4.7 Article

Flow Cytometry and Fecal Indicator Bacteria Analyses for Fingerprinting Microbial Pollution in Karst Aquifer Systems

期刊

WATER RESOURCES RESEARCH
卷 58, 期 5, 页码 -

出版社

AMER GEOPHYSICAL UNION
DOI: 10.1029/2021WR029840

关键词

karst; flow cytometry; microbial; spring; turbidity

资金

  1. Science Foundation Ireland (SFI) [13/RC/2092]
  2. European Regional Development Fund
  3. iCRAG
  4. Geological Survey of Ireland
  5. IReL

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Microbial pollution of aquifers is a global water quality problem that poses significant risks to public health. This study utilized flow cytometric analysis and fecal indicator bacteria to assess the potential of providing faster and more descriptive information on microbial pollution in karst aquifers. The study also evaluated the use of turbidity as a proxy indicator for fecal groundwater contamination. The findings suggest that flow cytometry can provide additional insights into fecal pollution sources and its fate and transport in karst catchments.
Microbial pollution of aquifers is a persistent water quality problem globally which poses significant risks to public health. Karst aquifer systems are exceptionally vulnerable to pollution from fecal contamination sources as a result of rapid recharge of water from the surface via discrete pathways linked to highly conductive, solutionally enlarged conduits alongside strong aquifer heterogeneity. Consequently, rapid changes in microbial water quality, which are difficult to monitor with expensive and time-consuming conventional microbiological methods, are a major concern in karst environments. This study examined flow cytometric (FCM) fingerprinting of bacterial cells in groundwater together with fecal indicator bacteria (FIB) at nine separate karst springs of varying catchment size over a 14 month period in order to assess whether such a technique can provide faster and more descriptive information about microbial pollution through such karst aquifer systems. Moreover, the data have also been evaluated with respect to the potential of using turbidity as an easy-to-measure proxy indicator of microbial pollution in a novel way. We argue that FCM provides additional data from which enhanced insights into fecal pollution sources and its fate and transport in such karst catchments can be gained. We also present valuable new information on the potential and limitations of turbidity as an indicator of fecal groundwater contamination in karst. FCM has the potential to become a more widely used tool in the field of contaminant hydrogeology.

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