驯化对生物阴极微生物燃料电池中阴极微生物群落多样性的影响

【背景】生物阴极微生物燃料电池因其构造成本低和阴极可持续性发展的优点而成为一种很有前途的废水处理系统,但阴极微生物的氧化还原性能限制了其在实际应用中的推广。【目的】为了提高生物阴极的性能,需要深入了解影响阴极氧化还原性能的微生物群落。【方法】利用16S rRNA基因高通量测序技术分析对比原始接种污泥样品和驯化后阴极电极上生物膜样品多样性及结构变化。【结果】测序结果表明,原始接种污泥样品与驯化后阴极电极生物膜样品中微生物群落种类和结构存在显著差异,驯化后阴极电极生物膜样品中变形菌门(Proteobacteria)、γ-变形菌纲(Gammaproteobacteria)和特吕珀菌属(Trueperaceae)相对丰度比例高于原始污泥样品,成为优势菌群。【结论】驯化对系统阴极电极生物膜群落影响显著,随着产电量的输出,优势菌群不断富集,最终形成一个适应该实验环境下的新的微生物群落。对优势菌群结构和变化进行探讨,为生物阴极的研究补充更多生物学方面的理论基础。     

单室微生物电解池除镍途径分析及微生物群落动态特征北大核心CSCD

【目的】为探究UASB颗粒污泥启动的单室微生物电解池(Single-chamber microbial electrolysis cell,SMEC)对Ni(II)的去除途径和SMEC中微生物群落的动态特征。【方法】以乙酸钠为底物,采用单因子控制方法分析SMEC对Ni(II)的去除途径和应用Illumina高通量测序技术解析SMEC启动过程中微生物群落的组成和结构动态学特征。【结果】结果表明,SMEC对重金属的去除主要通过吸附和微生物作用。经培养驯化功能菌群发生变化。成熟单室微生物燃料电池(Single-chamber microbial fuel cell,SMFC)阳极生物膜菌群主要是Proteobacteria(变形菌门,91.42%)中的Geobacter sp.(地杆菌属,76.25%);阴极生物膜菌群主要是Bacteroidetes(拟杆菌门,47.99%)中的Niabella sp.(布鲁氏菌属,33.01%)和Proteobacteria(45.74%)中的Ochrobactrum sp.(苍白杆菌属,10.80%)。成熟SMFC改装成的SMEC在12.5 mg-Ni(II)/L下,阳极生物膜菌群由单一优势菌Geobacter sp.转变为Geobacter sp.(41.56%)和Proteobacteria中的Azospirillum sp.(固氮螺菌属,5.97%);阴极生物膜菌群由Niabella sp.和Ochrobactrum sp.转变为Firmicutes(厚壁菌门,25.21%)中的Acetoanaerobium sp.(19.28%)、Proteobacteria(51.42%)中的Dokdonella sp.(16.48%)和Azospirillum sp.(9.49%)。【结论】本研究表明,污泥微生物经SMFC和SMEC驯化过程及Ni(II)的淘汰和选择,在电极上形成了稳定、高效产电与除镍菌群,优势菌群为Proteobacteria。     

微生物电解池阳极生物膜功能菌群构建及群落特征分析

【目的】微生物电解电池(MEC)是近几年快速发展的利用电极呼吸微生物快速降解有机质,通过较小的辅助外加电压直接生成氢气的新工艺。MEC能够有效地富集高效率电子传递功能菌群,是未来工艺放大和快速启动的关键。【方法】采用不同驯化方法构建MEC电极微生物菌群,通过单链构象多肽性技术(Single-strand conformation poly-morphism,SSCP)快速检测分析启动后电子传递功能菌群特征。【结果】阳极生物膜接种MEC可以实现2 d的快速启动,库仑效率达到20%以上,7 d获得稳定产氢,氢气转化率达到30%,能量回收效率达到90%以上。通过SSCP群落分析发现,采用微生物燃料电池阳极生物膜构建的MEC主要电子传递功能相关的菌群包括Pseudomonas sp.、Flavobacterium sp.、Ochrobactrum sp.,而直接由产氢MEC阳极生物膜新启动的MEC功能菌群组成丰度更大,包括电子传递效能更高的Desulfovibrio、Pseudomonas和Shewanella成为主要优势电子传递菌群。通过稳定产氢运行,MEC阳极生物膜优势菌群中存在的较大比例的厌氧菌与电子传递辅助菌对体系的快速稳定运行十分重要。【结论】与MFC阳极生物膜相比,MEC生物膜作为启动菌源能够获得多样性更丰富的电极功能菌群,其库仑效率和产氢效率更具优势。     

微生物燃料电池利用乳酸产电性能与微生物群落分布特征

【目的】为探讨以乳酸为基质的微生物燃料电池(Microbial fuel cell,MFC)产电性能以及微生物群落在阳极膜、悬浮液、阳极沉淀污泥中的分布特征,【方法】试验建立了双室MFC,以乳酸为阳极主要碳源,研究了反应器的启动过程及产电效能,同时以电镜和PCR-变性梯度凝胶电泳(Denaturing gradient gelelectrophoresis,DGGE)技术解析了微生物群落的空间分布特征。【结果】结果表明,反应器启动第7天时外电压达到0.56 V,当外阻为80Ω时,电流密度为415 mA/m2,MFC的功率密度达到最大值82 mW/m2。电镜观察发现大量杆菌附着在阳极表面,结合较为紧密;DGGE图谱显示阳极膜表面微生物与种泥最为相似,与阳极悬浮液、底部沉淀污泥中的主要菌群一致,条带序列与睾丸酮丛毛单胞菌(Comamonas testosteroni)和布氏弓形菌(Arcobacter butzleri)等最为相似。【结论】本研究表明以乳酸为基质MFC可产生较高的功率密度,阳极附着的优势菌与接种污泥来源密切相关。     

基于高通量测序的4种硝化细菌富集培养物微生物群落结构分析

【目的】比较分析4种硝化细菌富集培养物(以铵盐为氮源的淡水富集物A、以亚硝酸盐为氮源的淡水富集物B、以铵盐为氮源的低温淡水富集物C和以亚硝酸盐为氮源的海水富集物D)的微生物群落结构与组成。【方法】分别提取样品的总DNA,采用高通量测序技术,分析微生物群落的组成、丰度和多样性。【结果】在不同微生物的分类水平,4个样品共检测到24门47纲129属。4个样品的优势菌门均为变形菌门;样品A、B、C的优势菌纲为β-变形菌纲和γ-变形菌纲,样品D的优势菌纲为γ-变形菌纲、δ-变形菌纲和芽孢杆菌纲;而优势菌属各不相同,其中样品A为亚硝化单胞菌属(24.56%),样品B为链霉菌属(7.15%),样品C为噬菌弧菌属(19.36%)和类诺卡氏菌属(19.35%),样品D为嗜酸菌属(13.6%)和柄杆菌属(11.5%)。共检测出7种具有硝化功能的细菌,其中样品A、B和D中主要是亚硝化单胞菌属,占比分别为24.56%、4.94%和0.63%,样品C主要为Nitrospirillum(0.69%)和硝化螺旋菌属(0.69%)。此外在样品中还检测到红灯食烷菌、羽扇豆根瘤菌等有益菌,以及弧菌属、伯克霍尔德菌等致病菌。【结论】阐述了4个样品微生物群落结构的多样性,确定了不同培养物中起主要作用的硝化细菌类群以及其它与环境物质循环相关或具有特殊生理特性的菌群,研究结果为硝化细菌富集培养物的实际应用奠定了基础。     

模拟增温对青海湖鸟岛土壤微生物的影响

【背景】土壤微生物对其生存的微环境变化极为敏感,鸟岛作为湖滨湿地,对气候变化具有敏感性,但目前关于青海湖鸟岛的土壤微生物鲜有研究。【目的】探究气候变暖后青海湖鸟岛土壤微生物群落特征的变化。【方法】利用开顶箱模拟增温,通过高通量测序方法了解温度升高后土壤细菌及真菌的群落结构以及多样性的变化情况。【结果】温度的升高并未改变青海湖鸟岛土壤微生物的优势菌群,细菌优势菌群为变形菌门和酸杆菌门;真菌优势菌门为子囊菌门,优势菌纲为座囊菌纲。但增温改变了土壤微生物的群落结构,显著升高了拟杆菌门、蓝细菌门、Patescibacteria及球囊菌纲的相对丰度,显著降低了锤舌菌纲的相对丰度。土壤微生物群落的多样性指数也发生了变化,温度上升后微生物的ACE指数及Chao1指数均降低,细菌的Simpson指数及真菌的Shannon指数降低。【结论】青海湖鸟岛土壤微生物对温度升高的响应明显,增温改变了土壤细菌拟杆菌门、蓝细菌门、Patescibacteria的相对丰度及真菌的球囊菌纲、锤舌菌纲的相对丰度,降低了土壤微生物的多样性。     

微生物燃料电池阳极微生物群落对乳酸-丙酸-乳酸底物转换的响应特征

摘要:【目的】为探讨底物波动对微生物燃料电池(MFC)产电效能和阳极微生物群落的影响,【方法】依次以乳酸-丙酸-乳酸为底物,应用不依赖于培养的微生物分子生态学技术,解析单室MFC 启动及底物替换过程中阳极微生物群落的动态学响应特征。【结果】底物的更换过程降低了MFC的产电效能,当改变为新底物后,MFC需要较长的产电恢复期。同时,底物的转换改变了阳极微生物群落结构,Anaeromusa spp.、Pseudomonas spp．以及Thiobacillus thioparus对乳酸底物具有很好的响应,随着乳酸底物的投加而富集;丙酸底物对Dechloromonas spp.和Comamonas testosteroni等类群表现出较强的选择作用;而产电微生物Geobacter spp.由于利用乳酸、丙酸的共同代谢产物乙酸为底物而被逐渐富集,是多种底物替换过程的重叠种群。【结论】本研究表明,MFC的阳极微生物群落组成与投加的底物有较强的对应性,为了减缓底物波动对MFC产电过程的影响,应尽量采用混合有机底物,以提供宽泛的营养生态位,提高种群的功能重叠性。     

自然微生物挂膜处理水产养殖废水的效果及微生物群落分析

以弹性填料和流化床填料为硝化反应的生物挂膜材料, 聚羟基丁酸/戊酸共聚酯(PHBV)为反硝化反应的碳源和生物膜载体, 通过微生物自然挂膜处理低C/N比水产养殖废水, 去除水体中的氨氮、亚硝酸盐氮及总氮。应用Miseq高通量测序技术对生物膜的微生物群落组成和结构进行分析。结果表明: 温度25—30℃, 该处理系统首次挂膜成功需要4周, 启动后运行稳定, 对2种不同来源和氮污染程度的养殖废水均有较好的脱氮效果, 氨氮、亚硝酸盐氮及总氮的去除率均在90%以上。硝化生物膜(a)的优势菌分别归属变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes)和厚壁菌门(Firmicutes)。反硝化生物膜(b)微生物群落的多样性指数和丰度指数均远大于前者, 主要为变形菌门、厚壁菌门、拟杆菌门、螺旋体门(Spirochaetae)及绿菌门(Chlorobi)。其中, 归属于变形菌门β-变形菌纲(Betaproteobacteria)的丛毛单胞菌科(Comamonadaceae)和红环菌科(Rhodocyclaceae)在2种生物膜中占比均较高。由于所处环境(载体, 碳源、溶氧等)不同, 在属分类水平上, 2种生物膜的细菌群落结构表现出明显差异。生物膜a中属的种类仅为b的三分之二, 相对丰度>0.5%的优势菌属, a为8个, b为18个。其中, 隶属丛毛单胞菌科和红环菌科未知属的优势种群分别占到a、b总序列数的56.67%和45.51%。磁螺菌属(Magnetospirillum)和硝化螺菌属(Nitrospira)是a中特有的优势功能菌群, 梭菌属(Clostridium)、动胶菌属(Zoogloea)、管道杆菌属(Cloacibacterium)、脱硫弧菌属(Desulfovibrio)等具有反硝化功能的菌群为b的优势菌属。     

马里亚纳海沟不同深度水样微生物分离与多样性分析

【背景】马里亚纳海沟挑战者深渊是地球表面最深点,认识其微生物群落结构和分离培养的微生物对挖掘新的微生物资源具有重要意义。【目的】对马里亚纳海沟不同深度水样进行细菌分离培养,并与这些样品的微生物群落结构进行比较,认识进一步要分离培养的微生物类型。【方法】采用不同培养基对马里亚纳海沟两个站位不同深度水样进行细菌分离培养,并通过Illumina MiSeq高通量测序分析各个水样的细菌和古菌的群落结构。【结果】从来自两个站位不同深度的6个水样样品中分离获得783株细菌,属于4个门6个纲28个属。其中,变形菌门占主导地位,67.8%的菌株属于γ-变形菌纲。分离获得的菌株主要属于亚硫杆菌属、假单胞菌属和交替假单胞菌属,它们在这些样品中广泛分布,且在高通量测序结果中也能检测到。高通量测序结果表明除浅层样品优势微生物为蓝细菌外,其他样品以变形菌门占主导;不同深度样品的微生物群落结构存在较大差异。【结论】马里亚纳海沟不同深度水样中不仅分离培养出了相对丰度较高的一些细菌属,也分离得到一些相对丰度较低的微生物类型。从马里亚纳海沟水样中分离培养获得的细菌菌株资源将用于功能微生物和功能酶挖掘等相关研究,这有利于深渊微生物资源挖掘。     

汾河入黄口夏季微生物群落结构分析

【背景】河流交汇区日益成为流域生态治理的焦点和热点之一。【目的】探明汾河入黄口微生物群落结构及其主要环境影响因子。【方法】应用16S rRNA基因Illumina MiSeq高通量测序技术,分析了汾河入黄口夏季微生物群落结构,并利用典范对应分析(Canonical correspondence analysis,CCA)了解影响微生物群落的主要环境因子。【结果】多样性指数分析表明该区域微生物群落多样性较高。微生物多样性分析发现优势菌门为变形菌门(Proteobacteria)、厚壁菌门(Firmicutes)、拟杆菌门(Bacteroidetes)和放线菌门(Actinobacteria);在属分类水平上,相对丰度最高的菌属为芽孢杆菌属(Bacillus),其次为乳球菌属(Lactococcus)和hgcI_clade。Spearman相关性分析及典范对应分析表明环境因子对水体微生物群落结构具有显著影响。【结论】汾河与黄河微生物群落组成具有一定的差异,不同环境因子对不同微生物的影响程度不同,p H和溶解氧(Dissolved oxygen,DO)是汾河入黄口微生物群落结构的主要影响因子。     

Significance of microbial interactions in control of microbial ecosystems

A microbial ecosystem represents a delicately balanced population of microorganisms each interacting with and influencing the other members of the population. An understanding of the nature and effects of these interactions is essential to improving the performance of these ecologies, which are important, in such diverse processes as biological waste treatment procedures, water pollution abatement, industrial fermentations, human or animal digestives processes and in soil. There are several types of mocrobial interactions, such as commensalism, inhibition, food competition, predation, parasitism, and synergism, which either singly or in combination may influence the functioning of the microbial ecology. To understand interactions, it is necessary to perform a detailed study of the physiology of the individual predominating microorganisms to establish their requirements with respect to such environmental factors as nutrients, temperature, pH, oxidation-reduction potential, removal of waste products, or toxic materials which may be involved in control processes and to determine how these factors affect their capabilities. The sum total of this information will indicate the possible interactions between the microorganisms and will form the basis for conducting experiments either in the laboratory or with mathematical models. Such experiments will lead to an understanding of microbial activities and to the formulation of control measures, often using an alteration of the environmental factors for regulation of the microbial ecologies. Extensive research remains to be done on the microbial interact inns in obtain the desired, precise control of these ecological processes.     

Adaptive response of microbial communities to soluble microbial products

We carried out two experiments to study the influence of soluble microbial products (SMP) on biomass concentration [defined as mixed liquor suspended solids (MLSS)] and removal of soluble biological and chemical oxygen demands (sBOD₅ and sCOD): (1) SMP were allowed to accumulate, and (2) SMP content was artificially reduced by washing the biomass. The daily initial sCOD in both experiments was kept constant at 859±6 mg/l for 16 days. In experiment 1, the highest sCOD removal (80%) occurred during the first day. Thereafter, it decreased successively to 40% [sludge retention time (SRT), 12 days], after which it increased steadily to 50±4%. Variations in residual sCOD were accompanied by variations in sBOD₅, showing that the biodegradability of the accumulated SMP components was changing. MLSS fluctuated within the range 1,200±25–1,993±58 mg/l. We attributed the irregular accumulation of the biomass to variations in the biodegradability of SMP components. The initial sBOD₅/MLSS ratio varied according to variations in initial sBOD₅ and MLSS, whereas the residual ratio was constant at 0.025±0.008. This indicated a direct relationship between the concentrations of biomass and SMP produced. In experiment 2, MLSS increased from 1,200±25 to a constant value (2,810±16 mg/l; SRT, 12 days). After this time, no decrease or increase in MLSS was observed. Correspondingly, sCOD and sBOD₅ removal increased from 80–97 to 84–99%. A stable microbial community that could consume organic matter efficiently was developed under these conditions.     

The influence of soluble microbial products on microbial community composition: hypothesis of microbial community succession

Soluble microbial products (SMP) are organic compounds produced by activated sludge microorganisms as they degrade substrates. They include by-products of microbial activity, death and lysis. The available literature does not reveal how SMP influence microbial community composition. In this regard, we microscopically studied changes in composition of microbial communities, especially protozoa and metazoa, under the influence of increased as well as reduced levels of SMP. The presence of SMP at high level significantly caused changes in microbial community composition. Microbial species shifted from attached ciliates (12-175 microm) to free-swimming and crawling ciliates (35-330 microm) and then invertebrates, which included rotifers (0.2-1 mm) and nematodes (1-50 mm). The shift of small-size microorganisms to large ones was observed as one of the most significant influences of SMP. Attached ciliates reappeared when we removed the SMP that had accumulated in the bioreactors - we have called this as the resurrection phenomenon of microorganisms. Such rapid changes in microbial community composition were not observed in the experiment with low concentration of SMP. Overall, the results suggest that accumulation of SMP is one of the intrinsic regulatory mechanisms that control viability and dormancy of microbial communities in activated sludge.     

微生物多样性保护与病原微生物资源保藏

本文从微生物物种的多样性保护以及病原微生物资源的保藏等方面详细阐述了微生物资源保护与保藏的相互关系与重要性,介绍了微生物多样性保护及其研究进展和意义,病原微生物保藏的概述、资源的收集与共享,以及保藏机构相关信息。     

微生物在成矿及矿区环境修复中的应用研究现状

随着近代微生物学与地质学研究的不断发展和深入,微生物在矿业相关领域的基础和应用研究日益受到重视。本文总结了近年来微生物及其技术在找矿、选矿、采矿等方面的应用研究进展情况,并着重对微生物在矿产的成矿以及废弃矿区的环境修复方面的研究进行了详细介绍。     

降解水稻秸秆的复合菌系及其微生物群落结构演替北大核心CSCD

【目的】比较和分析从堆肥中富集的水稻秸秆降解菌系F1和F2的纤维素分解能力、微生物群落结构及其在秸秆降解过程中的演替,从而探究微生物群落结构与秸秆降解效率的相关性。【方法】采用DNS(3,5-二硝基水杨酸,3,5-dinitrosalicylic acid)定糖法测定发酵液中的外切纤维素酶活;采用范氏(Van Soest)洗涤纤维分析法测定发酵前与发酵后的秸秆纤维素、半纤维素、木质素的含量,并计算降解率;采用16S r RNA基因序列分析和实时荧光定量PCR(Quantitative real-time PCR,Q-PCR)对秸秆降解过程中的微生物物种组成及特定的功能微生物进行定性和定量分析。【结果】复合菌系F1的水稻秸秆总降解率、纤维素降解率、半纤维素降解率显著高于复合菌系F2;2种复合菌系的外切纤维素酶活性与cel48基因的拷贝数变化趋势一致;复合菌系F1的物种较丰富,优势物种是好氧细菌,复合菌系F2的物种组成较单一,培养后期具有较高比例的厌氧纤维素分解菌;培养前4天,复合菌系F1和F2的优势物种均为Unclassified Bacillales和Bacillus;第4天之后,不同复合菌系的优势物种及丰度出现差异,F1的优势物种主要属于Bacteroidetes,F2的优势物种主要属于Firmicutes;虽然Petrimonas和Pusillimonas是培养后期的共有优势物种,但是Petrimonas在复合菌系F2中的相对丰度(38.30%)显著高于F1(9.47%),且培养第8天的F2中的Clostridiales OPB54增加至14.85%。【结论】cel48基因拷贝数变化与秸秆纤维素的降解效率、外切纤维素酶活性变化具有一定的相关性,cel48基因可作为潜在的生物分子标记监测秸秆纤维素的降解过程;微生物群落结构对秸秆纤维素的降解效率具有显著影响,Unclassified Bacillales,Bacillus,Petrimonas,Pusillimonas是复合菌系F1和F2降解秸秆纤维素过程中的重要物种。     

iNKT cells in microbial immunity: recognition of microbial glycolipids

Natural killer T cells expressing an invariant T cell antigen receptor (iNKT cells) are cells of the innate immune system. After recognizing glycolipid antigens presented by CD1d molecules on antigen presenting cells (APCs), iNKT cells rapidly produce large quantities of cytokines, thereby stimulating many types of cells. Recent studies have described several mechanisms of iNKT cell activation and the contribution of these cells to antimicrobial responses. iNKT cells can be activated by endogenous antigens and/or inflammatory cytokines from APCs. However, iNKT cells also recognize certain microbial glycolipids by their invariant T cell antigen receptor (TCR), and they contribute to pathogen clearance in certain microbial infections. These findings indicate that the iNKT TCR is useful for detecting certain microbial pathogens. Moreover, recent studies suggest that iNKT cell glycolipid antigens may be useful in antimicrobial therapy and vaccines.     

Diazotrophic microbial community of coastal microbial mats of the southern North Sea

The diazotrophic community in microbial mats growing along the shore of the North Sea barrier island Schiermonnikoog (The Netherlands) was studied using microscopy, lipid biomarkers, stable carbon (δ(13) C(TOC) ) and nitrogen (δ(15) N) isotopes as well as by constructing and analyzing 16S rRNA gene libraries. Depending on their position on the littoral gradient, two types of mats were identified, which showed distinct differences regarding the structure, development and composition of the microbial community. Intertidal microbial mats showed a low species diversity with filamentous non-heterocystous Cyanobacteria providing the main mat structure. In contrast, supratidal microbial mats showed a distinct vertical zonation and a high degree of species diversity. Morphotypes of non-heterocystous Cyanobacteria were recognized as the main structural component in these mats. In addition, unicellular Cyanobacteria were frequently observed, whereas filamentous heterocystous Cyanobacteria occurred only in low numbers. Besides the apparent visual dominance of cyanobacterial morphotpyes, 16S rRNA gene libraries indicated that both microbial mat types also included members of the Proteobacteria and the Cytophaga-Flavobacterium-Bacteroides group as well as diatoms. Bulk δ(15) N isotopes of the microbial mats ranged from +6.1‰ in the lower intertidal to -1.2‰ in the supratidal zone, indicating a shift from predominantly nitrate utilization to nitrogen fixation along the littoral gradient. This conclusion was supported by the presence of heterocyst glycolipids, representing lipid biomarkers for nitrogen-fixing heterocystous Cyanobacteria, in supratidal but not in intertidal microbial mats. The availability of combined nitrogen species might thus be a key factor in controlling and regulating the distribution of the diazotrophic microbial community of Schiermonnikoog.     

Overview of microbial biofilms

As the success of this two-issue special section of the Journal of Industrial Microbiology attests, the study of microbial biofilms is truly burgeoning as the uniqueness and the importance of this mode of growth is increasingly recognized. Because of its universality the biofilm concept impacts virtually all of the subdivisions of Microbiology (including Medical, Dental, Agricultural, Industrial and Environmental) and these two issues incorporate contributions from authors in all of these disciplines. Some time ago we reasoned that bacteria cannot possibly be aware (sic) of their precise location, in terms of this spectrum of anthrocentric subspecialties, and that their behavior must be dictated by a standard set of phenotypic responses to environmental conditions in what must seem to them (sic) to be a continuum of very similar aquatic ecosystems. In this overview I will, therefore, stress the common features of microbial biofilms that we should bear in mind as we use this simple universal concept to seek to understand bacterial behavior in literally hundreds of aquatic ecosystems traditionally studied by dozens of subspecies of microbiologists reared in sharply different scientific and academic conventions.