Isolation and identification of cobalt- and caesium-resistant bacteria from a nuclear fuel storage pond

Abstract

One of the issues facing the nuclear power industry is how to store spent nuclear fuel which is contaminated with radionuclides produced during nuclear fission, including caesium (134Cs+, 135Cs+ and 137Cs+) and cobalt (60Co2+). In this study, we have isolated Co2+- and Cs+-resistant bacteria from water collected from a nuclear fuel storage pond. The most resistant Cs+ and Co2+ isolates grew in the presence of 500 mM CsCl and 3 mM CoCl2. Strain Cs67-2 is resistant to fourfold more Cs+ than Cupriavidus metallidurans str. CH34 making it the most Cs+-resistant strain identified to date. The Cs+-resistant isolates were closely related to bacteria in the Serratia and Yersinia genera, while the Co2+-resistant isolates were closely related to the Curvibacter and Tardiphaga genera. These new isolates could be used for bioremediation.