Characterization of the rumen microbiota of pre-ruminant calves using metagenomic tools

The temporal sequence of microbial establishment in the rumen of the neonatal ruminant has important ecological and pathophysiological implications. In this study, we characterized the rumen microbiota of pre-ruminant calves fed milk replacer using two approaches, pyrosequencing of hypervariable V3-V5 regions of the 16S rRNA gene and whole-genome shotgun approach. Fifteen bacterial phyla were identified in the microbiota of pre-ruminant calves. Bacteroidetes was the predominant phylum in the rumen microbiota of 42-day-old calves, representing 74.8% of the 16S sequences, followed by Firmicutes (12.0%), Proteobacteria (10.4%), Verrucomicrobia (1.2%) and Synergistetes (1.1%). However, the phylum-level composition of 14-day-old calves was distinctly different. A total of 170 bacterial genera were identified while the core microbiome of pre-ruminant calves included 45 genera. Rumen development seemingly had a significant impact on microbial diversity. The dazzling functional diversity of the rumen microbiota was reflected by identification of 8298 Pfam and 3670 COG protein families. The rumen microbiota of pre-ruminant calves displayed a considerable compositional heterogeneity during early development. This is evidenced by a profound difference in rumen microbial composition between the two age groups. However, all functional classes between the two age groups had a remarkably similar assignment, suggesting that rumen microbial communities of pre-ruminant calves maintained a stable function and metabolic potentials while their phylogenetic composition fluctuated greatly. The presence of all major types of rumen microorganisms suggests that the rumen of pre-ruminant calves may not be rudimentary. Our results provide insight into rumen microbiota dynamics and will facilitate efforts in formulating optimal early-weaning strategies.     

Status of the phylogenetic diversity census of ruminal microbiomes

In this study, the collective microbial diversity in the rumen was examined by performing a meta-analysis of all the curated 16S rRNA gene (rrn) sequences deposited in the RDP database. As of November 2010, 13,478 bacterial and 3516 archaeal rrn sequences were found. The bacterial sequences were assigned to 5271 operation taxonomic units (OTUs) at species level (0.03 phylogenetic distance) representing 19 existing phyla, of which the Firmicutes (2958 OTUs), Bacteroidetes (1610 OTUs) and Proteobacteria (226 OTUs) were the most predominant. These bacterial sequences were grouped into more than 3500 OTUs at genus level (0.05 distance), but only 180 existing genera were represented. Nearly all the archaeal sequences were assigned to 943 species-level OTUs in phylum Euryarchaeota. Although clustered into 670 genus-level OTUs, only 12 existing archaeal genera were represented. Based on rarefaction analysis, the current percent coverage at species level reached 71% for bacteria and 65% for archaea. At least 78,218 bacterial and 24,480 archaeal sequences would be needed to reach 99.9% coverage. The results of this study may serve as a framework to assess the significance of individual populations to rumen functions and to guide future studies to identify the alpha and global diversity of ruminal microbiomes.     

Comparative Analysis of the Microbiota Between Rumen and Duodenum of Twin Lambs Based on Diets of Ceratoides or Alfalfa

In our previous study, diet directly impacted the microbiota of the rumen in twin lambs. The duodenum is the first part of the small intestine, so we seek to determine whether there is a difference in the digesta between the two feed groups HFLP (high fiber, low protein) and LFHP (low fiber, high protein), and its impact on the biodiversity and metabolism of the duodenum. Results showed that the number of Operational Taxonomic Units (OTUs) in the duodenum (2,373 OTUs) was more than those in the rumen (1,230 OTUs), and 143 OTUs were significantly different in the duodenum between the two groups. The two most predominant phyla were Bacteriodetes and Firmicutes, but this ratio was reversed between the rumen and duodenum of lambs fed different feedstuffs. The difference in the digesta that greatly changed the biodiversity of the rumen and duodenum could affect the microbial community in the gastrointestinal tract (GIT). Sixteen metabolites were significantly different in the duodenum between the two groups based on the metabolome analysis. The relationships were built between the microbiome and the metabolome based on the correlation analysis. Some metabolites have a potential role in influencing meat quality, which indicated that the diet could affect the microbiota community and finally change meat quality. This study could explain how the diet affects the rumen and duodenum’s microbiota, lay a theoretical basis for controlling feed intake, and determine the relationship between the duodenum’s microbiota and metabolism.     

Metagenome plasticity of the bovine abomasal microbiota in immune animals in response to Ostertagia ostertagi infection

Infections in cattle by the abomasal nematode Ostertagia ostertagi result in impaired gastrointestinal function. Six partially immune animals were developed using multiple drug-attenuated infections, and these animals displayed reduced worm burdens and a slightly elevated abomasal pH upon reinfection. In this study, we characterized the abomasal microbiota in response to reinfection using metagenomic tools. Compared to uninfected controls, infection did not induce a significant change in the microbial community composition in immune animals. 16S rRNA gene-based phylogenetic analysis identified 15 phyla in the bovine abomasal microbiota with Bacteroidetes (60.5%), Firmicutes (27.1%), Proteobacteria (7.2%), Spirochates (2.9%), and Fibrobacteres (1.5%) being the most predominant. The number of prokaryotic genera and operational taxonomic units (OTU) identified in the abomasal microbial community was 70.8±19.8 (mean ± SD) and 90.3±2.9, respectively. However, the core microbiome comprised of 32 genera and 72 OTU. Infection seemingly had a minimal impact on the abomasal microbial diversity at a genus level in immune animals. Proteins predicted from whole genome shotgun (WGS) DNA sequences were assigned to 5,408 Pfam and 3,381 COG families, demonstrating dazzling arrays of functional diversity in bovine abomasal microbial communities. However, none of COG functional classes were significantly impacted by infection. Our results demonstrate that immune animals may develop abilities to maintain proper stability of their abomasal microbial ecosystem. A minimal disruption in the bovine abomasal microbiota by reinfection may contribute equally to the restoration of gastric function in immune animals.     

不同水稻组织内生细菌的群落多样性

[目的]为详细了解水稻不同组织内生细菌群落多样性。[方法]对宁粳43号内生细菌的总DNA提取后,采用高通量测序技术对水稻内生细菌的16S rRNA基因进行了序列测定,分析了水稻不同组织部位内生细菌群落结构特征。[结果]叶部共获得内生细菌OTUs 610个,茎部411个,根部174个。物种分类显示,叶部内生细菌种类隶属于22门40纲103目198科399属,其中优势类群是红球菌属（Rhodococcus）和乳酸杆菌属（Lactobacillus）,它们的相对丰度分别为21.00%和9.19%;茎部内生细菌种类隶属于19门31纲85目169科306属,其中优势类群是红球菌属和罗尔斯通菌属（Ralstonia）,它们的相对丰度分别为19.25%和13.52%;根部内生细菌种类隶属于9门19纲44目82科140属,其中优势类群是肠杆菌属（Enterobacter）和埃希氏杆菌属（Escherichia）,它们的相对丰度分别为81.13%和10.89%。根茎叶中相同的OTU有78个,放线菌门（Actinobacteria）与大多数细菌具有相关性。根系内生细菌中具有调控各种代谢网络功能的物种丰度高于茎部和叶部。[结论]不同水稻组织内生细菌具有丰富的群落多样性,其中叶部的内生细菌物种最丰富,根系参与各种代谢调控的细菌丰度最高,各个组织部位的优势菌属各不相同,变形菌门是最重要的水稻内生细菌。     

斑头雁成鸟与雏鸟泄殖腔微生物的对比分析

肠道微生物通过维持稳态、辅助消化和促进免疫系统发育等方式维护宿主的健康状态。肠道微生物本身则受到宿主的基因、饮食、年龄和环境等因素的影响。然而,肠道微生物的变化与宿主年龄之间的关系仍有许多未知。本研究分别收集斑头雁(Anser indicus)2只成鸟及3只雏鸟泄殖腔样品,提取肠道微生物总DNA,采用16S rRNA高通量测序的方法,分析并比较两年龄阶段鸟类肠道微生物的菌群结构及组成差异。研究发现,斑头雁雏鸟泄殖腔微生物属于9个门,含量最高的前5个门分别是梭杆菌门(48.29%)、厚壁菌门(22.21%)、变形杆菌门(22.07%)、放线菌门(5.02%)和软壁菌门(1.93%)。成鸟泄殖腔微生物属于17个门,最多的依次是变形菌门(64.69%)、厚壁菌门(23.92%)、蓝细菌(8.48%)、放线菌门(1.43%)和梭杆菌门(0.56%)。在属的水平,斑头雁雏鸟泄殖腔微生物属于18个属,而成鸟含有24个属。成鸟泄殖腔微生物的α多样性显著高于雏鸟(P0.05,Welch′s t-test)。有186个操作分类单元(OTU)属于成鸟和雏鸟共有,而其他640个OTU和90个OTU则分别隶属于成鸟和雏鸟。雏鸟中67.39%的OTUs是成鸟所具有的。基于OTU的聚类结果与年龄分组一致。本结果对认识鸟类肠道微生物与宿主年龄变化之间的关系有一定的参考价值。     

高通量测序分析大兴安岭典型森林土壤细菌和真菌群落特征

【背景】大兴安岭地区是我国对气候变化响应最敏感的区域,而土壤微生物在维持寒区森林生态系统结构和功能中发挥重要作用。【目的】探究大兴安岭不同森林类型土壤微生物群落结构及与环境因子的关系。【方法】采用Illumina MiSeq高通量测序技术,分析3种典型森林(白桦林、落叶松林和樟子松林)土壤细菌和真菌群落组成和多样性。【结果】3种林型中共获得2 786个细菌操作分类单元(Operational Taxonomic Unit,OTU),隶属于38门531属,其中优势菌门为变形菌门(Proteobacteria, 31.45%-40.32%)、酸杆菌门(Acidobacteria, 14.24%-40.16%)和放线菌门(Actinobacteria,7.13%-22.15%);1803个真菌OTU隶属于8门263属,其中优势菌门为担子菌门(Basidiomycota,40.43%-62.75%)和子囊菌门(Ascomycota,35.81%-53.68%)。主坐标分析表明,3种林型中细菌和真菌群落组间差异远大于组内差异。Mantel检验结果显示:细菌群落结构与pH、总氮(Total Nitrogen,TN)、总磷(Total Phosphorus,TP)和含水量(Soil Water Content,SWC)具有显著相关性(P0.05),其中pH的相关性系数最大;真菌群落结构与SWC、TN和TP具有显著相关性(P0.05),其中TN的相关性系数最大。冗余分析结果发现,TP与变形菌门、担子菌门相对丰度呈显著正相关,TN和SWC与酸杆菌门、子囊菌门呈显著正相关,pH与放线菌门呈显著正相关(P0.05)。【结论】不同林型间土壤微生物群落结构存在显著差异,明晰其分布规律及主要环境驱动因子,是把握寒区森林生态系统过程的关键。     

Bacterial Diversity in Linglong Gold Mine,China

Bacteria have been actively regulating cycles of various elements in the environment. To explore the potential bacterial role in gold biogeochemical cycling, this study analyzed the bacterial diversity of mine rock (MR) and surface soil (SS) samples from Linglong gold mine using 16S rRNA gene clone library analysis and cultivation method. From MR, 24 operational taxonomic units (OTUs) were identified from MR, covering 3 phyla and 18 genera. Meanwhile, 24 OTUs were identified from SS, including 4 phyla and 18 genera. Compared with 16S rRNA gene clone library analysis, 28 aerobic and 34 anaerobic isolates were obtained, whereas 26 aerobic and 71 anaerobic strains were isolated from SS. The cultivable bacteria were affiliated with Firmicutes, Proteobacteria and Actinobacteria phyla, and dominated by Firmicutes. These results underscore the high level of bacterial diversity in the gold mine. Our study provides information on the microbial diversity in Linglong gold mine and sheds light on the existence and potential function of bacteria in the gold biogeochemical cycling.     

Diversity of human colonic butyrate‐producing bacteria revealed by analysis of the butyryl‐CoA:acetate CoA‐transferase gene

Butyrate‐producing bacteria play an important role in the human colon, supplying energy to the gut epithelium and regulating host cell responses. In order to explore the diversity and culturability of this functional group, we designed degenerate primers to amplify butyryl‐CoA:acetate CoA‐transferase sequences from faecal samples provided by 10 healthy volunteers. Eighty‐eight per cent of amplified sequences showed > 98% DNA sequence identity to CoA‐transferases from cultured butyrate‐producing bacteria, and these fell into 12 operational taxonomic units (OTUs). The four most prevalent OTUs corresponded to Eubacterium rectale, Roseburia faecis, Eubacterium hallii and an unnamed cultured species SS2/1. The remaining 12% of sequences, however, belonged to 20 OTUs that are assumed to come from uncultured butyrate‐producing strains. Samples taken after ingestion of inulin showed significant (P = 0.019) increases in Faecalibacterium prausnitzii. Because several of the dominant butyrate producers differ in their DNA % G+C content, analysis of thermal melt curves obtained for PCR amplicons of the butyryl‐CoA:acetate CoA‐transferase gene provides a convenient and rapid qualitative assessment of the major butyrate producing groups present in a given sample. This type of analysis therefore provides an excellent source of information on functionally important groups within the colonic microbial community.     

Electricity generation from mixed volatile fatty acids using microbial fuel cells

Fermentative hydrogen production, as a process for clean energy recovery from organic wastewater, is limited by its low hydrogen yield due to incomplete conversion of substrates, with most of the fermentation products being volatile fatty acids (VFAs). Thus, further recovery of the energy from VFAs is expected. In this work, microbial fuel cell (MFC) was applied to recover energy in the form of electricity from mixed VFAs of acetate, propionate, and butyrate. Response surface methodology was adopted to investigate the relative contribution and possible interactions of the three components of VFAs. A stable electricity generation was demonstrated in MFCs after the enrichment of electrochemically active bacteria. Analysis showed that power density was more sensitive to the composition of mixed VFAs than coulombic efficiency. The electricity generation could mainly be attributed to the portion of acetate and propionate. However, the two components showed an antagonistic effect when propionate exceeded 19%, causing a decrease in coulombic efficiency. Butyrate was found to exert a negative impact on both power density and coulombic efficiency. Denaturing gradient gel electrophoresis profiles revealed the enrichment of electrochemically active bacteria from the inoculum sludge. Proteobacteria (Beta-, Delta-) and Bacteroidetes were predominant in all VFA-fed MFCs. Shifts in bacterial community structures were observed when different compositions of VFA mixtures were used as the electron donor. The overall electron recovery efficiency may be increased from 15.7% to 27.4% if fermentative hydrogen production and MFC processes are integrated.     

维吾尔族与汉族儿童肠道细菌群落分析

【背景】肠道菌群是人体的重要组成部分,在人体的多种生命活动中发挥着重要作用。【目的】探究维吾尔族和汉族儿童肠道细菌群落特征,为儿童营养健康状况监测和营养改善工作提供更有效精准的营养干预策略。【方法】从新疆维吾尔自治区泽普县维吾尔族和河南省民权县汉族人群中分别随机选取10?12岁学龄期儿童各20名,同一时间段收集其新鲜粪便,提取细菌总DNA,通过高通量测序和生物信息学分析,研究两地区健康维吾尔族儿童与汉族儿童肠道细菌群落的差异。【结果】获得测序序列2 007 100条,归类于994个OTU;所有样本共含15个细菌门139属。α多样性和β多样性分析表明,调查地区的2个民族儿童肠道细菌的丰富度和多样性均有统计学意义上的差异,维吾尔族儿童肠道细菌群落丰富度高于汉族儿童,而物种多样性不如汉族儿童。其中,维吾尔族儿童肠道细菌丰度相对占优势的门和属及其丰度值为：拟杆菌门(Bacteroidetes,63%)、厚壁菌门(Firmicutes,22%)、普氏菌属(Prevotella,61%)、琥珀酸弧菌属(Succinivibrio,9%)和粪杆菌属(Faecalibacterium,5%);汉族儿童肠道细菌丰度占优势的门和属及其丰度值为：厚壁菌门(57%)、拟杆菌门(23%)、粪杆菌属(16%)、普氏菌属(11%)和拟杆菌属(Bacteroides,11%)。【结论】调查地区维吾尔族与汉族儿童肠道细菌群落差异较大,这为进一步研究肠道菌群与膳食因素及人体营养健康状况之间的关系提供了依据。     

红火蚁三龄、四龄幼虫肠道菌菌群多样性分析

昆虫体内细菌的多样性对昆虫的消化、营养的吸收、生长发育繁殖具有至关重要的作用.本研究利用16S rRNA基因序列,构建内生菌16S rRNA克隆文库,探明红火蚁3龄幼虫和4龄幼虫种群体内微生物菌群结构并加以对比,采用Miseq高通量测序的方法揭示红火蚁3龄幼虫与4龄幼虫肠道菌的相似性和差异性.结果表明:红火蚁高龄幼虫的...     

基于高通量测序的褐飞虱肠道微生物多样性分析

【目的】探明褐飞虱Nilaparvata lugens成虫肠道微生物群落结构和多样性。【方法】分离褐飞虱成虫完整肠道并提取总DNA,利用Illumina MiSeq(PE300)技术对其肠道细菌16S rRNA的V3-V4变异区和真菌ITS2序列进行测序,统计肠道微生物的操作分类单元(operational taxonomic unit, OTU)数量,分析其物种组成、丰度及Alpha多样性。并通过qPCR技术验证随机挑选注释到的4种肠道菌的高通量测序数据的有效性。【结果】分别获得褐飞虱成虫肠道细菌16S rRNA和真菌ITS2优质序列32 395和24 986条,根据序列相似性进行聚类分析分别获得235和128个OTUs。其中,细菌共注释到7个门, 15个纲, 26个目, 45个科和73个属;真菌共鉴定到3个门, 9个纲, 12个目, 15个科和18个属。在门分类水平上,细菌以变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes)和厚壁菌门(Firmicutes)为优势门类;真菌以子囊菌门(Ascomycota)为绝对优势菌门。在属分类水平上,细菌的优势属为不动杆菌属Acinetobacter以及紫单胞菌科(Porphyromonadaceae)未确定属和毛螺菌科(Lachnospiraceae)未确定属,其丰度分别为36.37%, 17.22%和15.01%;真菌的优势属为粪壳菌纲(Sordariomycetes)未确定属,丰度为95.77%。Alpha多样性分析结果显示,褐飞虱肠道细菌(真菌)的观测物种数、Chao1指数、Shannon指数和Simpson 指数分别为235(128), 262.64(165.40), 3.90(0.91)和0.62(0.75)。4种肠道菌的qPCR结果显示高通量测序数据具有较高的有效性。【结论】褐飞虱成虫肠道细菌和真菌群落整体多样性比较丰富。研究结果为从共生微生物角度解析褐飞虱的环境适应性以及开发基于微生物防治的新技术等方面提供了依据。     

丁酸调控幼龄反刍动物瘤胃上皮发育研究进展

瘤胃是反刍动物营养物质消化吸收和代谢的重要器官,其发育状态直接影响反刍动物生产性能和健康。初生犊牛和羔羊,瘤胃功能尚未发育完全,不能够充分消化和吸收固体饲料。因此,在幼龄时期,通过营养调控手段促进反刍动物的瘤胃发育对维持动物健康及提高生产性能具有重要意义。丁酸是瘤胃微生物降解植物性饲料的主要产物,也是瘤胃上皮及宿主的重要能量来源。丁酸调控幼龄反刍动物瘤胃上皮发育是一个历久弥新的话题。主要介绍了幼龄反刍动物瘤胃上皮形态及功能的发育以及丁酸调控幼龄反刍动物瘤胃上皮发育的研究进展。     

Pyrosequencing Reveals Diverse and Distinct Sponge-Specific Microbial Communities in Sponges from a Single Geographical Location in Irish Waters

Marine sponges are host to numerically vast and phylogenetically diverse bacterial communities, with 26 major phyla to date having been found in close association with sponge species worldwide. Analyses of these microbial communities have revealed many sponge-specific novel genera and species. These endosymbiotic microbes are believed to play significant roles in sponge physiology including the production of an array of bioactive secondary metabolites. Here, we report on the use of culture-based and culture-independent (pyrosequencing) techniques to elucidate the bacterial community profiles associated with the marine sponges Raspailia ramosa and Stelligera stuposa sampled from a single geographical location in Irish waters and with ambient seawater. To date, little is known about the microbial ecology of sponges of these genera. Culture isolation grossly underestimated sponge-associated bacterial diversity. Four bacterial phyla (Actinobacteria, Bacteroidetes, Firmicutes, Proteobacteria) were represented amongst ~200 isolates, compared with ten phyla found using pyrosequencing. Long average read lengths of ~430 bp (V1-V3 region of 16S rRNA gene) allowed for robust resolution of sequences to genus level. Bacterial OTUs (2,109 total), at 95% sequence similarity, from ten bacterial phyla were recovered from R. ramosa, 349 OTUs were identified in S. stuposa representing eight phyla, while 533 OTUs from six phyla were found in surrounding seawater. Bacterial communities differed significantly between sponge species and the seawater. Analysis of the data for sponge-specific taxa revealed that 2.8% of classified reads from the sponge R. ramosa can be defined as sponge-specific, while 26% of S. stuposa sequences represent sponge-specific bacteria. Novel sponge-specific clusters were identified, whereas the majority of previously reported sponge-specific clusters (e.g. Poribacteria) were absent from these sponge species. This deep and robust analysis provides further evidence that the microbial communities associated with marine sponge species are highly diverse and divergent from one another and appear to be host-selected through as yet unknown processes.     

Repeated acidosis challenges and live yeast supplementation shape rumen microbiota and fermentations and modulate inflammatory status in sheep

This study aimed to investigate the impact of repeated acidosis challenges (ACs) and the effect of live yeast supplementation (Saccharomyces cerevisiae I-1077, SC) on rumen fermentation, microbial ecosystem and inflammatory response. The experimental design involved two groups (SC, n=6; Control, n=6) of rumen fistulated wethers that were successively exposed to three ACs of 5 days each, preceded and followed by resting periods (RPs) of 23 days. AC diets consisted of 60% wheat-based concentrate and 40% hay, whereas RPs diets consisted of 20% concentrate and 80% hay. ACs induced changes in rumen fermentative parameters (pH, lactate and volatile fatty-acid concentrations and proportions) as well as in microbiota composition and diversity. The first challenge drove the fermentation pattern towards propionate. During successive challenges, rumen pH measures worsened in the control group and the fermentation profile was characterised by a higher butyrate proportion and changes in the microbiota. The first AC induced a strong release of rumen histamine and lipopolysaccharide that triggered the increase of acute-phase proteins in the plasma. This inflammatory status was maintained during all AC repetitions. Our study suggests that the response of sheep to an acidosis diet is greatly influenced by the feeding history of individuals. In live yeast-supplemented animals, the first AC was as drastic as in control sheep. However, during subsequent challenges, yeast supplementation contributed to stabilise fermentative parameters, promoted protozoal numbers and decreased lactate producing bacteria. At the systemic level, yeast helped normalising the inflammatory status of the animals.     

Bacterial diversity in the cecum of the world's largest living rodent (Hydrochoerus hydrochaeris)

The capybara (Hydrochoerus hydrochaeris) is the world's largest living rodent. Native to South America, this hindgut fermenter is herbivorous and coprophagous and uses its enlarged cecum to digest dietary plant material. The microbiota of specialized hindgut fermenters has remained largely unexplored. The aim of this work was to describe the composition of the bacterial community in the fermenting cecum of wild capybaras. The analysis of bacterial communities in the capybara cecum is a first step towards the functional characterization of microbial fermentation in this model of hindgut fermentation. We sampled cecal contents from five wild adult capybaras (three males and two females) in the Venezuelan plains. DNA from cecal contents was extracted, the 16S rDNA was amplified, and the amplicons were hybridized onto a DNA microarray (G2 PhyloChip). We found 933 bacterial operational taxonomic units (OTUs) from 182 families in 21 bacterial phyla in the capybara cecum. The core bacterial microbiota (present in at least four animals) was represented by 575 OTUs. About 86% of the cecal bacterial OTUs belong to only five phyla, namely, Firmicutes (322 OTUs), Proteobacteria (301 OTUs), Bacteroidetes (76 OTUs), Actinobacteria (69 OTUs), and Sphirochaetes (37 OTUs). The capybara harbors a diverse bacterial community that includes lineages involved in fiber degradation and nitrogen fixation in other herbivorous animals.     

Advances in microbial ecosystem concepts and their consequences for ruminant agriculture

Microbial transformations in the rumen ecosystem have a major impact on our ability to meet the challenge of reducing the environmental footprint of ruminant livestock agriculture, as well as enhancing product quality. Current understanding of the rumen microbial ecosystem is limited, and affects our ability to manipulate rumen output. The view of ruminal fermentation as the sum of activities of the dominant rumen microbiota is no longer adequate, with a more holistic approach required. This paper reviews rumen functionality in the context of the microbiota of the rumen ecosystem, addressing ruminal fermentation as the product of an ecosystem while highlighting the consequences of this for ruminant agriculture. Microbial diversity in the rumen ecosystem enhances the resistance of the network of metabolic pathways present, as well as increasing the potential number of new pathways available. The resulting stability of rumen function is further promoted by the existence of rumen microbiota within biofilms. These protected, structured communities offer potential advantages, but very little is currently known about how ruminal microorganisms interact on feed-surfaces and how these communities develop. The temporal and spatial development of biofilms is strongly linked to the availability of dietary nutrients, the dynamics of which must also be given consideration, particularly in fresh-forage-based production systems. Nutrient dynamics, however, impact not only on pathway inputs but also the turnover and output of the whole ecosystem. Knowledge of the optimal balance of metabolic processes and the corresponding microbial taxa required to provide a stable, balanced ecosystem will enable a more holistic understanding of the rumen. Future studies should aim to identify key ecosystem processes and components within the rumen, including microbial taxa, metabolites and plant-based traits amenable to breeding-based modification. As well as gaining valuable insights into the biology of the rumen ecosystem, this will deliver realistic and appropriate novel targets for beneficial manipulation of rumen function.     

温州市境内城市河流底泥氨氧化菌富集培养物微生物群落结构分析

【背景】城市河流底泥含有丰富的微生物资源,底泥表面更是硝化作用的主要位点之一,其表面微生物在河流生态系统氮的转化过程中发挥着重要作用。【目的】以温州市境内的城市河流水系温瑞塘河茶山段舜岙河和横江河的4条河道作为采样点,比较分析4种不同环境下城市河流表层底泥氨氧化菌富集培养物的微生物群落结构。【方法】通过野外采样及室内培养对底泥中氨氧化功能菌进行富集培养,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】富集培养后主要优势类群为变形菌门(Proteobacteria)和拟杆菌门(Bacteroidetes)。4个样品共涉及氨氧化细菌3个属,分别为亚硝化单胞菌属(Nitrosomonas)、亚硝化螺菌属(Nitrosospira)、亚硝化球菌属(Nitrosococcus),涉及氨氧化古菌1个属为Nitrososphaera,其中所有样品均以Nitrosomonas为主。不同底泥富集样品氨氧化微生物可操作分类单元(Operational taxonomic unit,OTU)组成存在明显差异,栽种有水生植物的河道底泥样品DA2具有最高的氨氧化细菌OTU数量和相对丰度,而存在生活餐饮污染的河道底泥样品DA4具有最高的氨氧化古菌OTU数量和相对丰度;相较于滞留水体,采自相对流动水体的富集样品DA2、DA4具有更高的氨氧化微生物OTU数量和相对丰度。【结论】阐述了4种不同环境下城市河流底泥氨氧化菌富集培养物微生物群落结构的多样性,确定了富集培养之后的优势类群,为氨氧化微生物培养源的选择提供了参考,也为城市河流底泥中氨氧化菌进一步的筛选分离及其生理生态特征的研究提供了科学依据。