Etude de la dynamique des Escherichia coli dans les rivières du bassin de la Seine

Garcia Armisen, Tamara

15 February 2006

The purpose of our study was to describe the dynamics of E. coli in the rivers of the Seine watershed. This watershed is characterized by a poor microbiological water quality due to an important population density, industrial activities and intensive agriculture. The main objectives of our study were to obtain field microbiological data describing the system and to understand the underlying mechanisms in order to build a model able to describe and predict the fate of the fecal bacteria at the scale of the whole watershed. This model was built in order to help management of microbiological water quality. To be able to describe and modelize the fate of fecal bacteria at the scale of such a large and complex system, it was first necessary to identify and quantify the sources of contamination and to be able to describe the processes affecting these bacteria once discharged to the rivers. The quantification of E. coli in the natural aquatic systems through the traditional culture-based techniques has been strongly questioned during the last years because they have a long response delay (24 to 48 h) and they do not take into account the viable but not culturable bacteria (VBNC) which nevertheless could represent a health thread. For this reason we developed in this study two alternative methods: the direct (without passing through a cultivation step) measurement of the â-D-glucuronidase activity and a fluorescent in situ hybridization with an E. coli specific probe coupled with a viability test. The first has the main advangate to give a very rapid evaluation of the E. coli content of the water while the second one was able to enumerate VBNC E. coli. The study of the sources of contamination of the rivers revealed the predominance, in this anthropogenicised watershed, of the point sources (effluents from wastewater tretament plants). Diffuse sources soil leaching and surface runoff) may nevertheless be locally important and have also be quantified. The influence of the land use on these diffuse sources has been quantified demonstrating that soil leaching and surface runoff of grazed areas was mainly responsible of fecal contamination in rural areas. The attachment of E .coli to particles in the river waters was studied as it can influence the fate of this kind of bacteria in the aquatic systems. A linear regression was found between the percentage of particle-associated E. coli and the SM content of the water. Settling velocities of particle-associated E. coli were determined. The mortality rate of E. coli was analysed following various perspectives: the river order, the attachment of E. coli to particles, the importance of the cultivability loss in the disappearance of these bacteria and the importance of protozoan grazing. The results confirmed the importance of grazing and showed that the abondance of free living E. coli bacteria decreased two times more rapidly than particle-associated E. coli. In the Seine river, we showed that the net loss of culturable E. coli was 1.5 time higher than the net loss of viable E. coli. Finally, no relationship was found between mortality rate and river order. These results have been used to build two models CF-SENEQUE and CF-SiAM-3D which describe E. coli dynamics respectively for the whole Seine river watershed and for the Seine for the estuary. Comparisons model calcultaions with field data of fecal coliforms abundances showed that these models correctly simulated the longitudinal distribution of fecal colifoms in the main rivers of the Seine watershed and in the estuary. These models were used to test the impact on the microbiological water quality of various scenarii of wastewater management .

mortalité sédimentation

modélisation

DVC-FISH

FISH

Activité Glucuronidasique

eaux

qualité microbiologique

rivières

dynamiques

Escherichi coli

indicateurs de contamination fécale

Diversité microbienne en milieu aquatique urbain

Lucas, Françoise

09 September 2011

La candidate a transmis un dossier présentant les grandes étapes de sa carrière incluant ses principales réalisations scientifiques, collaborations et activités de formation d'étudiants à divers niveaux universitaires dont les études doctorales. Ce dossier présente également les perspectives de recherche de F. LUCAS pour les prochaines années dont la description d'activités de recherche menées en partenariat avec diverses équipes de recherche via le projet ANR PULSE, et, de plus, des partenaires industrielles dans les contextes du PIREN-Seine et de la structure fédérative de l'Observatoire des Polluants Urbains (OPUR). Ces grands programmes et partenariats représentent un socle solide permettant d'entreprendre des travaux interdisciplinaires sur des questionnements majeurs en écologie microbienne dont la prédiction de l'évolution des communautés bactériennes en fonction des contraintes du milieu. Les travaux de F. LUCAS vont de l'acquisition de données fondamentales en écologie microbienne (diversité des peuplements) aux problématiques plus finalisées d'évaluation des dangers sanitaires microbiens associés à certaines pratiques de gestion des eaux en milieu urbain.

[SDE] Environmental Sciences

diversité

bactéries

pathogènes émergents

mycobactéries

indicateurs de contamination fécale

écosystèmes aquatiques

milieu aquatique urbain

biologie moléculaire

Sources, diversité et propriétés d’adhérence des Pseudomonas aeruginosa introduits en rivière péri-urbaine par temps de pluie / Sources, diversity and adhesion properties of Pseudomonas aeruginosa introduced into a peri-urban river during wet weather

Boukerb, Amine Mohamed

18 December 2015

Les rejets urbains par temps de pluie dégradent l’état écologique des écosystèmes aquatiques et peuvent induire une exposition des populations humaines aux contaminants chimiques et microbiens (bactéries, virus, parasites). L’objectif de ce travail de thèse était d’évaluer les effectifs et de prédire le devenir de bactéries pathogènes introduites dans les milieux aquatiques par une source majeure comme les eaux usées rejetées par des dispositifs tels que les déversoirs d’orage (DO) et les lagunes d’épuration (WWTL). La répartition d’un agent pathogène fortement liée aux milieux hydriques, Pseudomonas aeruginosa, a été comparée avec celles observées pour des indicateurs de contaminations fécales (E. coli et les entérocoques intestinaux), mais également avec celle de l’espèce pathogène Aeromonas caviae. La dangerosité des formes retrouvées dans ces milieux a été évaluée par approches moléculaires (PFGE et MLST). Les résultats obtenus montrent un fort apport en P. aeruginosa via les eaux usées, avec un effet significatif sur les effectifs observés en fonction de l’intensité des pluies et des périodes de temps sec, et les fluctuations du régime hydrologique et des paramètres physico-chimiques. Une grande diversité infra-spécifique des P. aeruginosa, et la capacité de certains génotypes à s’installer durablement dans ces milieux (macrophytes et périphyton) ont été observées. Certaines souches ont par ailleurs montré une parenté avec des lignées d’infections communautaires, ou encore des clones épidémiques majeurs (PA14 et C). Des études en microcosme ont été effectuées pour valider les interactions observées avec certains macrophytes, et identifier des propriétés d’adhérence bactérienne (dont les lectines) impliquées dans ces interactions. Ces travaux ont impliqué une analyse de la distribution des gènes lecA et lecB, codant des lectines chez P. aeruginosa, et une étude de leurs ligands. Le gène lecA a été localisé dans une zone de forte plasticité génomique. Ces travaux ont permis la description d’une nouvelle structure de l’adhésine LecB / Urban wet-weather discharges degrade the ecological status of aquatic ecosystems and may expose human populations to chemical and microbial contaminants (bacteria, viruses, parasites). The aim of this thesis was to evaluate the numbers and predict the fate of pathogenic bacteria introduced into aquatic ecosystems by a major source like wastewater from devices such as combined sewer overflows (CSO) and wastewater treatment lagoons (WWTL). The distribution of a human pathogen closely linked to hydric environments, Pseudomonas aeruginosa, was compared with those observed for fecal indicators (E. coli and intestinal enterococci), but also with that of Aeromonas caviae pathogenic species. Dangerousness of strains found in these environments was evaluated by molecular approaches (PFGE and MLST). Obtained results showed a high contribution of wastewater in P. aeruginosa release, with a significant effect of rainfall intensity and preceding dry periods, in addition to changes in hydrological regime and physico-chemical parameters on recorded data. A large infra-specific diversity was observed within P. aeruginosa and the ability of some genotypes to colonize permanently aquatic surfaces (macrophytes and periphyton) were observed. Some strains showed a kinship with lineages of community infections or major epidemic clones (PA14 and C). Microcosm studies were performed to validate observed interactions with macrophytes, and to identify bacterialadhesion properties (including lectins) involved in these interactions. These investigations involved analysis of the distribution of lectin encoding loci lecA and lecB within P. aeruginosa, and a study of their ligands. lecA was located in a highly unstable genomic region. This work allowed the description of a new structure of the adhesin LecB

P. aeruginosa

A. caviae

Indicateurs de contamination fécale

Eaux usées

Déversoir d’orage

Lagune d’épuration

Macrophytes

Innovation génétique

P. aeruginosa

A. caviae

Fecal indicator bacteria

Wastewater

Combined sewer overflow

Wastewater treatment lagoon

Macrophytes

Genetic innovation

579

Etude de la dynamique des Escherichia coli dans les rivières du bassin de la Seine

Garcia Armisen, Tamara

15 February 2006

The purpose of our study was to describe the dynamics of E. coli in the rivers of the Seine watershed. This watershed is characterized by a poor microbiological water quality due to an important population density, industrial activities and intensive agriculture. The main objectives of our study were to obtain field microbiological data describing the system and to understand the underlying mechanisms in order to build a model able to describe and predict the fate of the fecal bacteria at the scale of the whole watershed. This model was built in order to help management of microbiological water quality. <p>To be able to describe and modelize the fate of fecal bacteria at the scale of such a large and complex system, it was first necessary to identify and quantify the sources of contamination and to be able to describe the processes affecting these bacteria once discharged to the rivers. <p>The quantification of E. coli in the natural aquatic systems through the traditional culture-based techniques has been strongly questioned during the last years because they have a long response delay (24 to 48 h) and they do not take into account the viable but not culturable bacteria (VBNC) which nevertheless could represent a health thread. For this reason we developed in this study two alternative methods: the direct (without passing through a cultivation step) measurement of the â-D-glucuronidase activity and a fluorescent in situ hybridization with an E. coli specific probe coupled with a viability test. The first has the main advangate to give a very rapid evaluation of the E. coli content of the water while the second one was able to enumerate VBNC E. coli. <p>The study of the sources of contamination of the rivers revealed the predominance, in this anthropogenicised watershed, of the point sources (effluents from wastewater tretament plants). Diffuse sources soil leaching and surface runoff) may nevertheless be locally important and have also be quantified. The influence of the land use on these diffuse sources has been quantified demonstrating that soil leaching and surface runoff of grazed areas was mainly responsible of fecal contamination in rural areas.<p>The attachment of E .coli to particles in the river waters was studied as it can influence the fate of this kind of bacteria in the aquatic systems. A linear regression was found between the percentage of particle-associated E. coli and the SM content of the water. Settling velocities of particle-associated E. coli were determined. The mortality rate of E. coli was analysed following various perspectives: the river order, the attachment of E. coli to particles, the importance of the cultivability loss in the disappearance of these bacteria and the importance of protozoan grazing. The results confirmed the importance of grazing and showed that the abondance of free living E. coli bacteria decreased two times more rapidly than particle-associated E. coli. In the Seine river, we showed that the net loss of culturable E. coli was 1.5 time higher than the net loss of viable E. coli. Finally, no relationship was found between mortality rate and river order. <p>These results have been used to build two models CF-SENEQUE and CF-SiAM-3D which describe E. coli dynamics respectively for the whole Seine river watershed and for the Seine for the estuary. Comparisons model calcultaions with field data of fecal coliforms abundances showed that these models correctly simulated the longitudinal distribution of fecal colifoms in the main rivers of the Seine watershed and in the estuary. These models were used to test the impact on the microbiological water quality of various scenarii of wastewater management .<p> / Doctorat en sciences, Spécialisation biologie animale / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Biologie

Glucuronidase

Glucuronidase

Seine River Watershed (France)

Seine, Bassin de la (France)

mortalité sédimentation

modélisation

DVC-FISH

FISH

Activité Glucuronidasique

eaux

qualité microbiologique

rivières

dynamiques

Escherichi coli

indicateurs de contamination fécale