The Niches of Bacterial Populations in Productive Waters : Examples from Coastal Waters and Four Eutrophic Lakes

Eiler, Alexander

January 2006

<p>Recent research in microbial ecology has focused on how aquatic bacterial communities are assembled. Only a few of these studies follow a “Gleasonian” approach where the roles of single bacterial populations are in focus. In this thesis, novel molecular tools were used to describe the distribution and evolutionary relationships of microbes in productive aquatic environments. Many new phylogenetic groups of bacteria were identified, likely representing bacterial populations restricted to productive freshwaters. I also addressed the dynamics and functional role of individual bacterial populations in eutrophic lakes and brackish environments with a focus on either biogeochemically significant or potentially pathogenic representatives. <i>Flavobacteria</i> blooms were observed, on occasions characterized by high heterotrophic production. In addition to high temporal dynamics microbial community composition and function differed on the spatial scale, as exemplified by free-living and <i>Cyanobacteria</i>-associated habitats. At the community scale, microbial processes, such as biomass production and substrate uptake could be predicted from the presence and absence of individual bacterial populations. I also studied the niches of potentially pathogenic <i>Vibrio </i>populations in various coastal waters. Using a novel culture-independent method, a <i>V. cholerae</i> population was detected along the entire Swedish coastline. Results from an environmental survey and a laboratory mesocosm experiment reveal that phytoplankton-derived dissolved organic matter enhance the growth of <i>V. cholerae</i> and other <i>Vibrio</i> spp. and hence create a largely overlooked niche for these heterotrophic bacteria. This thesis and future work on the role of individual bacterial populations will facilitate predictions of biogeochemical cycles and the distribution of bacteria in the context of global climate change and local eutrophication.</p>

Ecology

diversity

16S rRNA

phytoplankton

bloom

pathogen

carbon cycle

Ekologi

Isolation and identification of marine bacteria from marine mud in Vietnam with antimicrobial activity / Phân lập và nhận dạng các chủng vi sinh vật biển từ mẫu bùn biển ven bờ Việt Nam và hoạt tính kháng khuẩn của chúng

Thi, Tuyen Do, Dinh, Quyen Le, Dinh, Thi Quyen, Van, Cuong Pham

15 July 2013

Seventeen bacterial strains were isolated from 9 marine mud samples from the inshore environments of the East Sea. Four bacterial strains showed an inhibition against all tested microorganisms Staphylococcus aureus ATCC10832, Escherichia coli JM109, and Fusarium oxysporum. 16S rRNA sequences of four bacterial strains were obtained by PCR using specific primers. PCR products were cloned into E. coli DH5a using pJET1.2 blunt vector. The recombinant plasmids were sequenced and the lengths of these 16S rRNA sequences were ~930bp. The 16S rRNA sequence from the four bacterial DB1.2, DB1.2.3, DB4.2 and DB5.2 strain showed a high identity of 97 to 99% with the 16S rRNA sequence from Photobacterium sp., Oceanisphaera sp., Shigella sp., Stenotrophomonas sp, respectively. / Mười bảy chủng vi khuẩn đã được phân lập từ 9 mẫu bùn biển từ các vùng ven bờ biển Việt Nam. Bốn chủng vi khuẩn được ghi nhận có khả năng ức chế mạnh sự sinh trưởng và phát triển của các chủng vi khuẩn Staphylococcus aureus ATCC10832, Escherichia coli JM109, và thậm chí cả nấm Fusarium oxysporum. Trình tự gene 16S rRNA của bốn chủng vi khuẩn này đã được khuếch đại bằng PCR sử dụng cặp mồi đặc hiệu. Sản phẩm PCR được nối ghép vào vector pJET1.2 blunt sử dụng T4 ligase, hình thành plasmid tái tổ hợp và biến nạp vào E. coli DH5α. Khuẩn lạc có plasmid mang phân đoạn DNA chèn được nuôi cấy và tách plasmid. Trình tự 16S rRNA từ 4 chủng DB1.2, DB1.2.3, DB4.2 and DB5.2 chỉ ra có sự tương đồng 97 ÷ 99% so với trình tự 16S rRNA tương ứng của các chủng vi sinh vật biển trên ngân hàng gene thế giới là Photobacterium sp., Oceanisphaera sp., Shigella sp., và Stenotrophomonas sp.

antimicrobial

marine bacteria

16S rRNA gene

ddc:579

rvk:AR 22200

Phylogenetics of Pinguipedidae from Taiwan

Kuo, Hsiao-Ching

24 July 2007

Family Pinguipedidae belong to the class Actinopterygii, subclass Neopterygii, order Perciformes, suborder Trachinoidei. Currently the interrelationships of the genera within this family and among the families in the Trachinoidei remain unequivocal. Also, whether the Cheimarrichthys should be included in the family Pinguipedidae has also been a controversial issue. This study aimed to reconstruct phylogenetic hypotheses in order to resolve these questions. Species of the Parapercis and Kochichtys in the family Pinguipedidae occur Taiwan. This study used osteological characters, 16S rRNA and Cyt b sequences to conduct phylogenetic analysis such that hypotheses can be proposed. The results revealed the monophyly of Parapercis, a taxonomic view consistent to the prevailary classification. Summarizing all the results, the 17 Parapercis species analysed can be divided into 4 groups. They are (1) Parapercis aurantiaca¡BP. decemfasciata¡BP. mimaseana¡BP. multifasciata¡BP. muronis¡Btwo morphotypes of P. sexfasciata¡F(2) P. cephalopunctata¡BP. clathrata¡BP. hexophthalma¡BP. kamoharai¡BP. tetracantha¡BP. xanthozona¡F(3) P. cylindrica and P. snyderi¡F(4) P. maculata¡BP. ommatura and P. somaliensis. Two color morphotypes have been shown for Parapercis sexfasciata. Data of the present study revealed that the ¡§ autapomorphic¡¨ osteological character known only in Kochichtys also occurred in three Parapercis species. This result supports a close relationship between these species. However, it also challenges the validity of the generic status of Kochichtys. About the dabate of the phylogenetic position of Cheimarrichthys, it should be put into its own family, Cheimarichthyide, rather than placed in the Pinguipedidae. The hypothesis for the sister group of Pinguipedidae to the Cheimarichthyide is not supported by all the data in this study completely. Morphological and molecular evidences are incongruence for closest phylogenetic relationship. Similar results were also obtained when the molecular sequences were analysed using different methods. More data analyses are needed for complete and reliable results. The present study suggests that the Trachinoidei is not a monophyletic group.

osteology

Trachinoidei

Cytochrome b

Pinguipedidae

mtDNA

16S rRNA

phylogenetics

Parapercis

Metagenomic approaches to microbial source tracking

Davis, Carina

January 2013

Water sources are susceptible to faecal contamination from animal and human pollution sources. Pollution of our waterways has significant implications on human health, especially from a pathogen perspective. Microbial source tracking (MST) is a promising field which aims to identify the sources of faecal contamination, and thereby allowing for the development of effective management strategies to minimise pollution and the impact on human health. Many of the currently used methods rely on the identification of host-specific markers within the 16S ribosomal RNA (rRNA) gene of bacteria by use of amplification techniques such as polymerase chain reaction (PCR). However, these methods can be limited by sensitivity, quantification, geographical differences and issues of cost which can limit how many markers are evaluated. Developments in DNA sequencing technologies over the past decade have led to a number of next generation sequencing (NGS) platforms which have a rapid, high throughput approach, resulting in an exponential decrease in the cost of sequencing. This has enabled the development of sequence-based metagenomics, where entire communities from environmental samples can be analysed based on their genetic material. The ability to barcode allows for analysis of multiple samples at once, reducing the cost of sequencing environmental samples even further. This is a promising technique for MST, which has had little investigation to date. The primary focus of the studies described in this thesis was to evaluate the use of NGS technology through a metagenomic approach. Roche 454 amplicon sequencing was used to sequence a 16S rRNA gene target, amplified from faecal and water samples from various sources in New Zealand. Barcode strategies were incorporated in the amplification design to allow multiple samples to be sequenced simultaneously. A proof-of-concept study initially utilised a small sequence dataset to evaluate a range of analysis tools available. Taxonomic identification and diversity measures were used to evaluate a selection of currently available tools designed for analysing metagenomic data, with the Quantitative Insights Into Microbial Ecology (QIIME) platform decided upon for further studies. A larger study, including 35 faecal samples from 13 difference sources and 10 water samples, resulted in 522,065 raw sequencing reads. Diversity results suggest three phyla, Bacteroidetes, Firmicutes and Proteobacteria, are strongly represented across all faecal sources analysed. Microbial diversity analysis using clustering techniques provided evidence of host source being the largest influence on bacterial diversity, with samples from each source generally clustering together. This technique could not be used to identify sources of contamination sources in water samples as the water samples all clustered separately from the faecal samples. More successful was the use of taxonomic classifications to determine bacteria genera that were potentially specific to one source. Water samples were screened for these genera, with six out of the ten water samples being indicators of either ruminant or human contamination. Faecal and water samples were also analysed for a selection of published 16S rRNA PCR markers, using a computational motif-based search method. Of the twenty motifs screened for, 14 were found to be relatively source-specific for ruminant, human, dog or pig faecal samples, with some cross-reactivity with chicken and possum samples. Using this method, the contamination source for six of the ten water samples was identified, with the remaining four samples found to not have enough sequences to assess with confidence. Both metagenomic strategies produced comparable results which were consistent with previous MST analysis. This project demonstrates the potential application of next generation sequencing technologies to microbial source tracking, suggesting the possibility this approach to replace existing microbial source tracking methods.

microbial source tracking

next generation sequencing

water qualitity

16S rRNA

Comunidades de arquéias metanogênicas em diferentes usos dos solos da Amazônia / Communities of methanogenic archaeas in different uses of Amazonian soils

Kelly Jaqueline Alves

12 January 2018

A conversão de áreas de florestas da Amazônia em áreas agrícolas e pastoris desregula processos relacionados ao estoque de carbono, sendo considerada depois da queima de combustíveis fósseis a atividade que mais contribui com a emissão de gases do efeito estufa, dentre os quais se encontra o metano. A produção de metano é intermediada pelas arquéias metanogênicas, que atuam na decomposição anaeróbia da matéria orgânica. Portanto, para compreender as alterações do fluxo desse gás no ecossistema amazônico, é necessário que as comunidades microbianas envolvidas nesse processo sejam estudadas. Dessa forma, o presente estudo teve por objetivo monitorar e caracterizar comunidades de arquéias metanogênicas, por análises de enriquecimento destas comunidades, em amostras de solo provenientes de floresta primária, floresta secundária e pastagem da região amazônica. As amostras de solo foram colocadas em meio enriquecido com a adição de acetato, metanol ou H2:CO2, separadamente, para estimular os metabolismos aceticlástico, metilotrófico e hidrogenotrófico. O monitoramento desses cultivos foi realizado por análises de emissão de metano por cromatografia gasosa, quantificação do gene mcrA pela técnica de PCR quantitativo (qPCR) e caracterização da comunidade metanogênica por meio de microscopia e sequenciamento da região V4-V5 do gene 16S rRNA. Analisando a emissão de metano entre os três tipos de fontes de carbono para as três amostras de solo, os enriquecimentos com metanol apresentaram uma produção maior de metano em relação as amostras com o acetato e muito superior aos cultivos com atmosfera de H2:CO2. A maior média de produção de metano ocorreu nos enriquecimentos com metanol, indicando que a via metilotrófica embora considerada alternativa, pode ser importante na produção de metano no solo amazônico. Por meio da técnica de qPCR foi possível quantificar o gene mcrA das amostras de pastagens logo no tempo inicial da incubação, o que não foi possível para as amostras florestais. No tempo final, o número de cópias desse gene foi similar para os três perfis de solo. Foi possível observar pela caracterização fenotípica dos enriquecimentos agregados de células característicos do gênero Methanosarcina, gênero que foi identificado posteriormente pelo sequenciamento do gene 16S rRNA, além de células em formatos de bastonetes e cocos. Os resultados do sequenciamento permitiram identificar 7 grupos distintos de arqueias metanogênicas, afiliados aos filos Euryarchaeota e Bathyarchaeota. Nas amostras iniciais de pastagens foram identificadas sequências que se afiliaram a todos esses grupos, enquanto as amostras florestais apresentaram sequencias afiliadas apenas ao gênero Methanosarcina. A composição final da comunidade das amostras de pastagens foi similar a inicial, porém mais abundante. Os enriquecimentos de amostras de solo de floresta primária e secundária apresentaram uma composição distinta, devido ao enriquecimento de grupos que não foram identificados no início da incubação. Os resultados obtidos mostraram que embora as arqueias metanogênicas estejam em baixa abundância nos solos florestais, podem ser enriquecidos quando submetidos a condições favoráveis, atingindo produção de metano e alcançando composição similar as amostras de pastagens. / Amazonian forest conversion into agricultural and livestock areas disrupts processes related to carbon stock, being considered, after the fossil fuels burning, the activity contributes most to greenhouse gases emission, of which is methane. Methane production is mediated by methanogenic archaea, acting in organic matter anaerobic decomposition. Therefore, to understand the changes in the flow of this gas in the Amazonian ecosystem, it is necessary to study microbial communities involved in this process. This study aims to monitor and characterize methanogenic archaeal communities by population enrichment from soil samples collected in primary, secondary and pasture of the Amazon region. Soil samples were placed into an enriched medium and received separately acetate, methanol, and H2:CO2 to stimulate the three metabolism types: acetoclastic, methylotrophic and hydrogenotrophic. Monitoring was performed by methane emission analysis by gas chromatography, mcrA quantification by the quantitative PCR and the community characterization was performed by microscopy and sequencing of the V4-V5 region of the 16S rRNA gene. Analyzing the methane emission by the three types of carbon sources in the three soil samples, methanol enrichments presented a higher methane yield than the acetate samples and much larger than cultures with H2:CO2. These results indicate that methylotrophic pathway, although considered as an alternative, may be important in methane production in the Amazonian soil. Was possible to quantify the mcrA gene by qPCR from pasture samples at the initial incubation time, which was not possible for forest samples. In incubation final time, copies number of this gene was similar for the three soil profiles. The phenotypic characterization of enrichments revealed aggregated cells, characteristic of the genus Methanosarcina, later identified by 16S rRNA sequencing. The cells in rod-shaped and cocci formats were also observed. Was identify by sequencing 7 different methanogenic archaeas groups affiliated with Euryarchaeota and Bathyarchaeota phylum. In the initial pasture samples, were identified sequences affiliated with all these groups, while forest samples presented sequences affiliated with only a Methanosarcina genus. Pasture samples showed a final community composition similar to initial, however more abundant. Soil samples enrichment from primary and secondary forest presented a distinct composition due to groups enrichment that was not identified at incubation beginning. These results showed that although methanogenic archaeas are in low abundance in forest soils, they can be enriched when submitted to favorable conditions, archive methane production and reaching similar composition pasture samples.

165 rRNA

mcrA

Enriquecimento

Metano

16S rRNA

mcrA

Enrichment

Methane

Ecology and diversity of freshwater picocyanobacteria in Japanese lakes / 日本湖沼に生息する淡水性ピコシアノバクテリアの生態と多様性

Cai, Ji

23 March 2021

京都大学 / 新制・課程博士 / 博士(理学) / 甲第23041号 / 理博第4718号 / 新制||理||1676(附属図書館) / 京都大学大学院理学研究科生物科学専攻 / (主査)教授 中野 伸一, 教授 曽田 貞滋, 教授 木庭 啓介 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Picocyanobacteria

Lake Biwa

16S rRNA

Microdiversity

Phylogeography

400

Bacterial community dynamics during lignocellulose decomposition as affected by soil and residue types

Michel, Himaya Mula

30 April 2011

This study was conducted to determine dynamics of bacterial communities during decomposition and to find out whether the occurrence of bacterial communities was affected by soil and residue types. It was hypothesized that there would be a shift in bacterial community structure during decomposition. Also, distinct microbial communities in different two soils associated with two residues would result in colonization by different microbial taxa. The first hypothesis was based on expected changes in the composition of decomposing residues. The second hypothesis was based on the fact that soil microbial diversity is soil-specific and immense with numerous different functionally redundant but phylogeneticaly different microbial types. Residues with different chemical properties were also expected to affect bacterial community composition, however, its impact would be lesser compared to soil. A 2 x 2 x 4 factorial experiment was conducted consisting of switchgrass (Panicum virgatum) and rice (Oryza sativa) straw; 2 soil types (Sharkey and Marietta series); and 4 incubation periods (3, 23, 48 and 110 days). Clone libraries of the bacterial communities were constructed from the detritusphere (residues and adhering soil). Non-metric multidimensional scaling of the detritusphere communities showed distinct separation of the communities at day 3 which coincided with high levels of cellulase enzyme activity and reduction of soluble carbon. style='mso-spacerun:yes'> Availability of labile carbon appeared to be important in driving bacterial community succession at early stage of colonization. During the later stages of decomposition (day 23-110), bacterial communities were segregated into two groups according to soil type. Although important, this segregation was relatively small compared to the community-level similarities observed between the soils and residues. For example, 16 of the 22 most abundant OTU's, dominated by a-,b- and style='fontamily:Symbol'>g- Proteobacteria, Bacilli and Shingobacteria, were shared among all soil and residue treatments indicating that residue decomposition is carried out by few key-player taxa. These results run counter to our hypothesis and suggest that decomposition process may be mediated by certain domineering bacterial taxa which occur at the later stage of decomposition. Further research is needed to determine whether key functional ecosystem processes are dominated by only a few taxa despite taxonomically hyper-diverse soils.

bacterial decomposition

bacterial diversity and composition

16S rRNA clone library

Identifiering av 13 nya mjölksyrabakterier med DHPLC

Livaja, Ruzica

January 2011

Mjölksyrabakterier tillhörande släkten Lactobacillus och Bifidobacterium har nyligen upptäckts hos bin och i honungen de producerar och innefattar 13 nya arter[1]. Forskarna arbetar med att ta fram nya snabba och mer pålitliga identifierings metoder för att karakterisera dessa bakterier.I detta projekt undersöktes möjligheten att identifiera dessa bakterier med en ny metod som heter denaturing high performance liquid chromatography (DHPLC). Metoden bygger på separation av PCR (polymerase chain reaction) amplifierade 16S rDNA fragment i DHPLC [8]. Vid identifiering av bakterier amplifierades olika variabla regioner från 16S rRNA genen, som påvisade efter sekvensering störst genetisk variation mellan dessa bakterier [1]. Separationen utfördes med ion-pair reverse-phase high presure liquid chromatoghaphy (IP RP HPLC) med delvis denaturering av DNA molekylen. Tidigare studier av identifiering av marina bakterier med DHPLC resulterade i optimal separation [9]. Identifiering av följande mjölksyrabakterier kunde verifieras till en viss grad. Analys i DHPLC visade profiler med urskiljbara toppar som utgjorde separation på artnivå, detta enbart mellan två bakterier tillhörande släktet Lactobacillus. Trots olika justeringar av analys parametrar gällande kolonntemperatur och elueringsbuffert, erhölls inte separation mellan alla 13 arter. Analysen kan ha påverkats av en rad olika funktionsfel i HPLC systemet och felaktig beredning av prov. Metoden kunde eventuellt förbättrats om tiden inte varit en begränsning. / Lactic acid bacteria belonging to genera Lactobacillus and Bifidobacterium has been recently discovered in bees and the honey they produce, and includes 13 new species [1]. Researchers are working to develop new rapid and more reliable detection methods to characterize these bacteria.In this project we investigate the possibility of identifying these bacteria with a new method called denaturing high performance liquid chromatography, DHPLC. The method involves the separation of the PCR (polymerase chain reaction) amplified 16S rDNA fragments in the DHPLC [8].For the identification of bacteria various variable regions of 16S rRNA gene was amplified, sequencing proved great genetic variability between these bacteria [1]. Separation is effected by means of ion-pair reverse-phase high pressure liquid chromatography (IP RP HPLC) with partial denaturation of the DNA molecule.Previous studies of the identification of marine bacteria by DHPLC resulted in optimal separation [9]. Identification of the following lactic acid bacteria was verified to some limited degree. Analysis of the DHPLC demonstrated profiles with distinguishable peaks that represented the separation at the species level, that only between two bacteria of the genus Lactobacillus.Despite numerous adjustments of operating conditions such as existing column temperature and eluent buffer, did not result in separation of all 13 species. The analysis may have been influenced by a variety of malfunctions in the HPLC system and improper sample preparation. The method could possibly be improved if time was not a limitation.

DHPLC

PCR

Mjölksyrabakterier

Lactobacillus

Bifidobacterium

16S rRNA

Physical Sciences

Fysik

PHOTOSYNTHETIC PICOPLANKTON AND BACTERIOPLANKTON IN THE CENTRAL BASIN OF LAKE ERIE DURING SEASONAL HYPOXIA

Cupp, Audrey R.

26 June 2006

No description available.

Lake Erie

microbial diversity

photosynthetic picoplankton

hypoxia

16S rRNA

AN INTEGRATED INVESTIGATION OF RUMINAL MICROBIAL COMMUNITIES USING 16S rRNA GENE-BASED TECHNIQUES

Kim, Min Seok

20 October 2011

No description available.

Animal Sciences

16S rRNA

ruminal microbiome

OTUs

RumenArray

pyrosequencing