象山港网箱养殖区水体和沉积物的细菌生态分布

2006年1月和10月对象山港网箱养殖区细菌数量分布及群落结构进行研究,并与周边非养殖海域进行了比较。结果显示水体和沉积物细菌数量均呈现10月份1月份、网箱养殖区网箱外侧对照区近湾顶对照区近湾口对照区的分布特点,其中网箱养殖区水体异养细菌、弧菌数量分别在1.0×106—7.2×107CFU/L和1.6×105—1.3×106CFU/L之间,沉积物异养细菌、弧菌数量分别在5.9×102—6.1×105CFU/g和8.0×101—7.4×104CFU/g之间。网箱养殖区水体分离细菌89株,归属于12个属,其中不动杆菌属(Acinetobacter)、假单胞菌属(Pseudomonas)、弧菌属(Vibrio)等为优势菌属;沉积物分离细菌136株,归属于10个属,其中假单胞菌属(Pseudomonas)、弧菌属(Vibrio)、芽孢杆菌属(Bacillus)、不动杆菌属(Acinetobacter)等为优势菌属。由于长期受到高营养盐、高有机质等外界条件的选择作用,网箱区及网箱外侧对照区海域的细菌群落多样性较低,某些特定的细菌类群富集。研究表明网箱养殖区的细菌分布和菌属组成特征与养殖自身污染密切相关,并且养殖过程对细菌群落产生的影响已扩展至网箱外侧的邻近海域。     

贫营养湖泊花神湖和紫霞湖浮游细菌群落结构分析

以南京市花神湖和紫霞湖两个贫营养型湖泊为研究对象,通过构建花神湖和紫霞湖16S rRNA基因克隆文库探讨了浮游细菌群落结构组成的变化。结果表明,花神湖和紫霞湖两湖泊水体中浮游细菌群落结构相似,主要隶属于放线菌门(Actinobacteria)、蓝藻门(Cyanobacteria)、α-变形菌门(Alphaproteobacteria)、β-变形菌门(Betaproteobacteria)、杆菌门(Bacteroidetes)、浮霉菌门(Planctomycetes)、疣微菌门(Verrucomicrobia)和芽单胞菌门(Gemmatimonadetes),其中放线菌门(Actinobacteria)、蓝藻门(Cyanobacteria)、β-变形菌门(Betaproteobacteria)是优势细菌类群。两个湖泊水体中75%的细菌与GenBank中已有的未培养细菌同源性高于97%,同时在两个克隆文库中还发现了6个淡水细菌新类群。通过对低纬度区域贫营养型湖泊浮游细菌群落结构的分析,加深了我们对浮游细菌多样性的了解,表明湖泊浮游细菌多样性有待进一步认识。     

鄱阳湖湖泊细菌群落组成及结构——以松门山为例

于2011年5月在鄱阳湖——松门山湖区采集底泥与表层水样,分别提取了表层水体浮游和底泥微生物基因组DNA,利用454高通量测序技术对细菌的16S rRNA基因进行了序列测定,分析了湖泊底泥细菌、水体浮游细菌群落结构特征。结果显示:底泥细菌OTUs(Operational Taxonomic Units)为1454,表层水体浮游细菌OTUs为269;底泥细菌群落比表层水体更加多样化,底泥细菌的物种数大大多于表层水体。同时,底泥细菌群落与表层浮游细菌群落结构存在显著差异。物种分类显示鄱阳湖底泥细菌种类隶属于20门,228属,其中优势种群为δ-变形菌纲(Deltaproteobacteria)、β-变形菌纲(Betaproteobacteria)和疣微菌门(Verrucomicrobia);表层水体浮游细菌隶属于13门116属,优势种群为β-变形菌纲、拟杆菌门(Bacteroidetes)和放线菌门(Actinobacteria)。结果进一步揭示,无论是浮游细菌群落还是沉积物细菌群落,优势细菌种群的基因型多样性更高。     

放牧对贝加尔针茅草原土壤细菌群落结构的影响

利用变性梯度凝胶电泳(PCR-DGGE)技术,研究了放牧对贝加尔针茅(Stipa baicalensis)草原土壤细菌群落结构的影响。结果表明,放牧条件下,贝加尔针茅草原0～20cm土壤中细菌类群包括变形菌门(Proteobacteria)的α、β、γ、δ变形菌纲,放线菌门(Actinobacteria)、芽单胞菌门(Gemmatimonadetes)、绿弯菌门(Chloroflexi)、厚壁菌门(Firmicutes)、酸杆菌门(Acidobacteria)、疣微菌门(Verrucomicrobia)、拟杆菌门(Bacteroidetes)、硝化螺旋菌门(Nitrospirae)等,其中变形菌门、放线菌门属优势类群,疣微菌门细菌是中度放牧样地仅有的类群;典型对应分析表明,土壤细菌群落与放牧强度、土壤理化性状密切相关。轻度放牧样地土壤细菌群落与有机碳、C/N比有较为密切的关系,中度放牧样地土壤细菌群落则与全N有较密切的关系,重度放牧样地土壤细菌群落与土壤pH有关。     

象山港网箱养殖区沉积物的古菌空间分布

对象山港网箱养殖区及其周边沉积物中古菌群落的空间分布进行研究,应用基于16S rRNA基因的T-RFLP(末端限制性片段多态性分析)技术分析象山港网箱养殖区及其周边不同深度沉积物中古菌的群落结构和多样性,并构建克隆文库进行系统发育学分析。测定沉积物各项理化因子,通过PCA和RDA分析了古菌群落分布及其与环境因子之间的关系。结果表明,泉古菌是港口沉积物中的优势古菌群,占古菌群落的50%以上。网箱养殖区沉积物的古菌群落结构较非养殖区简单,多样性降低。非养殖区古菌群落随深度呈现有规律的变化。营养盐类和pH是造成养殖区域古菌群落结构区别于非养殖区域的主要环境因素。     

凡纳滨对虾健康状态分化前后养殖水体浮游细菌群落的比较

养殖水体浮游细菌群落与对虾健康状态息息相关.本研究基于16S rRNA高通量测序技术手段比较了凡纳滨对虾病害发生前后病害趋向塘与健康塘的浮游细菌群落多样性、组成及关键类群互作关系的动态变化.结果表明:对虾发病前,病害趋向养殖水体浮游细菌群落Shannon指数显著低于健康养殖水体,且呈现持续下降的趋势;伴随疾病爆发,病害趋向养殖水体浮游细菌群落结构离散程度显著增大,群落稳定性较差;发病前,病害趋向塘养殖水体中绿弯菌门、δ-变形菌纲和Saccharibacteria平均相对丰度均显著高于健康水体,而拟杆菌门显著低于健康水体;部分病害指示OTU隶属于弧菌科及黄杆菌科,隶属于红杆菌科的OTU1是发病前健康塘的健康指示OTU.网络分析表明,大多数与OTU1存在相互作用的指示OTUs属于黄杆菌科,说明黄杆菌科在对虾养殖水体浮游细菌群落中扮演重要角色.鉴于以上结果,对虾发病可能与多种浮游细菌群落相关,当出现“生态位机会”时,条件致病菌快速繁殖进而导致对虾发病,而保持和恢复细菌群落平衡可以成为预防对虾发病的有效策略.     

转Bt基因玉米对根际土壤细菌群落结构的影响

利用聚合酶链式反应-变性梯度凝胶电泳(PCR-DGGE)技术及扩增产物序列分析方法研究了转Bt基因玉米对根际土壤细菌群落结构及系统发育的影响.结果表明:转基因玉米与其非转基因亲本根际共有的土壤细菌分别隶属于变形菌门、疣微菌门、放线菌门、拟杆菌门、厚壁菌门、芽单胞菌门和酸杆菌门.其中,变形菌门为主要优势类群,占43.5%...     

虾-贝-红树林耦合循环水养殖系统中微生物群落分析

海水循环水养殖系统是重要的生态养殖模式发展趋势之一, 为了深入了解循环水养殖生态系统, 通过对系统各功能区水体中细菌16S rRNA基因V4V5区进行高通量测序和生物信息学分析, 从微生物生态学角度分析了循环水养殖系统不同功能区的细菌群落结构动态。测序分析结果显示, 海水循环水养殖系统中优势细菌种群分别属于变形菌门(Proteobacteria)、蓝藻门(Cyanobacteria)、拟杆菌门(Bacteroidetes)、厚壁菌门(Firmicutes)、放线菌门(Actinobacteria)和浮霉菌门(Planctomycetes)。红树林湿地水体中变形菌门和厚壁菌门丰度较高, 而对虾养殖池的拟杆菌门和浮霉菌门丰度较高。在不同优势类群中, 变形菌门多样性指数平均值最高, 其次是拟杆菌门, 厚壁菌门最低。在各功能区中, 红树林细菌多样性最高, 虾池最低。MDS分析结果显示虾池、贝池和红树林湿地水体中细菌群落结构有明显差异, 虾池与其他功能区差异最大。研究表明, 高密度对虾养殖对虾池水体中细菌群落有显著影响, 但其影响在循环水养殖系统后续功能区中逐渐减弱。     

泰山4种优势造林树种细根分解对细菌群落结构的影响

为了理解细菌群落结构和多样性对森林生态系统细根凋落物分解的影响, 该研究以泰山4种主要优势造林树种刺槐(Robinia pseudoacacia)、麻栎(Quercus acutissima)、油松(Pinus tabulaeformis)和赤松(Pinus densiflora)为研究对象, 采用凋落物分解袋法及Illumina Miseq测序平台对细菌16S rDNA V4-V5区扩增产物进行双端测序, 分析了4种树种细根分解对细菌群落结构及多样性的影响。结果表明: (1) 4种植物细根分解速率差异显著, 阔叶树种分解速率显著高于针叶树种, 表现为刺槐>麻栎>油松>赤松。(2) 4个树种细菌序列操作分类单元(OTU)、观测到的物种数、Ace指数和系统发育多样性之间差异显著, 且阔叶树种刺槐和麻栎显著低于针叶树种赤松和油松。4种细根分解的细菌群落结构存在极显著差异。细根初始碳(C)含量、木质素:氮(N)和C:N对细菌群落结构的影响较大。(3)细菌群落相对丰度在5%以上的优势类群是变形菌门、放线菌门、拟杆菌门、酸杆菌门, 且变形菌门、酸杆菌门在4个树种之间差异显著, 特别是阔叶树种变形菌门显著高于针叶树种。在纲水平上, α-变形菌纲、β-变形菌纲、γ-变形菌纲、不明放线菌纲、鞘脂杆菌纲为主要的优势纲, 其中α-变形菌纲、不明放线菌纲在4个树种之间差异显著。(4) Pearson相关性分析表明, 细菌优势门和纲相对丰度受到凋落物初始化学性质的影响, 特别是变形菌门和α-变形菌纲; 变形菌门和α-变形菌纲相对丰度与细根分解速率显著正相关。冗余分析结果也显示, 细根初始N、磷(P)含量和木质素含量对细菌群落结构的影响较大。研究结果有助于理解细菌群落结构和多样性对森林生态系统细根凋落物分解的影响。     

Effects of fine root decomposition on bacterial community structure of four dominated tree species in Mount Taishan,China

为了理解细菌群落结构和多样性对森林生态系统细根凋落物分解的影响, 该研究以泰山4种主要优势造林树种刺槐(Robinia pseudoacacia)、麻栎(Quercus acutissima)、油松(Pinus tabulaeformis)和赤松(Pinus densiflora)为研究对象, 采用凋落物分解袋法及Illumina Miseq测序平台对细菌16S rDNA V4-V5区扩增产物进行双端测序, 分析了4种树种细根分解对细菌群落结构及多样性的影响。结果表明: (1) 4种植物细根分解速率差异显著, 阔叶树种分解速率显著高于针叶树种, 表现为刺槐>麻栎>油松>赤松。(2) 4个树种细菌序列操作分类单元(OTU)、观测到的物种数、Ace指数和系统发育多样性之间差异显著, 且阔叶树种刺槐和麻栎显著低于针叶树种赤松和油松。4种细根分解的细菌群落结构存在极显著差异。细根初始碳(C)含量、木质素:氮(N)和C:N对细菌群落结构的影响较大。(3)细菌群落相对丰度在5%以上的优势类群是变形菌门、放线菌门、拟杆菌门、酸杆菌门, 且变形菌门、酸杆菌门在4个树种之间差异显著, 特别是阔叶树种变形菌门显著高于针叶树种。在纲水平上, α-变形菌纲、β-变形菌纲、γ-变形菌纲、不明放线菌纲、鞘脂杆菌纲为主要的优势纲, 其中α-变形菌纲、不明放线菌纲在4个树种之间差异显著。(4) Pearson相关性分析表明, 细菌优势门和纲相对丰度受到凋落物初始化学性质的影响, 特别是变形菌门和α-变形菌纲; 变形菌门和α-变形菌纲相对丰度与细根分解速率显著正相关。冗余分析结果也显示, 细根初始N、磷(P)含量和木质素含量对细菌群落结构的影响较大。研究结果有助于理解细菌群落结构和多样性对森林生态系统细根凋落物分解的影响。     

Linkages between bacterioplankton community composition, heterotrophic carbon cycling and environmental conditions in a highly dynamic coastal ecosystem

We used mesocosm experiments to study the bacterioplankton community in a highly dynamic coastal ecosystem during four contrasting periods of the seasonal cycle: winter mixing, spring phytoplankton bloom, summer stratification and autumn upwelling. A correlation approach was used in order to measure the degree of coupling between the dynamics of major bacterial groups, heterotrophic carbon cycling and environmental factors. We used catalysed reporter deposition-fluorescence in situ hybridization to follow changes in the relative abundance of the most abundant groups of bacteria (Alphaproteobacteria, Gammaproteobacteria and Bacteroidetes). Bacterial carbon flux-related variables included bacterial standing stock, bacterial production and microbial respiration. The environmental factors included both, biotic variables such as chlorophyll-a concentration, primary production, phytoplankton extracellular release, and abiotic variables such as the concentration of dissolved inorganic and organic nutrients. Rapid shifts in the dominant bacterial groups occurred associated to environmental changes and bacterial bulk functions. An alternation between Alphaproteobacteria and Bacteroidetes was observed associated to different phytoplankton growth phases. The dominance of the group Bacteroidetes was related to high bacterial biomass and production. We found a significant, non-spurious, linkage between the relative abundances of major bacterial groups and bacterial carbon cycling. Our results suggest that bacteria belonging to these major groups could actually share a function in planktonic ecosystems.     

Community composition of the marine bacterioplankton in Kongsfjorden (Spitsbergen) as revealed by 16S rRNA gene analysis

Phylogenetic diversity of the marine bacterioplankton in Kongsfjorden (Spitsbergen) was investigated by 16S rRNA gene analysis. Community fingerprint analysis by PCR-denaturing gradient gel electrophoresis revealed that there was no apparent difference of bacterioplankton community composition between sampling locations in the fjord. A higher biodiversity was observed in bottom water of station 3 in the central part of the fjord. By 16S rRNA gene clone library analysis, sequences detected both in surface and bottom water of station 3 fell into eight putative divisions, including Proteobacteria (Alpha, Beta, Gamma and Delta), Bacteroidetes, Actinobacteria, Verrucomicrobia and unidentified bacteria, in addition to chloroplasts of algae. Sequences representing Planctomycetes were only observed in bottom water. Compared to the preponderance of clones representing Gammaproteobacteria (36.5%) and Alphaproteobacteria (29.4%) in bottom water, Alphaproteobacteria (43.6%) and algae (27.7%) constituted two dominant fractions in surface water. Cloned sequences showed 82.1–100% similarity to those described sequences. It suggests that, attributing to the influence of ocean currents as well as freshwater input in the summer, the bacterial community in Kongsfjorden may consist of a mixture of cosmopolitan and uniquely endemic phylotypes.     

Analysis of structure and composition of bacterial core communities in mature drinking water biofilms and bulk water of a citywide network in Germany

The bacterial core communities of bulk water and corresponding biofilms of a more than 20-year-old drinking water network were compared using 16S rRNA single-strand confirmation polymorphism (SSCP) fingerprints based on extracted DNA and RNA. The structure and composition of the bacterial core community in the bulk water was highly similar (>70%) across the city of Braunschweig, Germany, whereas all biofilm samples contained a unique community with no overlapping phylotypes from bulk water. Biofilm samples consisted mainly of Alphaproteobacteria (26% of all phylotypes), Gammaproteobacteria (11%), candidate division TM6 (11%), Chlamydiales (9%), and Betaproteobacteria (9%). The bulk water community consisted primarily of Bacteroidetes (25%), Betaproteobacteria (20%), Actinobacteria (16%), and Alphaproteobacteria (11%). All biofilm communities showed higher relative abundances of single phylotypes and a reduced richness compared to bulk water. Only biofilm communities sampled at nearby sampling points showed similar communities irrespective of support materials. In all of our bulk water studies, the community composition determined from 16S rRNA was completely different from the 16S rRNA gene-based community composition, whereas in biofilms both molecular fractions resulted in community compositions that were similar to each other. We hypothesize that a higher fraction of active bacterial phylotypes and a better protection from oxidative stress in drinking water biofilms are responsible for this higher similarity.     

海水混养池塘虾蛤肠道与养殖环境的微生物多样性

【背景】海水混养池塘环境微生物以及动物肠道微生物的群落结构已有研究,但对混养环境中多品种动物肠道与环境微生物群落的关系尚未见报道。【目的】研究海水虾蛤混养环境中微生物多样性以及与养殖动物健康之间的关系。【方法】采用Illumina高通量测序技术测定冬季莆田市北江养殖区2个混养池塘中水体、底泥以及虾蛤肠道的菌群结构。【结果】同一池塘水体与底泥之间、不同池塘水体或底泥之间的微生物结构存在一定的差异;同一养殖区2个混养池塘虾与蛤肠道微生物结构之间具有极高的相似性,与养殖环境存在显著的差异。微生物多样性和丰富度差异很大,表现出底泥水体肠道;虾蛤肠道微生物以厚壁细菌和γ-变形细菌为主;池塘水体以放线菌、α-变形细菌以及拟杆菌为主,底泥以γ-变形细菌和δ-变形细菌为主。养殖动物肠道微生物主要优势种为乳球菌属和假单胞菌属,池塘环境内存在较高丰度的黄杆菌类潜在致病菌,而在虾和蛤的肠道中基本未检出。2个池塘底泥硫还原细菌含量较高,增加了底质产生硫化氢等有害物质的风险。【结论】比较混养池塘中水体、底泥以及虾蛤肠道三者之间微生物群落结构的差异,揭示虾、贝混养模式微生物与养殖环境的关系,为池塘养殖虾、贝疾病防治和混养结构的优化提供参考。     

象山港不同养殖类型海域大型底栖动物群落比较研究

于2009年2月在象山港顶部海域分别对海带、牡蛎和鱼类网箱3种不同养殖区进行了大型底栖动物调查。调查共鉴定大型底栖动物73种,隶属8门12纲53科,以软体动物和环节动物为主。海带养殖区优势种有5种;牡蛎养殖区有4种;网箱养殖区有9种。海带、牡蛎和网箱养殖区大型底栖动物平均栖息密度分别为(132±71)个/m²、(94±91)个/m²和(210±132)个/m²;平均生物量分别为(26.51±11.06) g/m²、(53.03±61.94) g/m²和(108.80±73.56) g/m²。栖息密度和生物量不同养殖区和不同调查站位间差异显著。Tukey多重比较结果显示,栖息密度海带养殖区与牡蛎和网箱养殖区间均无显著差异,而牡蛎与鱼类网箱养殖区间存在显著差异;生物量海带养殖区与牡蛎养殖区间无显著差异,海带养殖区和牡蛎养殖区与网箱养殖区间均显著差异。典范对应分析结果表明,对大型底栖动物群落起主要影响的环境因子有温度、盐度、总氮和总磷等,排序轴对物种-环境关系的贡献率计算结果表明环境变量可以较好的解释主要类群的变化情况。丰度/生物量比较曲线(ABC曲线)分析结果表明,网箱养殖区大型底栖动物群落受较明显扰动,而海带和牡蛎养殖区大型底栖动物群落未受扰动。     

罗氏沼虾育苗期浮游细菌群落演替模式、驱动因素及其生物标志物

为了探究罗氏沼虾(Macrobrachium rosenbergii)育苗期浮游细菌群落的时间动态和组装机制,对3个苗种厂的全育苗周期进行持续追踪,利用16S rRNA扩增子测序评估了罗氏沼虾幼苗发育过程中浮游细菌群落的动态演替、环境驱动因素、微生物标志物和共现网络。细菌群落的α-多样性在育苗期呈U型分布规律,群落相似性遵循时间衰减模式,群落周转率为0.011。随着虾苗的发育,微杆菌科(Microbacteriaceae)(放线菌门:Actinobacteria)和冷形菌科(Cryomorphaceae)(拟杆菌门:Bacteroidetes)的相对丰度显著增加(P<0.05),而拟杆菌门中的黄杆菌科(Flavobacteriaceae)和藏红花黄色线菌科(Crocinitomicaceae)的比重下降。pH是影响浮游细菌群落多样性和组成的最主要的环境驱动因素。利用随机森林分析,鉴定了12个幼苗发育相关的微生物标志物,其中伯克氏菌科(Burkholderiaceae)和圆杆菌科(Cyclobacteriaceae)分别是育苗早期(1—2d)和中期(8—10d)的指示性类群,而腐螺...     

添加不同益生菌对草鱼养殖水体菌群结构的影响

为评价添加不同益生菌对草鱼养殖水体菌群结构的影响,研究采用454焦磷酸测序技术分析其水体菌群结构。结果表明:添加益生菌后的处理组（枯草芽孢杆菌BS、光合细菌PSB和复合菌CB）其微生物多样性高于对照组（Control）。在门的水平,Control和CB样品中变形菌（Proteobacteria）为优势菌,PSB和BS中变形菌（Proteobacteria）和放线菌（Actinobacteria）所占比例差别不大。与Control相比,其他三组中拟杆菌（Bacteroidetes）和放线菌（Actinobacteria）都增加。对变形菌深入分析发现,在PSB,BS和 CB 样品中,-变形杆菌为优势菌,接下来是-变形杆菌纲、-变形杆菌纲和-变形杆菌纲。对拟杆菌分析发现,除对照外,其他样品中黄杆菌纲（Flavobacteria）为优势菌。在对照和处理组中,-变形杆菌、-变形杆菌、-变形杆菌和拟杆菌门在目的水平组成也有差异。以上结果表明,水体中添加益生菌能增加水体菌群多样性,改变菌群结构。       

Diversity of bacterioplankton in coastal seawaters of Fildes Peninsula,King George Island,Antarctica

The bacterioplankton not only serves critical functions in marine nutrient cycles, but can also serve as indicators of the marine environment. The compositions of bacterial communities in the surface seawater of Ardley Cove and Great Wall Cove were analyzed using a 16S rRNA multiplex 454 pyrosequencing approach. Similar patterns of bacterial composition were found between the two coves, in which Bacteroidetes, Alphaproteobacteria, and Gammaproteobacteria were the dominant members of the bacterioplankton communities. In addition, a large fraction of the bacterial sequence reads (on average 5.3 % per station) could not be assigned below the domain level. Compared with Ardley Cove, Great Wall Cove showed higher chlorophyll and particulate organic carbon concentrations and exhibited relatively lower bacterial richness and diversity. Inferred metabolisms of summer bacterioplankton in the two coves were characterized by chemoheterotrophy and photoheterotrophy. Results suggest that some cosmopolitan species (e.g., Polaribacter and Sulfitobacter) belonging to a few bacterial groups that usually dominate in marine bacterioplankton communities may have similar ecological functions in similar marine environments but at different geographic locations.