AbstractPreviously it was demonstrated that bacteria are capable of transforming soluble uranyl ion, U(VI), to insoluble uraninite, U(IV); however, the rate for this transformation has not been determined. We report the kinetic coefficients for Desulfovibrio desulfuricans DSM 1924 grown in a continuous-flow chemostat where pyruvate was the electron donor and sulfate was the electron acceptor. The medium was supplemented with 1mM uranyl nitrate, and the chemostat flow rate ranged from 1.12ml/h to 4.75ml/h with incubation at 28C. The maximum rate of pyruvate utilization (k) was determined to be 4.7 days-1, while the half-velocity constant (Ks) was 127mg/l. The yield coefficient (Y) of cells per mole of pyruvate oxidized was calculated to be 0.021g, while the endogenous decay coefficient (kd) was determined to be 0.072 days-1. More than 90% of U(VI) was transformed to U(VI) in the chemostat under the conditions employed.