Thierry Berthe scite author profile

The Achères wastewater treatment plant, located just downstream of Paris, discharges its effluents into the lower Seine River. The effluents contain large numbers of heterotrophic bacteria, organic matter, and ammonium and are a source of nitrifying bacteria. As a result, degradation of organic matter by heterotrophic bacteria and subsequent oxygen depletion occur immediately downstream of the effluent outlet, whereas nitrifying bacteria apparently need to build up a significant biomass before ammonium oxidation significantly depletes the oxygen. We quantified the potential total nitrifying activity and the potential activities of the ammonia-and nitrite-oxidizing communities along the Seine River. In the summer, the maximum nitrifying activity occurs in the upper freshwater estuary, ϳ200 km downstream of Achères. The quantities of nitrifying bacteria, based on amoA gene copy numbers, and of Nitrobacter organisms, based on 16S rRNA gene copy numbers, were correlated with the potential nitrifying activities. The species composition of ammonia-oxidizing bacteria was investigated at two sites: the Triel station just downstream from Achères (km 84) and the Seine freshwater estuary at the Duclair station (km 278). By means of PCR primers targeting the amoA gene, a gene library was created. Phylogenetic analysis revealed that the majority of the analyzed clones at both sites were affiliated with the genus Nitrosomonas. The Nitrosomonas oligotropha-and Nitrosomonas urea-related clones represented nearly 81% of the community of ammonia-oxidizing bacteria at Triel and 60% at Duclair. Two other ammonia-oxidizing clusters of the ␤ subclass of the Proteobacteria, i.e., Nitrosomonas europaea-and Nitrosospira-like bacteria, were found in smaller numbers. The major change in the ammonia-oxidizing community between the two stations along the Seine River-upper estuary continuum was the replacement of the N. oligotropha-and N. urea-related bacteria by the Nitrosospira-affiliated bacteria. Although the diversities of the ammonia oxidizers appear to be similar for the two sites, only half of the restriction patterns are common to both sites, which could be explained by the differences in ammonium concentrations, which are much lower in the upper estuary than in the river at the effluent outlet. These results imply a significant immigration and/or selection of the ammonia-oxidizing bacterial population along the continuum of the Seine River from Paris to the estuary.The Seine River downstream of Paris is greatly affected by the discharge of treated effluents from the Achères wastewater treatment plant (WWTP) (8.5 million inhabitant equivalent from Paris and its suburbs, subjected only to a secondary treatment). A typical feature of the ecological functioning of the lower Seine River is a high summer oxygen deficit immediately downstream of the Achères effluent outlet due to degradation of organic matter (18,19,48) and another depletion in the freshwater estuary due to nitrification of ammonium that is also contained in the effluent ...

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Evidence for Coexistence of Distinct Escherichia coli Populations in Various Aquatic Environments and Their Survival in Estuary Water

Berthe

Ratajczak

Clermont

et al. 2013

Appl Environ Microbiol

129

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b Escherichia coli, a commensal bacterium from the intestinal tracts of humans and vertebrate animals, has been used as one of two bacterial indicators of fecal contamination, along with intestinal enterococci, to monitor the microbiological quality of water. However, water environments are now recognized as a secondary habitat where some strains can survive. We investigated the survival of E. coli isolates collected from bodies of water in France exhibiting distinct profiles of contamination, defined according to the following criteria: vicinity of the point sources of contamination, land use, hydrology, and physicochemical characteristics of the receiving water. We selected 88 E. coli strains among a collection of 352 strains to carry out a microcosm experiment in filtered estuarine water for 14 days at 10°C. The relationship between the survival of E. coli strains and genotypic and phenotypic characteristics was analyzed. This work showed that distinct E. coli survival types, able to survive from between 7 and 14 days to less than 2 days, coexisted in the water. E. coli isolates that rapidly lost their culturability were more frequently isolated in water recently contaminated by fecal bacteria of human origin, and most were multiresistant to antibiotics and harbored several virulence factors. In contrast, persistent strains able to survive from 4 to 14 days were more often found in water with low levels of fecal bacteria, belonged mainly to the B1 phylogroup, often harbored only one virulence factor, kspE or ompT, and were able to grow at 7°C.

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Occurrence of antibiotic resistance and class 1, 2 and 3 integrons in Escherichia coli isolated from a densely populated estuary (Seine, France)

et al. 2009

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Over 6 years, Escherichia coli were isolated from water samples from seven Seine estuary stations, characterized by a densely populated watershed (654 isolates). Resistances of these E. coli to 16 antibiotics were determined and compared with the same resistances in E. coli isolated from a small stream (120 isolates) and from the treated effluent of the largest estuary wastewater treatment plant (123 isolates). Between 30.2% and 56.6% of the estuary isolates were resistant, whatever the station or time of sampling; of these, 60.5-80% were resistant to at least two and up to 12 antibiotics. In the three contrasting sites, resistances to tetracycline, amoxicillin and ticarcillin were the commonest. DNA was extracted from 279 estuary isolates (January 2006) and class 1, 2 and 3 integrons were detected by multiplex real-time PCR and confirmed by classic PCR. IntI1 and intI2 genes were found in 11% of isolates. No intI3 gene was detected. The variable regions of the class 1 and 2 integrons sequenced contained predominantly gene cassettes aadA and dfr. However, for slightly over half of the E. coli isolates exhibiting the class 1 integron, the variable region could not be amplified, because part of the 3' conserved sequence was missing.

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Thierry Berthe

Nitrification and Nitrifying Bacteria in the LowerSeine River and Estuary(France)

Evidence for Coexistence of Distinct Escherichia coli Populations in Various Aquatic Environments and Their Survival in Estuary Water

Occurrence of antibiotic resistance and class 1, 2 and 3 integrons in Escherichia coli isolated from a densely populated estuary (Seine, France)

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