The Effects of Long-term Low-level Antibiotic Exposure on the Development of Antibiotic Resistance
Principal Investigator: Kristine Wammer, Post-Doctoral Associate, Department of Civil Engineering, University of Minnesota
USGS-WRRI 104B/ CAIWQ Competitive Grants Program
March 2004 - February 2005
Antibiotics have been observed in the environment at low, subtherapeutic levels. The proposed study is designed to test whether the presence of antibiotics at these levels may lead to proliferation of antibiotic resistance among exposed microorganisms. The main objective of the project is to determine if the proportion of bacteria that are resistant to antibiotics increases with long-term exposure at the low levels found in the environment. Experiments to test the connection between low-level exposure and development of resistance will be preformed in chemostats; bacteria obtained from a pristine environment will be exposed for a period of one year to four antibiotics at concentrations that have been observed in natural waters. Enumeration of the proportion of bacteria from the chemostats exhibiting antibiotic resistance will be performed periodically using heterotrophic plate counts. A secondary objective is to explore whether any observed increases in resistance are likely due to selection of intrinsically resistant organisms or development of resistance by new organisms. Genetic analysis tools will be used to identify resistant bacteria if changes in resistant phenotypes are observed over time. The results of this work will help with evaluation of the acceptability of the current levels of these compounds in natural waters.
Wammer, K.H., T.M. LaPara, L.J. Onan. 2006. The effects of long−term low−level antibiotic exposure on the development of antibiotic resistance. Poster Presentation. Minnesota Water 2005 and Annual Water Resources Joint Conference, Brooklyn Center, MN, October 24−25, 2006, Brooklyn Center, MN.