Storm loads of culturable and molecular fecal indicators in an inland urban stream

Elevated concentrations of fecal indicator bacteria in receiving waters during wet-weather flows are a considerable public health concern that is likely to be exacerbated by future climate change and urbanization. Knowledge of factors driving the fate and transport of fecal indicator bacteria in sto...

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Bibliographic Details
Published in:The Science of the total environment 2015-10, Vol.530-531, p.347-356
Main Authors: Liao, Hehuan, Krometis, Leigh-Anne H., Cully Hession, W., Benitez, Romina, Sawyer, Richard, Schaberg, Erin, von Wagoner, Emily, Badgley, Brian D.
Format: Article
Language:English
Subjects:
Bacteria
Environmental Monitoring
Fecal indicator bacteria
Loading rates
Microbial source tracking
Rain
Rivers - microbiology
Storm events
Urban runoff
Water Microbiology
Water Pollutants - analysis
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Summary:Elevated concentrations of fecal indicator bacteria in receiving waters during wet-weather flows are a considerable public health concern that is likely to be exacerbated by future climate change and urbanization. Knowledge of factors driving the fate and transport of fecal indicator bacteria in stormwater is limited, and even less is known about molecular fecal indicators, which may eventually supplant traditional culturable indicators. In this study, concentrations and loading rates of both culturable and molecular fecal indicators were quantified throughout six storm events in an instrumented inland urban stream. While both concentrations and loading rates of each fecal indicator increased rapidly during the rising limb of the storm hydrographs, it is the loading rates rather than instantaneous concentrations that provide a better estimate of transport through the stream during the entire storm. Concentrations of general fecal indicators (both culturable and molecular) correlated most highly with each other during storm events but not with the human-associated HF183 Bacteroides marker. Event loads of general fecal indicators most strongly correlated with total runoff volume, maximum discharge, and maximum turbidity, while event loads of HF183 most strongly correlated with the time to peak flow in a hydrograph. These observations suggest that collection of multiple samples during a storm event is critical for accurate predictions of fecal indicator loading rates and total loads during wet-weather flows, which are required for effective watershed management. In addition, existing predictive models based on general fecal indicators may not be sufficient to predict source-specific genetic markers of fecal contamination. [Display omitted] •High-frequency intra-storm samples were taken in an instrumented urban stream.•Concentrations and loading rates of four fecal indicators were quantified.•Culturable and molecular general fecal indicators correlate significantly.•Source-specific and general fecal indicators show different patterns.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2015.05.098