BEACHNET==> Escherichia coli O157 can grow in natural freshwater at low carbon concentrations

Richard Whitman
Research Ecologist/Station Chief
Lake Michigan Ecological Research Station
219-926-8336 Ext. 424
1100 North Mineral Springs Road
Porter, IN 46304

-----Forwarded by Richard L Whitman/BRD/USGS/DOI on 09/09/2008 10:00PM -----

To: Dawn Shively/BRD/USGS/DOI@USGS, Katarzyna Przybyla-Kelly/BRD/CONT/USGS/DOI@USGS, Meredith Nevers/BRD/USGS/DOI@USGS, Muruleedhara Byappanahalli/BRD/USGS/DOI@USGS, Richard L Whitman/BRD/USGS/DOI@USGS, Mike Sadowsky <sadowsky@umn.edu>
From: Muruleedhara Byappanahalli/BRD/USGS/DOI
Date: 09/09/2008 05:03PM
Subject: New article

fyi...
Environmental Microbiology
Volume 10 Issue 9 , Pages 2387 - 2396

Escherichia coli O157 can grow in natural freshwater at low carbon concentrations
Marius Vital, ^1,2 Frederik Hammes ¹ and Thomas Egli ^1,2 *
¹ Swiss Federal Institute of Aquatic Science and Technology (Eawag), 8600 Dübendorf, Switzerland.
² Institute of Biogeochemistry and Pollutant Dynamics, ETH Zürich, 8092 Zürich, Switzerland.
Correspondence to *E-mail egli@eawag.ch ; Tel. (+41) 1 823 51 58; Fax (+41) 1 823 55 47.
Copyright Journal compilation © 2008 Society for Applied Microbiology and Blackwell Publishing Ltd
ABSTRACT
Whereas much information on the die-off of Escherichia coli in the aquatic environment is available, only few data support its growth under such conditions. We therefore investigated batch growth in microcosms containing different types of sterile freshwater. The water samples were inoculated with low starting cell concentrations of E. coli O157 (3 × 10³ cells ml⁻¹ ) and growth was followed using nucleic acid staining combined with flow cytometry. We demonstrated that E. coli O157 is able to grow in sterile freshwater at low carbon concentrations, which is against the common view that cell numbers decline over time when added to freshwater samples. A correlation between apparent assimilable organic carbon (AOC_app ) concentration and the final cell concentration reached by E. coli O157 was established ( P < 0.01). A considerable fraction of the AOC_app (34 ± 13%) was used by E. coli O157 but the numerical cell yield was about five-times lower in comparison with the bacterial AOC-test community, which originated from natural freshwater. On average, the maximum specific growth rate ( μ_max ) of E. coli O157 growing in sterile freshwater at 30°C was 0.19 ± 0.07 h⁻¹ . Batch growth assays at five different temperatures revealed a positive influence of temperature on μ_max of E. coli O157. The results give new information on the behaviour of this common pathogen in the aquatic environment and contribute to microbial risk assessment in order to prevent spreading of water-borne diseases.

Murulee Byappanahalli, Ph. D.
Research Microbiologist
U.S. Geological Survey, Great Lakes Science Center
Lake Michigan Ecological Research Station,
1100 N. Mineral Springs Road
Porter, Indiana 46304
Phone: (219) 926-8336 ext. 421
Fax: (219) 929-5792
E-mail: byappan@usgs.gov