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ACS Omega


Title:Evidence of Genetic Fecal Marker Interactions between Water Column and Periphyton in Artificial Streams
Author(s):Li X; Peed L; Sivaganesan M; Kelty CA; Nietch C; Shanks OC;
Address:"Oak Ridge Institute for Science and Education, Oak Ridge, Tennessee 37830, United States. Office of Research and Development, U.S. Environmental Protection Agency, Cincinnati, Ohio 45268, United States"
Journal Title:ACS Omega
Year:2018
Volume:20180829
Issue:8
Page Number:10107 - 10113
DOI: 10.1021/acsomega.8b01785
ISSN/ISBN:2470-1343 (Electronic) 2470-1343 (Linking)
Abstract:"Periphyton is a complex mixture of algae, microbes, inorganic sediment, and organic matter that is attached to submerged surfaces in most flowing freshwater systems. This natural community is known to absorb pollutants from the water column, resulting in improved water quality. However, the role of periphyton in the fate and transport of genetic fecal markers suspended in the water column remains unclear. As application of genetic-based methodologies continues to increase in freshwater settings, it is important to identify any interactions that could potentially confound water quality interpretations. A 16 week indoor mesocosm study was conducted to simultaneously measure genetic fecal markers in the water column and in the associated periphyton when subject to wastewater source loading. Treated wastewater effluent was pumped directly from a treatment facility adjacent to the experimental stream facility. Inflow and outflow surface water grabs were paired with the collection of periphyton samples taken from the mesocosm substrates on a weekly basis. Samples were analyzed with three genetic fecal indicator quantitative real-time polymerase chain reaction assays targeting Escherichia coli (EC23S857), enterococci (Entero1), and Bacteroidales (GenBac3), as well as, two human host-associated fecal pollution markers (HF183 and HumM2). In addition, periphyton dry mass was measured. During wastewater effluent loading, genetic markers were detected in periphyton at frequencies up to 100% (EC23S857, Entero1, and GenBac3), 59.4% (HF183), and 21.9% (HumM2) confirming sequestration from the water column. Mean net-flux shifts in water column inflow and outflow genetic indicator concentrations further supported interactions between the periphyton and water column. In addition, positive correlations were observed between periphyton dry mass and genetic marker concentrations ranging from r = 0.693 (Entero1) to r = 0.911 (GenBac3). Overall, findings support the notion that genetic markers suspended in the water column can be trapped by periphyton, further suggesting that the benthic environment in flowing freshwater systems may be an important factor to consider for water quality management with molecular methods"
Keywords:
Notes:"PubMed-not-MEDLINELi, Xiang Peed, Lindsay Sivaganesan, Mano Kelty, Catherine A Nietch, Christopher Shanks, Orin C eng 2019/08/29 ACS Omega. 2018 Aug 29; 3(8):10107-10113. doi: 10.1021/acsomega.8b01785. eCollection 2018 Aug 31"

 
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