Ingrid Eberhagen scite author profile

Ingrid Eberhagen

4Publications

10Citation Statements Received

31Citation Statements Given

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Affiliations

DVGW - Technologiezentrum Wasser

Publications

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Development and validation of a FISH-based method for the detection and quantification of E. coli and coliform bacteria in water samples

Hügler

Böckle

Eberhagen

et al. 2011

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Monitoring of microbiological contaminants in water supplies requires fast and sensitive methods for the specific detection of indicator organisms or pathogens. We developed a protocol for the simultaneous detection of E. coli and coliform bacteria based on the Fluorescence in situ Hybridization (FISH) technology. This protocol consists of two approaches. The first allows the direct detection of single E. coli and coliform bacterial cells on the filter membranes. The second approach includes incubation of the filter membranes on a nutrient agar plate and subsequent detection of the grown micro-colonies. Both approaches were validated using drinking water samples spiked with pure cultures and naturally contaminated water samples. The effects of heat, chlorine and UV disinfection were also investigated. The micro-colony approach yielded very good results for all samples and conditions tested, and thus can be thoroughly recommended for usage as an alternative method to detect E. coli and coliform bacteria in water samples. However, during this study, some limitations became visible for the single cell approach. The method cannot be applied for water samples which have been disinfected by UV irradiation. In addition, our results indicated that green fluorescent dyes are not suitable to be used with chlorine disinfected samples.

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Removal of bacteriophages with different surface charges by diverse ceramic membrane materials in pilot spiking tests

Hambsch

Bösl

Eberhagen

et al. 2012

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This study examines mechanisms for removal of bacteriophages (MS2 and phiX174) by ceramic membranes without application of flocculants. The ceramic membranes considered included ultra- and microfiltration membranes of different materials. Phages were spiked into the feed water in pilot scale tests in a waterworks. The membranes with pore sizes of 10 nm provided a 2.5-4.0 log removal of the phages. For pore sizes of 50 nm, the log removal dropped to 0.96-1.8. The membrane with a pore size of 200 nm did not remove phages. So, the removal of both MS2- and phiX174-phages depended on the pore size of the membranes. But apart from pore size also other factors influence the removal of phages. Removal was 0.5-0.9 log higher for MS2-phages compared with phiX174-phages. Size exclusion seems to be the major but not the only mechanism which influences the efficiency of phage removal by ceramic membranes.

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Detection of biocolloids in aquatic media by Nano‐Particle Analyzer

Bundschuh

Wagner

Eberhagen

et al. 2005

Journal of Spectroscopy

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The Nano-Particle Analyzer (NPA) based on Laser-Induced Breakdown Detection (LIBD) selectively generates and detects plasma events on colloids in aquatic media. Here, it is made use of the fact that the power density required for plasma generation decreases from the gaseous to the solid medium. At an adequate laser pulse energy, plasmas can thus be generated selectively on colloids. The detections of biocolloids by LIBD-based NPA as described in this paper for the first time clearly reveal that the method is well suited for detecting not only non-biological particulate matter in water, but also microorganisms in the transition range between solid and liquid matter. Consequently, the method can be used for online-monitoring, for example of both the non-biological and biological particulate content during the purification, transport and storage of drinking water. It is further possible to monitoronlinecontamination of pure water or process chemicals by biological matter e.g. in biomedical industry.

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Detection and Quantification of E. coli and Coliform Bacteria in Water Samples with a New Method Based on Fluorescence In Situ Hybridisation

Hügler¹,

Böckle²,

Eberhagen³

et al. 2012

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