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Fecal pollution: new trends and challenges in microbial source tracking using next-generation sequencing

Journal

ENVIRONMENTAL MICROBIOLOGY
Volume 20, Issue 9, Pages 3132-3140

Publisher

WILEY
DOI: 10.1111/1462-2920.14281

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Funding

  1. Korea Ministry of Environment (MOE) as the Environmental Health Action Program' [2016001350006]
  2. Basic Science Research Program through the National Research Foundation of Korea (NRF) - Ministry of Education [2016R1A6A1A03012862]
  3. GIST Research Institute (GRI)
  4. NOAA Office of Sea Grants, United States Department of Commerce [NA14OAR4170080]
  5. University of Minnesota NIH Biotechnology Training Grant [2T32GM0083-21A1]
  6. University of Minnesota Agricultural Experiment Station
  7. Minnesota Sea Grant College Program

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In this minireview, we expand upon traditional microbial source tracking (MST) methods by discussing two recently developed, next-generation-sequencing (NGS)-based MST approaches to identify sources of fecal pollution in recreational waters. One method defines operational taxonomic units (OTUs) that are specific to a fecal source, e.g., humans and animals or shared among multiple fecal sources to determine the magnitude and likely source association of fecal pollution. The other method uses SourceTracker, a program using a Bayesian algorithm, to determine which OTUs have contributed to an environmental community based on the composition of microbial communities in multiple fecal sources. Contemporary NGS-based MST tools offer a promising avenue to rapidly characterize fecal source contributions for water monitoring and remediation efforts at a broader and more efficient scale than previous molecular MST methods. However, both NGS methods require optimized sequence processing methodologies (e.g. quality filtering and clustering algorithms) and are influenced by primer selection for amplicon sequencing. Therefore, care must be taken when extrapolating data or combining datasets. Furthermore, traditional limitations of library-dependent MST methods, including differential decay of source material in environmental waters and spatiotemporal variation in source communities, remain to be fully understood. Nevertheless, increasing use of these methods, as well as expanding fecal taxon libraries representative of source communities, will help improve the accuracy of these methods and provide promising tools for future MST investigations.

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