Your search keyword '"Pons MN"' showing total 8 results

1. Chronic impact of tetracycline on nitrification kinetics and the activity of enriched nitrifying microbial culture.

Author

Katipoglu-Yazan T, Merlin C, Pons MN, Ubay-Cokgor E, and Orhon D

Subjects

Bacteria drug effects, Bacteria genetics, Batch Cell Culture Techniques, Calibration, Cluster Analysis, Computer Simulation, Kinetics, Models, Theoretical, Oxygen metabolism, Bacteria metabolism, Nitrification drug effects, Tetracycline pharmacology

Abstract

This study evaluated the chronic impact of tetracycline on biomass with enriched nitrifying community sustained in a lab-scale activated sludge system. For this purpose, a fill and draw reactor fed with 100 mg COD/L of peptone mixture and 50 mg N/L of ammonia was sustained at a sludge age of 15 days. At steady-state, the reactor operation was continued with a daily tetracycline dosing of 50 mg/L for more than 40 days, with periodic monitoring of the microbial composition, the nitrifying bacteria abundance, as well as the amoA and 16S rRNA gene activity, using molecular techniques. Changes in the kinetics of nitrification were quantified by modelling concentration profiles of major nitrogen fractions and oxygen uptake rate profiles derived from parallel batch experiments. Activated sludge modeling results indicated inhibitory impact of tetracycline on the growth of nitrifiers with a significant increase of the half saturation coefficients in corresponding rate equations. Tetracycline also inactivated biomass components of the enriched culture at a gradually increasing rate with time of exposure, leading to total collapse of nitrification. Molecular analyses revealed significant changes in the composition of the microbial community throughout the observation period. They also showed that continuous exposure to tetracycline inflicted significant reduction in amoA mRNA and 16S rRNA levels directly affecting nitrification. The chronic impact was much more pronounced on the ammonia oxidizing bacteria (AOB) community. These observations explained the basis of numerical changes identified in the growth kinetics of nitrifiers under stress conditions., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2015

2. Dynamic assessment of the floc morphology, bacterial diversity, and integron content of an activated sludge reactor processing hospital effluent.

Author

Stalder T, Alrhmoun M, Louvet JN, Casellas M, Maftah C, Carrion C, Pons MN, Pahl O, Ploy MC, and Dagot C

Subjects

Biodiversity, Biomass, Polymerase Chain Reaction, Bacteria classification, Bioreactors, Integrons, Sewage

Abstract

The treatment of hospital effluents (HE) is a major concern, as they are suspected of disseminating drugs and antibiotic resistance determinants in the environment. In order to assess HE influence on wastewater treatment plant biomass, lab-scale conventional activated sludge systems (CAS) were continuously fed with real HE or urban effluent as a control. To gain insights into the main hurdles linked to HE treatment, we conducted a multiparameter study using classical physicochemical characterization, phase contrast and confocal laser scaning microscopy, and molecular biology (i.e., pyrosequencing) tools. HE caused erosion of floc structure and the production of extracellular polymeric substances attributed to the development of floc-forming bacteria. Adaptation of the sludge bacterial community to the HE characteristics, thus maintaining the purification performance of the biomass, was observed. Finally, the comparative metagenomic analysis of the CAS showed that HE treatment resulted in an increase of class 1 resistance integrons (RIs) and the introduction of Pseudomonas spp. into the bacterial community. HE treatment did not reduce the CAS process performance; nevertheless it increases the risk of dissemination into the environment of bacterial species and genetic determinants (RIs) involved in antibiotic resistance acquisition.

Published

2013

3. Acute sensitivity of activated sludge bacteria to erythromycin.

Author

Alighardashi A, Pandolfi D, Potier O, and Pons MN

Subjects

Anti-Bacterial Agents, Carbon metabolism, Nitrogen metabolism, Surface-Active Agents pharmacology, Bacteria drug effects, Erythromycin pharmacology, Sewage microbiology

Abstract

The presence of antibiotics in water resources has been disturbing news for the stakeholders who are responsible for public health and the drinking water supply. In many cases, biological wastewater treatment plants are the final opportunity in the water cycle to trap these substances. The sensitivity of activated sludge bacteria to erythromycin, a macrolide widely used in human medicine was investigated in batch toxicity tests using a concentration range of 1-300 mg L(-1). Erythromycin, a protein synthesis inhibitor, has been found to significantly inhibit ammonification, nitritation and nitratation at concentrations higher than 20 mg L(-1). The degree of inhibition increased with greater concentrations of the antibiotic. Exposure to erythromycin also clearly affected heterotrophs, particularly filamentous bacteria, causing floc disintegration and breakage of filaments. Cell lysis was observed with the concomitant release of organic nitrogen (intracellular proteins) and soluble COD. Although erythromycin exhibits properties of a surfactant, this characteristic alone cannot explain the damage to heterotrophs: the effects from erythromycin were greater than those of Tween 80, a commonly used surfactant. Floc disruption can lead to the release of isolated bacteria, and possibly antibiotic resistance genes, into the environment.

Published

2009

4. Application of a sequential batch reactor system for textile dyes degradation: comparison between azo and phthalocyanine dyes.

Author

Harrelkas F, Pons MN, Zahraa O, Yaacoubi A, and Lakhal EK

Subjects

Biodegradation, Environmental, Catalysis, Indoles metabolism, Isoindoles, Molecular Structure, Photochemistry methods, Pigments, Biological metabolism, Textiles, Titanium, Water Pollutants, Chemical analysis, Azo Compounds metabolism, Bacteria metabolism, Bioreactors, Coloring Agents metabolism, Waste Disposal, Fluid methods

Abstract

Photocatalysis on supported TiO2 was combined with aerobic biological treatment in a sequential batch reactor to compare the degradation of two textile dyes: a blue azo dye (DR KBL CDG) and a green phthalocyanine dye (DR K4GN). Three reactors were run in parallel. SBR1 was used as a reference and was fed with urban wastewater only. SBR2 and SBR3 were fed with the same urban wastewater combined with pretreated (for SBR2) and non-pretreated (for SBR3) dye solution. For an azo dye concentration of 12 mg/L decolouration yields of 78 and 27% were achieved, respectively, in SBR2 and SBR3. For the phthalocyanine dye, the decolouration yields decreased to 24 and 15%, respectively. Concerning COD removal it decreases for both dyes with and without pretreatment, when the dye concentration increases. Although a detrimental effect on biomass could be observed, bacteria were able to cope with the inhibitory effect of the dyes.

Published

2007

5. Optical method for long-term and large-scale monitoring of spatial biofilm development.

Author

Milferstedt K, Pons MN, and Morgenroth E

Subjects

Bioreactors, Equipment Design, Kinetics, Bacteria growth & development, Bacteria isolation & purification, Biofilms growth & development, Biomass, Environmental Monitoring methods

Abstract

A method was developed that allows biofilm monitoring on the square centimeter scale over extended periods of time. The method is based on image acquisition using a desktop scanner and subsequent image analysis. It was shown that results from grey level analysis are highly correlated with physical properties of the biofilm like average biomass and biofilm thickness. The scanner method was applied to monitor overall biofilm growth, detachment, and surface roughness during two 3 and 4 week long experiments. Two significantly different growth dynamics during the biofilm development could be identified, depending on the biofilm history. Surface roughness on transects in flow direction was always higher than on transects perpendicular to the flow, reflecting the anisotropic characteristics of biofilms growing in a flow field., ((c) 2006 Wiley Periodicals, Inc.)

Published

2006

6. Study of filamentous bacteria by image analysis and relation with settleability.

Author

da Motta M, Pons MN, and Roche N

Subjects

Biomass, Bioreactors, Flocculation, Particle Size, Temperature, Water Movements, Bacteria, Sewage microbiology

Abstract

An automated procedure for the characterisation by image analysis of the morphology of activated sludge has been used to monitor the biomass in a pilot wastewater treatment plant during two runs inoculated with a different sludge and operated at two different temperatures. The bulking events were easily detected by image analysis. Correlations were found between settleability properties (Sludge Volume Index and settling velocity) and the morphological parameters (filament total length, filament number and floc size).

Published

2002

7. Automated monitoring of activated sludge in a pilot plant using image analysis.

Author

da Motta M, Pons MN, and Roche N

Subjects

Automation, Bacteria metabolism, Models, Biological, Pilot Projects, Video Recording, Waste Disposal, Fluid methods, Water Purification instrumentation, Water Purification methods, Bacteria growth & development, Biomass, Sewage, Waste Disposal, Fluid instrumentation, Water Pollutants, Chemical

Abstract

An automated procedure for the characterisation by image analysis of the morphology of activated sludge has been used to monitor the biomass in a pilot wastewater treatment plant, in complement to the usual settleability (sludge volume index, settling velocity) and size distribution (by laser granulometry) measurements.

Published

2001

8. Beyond filamentous species....

Author

Pons MN and Vivier H

Subjects

Animals, CHO Cells ultrastructure, Coloring Agents, Cricetinae, Eukaryota ultrastructure, Microscopy, Electron, Online Systems, Plants embryology, Bacteria ultrastructure, Image Processing, Computer-Assisted methods, Plants ultrastructure, Yeasts ultrastructure

Published

1998