) tanks. However, the beta-proteobacteria, Bacteroidetes/ Chlorobi and gamma-proteobacteria groups were dominant in both tanks. Bacterial composition was more complex in the second tank (107 OTUs) than in the third tank (68 OTUs). Of a total of 154 OTUs in the clone libraries, only 21 were common to the two tanks. The results obtained in this study should provide important information for future research into and management of the Natural Circulation System wastewater bioreactor.     

Successions of bacterial community in composting cow dung wastes with or without hyperthermophilic pre-treatment

Comparative analyses of bacterial community successions in the composting materials were done for a conventional windrow post-treatment (WPOT) process with the hyperthermophilic pre-treatment (HTPRT) and simple windrow composting (SWC; without the HTPRT). Multidimensional scaling profiles based on data of terminal restriction fragment length polymorphisms of the bacterial population in the samples of every 7 days composting material and analyses of the 16S rRNA gene-based clone library of the 7 and 21 days composting materials suggested that bacterial communities of the composting materials differed much between these two processes until the 35 days of composting, whereas that they were closely related to each other at the final composting stage (42 days of composting). Detailed phylogenetic analysis clarified that all WPOT clone libraries contained many clones of the lineages of aerobic bacteria (for example, bacilli). However, the most abundant clones retrieved from all SWC materials were affiliated with a clone cluster closely related to identified and classified members of the phylum Firmicutes that have strictly anaerobic metabolism pathways. From these results, we conclude that the HTPRT process contributed to easily establish an aerobic ecosystem from the early stage to the final stage of WPOT composting with plowing the materials only once a week.     

Identification of dominant bacterial phylotypes in a cadmium-treated forest soil

The presence of heavy metals in soils can lead to changes in microbial community structure, characterized by the dominance of groups that are able to tolerate contamination. Such groups may provide good microbial indicators of heavy-metal pollution in soil. Through terminal restriction fragment length polymorphism (T-RFLP) profiling, changes in the bacterial community structure of an acidic forest soil that had been incubated with cadmium (Cd) for 30 days were investigated. T-RFLP revealed, in particular, three operational taxonomic units (OTUs) strongly dominating in relative abundance in the contaminated soil. By cloning of the amplified 16S rRNA genes and partial sequencing of 25 clones, these three dominant OTUs were phylogenetically characterized. One dominant OTU in the cadmium-contaminated soil was derived from Betaproteobacteria, genus Burkholderia, and the other two were from uncultured members of the class Actinobacteria, closely related to the genus Streptomyces. To confirm T-RFLP data, four primers were designed on the basis of this study's dominant sequences, targeting the OTUs corresponding to Burkholderia or Actinobacteria. Real-time PCR showed that Burkholderia target sequences were more abundant in cadmium-treated soil (7.8 x 10(7)+/- 3.0 x 10(7) targets g(-1) soil) than in untreated soil (4.0 x 10(6)+/- 8.9 x 10(5) targets g(-1) soil). It was concluded that the genus Burkholderia includes species that may be particularly dominant under cadmium contamination.