Water assessment using ultra-weak bioluminescence

Water assessment using ultra-weak bioluminescence

In this paper a method to evaluate the presence of microorganisms of the coliform group in water samples using the ultra-weak bioluminescence (UWB) is proposed. A series of UWB measurements and optical density measurements from cultures of both a set of standard E. coli strain samples, and a set of...

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Veröffentlicht in:Journal of photochemistry and photobiology. B, Biology Biology, 2017-12, Vol.177, p.39-43
Hauptverfasser: Cordeiro, A.C., Fabris, J.L., Couto, G.H., Kalinowski, H.J., Bertogna, E.
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Bioluminescence
Coliforms
Data acquisition
E coli
Environmental Monitoring - methods
Escherichia coli - growth & development
Escherichia coli tests
Growth kinetics
Instrumentation
Kinetics
Luminescent Measurements
Microorganisms
Optical density
Photons
Rivers
Rivers - microbiology
Ultra-weak bioluminescence
Water - chemistry
Water analysis
Water Microbiology
Water quality
Water sampling
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container_start_page 39
container_title Journal of photochemistry and photobiology. B, Biology
container_volume 177
creator Cordeiro, A.C.
Fabris, J.L.
Couto, G.H.
Kalinowski, H.J.
Bertogna, E.
description In this paper a method to evaluate the presence of microorganisms of the coliform group in water samples using the ultra-weak bioluminescence (UWB) is proposed. A series of UWB measurements and optical density measurements from cultures of both a set of standard E. coli strain samples, and a set of water samples from a river near Curitiba City in Brazil were performed. All samples were previously incubated at 37°C for 11h in nutritive medium before the temporal UWB emission profiles data were acquired for a period of 24h inside a dark chamber of an especially implemented instrumentation capable of doing photon counting measurements. For the optical density measurements, a spectrophotometer was used to acquire the growth kinetics of those cultures for a period of 13h, and the results compared to the UWB profiles. Periodic time-components analysis of the UWB data from both the set of standard E. coli samples and the set of the river's water samples were performed and compared to each other. The results have shown that the UWB temporal profiles resemble in some way the growth kinetics curve and the periodic time-components analysis is an effective way to discriminate between contaminated and non-contaminated samples, therefore the method may be viable for detecting coliforms in water samples in less time than usual methods. •Two series of tests in triplicate, using standard E. coli and river's water done.•Samples incubated in EC medium for 11h at 37°C, and growth kinetics acquired.•We acquired the ultra-weak photon emission profiles of those samples for 24h.•We done comparative analysis from both set of data acquired.•The analysis of the data seems a viable method in detecting coliforms in water.
doi_str_mv 10.1016/j.jphotobiol.2017.10.014
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subjects Analysis
Bioluminescence
Coliforms
Data acquisition
E coli
Environmental Monitoring - methods
Escherichia coli - growth & development
Escherichia coli tests
Growth kinetics
Instrumentation
Kinetics
Luminescent Measurements
Microorganisms
Optical density
Photons
Rivers
Rivers - microbiology
Ultra-weak bioluminescence
Water - chemistry
Water analysis
Water Microbiology
Water quality
Water sampling
title Water assessment using ultra-weak bioluminescence
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