Effect of reclaimed water effluent on bacterial community structure in the Typha angustifolia L. rhizosphere soil of urbanized riverside wetland, China

In order to evaluate the impact of reclaimed water on the ecology of bacterial communities in the Typha angustifolia L. rhizosphere soil,bacterial community structure was investigated using a combination of terminal restriction fragment length polymorphism and 16S rRNA gene clone library. The results revealed significant spatial variation of bacterial communities along the river from upstream and downstream. For example,a higher relative abundance of γ-Proteobacteria,Firmicutes,Chloroflexi and a lower proportion ofβ-Proteobacteria and ε-Proteobacteria was detected at the downstream site compared to the upstream site. Additionally,with an increase of the reclaimed water interference intensity,the rhizosphere bacterial community showed a decrease in taxon richness,evenness and diversity. The relative abundance of bacteria closely related to the resistant of heavy-metal was markedly increased,while the bacteria related for carbon/nitrogen/phosphorus/sulfur cycling wasn't strikingly changed. Besides that,the pathogenic bacteria markedly increased in the downstream rhizosphere soil since reclaimed water supplement,while the possible plant growth-promoting rhizobacteria obviously reduced in the downstream sediment.Together these data suggest cause and effect between reclaimed water input into the wetland,shift in bacterial communities through habitat change,and alteration of capacity for biogeochemical cycling of contaminants.     

两相一体式污泥浓缩消化(TISTD)反应器微生物多样性研究

针对课题组开发的两相一体式污泥浓缩消化反应器(TISTD),采用16S rDNA、PCR-TGGE等分子生物学技术,对反应器在不同阶段稳态下的内、外反应室中微生物的多样性和种群结构进行了研究.结果表明:TISTD反应器内外反应室中微生物群落均呈现高度的多样性分布,优势菌群明显,群落结构差异性很大,且外反应室较内反应室具有更多的微生物种群数量,外室是水解酸化的场所,污泥在外室经过微生物的水解酸化后进入内室,内室是严格厌氧的产甲烷场所;从反应器运行的不同时期来看,反应器中微生物优势种群呈现一定的差异,随着反应器负荷的改变,微生物的群落结构和种群数量也呈现出明显的演替过程,优势种群的功能地位处在动态变化中.微生物种群之间通过协同和竞争作用,形成了特定生态位的群落结构.研究结果解释了TISTD反应器同时浓缩和消化的工作机理,并为其推广、应用及优化调控提供了理论基础.     

Variations of dominant microbial populations in groundwater in response to the leachate from Laogang Landfill

Temporal changes of dominant microbial populations in groundwater in response to the leachate from Shanghai Laogang Landfill were investigated. Concentrations of dissolved redox-relevant species in groundwater suggested that the dominating redox process had changed from denitrification to methane-production/sulfate-reduction due to landfilling. Dominant microbial populations were determined using restriction fragment length polymorphism(RFLP) analyses of 16S rRNA gene libraries, which were further studied by sequencing and phylogenetic analyses. The results indicated that obvious shifts of dominant microbial populations had occurred in groundwater in response to the pollution of leachate. The closest relatives of some dominant clones are accordant with the dominating redox processes determined by hydrochemical analyses, based on the GenBank‘s indications on the ability to perform redox reactions.     

Screening and degrading characteristics and community structure of a high molecular weight polycyclic aromatic hydrocarbon-degrading bacterial consortium from contaminated soil

Inoculation with effcient microbes had been proved to be the most important way for the bioremediation of polluted environments. For the treatment of abandoned site of Beijing Coking Chemical Plant contaminated with high level of high-molecular-weight polycyclic aromatic hydrocarbons(HMW-PAHs) ,a bacterial consortium capable of degrading HMW-PAHs,designated 1-18-1,was enriched and screened from HMW-PAHs contaminated soil.Its degrading ability was analyzed by high performance liquid chromatography(HPLC) ,and the community structure was investigated by construction and analyses of the 16S rRNA gene clone libraries(A,B and F) at different transfers.The results indicated that 1-18-1 was able to utilize pyrene,fluoranthene and benzoapyrene as sole carbon and energy source for growth.The degradation rate of pyrene and fluoranthene reached 82.8%and 96.2%after incubation for 8 days at 30°C,respectively;while the degradation rate of benzoapyrene was only 65.1%after incubation for 28 days at 30°C. Totally,108,100 and 100 valid clones were randomly selected and sequenced from the libraries A,B,and F.Phylogenetic analyses showed that all the clones could be divided into 5 groups,Bacteroidetes,α-Proteobacteria,Actinobacteria,β-Proteobacteria andγ-Proteobacteria.Sequence similarity analyses showed total 39 operational taxonomic units(OTUs) in the libraries.The predominant bacterial groups wereα-Proteobacteria(19 OTUs,48.7%) ,γ-Proteobacteria(9 OTUs,23.1%) andβ-Proteobacteria(8 OTUs,20.5%) . During the transfer process,the proportions ofα-Proteobacteria andβ-Proteobacteria increased greatly(from 47%to 93%) ,while γ-Proteobacteria decreased from 32%(library A) to 6%(library F) ;and Bacteroidetes group disappeared in libraries B and F.     

高氨氮废水与城市生活污水短程硝化系统菌群比较

短程硝化是污水脱氮工艺中的重要环节,系统中的菌群结构决定了其处理效果.为探讨短程硝化系统中的微生物对不同污水的适应性,利用细菌16S rDNA克隆文库、磷脂脂肪酸(PLFA)和定量PCR分析方法对高氨氮废水和城市生活污水短程硝化系统中活性污泥的细菌群落结构、总体微生物的多样性以及功能微生物进行了比较.克隆文库结果表明两个系统中细菌群落结构明显不同,城市生活污水中细菌种类更丰富,但两个系统的优势菌群都属于变形菌门(Proteobacteria)和拟杆菌门(Bacteroidete).磷脂脂肪酸分析结果显示高氨氮废水短程硝化系统中微生物多样性指数和均匀度指数明显低于城市生活污水.定量PCR结果表明,高氨氮废水短程硝化系统中氨氧化菌(AOB)与亚硝酸盐氧化菌(NOB)的数量都多于城市生活污水短程硝化系统;高氨氮废水短程硝化系统中AOB比NOB高3个数量级,而城市生活污水短程硝化系统中AOB比NOB高2个数量级.     

PCR-DGGE研究处理垃圾渗滤液序批式生物膜反应器(SBBR)中的细菌多样性

为了研究序批式生物膜反应器中的细菌多样性及其脱氮的微生物学机理,为工艺改进提供依据,从同步高效去除垃圾渗滤液中高氨氮和高COD的SBBR生物膜和渗滤液原水中采集微生物样品并提取微生物总DNA,使用细菌通用引物对（GC341F/907R）从总DNA中成功扩增出目标16S rDNA片段,然后对扩增的16S rDNA进行DGGE,对凝胶染色并进行条带统计分析和切胶测序,使用序列数据进行同源性分析并建立了系统发育树.结果表明,该驯化后的SBBR生物膜和渗滤液原水中都有比较丰富的细菌多样性,驯化的生物膜细菌主要来自渗滤液原水,而且生物膜细菌在反应器正常运行时不会出现明显的群落结构变化;在该SBBR中有多种硝化细菌与反硝化细菌、好氧反硝化细菌和厌氧氨氧化细菌共存,说明该反应器中可能同时存在全程硝化反硝化、同步硝化反硝化和厌氧氨氧化3种脱氮方式.研究结果为SBBR脱氮微生物机理研究提供了一些有价值的参考依据.     

玉门油田污染荒漠土壤石油降解菌多样性

为探索石油污染荒漠土壤石油降解微生物多样性、筛选高效石油降解菌,采用涂布平板法从石油污染荒漠土壤分离具有石油降解能力细菌,采用细菌形态观察和16S rRNA基因序列分析其多样性,并设计特异性引物,对分离细菌降解相关基因进行检测.结果表明,分离的37株细菌分别属于放线菌纲(Actinobacteria)、γ变形菌纲(Gammaproteobacteria)、β变形菌纲(Betaproteobacteria)、芽孢杆菌纲(Bacilli)和α变形菌纲(Alphaproteobacteria),分别占35.14%、32.43%、13.51%、13.51%、5.41%,归属于21个属的34个种类.优势菌属为假单胞菌属(Pseudomonas)、红球菌属(Rhodococcus)、微球菌属(Micrococcus)、寡养单胞菌属(Stenotrophomonas)、无色杆菌属(Achromobacter)和葡萄球菌属(Staphylococcus),占总数的51.35%,其中有36株细菌能以石油为唯一碳源稳定生长,对原油有明显的降解能力.在石油质量浓度为1 500 mg/L的基础培养基中,菌株YM43在培养7 d后对石油的降解率达55.47%,另有8株细菌的降解率不低于30.55%,11株细菌的降解率介于10.05%~28.37%,18株细菌的降解率不高于8.05%. PCR检测表明,有25株细菌含有烷烃单加氧酶基因,6株含芳烃双加氧酶基因,6株含联苯双加氧酶基因,4株含萘双加氧酶基因,3株含甲苯双加氧酶基因,2株含邻苯二酚双加氧酶基因.研究显示,石油污染荒漠土壤中可培养细菌具有高度多样性,分离的菌株有较强的石油降解能力,其降解功能与所存在的降解基因有关.      

利用16s rDNA方法检测刺参消化道细菌种类

以2007年7月采自大连瓦房店养殖厂的刺参为实验材料,通过对刺参肠道中的细菌16s rDNA V3区基因进行扩增、克隆测序及序列同源性分析,对其种类进行初步研究。本研究测序获得11条16s rDNA V3区基因序列,并进行Blast同源比对,确定序列同源性,分析出11种细菌,三种梭菌属(Clostridium)细菌,两种为假单胞菌属细菌(Pseudomonas),一种产丙酸菌属细菌(Propionigenium),一种为金黄色葡萄球菌(Staphylococcus aureus),有六种细菌分别与4种不可培养的未命名细菌同源,并根据测序结果建立系统发生树。本研究提供了一种检测海洋微生物的方法,为刺参病害诊断提供科学依据,为海洋微生物资源的开发和新种的发现提供了资料。     

亚硝化/电化学生物反硝化全自养脱氮工艺细菌形态及多样性研究

采用电镜观察和分子生物学手段16S rDNA克隆文库方法对亚硝化/电化学生物反硝化全自养脱氮工艺中的细菌进行了形态和多样性研究,从16S rDNA克隆文库中随机挑选60(61)个克隆子进行序列测定(约500bp),对测序结果进行BLAST比对和系统发育分析.结果表明,亚硝化段内的细菌主要为球状和椭球状的氨氧化细菌,以亚硝酸氮作为进水基质时,电化学反硝化生物段内细菌主要为短杆状和椭球状的脱氮菌.亚硝化/电化学生物反硝化脱氮系统中蕴藏着特有的微生物新资源.亚硝化段细菌类群的优势顺序为β-Proteobacteria类群(60.00%)、Bacteroidetes类群(28.33%)和Chloroflexi类群(11.67%).当电化学生物反硝化段进水氮基质为亚硝氮(429～543mg.L-1)和氨氮(412～525mg.L-1)时,细菌优势类群顺序为β-Proteobacteria(78.33%)类群和ε-Proteobacteria类群(21.67%);当电化学生物反硝化段进水氮基质为亚硝氮(519～578mg.L-1)时,细菌优势类群顺序为β-Proteobacteria类群(81.97%)、ε-Proteobacteria(16.39%)类群和γ-Proteobacteria类群(1.64%);优势类群变化不大,但每种类群中细菌的种类和数量变化较大,这主要是由进水基质变化导致.