Global ETD Search

41	Pepper Mild Mottle Virus as a Surrogate for Enteric Viruses: Implications for Assessing Water Quality Symonds, Erin Michelle 03 November 2016 (has links) Less than 10% of the world’s domestic wastewater is disinfected prior to discharge into surface waters; therefore, human exposure to diverse wastewater-related pathogens results in millions of cases of illness each year. Among the enteric pathogens, viruses represent an important group of emerging pathogens and are frequently the cause of food- and water-borne outbreaks of illness. Although the World Health Organization and many government agencies mandate the use of bacterial indicators to identify poor microbial water quality, it is well known that these indicators poorly correlate with fecal pollution contamination events and risk of disease. The field of public health-related environmental microbiology has made significant advances over the last twenty years; however, there is still a need for improved methods to identify poor microbial water quality and manage health risks associated with water-related activities (e.g., recreation, shellfish harvesting, irrigation). Furthermore, it is imperative to effectively detect fecal pollution in the environment as well as determine the extent of pathogen removal during (waste)water treatment to meet the Sustainable Development Goals associated with water and food security as well as the water reuse recommendations by the U.S. National Research Council. This dissertation directly addressed the need to identify an improved viral indicator by exploring the application of pepper mild mottle virus (PMMoV), a virus of dietary origin that is extremely abundant in human feces, as a surrogate for enteric viruses in diverse settings and contexts. Using a reverse transcription quantitative polymerase chain reaction (RT-qPCR) method, PMMoV was compared with other indicators, index surrogates, and reference pathogens for assessing surface water quality in a developed country (Appendix A) and developing country context (Appendix B and C). In addition, the applicability of PMMoV as a (waste)water treatment process indicator was demonstrated in natural treatment systems in developing countries (Appendix C and D) and artificial treatment systems (Appendix E). In all settings, PMMoV always co-occurred with at least one reference pathogen, index organism, and/or indicator; additionally, PMMoV was detected more frequently and in higher concentrations than other reference pathogens and indicators. Three investigations also associated PMMoV detection with predicted human health risks greater than the health benchmark for recreation and water reuse activities (Appendix A, C, and D). Additionally, PMMoV facilitated an improved understanding of virus-particle interactions in wastewater treatment pond systems (Appendix D) and allowed for an improved understanding of virus removal with respect to riverbank filtration systems and wastewater reuse in agriculture (Appendix C). PMMoV was established as a valuable component of the microbial source tracking toolbox in Costa Rica (Appendix B) and appeared to be useful in Bolivia (Appendix C). Finally, a paradigm shift in (waste)water management is occurring, in which routine monitoring is being replaced by a more holistic approach that includes sanitary surveys, targeted water quality monitoring, and exploratory quantitative microbial risk assessment. To support and complement this paradigm shift, field-based, laboratory-free methods are needed to identify and/or infer the presence of enteric viruses (Appendix F). Collectively, all the investigations presented here confirm the use of PMMoV as a surrogate for enteric viruses; however, its utility depends on the context and research question. Wastewater reuse Wastewater pollution Quantitative Microbial Risk Assessment Bioindicator Microbial Source Tracking Environmental Engineering Environmental Health and Protection Virology
42	Quantifying Potential Sources of Microbial Contamination in Household Drinking Water Samples Allevi, Richard Paul 30 May 2012 (has links) In Virginia, over one million households rely on private water supplies (e.g. well, spring, cistern). Previous literature acknowledges bacterial contamination in private water supplies as a significant public health concern in the United States. The present study tested private wells and springs in 20 Virginia counties for total coliforms (TC) and E. coli (EC) along with a suite of chemical contaminants. Sample collection was organized by the Virginia Household Water Quality Program (VAHWQP), a Virginia Cooperative Extension effort managed by faculty in the Biological Systems Engineering Department. Microbial and chemical source tracking were used to identify possible sources of contamination. A logistic regression was employed to investigate potential correlations between TC contamination and chemical parameters (e.g. NO3-, turbidity) as well as homeowner provided survey data describing system characteristics and perceived water quality. TC and EC contamination were quantified via the Colilert (www.idexx.com) defined substrate method for most probable number (MPN) of EC and TC per 100 mL of water. Of the 538 samples collected, 41% (n=221) were positive for TC and 10% (n=53) for EC. Chemical parameters were not statistically predictive of microbial contamination. Well depth, water treatment, and farm location proximate to the water supply were factors in a regression model that predicted presence/absence of TC with 74% accuracy. Microbial and chemical source tracking techniques (Polymerase Chain Reaction (PCR) and fluorometry, respectively) identified 4 of 26 samples as likely contaminated with human wastewater. Application of these source-tracking analyses on a larger scale will prove useful in defining remediation strategies. / Master of Science Cooperative Extension Well Microbial Source Tracking PCR Polymerase Chain Reaction Optical Birghteners Indicator Organisms Private Drinking Water
43	Sources et dynamiques spatiales et temporelles des contaminations en éléments traces et hydrocarbures aromatiques polycycliques du continuum atmosphère - sol - rivière d'un bassin versant contrasté / Sources and spatial and temporal dynamics of trace elements and polycyclic aromatic hydrocarbons contamination in the atmosphere – soil – river continuum of a contrasted catchment Froger, Claire 18 October 2018 (has links) Le développement des activités humaines, notamment industrielles, depuis le 19ième siècle a engendré une contamination massive de l’atmosphère à la rivière, en passant par la biosphère et les sols. Si les contaminations ont fortement diminué depuis la fin des années 1960, elles persistent notamment en milieu urbain, où se concentrent un grand nombre d’activités humaines. Afin de pouvoir gérer au mieux la pollution, il est nécessaire de comprendre la dynamique de transfert des contaminants, ainsi que leurs sources, à l’échelle du continuum atmosphère – sol – rivière. Cette étude a donc pour objectif d’évaluer les variations temporelles et spatiales de deux types de contaminants historiques, les hydrocarbures aromatiques polycycliques (HAP) et certains éléments traces (ET), à l’échelle du bassin versant de l’Orge (950 km2), présentant une urbanisation croissante d’amont en aval. Plusieurs approches ont été utilisées pour tracer les transferts de particules en rivière (radionucléides ⁷Be, ²¹⁰Pb, ¹³⁷Cs), et déterminer les sources de Pb (isotopes du Pb), et les sources de HAP (rapports de molécules).Les résultats ont mis en évidence un impact important des zones urbaines sur la qualité de la rivière Orge en aval du bassin : contamination importante en métaux (Cu, Zn, Sb, Pb) et en HAP de la phase particulaire, et des niveaux élevés en SO42⁻, Na⁺ et Cl⁻, Cu, Zn et Pb dans la phase dissoute. Le traçage des sédiments par les radionucléides a permis d’observer un apport de particules provenant du ruissellement urbain en aval, et d’identifier les particules de route (ou Road Deposited Sediment) comme source principale. Les signatures isotopiques du Pb ainsi que les signatures en HAP permettent de confirmer que le ruissellement urbain est le principal vecteur de contamination. Les estimations des flux d’ET et HAP annuels et saisonniers entrants (retombées atmosphériques) et sortants (exportés par la rivière) ont mis en évidence une accumulation globale à l’échelle du bassin, qui comporte déjà un stock important de contaminants dans ses sols. Cette étude montre ainsi l’importance d’étudier la Zone Critique dans son ensemble afin d’évaluer la dynamique des contaminations au sein et entre ses différents compartiments, et met en évidence l’efficacité du couplage de plusieurs approches afin de comprendre le système entier. Ces résultats pourraient à terme permettre l’établissement d’un modèle de transfert de contaminations au sein d’un bassin urbain. / The development of human societies since the 19th century has led to deleterious impacts on the Critical Zone (from atmosphere to river, including biosphere and soils). Despite the decrease of pollutions since the late 1960’s, contaminations remain especially in urban environment, concentrating human activities. To better manage this pollution, it is necessary to understand the dynamics and pathways of contaminants through the atmosphere – soil – river continuum. The goal of this study in thus to evaluate the temporal and spatial variations of two contaminants (polycyclic aromatic hydrocarbons (PAH) and trace elements (TE)) in the Orge River catchment (900 km2, France) being under increasing urban pressure from up to downstream. Several fingerprinting approaches were used to trace sediment dynamics in the river (radionuclides: ⁷Be, ²¹⁰Pb, ¹³⁷Cs), to identify lead sources (lead isotopes) and PAH sources (PAH molecular ratios). The results demonstrated the strong influence of downstream urban areas on the river quality, with an increasing contamination for Cu, Zn, Sb, Pb and PAH in the particulate phase, and for SO42⁻, Na⁺ et Cl⁻, Cu, Zn and Pb in the dissolved phase. The sediment fingerprinting using radionuclides revealed a significant input of particles originating from urban areas and transferred through urban runoff, and identified road deposited sediments as the major source of contaminated particles downstream. Source tracking of Pb and PAH confirmed urban runoff as the main pathway of river contamination. In addition, annual and seasonal PAH and TE fluxes were estimated respectively for the atmospheric inputs, and riverine exports and revealed a global accumulation of contaminant over the catchment, already containing a significant stock of pollutants in its soils. Finally, this study highlights the need to integrate the Critical Zone and the potential of coupling multiples tracking approaches to properly evaluate the contaminant dynamics. These results may be used to establish a model of contaminants transfer in urban catchments. Transfert de contaminants Multi-Contamination Traçage des sources Traçage des sédiments Urbanisation Urbanization Multi-Contaminants Sediment fingerprinting Source tracking Contaminant transfer
44	Entwicklung und Anwendung molekularbiologischer Methoden zur Identifizierung fäkaler Eintragsquellen in Rohwasser (Microbial Source Tracking) Stange, Claudia 22 December 2021 (has links) Der Nachweis von Fäkalindikatorbakterien (wie z. B. E. coli oder intestinale Enterokokken) gibt zwar einen Hinweis auf eine fäkale Belastung im Gewässer, erlaubt jedoch keinen Rückschluss auf den Ursprung. Im Rahmen dieser Dissertation wurden verschiedene Methoden zur Identifizierung von fäkalen Eintragsquellen (Microbial Soruce Tracking, MST) geprüft. Hierzu zählen Kultur-basierte Verfahren, wie der Nachweis von Toxingenen in E. coli-Isolaten, und Kultur-unabhängige Methoden wie die Denaturierende-Gradienten-Gelelektrophorese oder der Nachweis von DNA-Abschnitten, die spezifisch für menschlichen oder tierischen Kot sind. Die Untersuchung von E. coli-Isolaten aus der aquatischen Umwelt auf Toxingene erwies sich in Hinblick auf die Identifizierung von fäkalen Eintragsquellen als nicht zielführend. Problematisch war neben dem hohen Zeitaufwand vor allem das seltene Vorkommen dieser Virulenzfaktoren im untersuchten Gewässer. Enteropathogene E. coli-Bakterien werden nur von infizierten Wirten abgegeben, daher ist der Nachweis der Virulenzgene in Gewässern stark eingeschränkt. Im nächsten Schritt wurden Datenbank-unabhängige Verfahren für die Untersuchungen im Einzugsgebietsmaßstab etabliert. Methoden zur spezifischen Detektion von fäkalen Einträgen durch Menschen, Rinder (Wiederkäuer), Schweine, Hunde, Schafe, Hühner und Pferde standen anschließend für die Identifizierung von fäkalen Einträgen in verschiedenen Einzugsgebieten zur Verfügung. Die Ergebnisse der Untersuchungen belegen, dass mit den etablierten MST-Verfahren sehr empfindliche und spezifische Werkzeuge für die Identifizierung von fäkalen Einträgen im Einzugsgebietsmaßstab zur Verfügung stehen. Durch die Untersuchung von Wasserproben auf das Vorkommen von MST-Markern konnten Aussagen über Auftreten und Stärke fäkaler Belastungen in städtisch und ländlich geprägten Einzugsgebieten gemacht werden. Kontaminationsquellen wurden identifiziert und Vorschläge für gezielte Management¬maßnahmen im Einzugsgebiet abgeleitet. Des Weiteren wurde die MST-Verfahren erfolgreich dazu genutzt Erkenntnisse über den Ursprung von Antibiotikaresistenzgenen im Tai-See (China) zu gewinnen. Die Ergebnisse dieser Arbeit zeigen, dass die MST-Methoden basierend auf wirtsspezifischen Markern für den Einsatz in der Praxis geeignet sind. Zusammen mit der Betrachtung der örtlichen Gegebenheiten ist MST ein hilfreiches und kostengünstiges Werkzeug bei der Ursachen-forschung und der Ermittlung der Herkunft fäkaler Belastungen in der aquatischen Umwelt. Damit trägt es wesentlich zu einer zielorientierten Bewirtschaftung des Gewässers bei.:ABKÜRZUNGSVERZEICHNIS ABBILDUNGSVERZEICHNIS TABELLENVERZEICHNIS FORMELVERZEICHNIS 1. HINTERGRUND 1.1 INDIKATORORGANISMEN 1.2 SOURCE TRACKING-METHODEN 1.2.1 Datenbank-abhängige Methoden 1.2.2 Datenbank-unabhängige Methoden 1.2.3 Source Tracking mit chemischen Substanzen 1.3 ANTIBIOTIKARESISTENZEN IN DER UMWELT 2. ZIELSETZUNG DER ARBEIT 3. MATERIAL UND METHODEN 3.1 MONITORING MIKROBIOLOGISCHER PARAMETER – KULTURVERFAHREN 3.1.1 Coliforme Bakterien und Escherichia coli 3.1.2 Enterokokken 3.1.3 Clostridium perfringens-Sporen 3.2 MOLEKULARBIOLOGISCHE ANALYTIK 3.2.1 PCR-Untersuchung von E. coli-Isolaten auf Virulenzgene 3.2.2 Molekularbiologische Untersuchung von Wasserproben 3.3 UNTERSUCHUNGEN ZUR ERFASSUNG DER CHARAKTERISTIKA DER KULTUR-UNABHÄNGIGEN MICROBIAL SOURCE TRACKING-VERFAHREN 3.3.1 Nachweisempfindlichkeit 3.3.2 Spezifität und Sensitivität 3.3.3 Charakterisierung möglicher Eintragsquellen 3.3.4 Untersuchungen zur Stabilität von Microbial Source Tracking-Markern 3.4 STATISTISCHE AUSWERTUNG 4. BESCHREIBUNG DER UNTERSUCHUNGSGEBIETE 4.1 RHEIN 4.2 GALLUSQUELLE 4.3 EINZUGSGEBIETE DER BERLINER WASSERBETRIEBE 4.3.1 Wasserwerk Tiefwerder 4.3.2 Wasserwerk Kaulsdorf 4.4 EINZUGSGEBIETE DER WSW ENERGIE & WASSER AG 4.4.1 Talsperre Herbringhausen 4.4.2 Talsperre Kerspe 4.5 TAI-SEE 4.6 VERGLEICH DER UNTERSUCHUNGSGEBIETE 61 5. ERGEBNISSE UND DISKUSSION 63 5.1 NACHWEIS VON VIRULENZGENEN ALS MICROBIAL SOURCE TRACKING-WERKZEUG 5.2 DATENBANK-UNABHÄNGIGE UND KULTUR-UNABHÄNGIGE MICROBIAL SOURCE TRACKING-VERFAHREN 5.2.1 Etablierung Datenbank-unabhängiger und Kultur-unabhängiger Microbial Source Tracking-Verfahren 5.2.2 Nachweisempfindlichkeit 5.2.3 Spezifität und Sensitivität der Marker 5.2.4 Charakterisierung möglicher Eintragsquellen 5.2.5 Stabilität von Microbial Source Tracking-Markern 5.3 UNTERSUCHUNG IM EINZUGSGEBIETSMAßSTAB 5.3.1 Gallusquelle 5.3.2 Wasserwerke Tiefwerder und Kaulsdorf 5.3.3 Talsperren Herbringhausen und Kerspe 5.4 EINSATZ VON MICROBIAL SOURCE TRACKING-METHODEN ZUR IDENTIFIZIERUNG DER HERKUNFT VON ANTIBIOTIKARESISTENZEN 6. ZUSAMMENFASSUNG UND AUSBLICK 7. EIGENE VERÖFFENTLICHUNGEN 8. FINANZIELLE FÖRDERUNG 9. LITERATURVERZEICHNIS 10. ANHANG / Although evidence of fecal indicator bacteria (such as E. coli or intestinal enterococci) indicates fecal contamination in the aquatic environment, it does not allow any conclusion regarding the origin of the pollution. With the use of so-called microbial source tracking methods it is possible to trace the origin of such contaminations. In this dissertation, various microbial source tracking methods were tested. These include culture-based methods such as the detection of toxin genes in E. coli isolates, and culture-independent methods such as denaturing gradient gel electrophoresis or the detection of defined DNA sections specific for human or animal feces using quantitative real-time PCR. Analysis of E. coli isolates from the aquatic environment on toxin genes proved to be ineffective in identifying fecal sources of input. In addition to the high effort of time, the problem was the rare occurrence of these virulence factors in the examined water. Enteropathogenic E. coli bacteria carry virulence genes which are only released from infected hosts. Therefore, the detection of virulence genes in weakly to moderately contaminated waters is severely limited. In the next step, culture-independent PCR procedures were established. Afterwards, methods for the specific detection of fecal entries by humans, cattle (ruminants), pigs, dogs, sheep, chickens and horses were available for the identification of fecal entries in various catchment areas. The results of these investigations show that established MST methods provide very sensitive and specific tools for the identification of fecal entries at the catchment scale. Investigation using culture-independent methods provided information on the origin and severity of fecal pollutions in urban and rural catchment areas. Origins of contaminations were identified and concrete recommendations for management action plans in the catchment area were derived. Overall, the results show the potential and the suitability for practical application of molecular biological microbial source tracking methods. Furthermore, the MST methods have been successfully used to gain knowledge about the origin of antibiotic resistance genes in Tai Lake (China). The results of this thesis show that MST methods based on host-specific markers are suitable for practical use. Together with the consideration of local conditions, MST is a helpful and cost-effective tool for causal research and the determination of the origin of fecal contamination in the aquatic environment. Thus it contributes significantly to a goal-oriented management of the water body.:ABKÜRZUNGSVERZEICHNIS ABBILDUNGSVERZEICHNIS TABELLENVERZEICHNIS FORMELVERZEICHNIS 1. HINTERGRUND 1.1 INDIKATORORGANISMEN 1.2 SOURCE TRACKING-METHODEN 1.2.1 Datenbank-abhängige Methoden 1.2.2 Datenbank-unabhängige Methoden 1.2.3 Source Tracking mit chemischen Substanzen 1.3 ANTIBIOTIKARESISTENZEN IN DER UMWELT 2. ZIELSETZUNG DER ARBEIT 3. MATERIAL UND METHODEN 3.1 MONITORING MIKROBIOLOGISCHER PARAMETER – KULTURVERFAHREN 3.1.1 Coliforme Bakterien und Escherichia coli 3.1.2 Enterokokken 3.1.3 Clostridium perfringens-Sporen 3.2 MOLEKULARBIOLOGISCHE ANALYTIK 3.2.1 PCR-Untersuchung von E. coli-Isolaten auf Virulenzgene 3.2.2 Molekularbiologische Untersuchung von Wasserproben 3.3 UNTERSUCHUNGEN ZUR ERFASSUNG DER CHARAKTERISTIKA DER KULTUR-UNABHÄNGIGEN MICROBIAL SOURCE TRACKING-VERFAHREN 3.3.1 Nachweisempfindlichkeit 3.3.2 Spezifität und Sensitivität 3.3.3 Charakterisierung möglicher Eintragsquellen 3.3.4 Untersuchungen zur Stabilität von Microbial Source Tracking-Markern 3.4 STATISTISCHE AUSWERTUNG 4. BESCHREIBUNG DER UNTERSUCHUNGSGEBIETE 4.1 RHEIN 4.2 GALLUSQUELLE 4.3 EINZUGSGEBIETE DER BERLINER WASSERBETRIEBE 4.3.1 Wasserwerk Tiefwerder 4.3.2 Wasserwerk Kaulsdorf 4.4 EINZUGSGEBIETE DER WSW ENERGIE & WASSER AG 4.4.1 Talsperre Herbringhausen 4.4.2 Talsperre Kerspe 4.5 TAI-SEE 4.6 VERGLEICH DER UNTERSUCHUNGSGEBIETE 61 5. ERGEBNISSE UND DISKUSSION 63 5.1 NACHWEIS VON VIRULENZGENEN ALS MICROBIAL SOURCE TRACKING-WERKZEUG 5.2 DATENBANK-UNABHÄNGIGE UND KULTUR-UNABHÄNGIGE MICROBIAL SOURCE TRACKING-VERFAHREN 5.2.1 Etablierung Datenbank-unabhängiger und Kultur-unabhängiger Microbial Source Tracking-Verfahren 5.2.2 Nachweisempfindlichkeit 5.2.3 Spezifität und Sensitivität der Marker 5.2.4 Charakterisierung möglicher Eintragsquellen 5.2.5 Stabilität von Microbial Source Tracking-Markern 5.3 UNTERSUCHUNG IM EINZUGSGEBIETSMAßSTAB 5.3.1 Gallusquelle 5.3.2 Wasserwerke Tiefwerder und Kaulsdorf 5.3.3 Talsperren Herbringhausen und Kerspe 5.4 EINSATZ VON MICROBIAL SOURCE TRACKING-METHODEN ZUR IDENTIFIZIERUNG DER HERKUNFT VON ANTIBIOTIKARESISTENZEN 6. ZUSAMMENFASSUNG UND AUSBLICK 7. EIGENE VERÖFFENTLICHUNGEN 8. FINANZIELLE FÖRDERUNG 9. LITERATURVERZEICHNIS 10. ANHANG info:eu-repo/classification/ddc/620 ddc:620
45	Microbial DNA Sequencing in Environmental Studies Hu, Yue January 2017 (has links) The field of microbial ecology has just entered a new era of rapid technological development and generation of big data. The high-throughput sequencing techniques presently available provide an opportunity to extensively inventorize the blueprints of life. Now, millions of microbes of natural microbial communities can be studied simultaneously without prior cultivation. New species and new functions (genes) can be discovered just by mining sequencing data. However, there is still a tremendous number of microorganisms not yet examined, nor are the ecosystem functions these carry out. The modern genomic technologies can contribute to solve environmental problems and help us understand ecosystems, but to most efficiently do so, methods need to be continuously optimised. During my Ph. D. studies, I developed a method to survey eukaryotic microbial diversity with a higher accuracy, and applied various sequencing-based approaches in an attempt to answer questions of importance in environmental research and ecology. In PAPER-I, we developed a set of 18S rRNA gene PCR primers with high taxonomic coverage, meeting the requirements of currently popular sequencing technologies and matching the richness of 18S rRNA reference sequences accumulated so far. In PAPER-II, we conducted the first sequencing-based spatial survey on the combined eukaryotic and bacterial planktonic community in the Baltic Sea to uncover the relationship of microbial diversity and environmental conditions. Here, the 18S primers designed in PAPER-I and a pair of broad-coverage 16S primers were employed to target the rRNA genes of protists and bacterioplankton for amplicon sequencing. In PAPER-III, we integrated metagenomic, metabarcoding, and metatranscriptomic data in an effort to scrutinise the protein synthesis potential (i.e., activity) of microbes in the sediment at a depth of 460 m in the Baltic Sea and, thus, disclosing microbial diversity and their possible ecological functions within such an extreme environment. Lastly, in PAPER-IV, we compared the performance of E. coli culturing, high-throughput sequencing, and portable real-time sequencing in tracking wastewater contamination in an urban stormwater system. From the aspects of cost, mobility and accuracy, we evaluated the usage of sequencing-based approaches in civil engineering, and for the first time, validated the real-time sequencing device in use within water quality monitoring. In summary, these studies demonstrate how DNA sequencing of microbial communities can be applied in environmental monitoring and ecological research. / <p>Yue Hu was supported by a scholarship from the China Scholarship Council (CSC #201206950024)</p><p>Yue Hu has been publishing papers under the name "Yue O. O. Hu".</p><p>QC 20170403</p> Microbiology Mikrobiologi Civil Engineering Samhällsbyggnadsteknik Ecology Ekologi Bioinformatics and Systems Biology Bioinformatik och systembiologi
46	Detecção e quantificação de contaminação fecal hospedeiro-específico em águas destinadas ao abastecimento público / Detection and quantification of host-specific fecal contamination in water for public supply Fernandes, Kayo Cesar Bianco January 2015 (has links) Submitted by Alexandre Sousa (alexandre.sousa@incqs.fiocruz.br) on 2015-05-11T17:59:22Z No. of bitstreams: 1 Dissertação_Kayo_Bianco.pdf: 5086210 bytes, checksum: 14083186869c48adebe043f3e9e02a6c (MD5) / Approved for entry into archive by Alexandre Sousa (alexandre.sousa@incqs.fiocruz.br) on 2015-05-11T17:59:44Z (GMT) No. of bitstreams: 1 Dissertação_Kayo_Bianco.pdf: 5086210 bytes, checksum: 14083186869c48adebe043f3e9e02a6c (MD5) / Approved for entry into archive by Alexandre Sousa (alexandre.sousa@incqs.fiocruz.br) on 2015-05-11T17:59:54Z (GMT) No. of bitstreams: 1 Dissertação_Kayo_Bianco.pdf: 5086210 bytes, checksum: 14083186869c48adebe043f3e9e02a6c (MD5) / Made available in DSpace on 2015-05-11T17:59:54Z (GMT). No. of bitstreams: 1 Dissertação_Kayo_Bianco.pdf: 5086210 bytes, checksum: 14083186869c48adebe043f3e9e02a6c (MD5) Previous issue date: 2015 / Fundação Oswaldo Cruz. Instituto Nacional de Controle de Qualidade em Saúde / A contaminação fecal de corpos hídricos é uma das principais causas de doenças entéricas veiculadas pela água no mundo, responsáveis pela morte de mais de dois milhões de crianças por ano. As águas das bacias do rio São Joao e do rio Guandu vêm sendo destinadas ao abastecimento público da Região dos Lagos e da região metropolitana do estado do Rio de Janeiro. Os indicadores de contaminação fecal usualmente empregados na avaliação da qualidade microbiológica da água quanto a presença de patógenos entéricos são os coliformes termotolerantes, representados pela Escherichia coli, os quais estão associados com matéria fecal humana e de outros animais de sangue quente. Entretanto, para um gerenciamento mais efetivo deve ser identificada a fonte de contaminação fecal. Microrganismos anaeróbios, como a ordem Bacteroidalese as archaeas metanogênicas, vêm sendo apontados como bioindicadores alternativos de contaminação fecal hospedeiro-especifico. O presente estudo tem como objetivo avaliar a qualidade das águas das bacias do rio São João e do rio Guandu por meio da aplicação de biomarcadores moleculares capazes de revelar contaminações fecais suína, humana, equina e de ruminantes. Esta abordagem representa uma importante ferramenta na detecção de contaminação hospedeiro-específica de ambientes aquáticos, o que poderá contribuir para as ações preventivas de vigilância ambiental em saúde. / Fecal contamination of water bodies is a major cause of waterborne enteric diseases in the world, responsible for the deaths of more than two million children per year. The waters from São João river basin and Guandu river basin have been intended for public supply of the Lakes Region and the metropolitan region of the State of Rio de Janeiro. Indicators of fecal contamination usually employed to evaluate the microbiological quality of water for the presence of enteric pathogens are coliforms, represented by Escherichia coli, which are associated with human faecal matter and other warm-blooded animals. However,for a more effective management the source of fecal contamination should be identified. Anaerobic microorganisms, such as the order Bacteroidales and methanogenic archaea, have been identified asalternative biomarkers for host-specific fecal contamination. The present study aims to evaluate the water quality of São João river basinand Guandu riverbasinthrough the application of molecular biomarkers able to reveal swine, human, equine and ruminants fecal contamination. This approach represents an important tool in the detection of host-specific contamination of aquatic environments, which may contribute to prevention efforts for environmental health surveillance. Contaminação Fecal Água Archaea Bacteroidales Rastreamento de Fontes Microbianas Fecal Contamination Water Archaea Bacteroidales Microbial Source Tracking Coliformes Poluição da Água Escherichia coli Archaea Bacteroidaceae
47	Bacterial Source Tracking in the Sinking Creek Watershed Using Antibiotic Resistance Analysis and Ribotyping. Gallagher, Lisa Kathleen 03 May 2008 (has links) (PDF) Fecal pollution of surface water is a significant environmental health issue. Indicator organisms are used to monitor microbial water quality, but often their presence does not coincide with the presence of pathogens. Bacterial source tracking is a term describing methods to determine the origin of fecal pollution based on bacterial traits. The objective of this research is to evaluate the use of 2 bacterial source tracking techniques, antibiotic resistance analysis (ARA) and ribotyping, to determine the sources of bacteria isolated from Sinking Creek. Based on the results of this study, ARA and ribotyping are not useful techniques for identifying sources of fecal pollution in Sinking Creek. ARA classification rates were low, and ribotype pattern generation success was 37%. The results of this study bring into question the reliability and reproducibility of these 2 source tracking methods for routine use in small watersheds. Ribotyping Fecal coliforms Antibiotic resistance analysis Source tracking Sinking Creek Discriminant analysis Environmental Sciences Physical Sciences and Mathematics
48	Public Health Ecosystem Services and Potential Concerns of Freshwater Wetlands Hsu, Tsung-Ta David January 2015 (has links) No description available. Environmental Science Public Health Ecosystem service Public health Freshwater wetlands Microbial water quality Waterborne pathogens Urban watersheds Climate change Microbial source tracking Antimicrobial resistance
49	Microbial Source Tracking: Watershed Scale Study of Pathogen Origin, Fate, and Transport in the Upper Sugar Creek Watershed, Northeast Ohio Merrick, Natsuko N. 13 September 2010 (has links) No description available. Environmental Science Microbiology Molecular Biology 16S RIBOSOMAL-RNA REAL-TIME PCR FECAL BACTEROIDALES SURFACE-WATER PERSISTENCE BACTERIA WATERSHED MICROBIAL SOURCE TRACKING
50	Les bactériophages ARN F-spécifiques comme indicateurs du danger viral lié à la pollution fécale des matrices hydriques et alimentaires / F-specific RNA bacteriophages as indicators to assess viral hazard linked to fecal pollution of water and foodstuff Hartard, Cédric 14 November 2017 (has links) Les virus entériques sont à l’origine de pathologies liées au péril fécal et dans l’état actuel des connaissances, la recherche des indicateurs de pollution fécale conventionnels (i.e. Escherichia coli, entérocoques) peut s’avérer inefficace pour évaluer le danger viral. La définition d’autres indicateurs pour gérer le danger lié à la présence des virus entériques dans les matrices hydriques et alimentaires est aujourd’hui nécessaire. Parmi eux, les bactériophages ARN F-spécifiques (FRNAPH) présentent plusieurs intérêts. Ces virus d’origine entérique sont présents en quantité importante dans les eaux usées. Très proches des virus entériques en termes de structure, ces microorganismes présentent l’avantage d’être facilement cultivables. Ils sont enfin souvent étudiés pour déterminer l’origine d’une pollution fécale (i.e. humaine ou animale). Certaines limites leur sont cependant fréquemment associées, que ce soit en termes de corrélation avec les pathogènes entériques ou concernant leur potentiel pour discriminer l’origine d’une pollution. Dans ce contexte, l’objectif du travail présenté ici était de préciser l’intérêt des FRNAPH en tant qu’indicateurs de pollution fécale mais aussi en tant qu’indicateurs de pollution virale dans l’environnement et les coquillages. Ces travaux ont permis dans un premier temps d’améliorer la capacité des FRNAPH à identifier les contaminations d’origine humaine. Nos résultats soulignent par ailleurs la plus-value apportée par la recherche des FRNAPH en cas de pollution fécale massive, en particulier si on s’intéresse à la contamination des coquillages. En effet, contrairement aux indicateurs bactériens, l’accumulation des FRNAPH ainsi que leur persistance dans ces aliments est très comparable à celles des virus entériques (i.e. norovirus). Enfin, en utilisant des méthodes de détection comparables, une forte corrélation entre la présence des FRNAPH d’origine humaine et celle des norovirus a été observée dans les coquillages. Compte tenu de ces résultats, une méthode de détection assurant la détection sensible des FRNAPH infectieux d’origine humaine dans différents types de matrices hydriques ou alimentaires (e.g. eaux de surface, fruits de mer, fruits rouges, salades) est proposée pour améliorer la gestion du danger viral / Enteric viruses are a leading cause of fecal-oral route transmitted diseases and currently, conventional fecal indicator bacteria (i.e. Escherichia coli, enterococcus) fail to assess this kind of hazard. In this context, the use of more efficient indicators to assess the hazard linked to viruses in water or foodstuff is required. F-specific RNA bacteriophages (FRNAPH) present numerous benefits for this purpose. Of enteric origin, these viruses are found in high concentrations in wastewater. Sharing many structural similarities with pathogenic enteric viruses, FRNAPH are easily cultivable and their potential to track the origin of the pollution is also often investigated. However, some limits are still associated with these indicators, regarding to their ability to track the origin of the pollution or concerning the lack of correlation with pathogens. In this context, the aim of this work was to make clear the potential of FRNAPH as fecal and as viral indicators in environmental waters and shellfish. As a first step, their ability to track human pollution was optimized. In addition, our results underlined the gains bringing by FRNAPH detection, especially when focusing on shellfish microbiological quality management. Indeed, unlike fecal indicator bacteria, the accumulation of FRNAPH and their persistence in shellfish have been found to be close to that of enteric viruses (i.e. norovirus). Furthermore, when using comparable methods for their detection, high correlation was observed between human FRNAPH and norovirus in shellfish. Taking into account these observations, a sensitive method allowing the detection of infectious FRNAPH of human origin was developed to improve viral hazard management in water and food commodities (e.g. environmental waters, shellfish, soft fruits, leaf) Bactériophages ARN F-spécifiques Pollution virale Suivi des sources de pollution Qualité de l’eau Sécurité alimentaire Viral pollution Microbial source tracking Water quality Food safety 579.217 664.001 579 628.161

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