Enumerating Microorganism Surrogates for Groundwater Transport Studies Using Solid-Phase Cytometry

Investigations on the pollution of groundwater with pathogenic microorganisms, e.g. tracer studies for groundwater transport, are constrained by their potential health risk. Thus, microspheres are often used in groundwater transport studies as non-hazardous surrogates for pathogenic microorganisms....

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Veröffentlicht in:	Water, air, and soil pollution air, and soil pollution, 2014-02, Vol.225 (2), p.1827-10, Article 1827
Hauptverfasser:	Stevenson, Margaret E, Blaschke, A. Paul, Schauer, Sonja, Zessner, Matthias, Sommer, Regina, Farnleitner, Andreas H, Kirschner, Alexander K. T
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Sprache:	eng
Schlagworte:	Aquatic resources Atmospheric Protection/Air Quality Control/Air Pollution Bacteria Climate Change/Climate Change Impacts detection limit Detection limits Drinking water Earth and Environmental Science Enumeration Environment Environmental monitoring Environmental studies Experiments Flow cytometry Fluorescence Groundwater groundwater contamination groundwater flow Groundwater pollution Health aspects Health risks Hydrogeology Laboratories Microorganisms Microscopy Microspheres Natural products Natural waters Pollution dispersion risk Soil Science & Conservation Spheres Surface water Tracers (Chemistry) Water pollution Water Quality/Water Pollution Water resources Water, Underground
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container_title	Water, air, and soil pollution
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creator	Stevenson, Margaret E Blaschke, A. Paul Schauer, Sonja Zessner, Matthias Sommer, Regina Farnleitner, Andreas H Kirschner, Alexander K. T
description	Investigations on the pollution of groundwater with pathogenic microorganisms, e.g. tracer studies for groundwater transport, are constrained by their potential health risk. Thus, microspheres are often used in groundwater transport studies as non-hazardous surrogates for pathogenic microorganisms. Even though pathogenic microorganisms occur at low concentrations in groundwater, current detection methods of microspheres (spectrofluorimetry, flow cytometry and epifluorescence microscopy) have rather high detection limits and are unable to detect rare events. Solid-phase cytometry (SPC) offers the unique capability of reliably quantifying extremely low concentrations of fluorescently labelled microorganisms or microspheres in natural waters, including groundwater. Until now, microspheres have been used in combination with SPC only for instrument calibration purposes and not for environmental applications. In this study, we explored the limits of the SPC methodology for its applicability to groundwater transport studies. The SPC approach proved to be a highly sensitive and reliable enumeration system for microorganism surrogates down to a minimum size of 0.5 μm, in up to 500 ml of groundwater, and 0.75 μm, in up to 1 ml of turbid surface water. Hence, SPC is proposed to be a useful method for enumerating microspheres for groundwater transport studies in the laboratory, as well as in the field when non-toxic, natural products are used.
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subjects	Aquatic resources Atmospheric Protection/Air Quality Control/Air Pollution Bacteria Climate Change/Climate Change Impacts detection limit Detection limits Drinking water Earth and Environmental Science Enumeration Environment Environmental monitoring Environmental studies Experiments Flow cytometry Fluorescence Groundwater groundwater contamination groundwater flow Groundwater pollution Health aspects Health risks Hydrogeology Laboratories Microorganisms Microscopy Microspheres Natural products Natural waters Pollution dispersion risk Soil Science & Conservation Spheres Surface water Tracers (Chemistry) Water pollution Water Quality/Water Pollution Water resources Water, Underground
title	Enumerating Microorganism Surrogates for Groundwater Transport Studies Using Solid-Phase Cytometry
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