Two different Cd²⁺ uptake systems were identified in Lactobacillus plantarum. One is a high-affinity, high-velocity Mn²⁺ uptake system which also takes up Cd²⁺ and is induced by Mn²⁺ starvation. The calculated K_m and V_max are 0.26 µM and 3.6 µmol g of dry cell¹ min¹, respectively. Unlike Mn²⁺ uptake, which is facilitated by citrate and related tricarboxylic acids, Cd²⁺ uptake is weakly inhibited by citrate. Cd²⁺ and Mn²⁺ are competitive inhibitors of each other, and the affinity of the system for Cd²⁺ is higher than that for Mn²⁺. The other Cd²⁺ uptake system is expressed in Mn²⁺-sufficient cells, and no K_m can be calculated for it because uptake is nonsaturable. Mn²⁺ does not compete for transport through this system, nor does any other tested cation, i.e., Zn²⁺, Cu²⁺, Co²⁺, Mg²⁺, Ca²⁺, Fe²⁺, or Ni²⁺. Both systems require energy, since uncouplers completely inhibit their activities. Two Mn²⁺-dependent L. plantarum mutants were isolated by chemical mutagenesis and ampicillin enrichment. They required more than 5,000 times as much Mn²⁺ for growth as the parental strain. Mn²⁺ starvation-induced Cd²⁺ uptake in both mutants was less than 5% the wild-type rate. The low level of long-term Mn²⁺ or Cd²⁺ accumulation by the mutant strains also shows that the mutations eliminate the high-affinity Mn²⁺ and Cd²⁺ uptake system.