Partitioning of phytoplankton and bacteria between water and ice during winter in north temperate lakes

Collier, Katie M.

14 July 2016

No description available.

Limnology

Winter

Ice Cover

Limnology

16S rRNA

18S rRNA

Lake algae, Bacteria

Application of Molecular Techniques to the Characterization of a Nitrifying Bioaugmentation Culture

Fouratt, Melissa Amanda

30 May 2001

Nitrification is the biological process whereby ammonia is converted first to nitrite by ammonia-oxidizing bacteria, and then the nitrite is subsequently converted to nitrate by nitrite-oxidizing bacteria. Ammonia and nitrite levels are closely monitored during treatment of wastewater due to their toxicity to other biological processes. Sybron Chemicals, Inc., is a company that manufactures a nitrifying bioaugmentation culture (1010N) that is used to enhance the naturally occurring levels of biological nitrification. The microbial population of the 1010N product has been examined using a combination of conventional bacteriological methods and modern molecular techniques, with the goal of developing nucleic acid probes that can be used to detect the product in an environmental sample. Small regions of the 16S rRNA genes of the bacteria in 1010N (and two new nitrifying enrichment cultures) were amplified via the polymerase chain reaction (PCR) and analyzed via temperature gradient gel electrophoresis (TGGE). TGGE is a procedure that allows for separation and visualization of individual PCR products that are the same size, based on differences in their sequence. Two of the predominant PCR products in 1010N were purified from the TGGE gel matrix, reamplified via PCR, and sequenced to allow for phylogenetic analysis and nucleic acid probe design. Coincidentally, two strains (NS500-9 and MPN2) that had been isolated from the 1010N mixed consortium and grown in pure culture were found, via TGGE, to have identical 16S rRNA sequences to the PCR products under investigation. Nearly the full-length 16S rRNA genes from these two organisms were PCR amplified, cloned, and sequenced in order to provide a basis for more accurate phylogenetic analysis. The two dominant organisms in the 1010N product, NS500-9 and MPN2, were thereby found to be most closely related to Nitrosomonas and Nitrobacter, respectively, in the existing database. Using the nucleic acid sequences of the cloned DNA, organism-specific DNA probes were designed for both NS500-9 and MPN2. Unfortunately, difficulties were encountered in using the probes to monitor 1010N activity levels via quantitative dot blot hybridizations (rRNA-DNA). Therefore, efforts were redirected to using the TGGE semi-quantitatively with an internal PCR standard (Brüggeman, et al., 2000) to estimate original cell numbers of 1010N within a mixed consortium. This method was not applicable to our system due to substantial preferential binding of the primers to template other than the standard. Samples from a laboratory-scale bioreactor, bioaugmented with 1010N, were used in an attempt to correlate an increase in activity with a detectable shift in population via TGGE. No detectable shift in population was detected in these samples even though the system exhibited increased levels of nitrification. Therefore, the sensitivity of the TGGE system was also examined by determining the limits of detection when 1010N was present in activated sludge. In both whole cell spiking experiments and genomic DNA spiking experiments, it was found that 1010N must be present at a level of at least 5% of the total population in order to be detected. While this provides some information about microbial populations, in order to evaluate the biological activity of a system, nucleic acid probes should be used in a rRNA based study. / Master of Science

TGGE

dot blot hybridization

16S rRNA

nucleic acid probe design

PCR

nitrification

The Utility of Culture Independent Methods to Evaluate the Fecal Microbiome in Overweight Horses Fed Orchard Grass Hay

Shepherd, Megan Leigh

15 October 2012

This dissertation documents efforts to evaluate metabolic variables and the fecal microbiome in adult horses fed grass hay. In the first study, eight Arabian geldings limit-fed an 18% vs. 12% non-structural carbohydrate (NSC) hays in a cross-over design during two 28-day periods were included to evaluate the influence of grass hay NSC on serum insulin and plasma glucose concentrations. Serum insulin concentrations was higher in geldings fed the 18% NSC hay; however, this difference was only detected on day 7 and none of the geldings developed hyperinsulinemia. Blood glucose concentrations did not differ between hay groups. The second and third studies were extensions of the first and were conducted to use denaturing gradient gel electrophoresis (DGGE) and real-time PCR in evaluating the effect of forage carbohydrates on equine fecal bacteria diversity and abundance, respectively. Fecal microbiomes were similar (80.5-87.9%) between geldings. The abundance of bacteria belonging to the Firmicutes phylum increased (p = 0.02) in the feces of geldings fed 12% NSC hay (mean 8.06 range [8.03-8.11] log10 copies/g feces) compared to the feces of the same geldings when fed the 18% NSC hay (7.97 [7.97-7.98] log₁₀ copies/g feces). The Firmicutes (43.7%), Verrucomicrobia (4.1%), Proteobacteria (3.8%), and Bacteroidetes (3.7%) phyla dominated the fecal microbiomes. This work was the first to report the presence of the Actinobacteria, Cyanobacteria, and TM7 phyla in the equine fecal or gut microbiome. There was a high abundance (38%) of unclassified bacterial sequences in the gelding fecal microbiome. In the fourth study, 5 overweight adult mixed-breed mares and 5 adult mixed-breed mares in moderate condition, limit-fed a grass hay, were used to evaluate the effect of body condition on diet digestibility, plasma and fecal volatile fatty acid (VFA) concentrations, and fecal bacterial abundance. Hay, fecal, and blood samples were taken daily for 4 days after a 10 day adaptation period. A difference in hay digestibility, fecal VFA concentration, or bacterial abundance was not detected between overweight mares and mares in moderate condition. Plasma acetate, a product of microbial fermentation of fiber, was higher in the overweight mare group. / Ph. D.

Obesity

feces

16S rRNA gene

DGGE

real time PCR

pyrosequencing

Horses

body condition score

overweight

microbiome

The 16S rRNA characterization of a novel "microaerophilic" Pseudomonas sp. from the oligotrophic deep subsurface environment

Lampe, Robert Carl III

07 November 2008

A gram negative microaerophilic bacterium, designated Pseudomonas sp. strain MR 100, was isolated from a depth of 463 meters at the Savannah River DOE site and identified using 16S rDNA sequencing and DNA-DNA reassociation. Micro aerophiles from the Middendorf formation were isolated by use of a semi-solid agar assay, and constituted 10% of the plateable microorganisms. Genetic identification involved the isolation of genomic DNA and amplification of the gene encoding 16S rRNA by PCR, using universal primers. The amplified DNA was sequenced and compared to 16S rRNA sequences in Genbank. High sequence similarity (98.5%) was observed with the <i>Pseudomonas mendocina</i> type strain, indicating a similarity to the (Group I) pseudomonads. DNA-DNA reassociation was performed between <i>Pseudomonas</i> sp. strain MR 100 and 11 representative p seudomonads using the S 1 nuclease method. Strain MR 100 was found to be 20% homologous to the <i>Pseudomonas mendocina</i> type strain, 10% homologous to <i>Pseudomonas alcaligenes</i>, and 5% homologous to <i>Pseudomonas aeruginosa</i>. Data from biochemical tests confirm the hypothesis that strain MR 100 is a novel species of <i>Pseudomonas</I. It was able to accumulate poly-β-hydroxybutyrate intracellularly, while it lacked the ability to produce cellular pigments, which is unique among the (Group I) pseudomonads. Growth occurred at oxygen concentrations of 20/0 and 21%, with similar growth rates and final cell densities. / Master of Science

DNA reassocation

16S rRNA

microaerophile

subsurface

Pseudomonas

LD5655.V855 1996.L367

Identification, Characterization, and Use of Precipitation-borne and Plant-associated Bacteria

Mechan Llontop, Marco Enrique

10 January 2020

Bacteria are ubiquitously present in every ecosystem on earth. While bacterial communities that reside in specific habitats, called the microbiota, have characteristic compositions, their constituents are exchanged between habitats. To understand the assembly processes and function of a microbial community in an ecosystem, it is thus important to identify its putative sources and sinks. The sources and sinks of the plant leaf microbiome, also called the phyllosphere microbiome, are still under debate. Here, I hypothesized that precipitation is a so far neglected source of the phyllosphere microbiome. Using 16S rRNA amplicon and metagenomic sequencing, I identified the genera Massilia, Sphingomonas, Methylobacterium, Pseudomonas, Acidiphilium, and Pantoea as members of the core rain microbiome in Blacksburg, VA. Further, I used rainwater as a bacterial inoculum to treat tomato plants. I showed that rain-borne bacteria of the genera Chryseobacterium, Enterobacter, Pantoea, Paenibacillus, Duganella, Streptomyces, Massilia, Shinella, Janthinobacterium, Erwinia, and Hyphomicrobium were significantly more abundant in the tomato phyllosphere 7 days post-inoculation, suggesting that these rain-borne bacteria successfully colonized the tomato phyllosphere and had a direct impact on the composition of its microbiome. These results were confirmed by comparing the phyllosphere microbiota of tomato plants grown under greenhouse conditions, and thus never exposed to rain, compared to plants grown outside under environmental conditions, including precipitation. Since a large diversity of bacteria is associated with rain, I also hypothesized that rain-borne bacteria are well adapted to environmental stresses, similar to the stressors microbial biopesticides are exposed to in the field. I thus explored rain as a source of resilient biopesticides to control fire blight, caused by the bacterial pathogen Erwinia amylovora, on apple. In an in-vitro dual culture assay, I identified rain-borne isolates displaying broad-range inhibition against E. amylovora and several other plant pathogens. Two rain-borne isolates, identified as Pantoea agglomerans and P. ananatis, showed the strongest inhibition of E. amylovora. Further experiments showed that these two Pantoea isolates survive under environmental conditions and have a strong protective effect against E. amylovora. However, protection from disease in an orchard was inconsistent, suggesting that the timing of application and formulations must be improved for field applications. Using a UV-mutagenesis screen and whole-genome sequencing, I found that a phenazine antibiotic produced by the P. agglomerans isolate was the likely active molecule that inhibited E. amylovora. Bacterial communities are constantly released as aerosols into the atmosphere from plant, soil, and aquatic sources. When in the atmosphere, bacteria may play crucial roles in geochemical processes, including the formation of precipitation. To understand the potential role of decaying vegetation as a source of atmospheric Ice Nucleation Particles (INPs), I analyzed a historic leaf litter sample collected in 1970 that had maintained Ice Nucleation Activity (INA) for 48 years. A culture-dependent analysis identified the bacterial species Pantoea ananatis and the fungal species Mortierella alpina to have INA and to be present in the leaf litter sample. Further, I determined that both P. ananatis and M. alpina produced heat-sensitive sub-micron INPs that may contribute to atmospheric INPs. The development of new sequencing technologies has facilitated our understanding of microbial community composition, assembly, and function. Most research in bacterial community composition is based on the sequencing of a single region of the 16S rRNA gene. Here, I tested the potential of culture-independent 16S rRNA sequencing of the phyllosphere microbiome for disease diagnosis. I compared the community composition of the microbiome of the aerial parts of cheddar pinks (Dianthus gratianopolitanus) that showed disease symptoms with the microbiome of healthy plants to identify the causative agent. However, I found that the pathogen is probably ubiquitous on cheddar pinks since it was present at similar abundance levels in symptomatic as well as healthy plants. Moreover, the low-resolution of 16S rRNA sequencing did not allow to identify the pathogen at the species or strain level. In summary, in this thesis, I found support for the hypothesis that rain is one of the sources of the phyllosphere microbiome, that rain is a promising source of biopesticides to control plant diseases in the field, that leaf litter is a source of atmospheric INPs, and that 16S rRNA sequencing is not well suited for pathogen identification in support of plant disease diagnosis. Finally, in additional research to which I contributed but that is not included in this thesis, I found that metagenomic sequencing can identify pathogens at the species and strain level and can overcome the limitations of 16S rRNA sequencing. / Doctor of Philosophy / Bacteria are present in nearly every ecosystem on earth. Bacterial communities that reside in a specific habitat are known as microbiota and have characteristic compositions and functions that directly impact the health of ecosystems. Microbiota associated with plants, the so-called plant microbiota, play a crucial role in plant fitness. Thus, it is important to study the assembly and diversity of plant microbiota and their impact on the ecosystem. The sources of leaf microbiota remain to be elucidated. Here, I have studied the contribution of rainfall to the bacteria that live on and in plant leaves. First, using DNA sequencing, I identified the bacteria present in rainfall in Blacksburg, VA. Then, using rain as bacterial inoculum, I found that some rain-borne bacteria, including members of the genera Pantoea, Massilia, Janthinobacterium, and Enterobacter, are efficient colonizers of tomato leaves. Either absence or low abundance of rain-borne bacteria from tomato leaves never exposed to rainfall confirmed further that bacteria in rain contribute to the assembly of plant leaf microbiota. The identification of all putative sources and sinks of leaf microbiota is important when trying to manipulate them to improve plant health and crop yield. Since I found that rainfall contains many different bacteria, I also studied the potential application of rain-borne bacteria in agriculture. The main limitations of commercial bio-pesticides are their poor survival and limited efficacy in the field. Here, I speculated that rain-borne bacteria are well adapted to environmental stressors and could represent efficient bio-pesticides under field conditions. In fact, I isolated two rain-borne bacteria from the genus Pantoea that strongly inhibited Erwinia amylovora, the causal agent of the fire blight disease of apple, in the laboratory under controlled conditions. However, I observed inconsistent results in a 2-year field trial in an orchard. Using mutagenesis and DNA sequencing, I found the active molecule that likely inhibited E. amylovora, in one of the rain-borne isolates. Finally, the access to newer and cheaper sequencing technologies has recently facilitated the study of bacteria at large scale. Most research of microbiota is based on the sequencing of a single region of one gene, the 16S rRNA gene. Here, I tested the potential of 16S rRNA sequencing of leaf microbiota for disease diagnosis. However, I identified the pathogen in healthy and diseased plants, suggesting its ubiquitous presence. Further, due to the low-resolution of 16S rRNA sequencing, it was impossible to identify the pathogen at the species level. In summary, I found that rain is a source that contributes to leaf microbiota, that rain is a promising source of bio-pesticides to control plant diseases, and that 16S rRNA sequencing is not recommended as a tool to diagnose plant diseases.

Phyllosphere

microbiota

rain

fire blight

biopesticides

ice nucleation

16S rRNA

metagenomics

Aplicação de aeração intermitente para a degradação de corante azo por consórcio microbiano obtido de florestas tropicais / Intermittent aeration strategy for enhanced azo dye degradation by microbial consortium obtained from tropical forests

Oliveira, Jean Maikon Santos

01 March 2019

As soluções convencionais de tratamento biológico de corantes azo são baseadas em processos anaeróbio-aeróbios ocorrendo em unidades distintas. Este estudo avaliou o uso da aeração intermitente para a descoloração do Direct Black 22 (DB22) e biodegradação simultânea de subprodutos tóxicos no mesmo compartimento reacional. Os microrganismos utilizados foram obtidos de florestas tropicais e previamente adaptados a concentrações crescentes de DB22 (10-32,5 mg.L-1) em meio de cultivo. Os efeitos da concentração inicial de glicose (1 &#8211; 2 &#8211; 3 g.L-1) e aeração intermitente (0 &#8211; 4 &#8211; 8 h.d-1) sobre a descoloração, constante de descoloração e remoção de demanda química de oxigênio (DQO) foram investigados por planejamento fatorial e análise de superfície de resposta. Os testes foram conduzidos com água residuária (AR) que simulava a composição dos efluentes de lavanderias têxteis do agreste pernambucano. Os resultados demonstraram que a descoloração no longo prazo não foi inibida para ciclos de aeração de até 4 h.d-1, embora menores velocidades de remoção de cor tenham sido obtidas nestas condições. Os efeitos negativos da aeração foram significativamente reduzidos pelo aumento da concentração de glicose na AR. Ademais, a remoção de DQO foi potencializada com o aumento da frequência de aeração. Após descoloração do DB22 nos ensaios não aerados, verificou-se a formação de picos de absorbância relacionados à presença de aminas aromáticas ou outros intermediários da descoloração redutiva; o que não ocorreu nos experimentos aerados. Estes fatores resultaram em menor toxicidade à Daphnia magna em experimento modelo com nível intermediário de aeração. O sequenciamento do gene 16S rRNA na plataforma Illumina HiSeq revelou a presença de gêneros de bactérias conhecidos por produzirem enzimas envolvidas na biodegradação do azo. Observou-se, ainda, uma correlação positiva entre diversidade microbiana e eficiência de descoloração. Os resultados sugerem que a estratégia de aeração intermitente, corretamente implementada, pode melhorar a performance do tratamento biológico de efluentes têxteis que contém azo-corantes. / Conventional technologies for biological treatment of azo dyes are based on anaerobic-aerobic processes taking place into distinct units. This study evaluated the use of intermittent aeration strategy for decolorization of the Direct Black 22 (DB22) and simultaneous biodegradation of metabolites. Microorganisms were obtained from tropical forests and previously acclimated to increasing concentrations of DB22 (10-32.5 mg.L-1) in growth medium. Effects of initial glucose concentration (1 &#8211; 2 &#8211; 3 g.L-1) and intermittent aeration (0 &#8211; 4 &#8211; 8 cycles.d-1) on response variables decolorization, decolorization rate, and removal of chemical oxygen demand (COD) were investigated using factorial design and response surface analysis. Tests were conducted using a wastewater that simulated the composition of textile laundry effluents from a region with harsh climate in the state of Pernambuco, known as agreste pernambucano. Results showed long-term decolorization was not impaired for up to 4 cycles.d-1 of aeration, although a decrease in color removal velocities was observed in these experiments. Negative impacts of aeration were significantly reduced by increasing initial glucose concentration. Moreover, COD removal was enhanced with increased aerations levels. After DB22 degradation in non-aerated batches, the formation of absorbance peaks associated with aromatic amines and other byproducts of reductive decolorization was observed; which did not occur in the aerated experiments. These resulted in lower toxicity to Daphnia magna in model experiment using intermediate level of aeration. 16S rRNA gene sequencing on the Illumina HiSeq platform revealed the presence of several bacteria known to produce enzymes involved in azo compounds degradation. Furthermore, a positive correlation between microbial diversity and decolorization efficiency was observed. Results suggest intermittent aeration strategy can enhance biological treatment of textile effluents containing azo dyes when correctly implemented.

16S rRNA gene sequencing

Aminas aromáticas

Aromatic amines

Descoloração redutiva

DGGE

DGGE

Direct Black 22

Direct Black 22

Diversidade microbiana

Ecotoxicidade

Ecotoxicity

Efluente têxtil

Factorial design

Microbial diversity

Planejamento fatorial

Reductive decolorization

Sequenciamento massivo do gene 16S rRNA

Textile effluent

Prevalence analysis of putative periodontal pathogens in patients with aggressive periodontitis and healthy elderly

Edesi-Neuss, Lilian

21 November 2005

Marginale Parodontitis, die multikausale Erkrankung des Parodonts ist eine Infektionskrankheit, modifiziert durch Wirtsfaktoren und äußere Einflüße. Die als pathogene Mischflora bezeichnete Kombination kommensaler Mikroorganismen spielt die primäre Rolle in der Ätiopathogenese der Parodontitis. In der Aufstellung des Studienziels wurden einzelne Bakterienarten (T. forsythensis, P. gingivalis, A. actinomycetemcomitans, C. rectus, F. nucleatum, Fusobacterium spp., P. intermedia, E. corrodens, V. parvula und C. ochracea) ausgewählt, die eventuell als "Markerkeime" in der aggressiven Form der Parodontitis betrachtet werden können. Dazu wurde eine Kontrollgruppe untersucht, die eine gesunde parodontale Flora besitzt. Die angewandte Nachweismethode basiert auf der PCR-Amplifikation von 16S rDNA und darauffolgender dot-blot Hybridisierung mit Oligonukleotidsonden. Die entsprechenden Sonden wurden hergestellt, optimiert und evaluiert. Für die epidemiologische Untersuchung wurde subgingivale Plaque von vier Parodontaltaschen und einer Kontrollstelle von 45 Patienten mit aggressiver Parodontitis, sowie an fünf Stellen von 21 Senioren entnommen. Die Prävalenz der einzelnen Bakterienarten wurde mit Hilfe des Chi-Quadrat Test verglichen. Obgleich eine hohe interindividuelle Variabilität der Kolonisationsmuster zu beobachten war, konnten T. forsythensis, P. gingivalis, C. rectus und F. nucleatum signifikant häufiger in den Parodontaltaschen als an den gesunden Stellen nachgewiesen werden und können deswegen als "Leitkeime" der aggressiven Parodontitis angesehen werden. A. actinomycetemcomitans konnte nur bei einzelnen Patienten mit aggressiver Parodontitis festgestellt werden. Die Ergebnisse für P. intermedia und E. corrodens ließen keine eindeutige Assoziation sowohl mit der aggressiven Parodontitis als auch mit dem gesunden Parodontalzustand zu. Bei Senioren wurde C. ochracea besonders häufig nachgewiesen. Die Ergebnisse dieser Studie bewiesen die erfolgreiche Einsetzbarkeit der hergestellten Oligonukleotidsonden. / A multifactorial risk pattern of periodontitis has been recognized, where in addition to host and environmental factors, a pathogenic microbiota plays a primary role. The purpose of the current research was to analyze the prevalence of periodontitis-associated microorganisms in patients with aggressive periodontitis and periodontally healthy elders by using molecular-biologic detection methods like eubacterial PCR-amplification of 16S rDNA in combination with dot-blot hybridization. The oligonucleotide probes for the detection of T. forsythensis, P. gingivalis, A. actinomycetemcomitans, C. rectus, F. nucleatum, Fusobacterium spp., P. intermedia, E. corrodens, V. parvula and C. ochracea were designed and evaluated. The PCR products of 42 cultivated target and closely related bacteria were used for the optimization of hybridization conditions. For the epidemiological study, subgingival plaque was sampled from four pockets and one healthy site of 45 aggressive periodontitis patients as well as from five sites of 21 elderly. The differences in the prevalence of bacterial species were analyzed by the chi-square test. The data revealed frequent colonization by T. forsythensis, P. gingivalis, F. nucleatum and C. rectus in patients with aggressive periodontitis, however individual variations were obvious. These species could be predominantly identified in periodontal pockets, but were significantly less common in the healthy sites of the periodontitis patients and in the elderly. These putative pathogens can be conclusively determined as the key-bacteria in patients with aggressive periodontitis. No direct association for P. intermedia and E. corrodens with aggressive periodontitis or periodontal health could be seen. A. actinomycetemcomitans could be detected in only a few patients, reducing its suspected importance in the etiology of aggressive periodontitis. C. ochracea was highly prevalent in the well-maintained elderly, suggesting its association with healthy flora. The results of the study confirmed the reliability of the oligonucleotide probes in a specific and sensitive detection of the respective oral species.

Parodontalpathogene

16S rRNA

Oligonukleotidsonden

Dot-blot Hybridisierung

aggressive Parodontitis

PCR-Amplifikation

periodontal pathogens

16S rRNA

oligonucleotide probes

dot-blot hybridization

aggressive periodontitis

PCR-amplification

610 Medizin

33 Medizin

ddc:610

Efeito do uso do solo e da rizosfera de cana-de-açúcar na estrutura e abundância de comunidades de Bacteria e do filo Verrucomicrobia / Effect of land use change and sugarcane rhizosphere on the structure and abundance of Bacteria and Verrucomicrobia communities

Venturini, Andressa Monteiro

12 November 2014

A abundância e diversidade dos microrganismos do solo podem ser influenciadas por grande número de fatores, associados, principalmente, ao tipo de solo, sua cobertura e uso. A microbiota do solo apresenta grande importância pelos processos desempenhados pelos seus organismos, essenciais para todos os ecossistemas terrestres. Apesar da grande complexidade associada a esses estudos, os fatores que influenciam as comunidades microbianas podem ser melhor elucidados pela pesquisa com grupos específicos. Nesse sentido, o filo bacteriano Verrucomicrobia, grupo ubíquo em solos, apresenta elevada abundância em diferentes ambientes, o que sugere sua grande importância ecológica. Mas, pela dificuldade de isolamento de seus organismos, ainda pouco se sabe a respeito da ecologia do filo. O presente trabalho foi desenvolvido com o objetivo de analisar os efeitos do uso do solo e da rizosfera de cana-de-açúcar nas comunidades de Bacteria e do filo Verrucomicrobia. Com essa finalidade, amostras de solo foram coletadas em áreas sob diferentes usos em uma usina sucroalcooleira na cidade de Piracicaba (SP). As amostras foram utilizadas em dois estudos distintos. No primeiro, foram analisadas as comunidades microbianas presentes nas amostras de solo obtidas na coleta das áreas de estudo e, no segundo, retiradas de um experimento controlado conduzido em estufa para analisar o efeito do uso do solo e, principalmente, da rizosfera nas mesmas. As comunidades foram avaliadas quanto a sua abundância, pela técnica de qPCR, e estrutura, pela técnica de T-RFLP. No primeiro estudo, a diversidade do filo também foi acessada pelo desenvolvimento de bibliotecas do seu gene 16S rRNA. Os resultados dos estudos indicam que a comunidade bacteriana e, principalmente, do filo foram afetadas pelo uso do solo e pelo manejo adotado em cada área, o que evidencia a importância de sistemas conservacionistas. A análise das bibliotecas demonstrou que o filo Verrucomicrobia apresentou maior diversidade na mata nativa do que nos canaviais. Adicionalmente, a incidência e a abundância das subdivisões do grupo foram alteradas de acordo com o uso do solo. As comunidades também foram influenciadas pela rizosfera em sua estrutura e abundância, resultados de grande interesse para o estudo do filo, pois poucos trabalhos analisaram o efeito rizosférico em seus organismos. Além disso, a sua elevada abundância encontrada no estudo, que tem sido comumente subestimada, ressalta a importância de trabalhos com foco específico em grupos de interesse / The abundance and diversity of soil microbial communities can be influenced by many factors, mainly associated with soil type, its coverage and use. The soil microbiota has great importance due to the processes performed by its organisms, essential for all terrestrial ecosystems. Despite the great complexity associated with these studies, the factors that affect the microbial communities can be better explained through the research of specific groups. In this sense, the bacterial phylum Verrucomicrobia, a ubiquitous soil group, presents high abundance in different environments, which suggests its great ecological importance. But due to the difficulty of isolating its organisms, little is known about the ecology of the phylum. The present work was developed with the objective of analyzing the effect of land use changes and sugarcane rhizosphere on the structure and abundance of Bacteria and Verrucomicrobia communities. For this purpose, soil samples were collected in areas under different land uses in a sugarcane mill in Piracicaba (SP). The samples were used in two separate studies. In the first, the microbial communities present in soil samples obtained in the sampling areas were analyzed and, in the second, taken from a controlled experiment conducted in a greenhouse to analyze the effect of land use and, especially, the rhizosphere on the communities. The communities were evaluated for their abundance, by the qPCR technique, and structure, by T-RFLP. In the first study, the phylum diversity was also accessed with the development of 16S rRNA gene libraries. The results from the studies indicate that bacterial and, especially, the phylum community were affected by land use and the management adopted in each area, which evidences the importance of conservationist systems. The analysis of the clone library demonstrated that the phylum Verrucomicrobia presented greater diversity in native vegetation than in the sugarcane fields. Additionally, the incidence and abundance of the group subdivisions have been changed in accordance with land use. The structure and abundance of the communities were also influenced by the rhizosphere, results of great interest to the reserach of the phylum, since few studies have analyzed the rhizosphere effect on its organisms. Furthermore, the high abundance of the phylum found in the study, which has been commonly underestimated, emphasizes the importance of research with specific focus on groups of interest

16S rRNA gene

Bacterial community

Comunidade bacteriana

Ecologia microbiana

Filo Verrucomicrobia

Gene 16S rRNA

Microbial ecology

PCR em tempo real

Phylum Verrucomicrobia

Real time PCR

T-RFLP

T-RFLP

Comunidade bacteriana dos biofilmes da fermentação alcoólica: estrutura, composição, suscetibilidade aos antimicrobianos e formação de biofilme em culturas puras / Bacterial community of biofilms from alcoholic fermentation: structure, composition, susceptibility to antimicrobials and biofilm formation in pure cultures

Dellias, Marina de Toledo Ferraz

03 February 2015

A produção de etanol nas destilarias brasileiras é baseada na atividade fermentativa da levedura Saccharomyces cerevisiae que utiliza o caldo da cana-de-açúcar e/ou o melaço como substrato. Bactérias contaminantes da fermentação alcoólica competem com as leveduras pelos açúcares, afetando o rendimento do sistema produtivo e, consequentemente, causando perdas econômicas significativas às usinas. Biofilmes formados nos tanques de fermentação alcoólica agem como reservatórios de bactérias, contribuindo para contaminações persistentes e de difícil controle. Os biofilmes proporcionam aos seus habitantes certo grau de proteção contra diversas ameaças do meio, incluindo a ação dos antibióticos. Desta forma, o conhecimento da comunidade bacteriana dos biofilmes é fundamental para as medidas que visam o controle das contaminações na produção do bioetanol. No primeiro estudo, a composição e dinâmica da comunidade bacteriana foram determinadas pela análise de sequências do gene 16S rRNA de biofilmes com diferentes períodos de crescimento, correspondentes aos estágios iniciais de estabelecimento destes biofilmes dentro dos tanques de fermentação alcóolica Os resultados mostraram que estas comunidades foram compostas predominantemente pelas bactérias ácido-lácticas (LAB), com destaque para o gênero Lactobacillus. A visualização da estrutura dos biofilmes por microscopia eletrônica de varredura evidenciou que estes são formados por bactérias e leveduras (biofilmes mistos). No segundo estudo, a suscetibilidade aos antimicrobianos (monensina, virginiamicina e beta-ácido derivado do lúpulo) e a capacidade de formação de biofilmes em culturas puras foram avaliadas para isolados de Lactobacillus spp. provenientes de biofilmes (células sésseis) e de vinho bruto (células planctônicas) coletados dos tanques de fermentação. A partir dos resultados foi possível observar que as diferenças na suscetibilidade aos antimicrobianos e na habilidade de formar biofilmes foram estirpe-dependentes e que, em alguns casos, o perfil apresentado para algumas espécies mostrou-se relacionado à fonte de isolamento. Este foi o primeiro estudo sobre biofilmes contaminantes da fermentação alcoólica, em escala industrial, para a produção de etanol a partir da cana-de-açúcar / Bioethanol production in Brazilian distilleries is based on fermentative activity of the yeast Saccharomyces cerevisiae which uses sugarcane juice and/or molasses as a substrate. Bacterial contaminants of alcoholic fermentation compete with yeasts for sugars, affecting ethanol yield and consequently causing relevant economic losses to the fuel ethanol industry. Biofilms formed into fermentors act as bacterial reservoirs, contributing to persistent contaminations that are difficult to control. Biofilms provide a certain degree of protection for their inhabitants against some environmental threats, including antibiotics. Thus, understanding bacterial community within biofilms is essential for actions to control contaminations in bioethanol production. In the first study, composition and dynamic of bacterial community were determined by 16S rRNA gene sequences analysis of biofilms with different growth periods, corresponding to initial stages of biofilm establishment in fermentation tanks. Results showed that these communities were dominated by lactic acid bacteria (LAB), mainly of the genus Lactobacillus. Visualization of biofilm structure by scanning electron microscopy revealed a mixed-species biofilm composed by bacteria and yeasts. In the second study, susceptibility to antimicrobials (monensina, virginiamicina and beta-acids from hops) and capacity to form biofilm in pure culture were evaluated for Lactobacillus spp. isolated from biofilms (sessile cells) and wine (planktonic cells) collected from fermentors. The results showed that differences in the susceptibility to antimicrobials and the ability to form biofilms were strain-specific and, in certain cases, the response of some species was related to the isolation source. This was the first investigation of contaminant biofilms from sugarcane-based alcoholic fermentation on an industrial scale

16S rRNA gene

Antimicrobial sensitivity

AST

Bacterial contamination

Bactérias ácido-lácticas (LAB)

Bioetanol

Bioethanol

Contaminação bacteriana

Gene 16S rRNA

Lactic acid bacteria (LAB)

Lactobacillus

Lactobacillus

Sensibilidade aos antimicrobianos

TSA

Efeito do uso do solo e da rizosfera de cana-de-açúcar na estrutura e abundância de comunidades de Bacteria e do filo Verrucomicrobia / Effect of land use change and sugarcane rhizosphere on the structure and abundance of Bacteria and Verrucomicrobia communities

Andressa Monteiro Venturini

12 November 2014

A abundância e diversidade dos microrganismos do solo podem ser influenciadas por grande número de fatores, associados, principalmente, ao tipo de solo, sua cobertura e uso. A microbiota do solo apresenta grande importância pelos processos desempenhados pelos seus organismos, essenciais para todos os ecossistemas terrestres. Apesar da grande complexidade associada a esses estudos, os fatores que influenciam as comunidades microbianas podem ser melhor elucidados pela pesquisa com grupos específicos. Nesse sentido, o filo bacteriano Verrucomicrobia, grupo ubíquo em solos, apresenta elevada abundância em diferentes ambientes, o que sugere sua grande importância ecológica. Mas, pela dificuldade de isolamento de seus organismos, ainda pouco se sabe a respeito da ecologia do filo. O presente trabalho foi desenvolvido com o objetivo de analisar os efeitos do uso do solo e da rizosfera de cana-de-açúcar nas comunidades de Bacteria e do filo Verrucomicrobia. Com essa finalidade, amostras de solo foram coletadas em áreas sob diferentes usos em uma usina sucroalcooleira na cidade de Piracicaba (SP). As amostras foram utilizadas em dois estudos distintos. No primeiro, foram analisadas as comunidades microbianas presentes nas amostras de solo obtidas na coleta das áreas de estudo e, no segundo, retiradas de um experimento controlado conduzido em estufa para analisar o efeito do uso do solo e, principalmente, da rizosfera nas mesmas. As comunidades foram avaliadas quanto a sua abundância, pela técnica de qPCR, e estrutura, pela técnica de T-RFLP. No primeiro estudo, a diversidade do filo também foi acessada pelo desenvolvimento de bibliotecas do seu gene 16S rRNA. Os resultados dos estudos indicam que a comunidade bacteriana e, principalmente, do filo foram afetadas pelo uso do solo e pelo manejo adotado em cada área, o que evidencia a importância de sistemas conservacionistas. A análise das bibliotecas demonstrou que o filo Verrucomicrobia apresentou maior diversidade na mata nativa do que nos canaviais. Adicionalmente, a incidência e a abundância das subdivisões do grupo foram alteradas de acordo com o uso do solo. As comunidades também foram influenciadas pela rizosfera em sua estrutura e abundância, resultados de grande interesse para o estudo do filo, pois poucos trabalhos analisaram o efeito rizosférico em seus organismos. Além disso, a sua elevada abundância encontrada no estudo, que tem sido comumente subestimada, ressalta a importância de trabalhos com foco específico em grupos de interesse / The abundance and diversity of soil microbial communities can be influenced by many factors, mainly associated with soil type, its coverage and use. The soil microbiota has great importance due to the processes performed by its organisms, essential for all terrestrial ecosystems. Despite the great complexity associated with these studies, the factors that affect the microbial communities can be better explained through the research of specific groups. In this sense, the bacterial phylum Verrucomicrobia, a ubiquitous soil group, presents high abundance in different environments, which suggests its great ecological importance. But due to the difficulty of isolating its organisms, little is known about the ecology of the phylum. The present work was developed with the objective of analyzing the effect of land use changes and sugarcane rhizosphere on the structure and abundance of Bacteria and Verrucomicrobia communities. For this purpose, soil samples were collected in areas under different land uses in a sugarcane mill in Piracicaba (SP). The samples were used in two separate studies. In the first, the microbial communities present in soil samples obtained in the sampling areas were analyzed and, in the second, taken from a controlled experiment conducted in a greenhouse to analyze the effect of land use and, especially, the rhizosphere on the communities. The communities were evaluated for their abundance, by the qPCR technique, and structure, by T-RFLP. In the first study, the phylum diversity was also accessed with the development of 16S rRNA gene libraries. The results from the studies indicate that bacterial and, especially, the phylum community were affected by land use and the management adopted in each area, which evidences the importance of conservationist systems. The analysis of the clone library demonstrated that the phylum Verrucomicrobia presented greater diversity in native vegetation than in the sugarcane fields. Additionally, the incidence and abundance of the group subdivisions have been changed in accordance with land use. The structure and abundance of the communities were also influenced by the rhizosphere, results of great interest to the reserach of the phylum, since few studies have analyzed the rhizosphere effect on its organisms. Furthermore, the high abundance of the phylum found in the study, which has been commonly underestimated, emphasizes the importance of research with specific focus on groups of interest

Comunidade bacteriana

Ecologia microbiana

Filo Verrucomicrobia

Gene 16S rRNA

PCR em tempo real

T-RFLP

16S rRNA gene

Bacterial community

Microbial ecology

Phylum Verrucomicrobia

Real time PCR

T-RFLP