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. 2000 Jan;66(1):230-7.
doi: 10.1128/AEM.66.1.230-237.2000.

Sources of Escherichia coli in a coastal subtropical environment

H M Solo-Gabriele  1 M A WolfertT R DesmaraisC J Palmer
Affiliations

Sources of Escherichia coli in a coastal subtropical environment

H M Solo-Gabriele et al. Appl Environ Microbiol. 2000 Jan.

Abstract

Sources of Escherichia coli in a coastal waterway located in Ft. Lauderdale, Fla., were evaluated. The study consisted of an extensive program of field measurements designed to capture spatial and temporal variations in E. coli concentrations as well as experiments conducted under laboratory-controlled conditions. E. coli from environmental samples was enumerated by using a defined substrate technology (Colilert-18). Field sampling tasks included sampling the length of the North Fork to identify the river reach contributing high E. coli levels, autosampler experiments at two locations, and spatially intense sampling efforts at hot spots. Laboratory experiments were designed to simulate tidal conditions within the riverbank soils. The results showed that E. coli entered the river in a large pulse during storm conditions. After the storm, E. coli levels returned to baseline levels and varied in a cyclical pattern which correlated with tidal cycles. The highest concentrations were observed during high tide, whereas the lowest were observed at low tide. This peculiar pattern of E. coli concentrations between storm events was caused by the growth of E. coli within riverbank soils which were subsequently washed in during high tide. Laboratory analysis of soil collected from the riverbanks showed increases of several orders of magnitude in soil E. coli concentrations. The ability of E. coli to multiply in the soil was found to be a function of soil moisture content, presumably due to the ability of E. coli to outcompete predators in relatively dry soil. The importance of soil moisture in regulating the multiplication of E. coli was found to be critical in tidally influenced areas due to periodic wetting and drying of soils in contact with water bodies. Given the potential for growth in such systems, E. coli concentrations can be artificially elevated above that expected from fecal impacts alone. Such results challenge the use of E. coli as a suitable indicator of water quality in tidally influenced areas located within tropical and subtropical environments.

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Figures

FIG. 1
FIG. 1
Location of the North Fork of the New River.
FIG. 2
FIG. 2
Results of river length sampling effort.
FIG. 3
FIG. 3
Results of 1-week autosampler experiment. Conc., concentration; H, high tide; L, low tide.
FIG. 4
FIG. 4
Results of intensive grid sampling effort at I-95 (contour interval, 200 E. coli organisms per 100 ml; shallow-water samples only).
FIG. 5
FIG. 5
Results from laboratory experiments designed to simulate tidal conditions.
See this image and copyright information in PMC

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