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1. Relationship between Enterococcal Levels and Sediment Biofilms at Recreational Beaches in South Florida

Author

Helena M. Solo-Gabriele, Alan M. Piggot, Matthew C. Phillips, James S. Klaus, and Sara Johnson

Subjects

DNA, Bacterial, Pollution, Geologic Sediments, media_common.quotation_subject, Molecular Sequence Data, Intertidal zone, Public Health Microbiology, Biology, Applied Microbiology and Biotechnology, Bathing Beaches, Humans, Primary component, Water pollution, Recreation, media_common, Ecology, Polysaccharides, Bacterial, Biofilm, Sediment, Sequence Analysis, DNA, biochemical phenomena, metabolism, and nutrition, Biota, Molecular Typing, Biofilms, Florida, Water quality, Enterococcus, Polymorphism, Restriction Fragment Length, Food Science, Biotechnology

Abstract

Enterococci, recommended at the U.S. federal level for monitoring water quality at marine recreational beaches, have been found to reside and grow within beach sands. However, the environmental and ecological factors affecting enterococcal persistence remain poorly understood, making it difficult to determine levels of fecal pollution and assess human health risks. Here we document the presence of enterococci associated with beach sediment biofilms at eight south Florida recreational beaches. Enterococcal levels were highest in supratidal sands, where they displayed a nonlinear, unimodal relationship with extracellular polymeric secretions (EPS), the primary component of biofilms. Enterococcal levels peaked at intermediate levels of EPS, suggesting that biofilms may promote the survival of enterococci but also inhibit enterococci as the biofilm develops within beach sands. Analysis of bacterial community profiles determined by terminal restriction fragment length polymorphisms showed the bacterial communities of supratidal sediments to be significantly different from intertidal and subtidal communities; however, no differences were observed in bacterial community compositions associated with different EPS concentrations. Our results suggest that supratidal sands are a microbiologically unique environment favorable for the incorporation and persistence of enterococci within beach sediment biofilms.

Published

2012