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Mapping the Distribution of the EPS Matrix Within Mixed Microbial FlocsKhezry, Mojtaba 22 May 2012 (has links)
The efficacy Biological wastewater treatment process is largely dependent on the formation of microbial flocs and settleability before the water is released into the environment. Settleability and flocculation are reliant upon stable physicochemical parameters. Extracellular polymeric substance constituents dictate physicochemical parameters of flocs. The fluctuation of these constituents within mixed microbial flocs is poorly studied. A novel aspect of this research was the use of CLSM data to get a semi- quantitative assessment of the constituents within mixed microbial flocs.
Wastewater treatment flocs were characterized for eubacterial ecology, physicochemical properties, and they were visualized through correlative microscopy. It was observed that the microbial communities from the three sampling sites exhibited significant variability in numerous physicochemical properties. Overall, these results provide a first step to examine micro-localization of physicochemical properties, architecture and processes within flocs that may help better understand the causes of floc- related inefficiencies in biological wastewater treatment. / Canadian Hemophilia Society
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Interação entre bactérias endofíticas e do rizoplano com Eucalyptus / Interaction between endophytic and rhizoplane bacteria with EucalyptusAnderson Ferreira 15 February 2008 (has links)
Os microrganismos endofíticos são aqueles, cultiváveis ou não, que habitam o interior da planta hospedeira sem causar danos aparentes ou estruturas externas visíveis. Essa interação microrganismos-planta é intrínseca a determinadas espécies de plantas e/ou bactérias. Nas últimas décadas os estudos de microrganismos endofíticos têm sido realizados em diversas plantas hospedeiras, sendo esses estudos direcionados principalmente para a diversidade e características benéficas induzidas, inclusive o controle biológico de doenças. A doença causada pelo fungo Ceratocystis fimbriata é considerada emergente no setor florestal. O Brasil está entre os maiores produtores mundiais de eucalipto e a expansão do setor juntamente com o cultivo clonal tem acarretado o aumento da incidência de patógenos. O surgimento de novas doenças exige estudos relacionados tanto a interação do agente patogênico com hospedeiro quanto de todos os componentes do patossistema. Neste contexto, os microrganismos endofíticos têm sido descritos como potenciais controladores biológicos de doenças. Dessa forma, o presente trabalho teve por objetivos avaliar a interação de C. fimbriata com a comunidade bacteriana associada à Eucalyptus sp. Adicionalmente, foi estudada a possível transferência desses endófitos via sementes e o padrão de colonização de Pantoea agglomerans em plântulas. Foi observado que plantas não infestadas por C. fimbriata apresentaram maior densidade bacteriana no rizoplano (20,66 x 104 UFC.cm2 -1 de raiz), enquanto que para a comunidade endofítica, a maior densidade foi observada em plantas infectadas pelo fungo (25,13 x 104 UFC.g-1 de raiz). As análises por ARDRA possibilitaram a obtenção de 8 e 13 ribotipos nas comunidades endofítica de raiz e do rizoplano, respectivamente. Os ribotipos mais freqüentes foram identificados como Bacillus cereus. As análises de diversidade por meio de DGGE das comunidades do rizoplano e endofítica de raiz mostraram que a infestação pelo fungo interfere na colonização de Eucalyptus. Foi observado também que bactérias endofíticas estão presentes no interior de sementes de Eucalyptus spp. em uma densidade de 0,33 a 1,83 X 102 UFC.g-1, para as espécies E. camandulensis e E. urophylla, respectivamente. A densidade bacteriana endofítica de plântulas obtidas de sementes desinfectadas superficialmente variaram entre 0,27 X 102 a 0,87 X 102 UFC.g-1, para E. citriodora e o híbrido E. robusta x E. grandis, respectivamente. Em algumas espécies de Eucalyptus não foram isoladas bactérias endofíticas das sementes e plântulas. Os resultados mostraram que algumas espécies de bactérias endofíticas podem ser transmitidas verticalmente por sementes. P. agglomerans inoculada nas sementes foi capaz de colonizar as plântulas após a germinação da semente, indicando que esta pode ser uma das formas utilizadas pelos microrganismos para colonizar e se estabelecer na planta hospedeira. Assim, os resultados obtidos neste trabalho mostram ainda que possa existir interação entre a presença de C. fimbriata e a comunidade bacteriana endofítica e do rizoplano de Eucalyptus. Foi possível observar também que estas bactérias endofíticas que são transmitidas por meio de sementes, permitindo que plântulas previamente inoculadas com bactérias benéficas possam ser produzidas antes de serem levadas a campo. / The endophytic microorganisms are those, cultivated or not, that inhabit the interior of the plant host without causing apparent damages or visible external structures. This interaction microorganisms-plant is specific to certain species of plants and/or bacteria. In the last few years studies of endophytic microorganisms have been carried out in several plant hosts, being these studies focused mainly to diversity and biotechnological potential, such as biological control of disease. The disease caused by the phytopathogenic fungi Ceratocystis fimbriata is considered emerging by the reforestation companies. Brazil is one of the largest world eucalyptus producers and the increasing of the eucalyptus production associated to clonal reproduction has allowed the increase in pathogen incidence. Studies that evaluate the interaction between pathogens and the microbial community associated to the host plant may allow understanding how disease symptoms come up. Endophytic microorganisms have been described as potential biological control of diseases and therefore, the aims of the present work were to i) study the interaction between C. fimbriata and the bacterial community associated to the Eucalyptus sp.; ii) evaluate the bacterial dissemination by seeds; iii) evaluate the colonization profile of Pantoea agglomerans in seedlings after seed inoculation. It was observed that the highest bacterial density on the rhizoplane (20.66 x 104 CFU.cm2 -1 of root) was observed in C. fimbriata uninfectedplants, while for endophytic community the highest density was observed in C. fimbriata infected plants (25.13 x 104 CFU.g-1 of root). The ARDRA analyses showed that the bacterial community of eucalyptus is composed by 8 and 13 ribotypes on rhizoplane and inside the roots (endophytic), respectively. The most frequent ribotypes were identified as Bacillus cereus. The DGGE analyses of diversity of endophytic and rhizoplane community showed that fungi infection shift the colonization of Eucalyptus associated bacteria. The bacterial community inside Eucalyptus spp. seeds ranged from 0.33 to 1.83 X 102 CFU.g-1, for E. camandulensis and E. urophylla, respectively. After seed germination the endophytic bacterial density in seedlings ranged from 0,27 X 102 to 0,87 X 102 CFU.g-1, for E. citriodora and the hybrid E. robusta x E. grandis, respectively. Although, endophytic bacteria have been isolated from seeds, for some plant species, bacteria were not isolated from seedlings. Also, some bacteria may be vertically transmitted from seed to seedlings, but some is specific for seeds. Seed inoculation of P. agglomerans resulted in seedlings colonized by these bacteria, suggesting that these bacteria could be seed transmitted. The results obtained in the present study show that the fungi C. fimbriata inside the Eucalyptus host can shift the endophytic and rhizoplane bacterial diversity. Also, these endophytic bacteria could be transmitted vertically by seeds, allowing that seeds previously inoculated with beneficial bacteria may result in protected plants before planting in the field.
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Diversidade genética de enterobactérias endofíticas de diferentes hospedeiros e colonização de Catharantus roseus por endófitos expressando o gene gfp. / Genetic diversity of endophytic enterobacteria from different hosts and colonization of Catharantus roseus by endophytes expressing gfp gene.Adalgisa Ribeiro Torres 02 May 2005 (has links)
Bactérias endofíticas são aquelas que habitam o interior de tecidos vegetais, sem causar dano aparente aos mesmos, além de desempenhar funções importantes no processo de adaptação das plantas. Especial interesse tem sido dado a tais bactérias devido ao seu potencial no controle biológico. Por isso, é muito importante estudar a diversidade genética de endófitos, além de avaliar o impacto da introdução de endófitos geneticamente modificados no ambiente. Estudos vêm sendo feitos nesse sentido, mas não com bactérias endofíticas da família Enterobacteriaceae. Desta forma, o presente trabalho teve como objetivos estudar a diversidade genética de bactérias endofíticas da família Enterobacteriaceae isoladas de plantas de cacau, cana-de-açúcar, citros, eucalipto e soja, utilizando diferentes técnicas moleculares. Análises por ARDRA e seqüenciamento do rDNA 16S identificaram 20 haplótipos e revelaram que os isolados pertenceram aos gêneros Enterobacter, Erwinia e Pantoea, sendo este último o mais freqüente. Tais estudos revelaram ainda que a diversidade dos isolados variou de acordo com a planta hospedeira. A técnica de BOX-PCR foi também utilizada para avaliar a diversidade dos isolados. Um total de 23 diferentes OTUs (operational taxonimic units) obtidas indicaram que o total de isolados avaliados compreenderam pelo menos 23 espécies diferentes. Dois isolados foram transformados com pPAgfp, um plasmídio contendo os genes de resistência ao antibiótico ampicilina e o gene gfp, que codifica a proteína verde fluorescente. Tais isolados foram inoculados em plântulas de Catharantus roseus (vinca) e foi feito reisolamento de bactérias endofíticas em dois períodos diferentes após a inoculação. O impacto desta inoculação na diversidade da comunidade microbiana natural de vinca foi avaliado utilizando-se a técnica de ARDRA, a qual mostrou que os endófitos expressando gfp colonizaram as raízes e caules das plantas inoculadas, sem causar qualquer sintoma de doença. Além disso, os colonizadores endofíticos não levaram à diminuição da diversidade da população microbiana natural de vinca. Os resultados obtidos poderão contribuir para a compreensão sobre a interação entre Enterobacteriaceae endofítica e planta hospedeira, além de ajudar a responder questões sobre o papel ecológico dos endofíticos e seu potencial biotecnológico. / Endophytic bacteria have been defined as those that reside within living plant tissues, or extracted from inner plant parts without causing apparent damage to them. They also are able to play an important role in the process of plant adaptation. There is an increasing interest to endophytic bacteria and its potential in the biological control and many studies has been done in order to evaluate the diversity and the impact of endophytes and genetically modified endophytes (GME) released into environment. In this way, information about the diversity of endophytic bacteria has been obtained, except for bacteria exclusively from Enterobacteriaceae family belonged to different host plants. Thus, the aim of the present work was study the diversity of Enterobacteriaceae bacteria isolated from citrus, cocoa, eucalypti, soybean and sugar cane by different molecular approaches. The 16S rDNA of each isolate was amplified by PCR and the isolates were grouped into 20 clusters by analysis of restriction patterns of the PCR-amplified 16S rDNA (ARDRA). These analysis showed a variety of organisms, with 5 different genera encountered: Pantoea was most frequently encountered followed by Enterobacter and Erwinia, which isolates presented the great bacterial diversity according to host plants. Through cluster analysis of the BOX-PCR technique profiles, 23 different OTUs (Operational Taxonomic Units) were distinguished, the presence of 23 OTUs could indicate that isolates comprised at least 23 different species. Two isolates were transformed with pPAgfp, a plasmid harboring the ampicillim resistance gene and the gfp gene, which encodes for the green fluorescent protein. These two isolates were inoculated in seedlings of Catharantus roseus (vinca) and re-isolation of endophytic was performed in two times after inoculation. The impact of endophytes inoculation was evaluated by using the ARDRA technique. It showed that endophytes expressing gfp colonized roots and shoots of inoculated plants without causing any symptom of disease. Besides, the endophytes colonizers do not decreased the diversity of the vincas natural microbiota. The results obtained here provided important insights into the endophytic Enterobacteriaceae-host relationship that will be useful for further answer basic questions about the ecological role of the endophytes and its biotechnological potential.
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Analysis of Bacterial Abundance and Species Diversity in Various SoilsRoth, McKenzie L. January 2012 (has links)
No description available.
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Influence of Physiological State, Prolonged Dry Storage, and Passage through Simulated Digestion on the Survival and Gene Expression of Salmonella enterica sv. TennesseeAviles, Bryan 04 June 2012 (has links)
Salmonella enterica serotypes have been linked to outbreaks associated with low water activity foods. The ability of biofilm forming pathogens, such as Salmonella, to survive thermal and chemical processes is improved; it is unclear if biofilms will also improve survival to desiccation and gastric stresses. The purpose of this study was to quantify the effect of physiological state (planktonic versus biofilm) and prior exposure to desiccation on Salmonella survival and gene expression after passage through an in-vitro digestion model.
Cells of Salmonella enterica serotype Tennessee were deposited onto membranes for planktonic cells or on glass beads to create biofilms. The cells were subsequently dried at room temperature and stored in dried milk powder (aw = 0.3) for up to 30 days. Salmonella survival was quantified by serial dilution onto brilliant green agar before desiccation, after desiccation, after 1-day storage and after 30-day storage. At each sampling both physiological states were tested for survival through a simulated gastrointestinal system. RNA was extracted at the identical time points and relative gene expression determined for genes associated with stress response (rpoS, otsB), virulence (hilA, hilD, invA, sipC) and a housekeeping gene 16S rRNA using quantitative real-time PCR.
The physiological state and length of storage effected the survival and gene expression of Salmonella within the desiccated milk powder environment and after passage through an in-vitro digestion system (p<0.05). Larger numbers of S. Tennessee were recovered by plate counts for biofilm cells, compared to planktonic cells. However, the numbers of 16S rRNA gene copies were not significantly different suggesting entry of S. Tennessee into a viable but non-culturable state. Prolonged storage in dry milk powder was not associated with increased cross-protection to gastric stress. Increased expression of stress response genes rpoS and otsB correlated with survival, indicating cross protection of low water activity and acid stress. Increased expression of virulence-associated genes was seen in cells exposed to short periods of dry storage, suggesting an increased virulence potential. / Master of Science in Life Sciences
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Biodiversidad de actinomicetos aislados de plantas depuradoras de aguas residuales. Estudio de la capacidad de biodegradación de compuestos tóxicosSoler Hernández, Albert 09 March 2012 (has links)
Actualmente, en el tratamiento de aguas residuales no se presta demasiada atención a los microorganismos que realizan la depuración ni interfieren en el proceso. Es por ello que con este estudio se pretende estudiar este tipo de microorganismos y conocer qué diversidad de microorganismos se puede encontrar, así como encontrar aplicaciones biotecnológicas a partir de ellos. El objetivo principal del trabajo es, mediante la taxonomía polifásica, estudiar la biodiversidad de actinomicetos productores de espumas, además de estudiar su capacidad de biodegradación de ciertos productos tóxicos. Esto se realizará mediante el aislamiento de la bacteria, su caracterización quimiotaxonómica (incluyendo extracción de ácidos micólicos, determinación de los isómeros del ácido diaminopimélico y la extracción de los azúcares predominantes e la pared celular), caracterización genotípica (que incluye extracción de DNA, amplificación por PCR, secuenciación y construcción e interpretación de árboles filogenéticos), caracterización fenotípica (realización de diferentes tests fenotípicos), estudios de biodegradación de productos tóxicos derivados del petróleo (fenol y naftaleno) y detección molecular del gen catecol 1,2-dioxigenasa para determinar qué aislados poseen el potencial catabólico para degradar hidrocarburos aromáticos. Con todo ello, se obtuvieron 152 aislados, pertenecientes a 28 estaciones depuradoras de aguas residuales, pertenecientes al suborden phylum Actinobacteria. Tras realizar la caracterización quimiotaxonómica se obtuvo que 147 de ellos pertenecían al suborden Corynebacterineae, 4 al suborden Pseudonocardiaceae y 1 al suborden Micrococcineae. Dentro de estos subórdenes, los aislados pertenecían a 9 géneros diferentes y a 37 especies diferentes, lo que mostró la gran diversidad existente en estos ambientes. Los ensayos de biodegradación mostraron que 76 aislados eran capaces de degradar al menos un producto tóxico (fenol o naftaleno). / Soler Hernández, A. (2012). Biodiversidad de actinomicetos aislados de plantas depuradoras de aguas residuales. Estudio de la capacidad de biodegradación de compuestos tóxicos [Tesis doctoral]. Editorial Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/14982
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Molecular analysis of the oral microbiota of dental diseasesKanasi, Eleni January 2008 (has links)
Traditionally, bacterial culture has been used for bacterial detection, allowing study of living microorganisms. Molecular methods are rapid and allow simultaneous identification of numerous species and uncultivated phylotypes. The objective of this doctoral thesis was to investigate the role of the oral microbiota, including poorly characterized and uncultivated bacteria, in dental caries and periodontitis, by comprehensive molecular, clinical, and statistical methods. The microbiota of 275 pre-school children (75 with caries and 200 caries-free) was examined by whole genomic DNA probes, 16S rDNA cloning and sequencing, and PCR. Streptococcus mutans, exhibiting a combined association with Streptococcus sobrinus, was significantly associated with Early Childhood Caries (ECC). Plaque from children with Severe Early Childhood Caries (S-ECC) was diverse with 138 identified and 107 unidentified taxa, which possibly included novel phylotypes. Other species/phylotypes associated with childhood caries included Lactobacillus gasseri (p<0.01), Lactobacillus fermentum, Actinomyces israelii, and Actinomyces odontolyticus (all p<0.05, ECC), Veillonella parvula (p<0.01), Veillonella atypica (p<0.05), and Veillonella sp. HOT-780 (p<0.01, S-ECC). Lactobacillus acidophilus and Lactobacillus reuteri, both used as probiotic therapy species, were detected more frequently in caries-free children than those with ECC. Fastidious periodontal species, including Parvimonas micra, Aggregatibacter actinomycetemcomitans, Eubacterium brachy, Filifactor alocis (all p <0.05), and Porphyromonas gingivalis (p<0.01), were also more frequently detected in children with dental caries than in caries-free children. Other variables associated with ECC were race, dental visit, snacking (all p<0.05), and visible dental plaque (p<0.01). The oral microbiota of early periodontitis in young adults (N=141) was analyzed by whole genomic and oligonucleotide DNA probes, and PCR. Species detected more frequently in early periodontitis than periodontal health included Treponema denticola, F. alocis, Porphyromonas endodontalis, Bacteroidetes sp. HOT-274 (oral clone AU126), and A. odontolyticus (p<0.01) by oligonucleotide DNA probes, and P. gingivalis (p<0.001) and T. forsythia (p=0.03) by PCR. Subgingival samples exhibited a higher prevalence of periodontitis-associated species than samples from tongue surface, including A. actinomycetemcomitans, T. denticola, T. forsythia (all p<0.05), and uncultivated TM7, Treponema, and Actinobaculum clones (all p<0.05). P. gingivalis (p<0.01) by PCR was associated with periodontal disease progression. Early periodontitis was associated with older age (p=0.01), male gender (p=0.04), and cigarette smoking (p=0.05). The role of bacterial subgroups in periodontitis was examined by studying the serotypeability of 313 genotyped clinical A. actinomycetemcomitans isolates (189 subjects). A total of 95 strains (30 subjects) remained non-serotypeable, although PCR revealed presence of the serotype- specific genes. The absence of the immunodominant serotype-specific antigen was confirmed by immunoblot assays. No major DNA rearrangement in the studied serotype-specific gene clusters was found. In summary, detection of previously cultured species and uncultivated phylotypes revealed the diversity of the oral microbiota in dental diseases and health already early in life. Bacterial species have insufficiently characterized subgroups that may have attributes to evade the host response. Molecular approaches used in this study enable comprehensive, culture-independent characterization of the oral microbiome that may in the future lead to identification of diagnostic bacterial profiles for dental diseases.
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Diversity and phylogeography of eastern Guiana Shield frogsFouquet, Antoine January 2008 (has links)
The Guiana Shield is a sub-region of Amazonia, one of the richest areas on earth in terms of species number. It is also one of the most pristine areas and is still largely unexplored. Species number, distribution, boundaries and their evolutionary histories remain at least unclear but most of the time largely unknown. This is the case for most Anurans, a group which is recognized as threatened globally and is disappearing even from pristine tropical forests. Given the pace of forest destruction and the growing concerns about climate change it is urgently necessary to obtain a better estimate of regional biodiversity in Amazonian frogs as well as a better understanding of the origin and distribution of Anuran diversity. Furthermore, given their sensitivity to climatic conditions, amphibians are a good model to investigate the influence of paleoclimatic events on Neotropical diversification which was supposedly the driving force on biotic evolution during Pleistocene in the Guiana Shield. I first test species boundaries in two species Scinax ruber and Rhinella margaritifera. These species are widely distributed, abundant and largely recognized as species complexes. I used an original species delineation method based on the combined use of mitochondrial and nuclear DNA in phylogenetic and phylogeographic analyses. Phylogenetic analyses demonstrated the polyphyly of Scinax ruber and Rhinella margaritifera. These species consist of multiple lineages that may all merit species status. Conflicting signals of mitochondrial and nuclear markers indicated the possibility of ongoing hybridization processes. Phylogeographic analyses added further information in support of the specific status of these lineages. Our results highlight the utility of combining phylogenetic and phylogeographic methods, as well as the use of both mitochondrial and nuclear markers within one study. This approach helped to better understand the evolutionary history of taxonomically complex groups of species. The assessment of the geographic distribution of genetic diversity in tropical amphibian communities can lead to conclusions that differ strongly from prior analyses based on the occurrence of currently recognized species alone. Such studies, therefore, hold the potential to contribute to a more objective assessment of amphibian conservation priorities in tropical areas. Subsequently, I tested if these first results on cryptic species are generalisable, questioning what would potentially be a minimum estimate of the number of cryptic frog species in Amazonia and the Guiana Shield, using mtDNA with multiple complementary approaches. I also combined isolation by distance, phylogenetic analyses, and comparison of molecular distances to evaluate threshold values for the identification of candidate species among these frogs. In most cases, geographically distant populations belong to genetically highly distinct lineages that could be considered as candidate new species. This was not universal among the taxa studied and thus widespread species of Neotropical frogs really do exist, contra to previous assumptions. Moreover, the many instances of paraphyly and the wide overlap between distributions of inter- and intra-specific distances reinforce the hypothesis that many cryptic species remain to be described. In our data set, pairwise genetic distances below 0.02 are strongly correlated with geographical distances. This correlation remains statistically significant until genetic distance is 0.05, with no such relation thereafter. This suggests that for higher genetic distances allopatric and sympatric cryptic species prevail. Based on our analyses, we propose a more inclusive pairwise genetic distance of 0.03 between taxa to target lineages that could correspond to candidate species. Using this approach, we identify 129 candidate species, two-fold greater than the 60 species included in the current study. This leads to estimates of around 170 to 460 frog taxa unrecognized in Amazonia-Guianas. As a consequence the global amphibian decline detected especially in the Neotropics may be worse than realised. The Rhinella margaritifera complex is characterisized by the presence of many cryptic species throughout its wide distribution, ranging from Panama to Bolivia and almost entire Amazonia. French Guiana has long been thought to harbor two species of this group, though molecular data analysed in previous chapters indicated as many as five lineages. I tested whether morphological measurements are correlated or not with genetic data using discriminant analysis and if diagnostic characteristics among the previously determined lineages can be used to describe these new species. This is a novel integrative method which can lead to a facilitation of the description of cryptic species that have been detected by phylogenetic and/or phylogeographic studies. These analyses, combined with published data of other Rhinella species, indicated that two of these lineages represent previously unnamed species. Two of the remaining are allocable to R. margaritifera while the status of the fifth is still unclear because so far it is morphologically indistinguishable from R. castaneotica. Determining if codistributed species responded to climate change in an independent or concerted manner is a basic objective of comparative phylogeography. Species boundaries, histories, ecologies and their geographical ranges are still to be explored in the Guiana Shield. According to the refugia hypothesis this region was supposed to host a forest refugium during climatic oscillations of the Pleistocene but the causes and timing for this have been criticized. We investigated patterns of genetic structure within 18 frog species in the eastern Guiana Shield to explore species boundaries and their evolutionary history. We used mtDNA and nuclear DNA and complementary methods to compare the genetic diversity spatially and temporally. With one exception all the species studied diversified repeatedly within the eastern Guiana Shield during the last 4 million years. Instead of one Pleistocene forest refugium the Guiana Shield has probably hosted multiple refugia during late Pliocene and Pleistocene. Most of these Pleistocene refugia were probably situated on the coast of French Guiana, Amapà, Suriname and Guyana. This diversification likely resulted from forest fragmentation. Many species deserve taxonomic revisions and their ranges to be reconsidered. The local endemism of the Anuran fauna of the Guiana Shield is likely to be much higher and some areas consequently deserve more conservation efforts. Specifically I questioned whether major intraspecific diversification started before the Pleistocene and occurred within the Guiana Shield or ex situ. According to ecological characteristics of the species involved I will test different diversification hypotheses. The consequences on the diversity and the endemism of the Guiana Shield will be explored. My results demonstrate that we have been grossly underestimating local biological diversity in the Guiana Shield but also in Amazonia in general. The order of magnitude for potential species richness means that the eastern Guiana Shield hosts one of the richest frog fauna on earth. In most of the species studied high levels of mtDNA differentiation between populations call for a reassessment of the taxonomic status of what is being recognised as single species. Most species display deep divergence between eastern Guiana Shield populations and Amazonian ones. This emphasizes that the local endemism in the Guiana Shield of these zones is higher than previously recognized and must be prioritised elements taken into account in conservation planning. Nevertheless, a few other species appear widely distributed showing that widespread species do exist. This underlines the fact that some species have efficient dispersal abilities and that the frog fauna of the eastern Guiana Shield is a mixture of old Guianan endemic lineages that diversified in situ mostly during late Pliocene and Pleistocene and more recently exchanged lineages with the rest of Amazonia. Recognizing this strong historical component is necessary and timely for local conservation as these zones are likely to be irremediably modified in the near future.
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Assessment of the physico-chemical and microbiological quality of household water in the Vaalharts irrigation scheme, South Africa / G. O'Reilly.O'Reilly, Guzene January 2012 (has links)
Water quality in the Vaalharts region in the Northern Cape Province, South Africa, decreased over the past few years and there was a need for the microbiological and physico-chemical assessment. This problem was identified through discussions with Vaalharts Water (Vaalharts Water User Association) in 2010 when the issue of the impact of deteriorating water quality on drinking water production was raised. It was thus important to investigate concerns of the water users association pertaining to water quality issues. The aim of this study was to assess the physico-chemical and microbiological quality of household water in the Vaalharts irrigation scheme. The main residential areas were Hartswater, Pampierstad, Jan Kempdorp and Warrenton. Faecal coliforms were detected in the raw water of all the drinking water distribution systems during 2011 and 2012. No faecal coliforms were detected in the household water during 2011. This was a very positive result, because not only did the household water comply with the SANS 241 (2011) standard (0 CFU/100ml), but the purification processes were successful by removing all the E. coli’s from the raw water. However, during March 2012 faecal coliforms were detected in the household water of Jan Kempdorp (191CFU/100ml). This could be due to point pollution and possible breakage of faecal coliforms in the distribution system. Low amounts of total coliforms were detected in the raw water of some of the drinking water distribution systems. This could be due to high amounts of other colonies (pink and purple) growing on the m-Endo agar which suppress the growth of the metallic green sheen (total coliform) colonies. The total coliform numbers complied with the SANS 241 (2011) standard of ≤10 CFU/100ml at most of the distribution systems, except for Hartswater during July 2011 (14CFU/100ml) and Warrenton during March 2012 (256 CFU/100ml). Heterotrophic plate count bacteria were very high in the household water of some of the distribution systems during 2011 and 2012 which exceeded the SANS 241 (2011) standard of ≤1000 CFU/ml. A large number of pigmented (yellow, orange, pink) and non-pigmented (white) colonies were isolated on R2A agar. This can be an indication of some failure in treatment processes. Other microbiological parameters that were tested such as faceal streptococci, Clostridia, Pseudomonas aeruginosa and fungi did not indicate any danger, but there were high levels of total anaerobic bacteria in the raw water during 2011 and 2012. A high level of anaerobic bacteria was detected in the household water of Hartswater during July 2011. Clostridia were also present in the household water of some of the distribution systems during 2011 and 2012. Sequencing results of the mdh, lacZ and uidA genes indicated that one of the isolates was identified as Enterobacter cloacae and the other isolates were E. coli. Four of the isolates were identified as Escherichia coli O104:H4. This is a pathogenic strain and raised concern. The physicochemical parameters that were measured complied with the SANS 241 (2011) standards during 2011 and 2012, but some of the parameters increased gradually from 2011 to 2012. Statistical analysis indicated that physico-chemical parameters had an influence on microbiological parameters and that deteriorating raw water may have an impact on drinking water quality. Another concern currently is that there is no SANS 241 (2011) for faecal streptococci, Clostridia, Pseudomonas aeruginosa, fungi and anaerobic bacteria. These are all opportunistic pathogenic bacteria and consuming water with high levels of these bacteria may cause health problems. This study indicated good progress in the treatment processes of the distribution systems over the two years. This may be due to the feedback given to Vaalharts Water during this study regarding the water quality of the residential areas. The physico-chemical and microbiological results of the present study indicated possible biofilm formation in the distribution systems. This may have impacts on the drinking water quality of the distribution systems. It was also evident that deteriorating raw water sources may have an impact on drinking water production. / Thesis (MSc (Environmental Sciences))--North-West University, Potchefstroom Campus, 2013.
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Assessment of the physico-chemical and microbiological quality of household water in the Vaalharts irrigation scheme, South Africa / G. O'Reilly.O'Reilly, Guzene January 2012 (has links)
Water quality in the Vaalharts region in the Northern Cape Province, South Africa, decreased over the past few years and there was a need for the microbiological and physico-chemical assessment. This problem was identified through discussions with Vaalharts Water (Vaalharts Water User Association) in 2010 when the issue of the impact of deteriorating water quality on drinking water production was raised. It was thus important to investigate concerns of the water users association pertaining to water quality issues. The aim of this study was to assess the physico-chemical and microbiological quality of household water in the Vaalharts irrigation scheme. The main residential areas were Hartswater, Pampierstad, Jan Kempdorp and Warrenton. Faecal coliforms were detected in the raw water of all the drinking water distribution systems during 2011 and 2012. No faecal coliforms were detected in the household water during 2011. This was a very positive result, because not only did the household water comply with the SANS 241 (2011) standard (0 CFU/100ml), but the purification processes were successful by removing all the E. coli’s from the raw water. However, during March 2012 faecal coliforms were detected in the household water of Jan Kempdorp (191CFU/100ml). This could be due to point pollution and possible breakage of faecal coliforms in the distribution system. Low amounts of total coliforms were detected in the raw water of some of the drinking water distribution systems. This could be due to high amounts of other colonies (pink and purple) growing on the m-Endo agar which suppress the growth of the metallic green sheen (total coliform) colonies. The total coliform numbers complied with the SANS 241 (2011) standard of ≤10 CFU/100ml at most of the distribution systems, except for Hartswater during July 2011 (14CFU/100ml) and Warrenton during March 2012 (256 CFU/100ml). Heterotrophic plate count bacteria were very high in the household water of some of the distribution systems during 2011 and 2012 which exceeded the SANS 241 (2011) standard of ≤1000 CFU/ml. A large number of pigmented (yellow, orange, pink) and non-pigmented (white) colonies were isolated on R2A agar. This can be an indication of some failure in treatment processes. Other microbiological parameters that were tested such as faceal streptococci, Clostridia, Pseudomonas aeruginosa and fungi did not indicate any danger, but there were high levels of total anaerobic bacteria in the raw water during 2011 and 2012. A high level of anaerobic bacteria was detected in the household water of Hartswater during July 2011. Clostridia were also present in the household water of some of the distribution systems during 2011 and 2012. Sequencing results of the mdh, lacZ and uidA genes indicated that one of the isolates was identified as Enterobacter cloacae and the other isolates were E. coli. Four of the isolates were identified as Escherichia coli O104:H4. This is a pathogenic strain and raised concern. The physicochemical parameters that were measured complied with the SANS 241 (2011) standards during 2011 and 2012, but some of the parameters increased gradually from 2011 to 2012. Statistical analysis indicated that physico-chemical parameters had an influence on microbiological parameters and that deteriorating raw water may have an impact on drinking water quality. Another concern currently is that there is no SANS 241 (2011) for faecal streptococci, Clostridia, Pseudomonas aeruginosa, fungi and anaerobic bacteria. These are all opportunistic pathogenic bacteria and consuming water with high levels of these bacteria may cause health problems. This study indicated good progress in the treatment processes of the distribution systems over the two years. This may be due to the feedback given to Vaalharts Water during this study regarding the water quality of the residential areas. The physico-chemical and microbiological results of the present study indicated possible biofilm formation in the distribution systems. This may have impacts on the drinking water quality of the distribution systems. It was also evident that deteriorating raw water sources may have an impact on drinking water production. / Thesis (MSc (Environmental Sciences))--North-West University, Potchefstroom Campus, 2013.
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