The presence of geogenic cadmium (Cd) contaminated environment, especially in soil, has raised serious health hazards through the food chain. Bacteria have been applied for the bioremediation of cadmium-contaminated environment by biosorption or bioaccumulation interactions; this process is considered as a potential eco-friendly alternative. In the present work, twelve cadmium native bacteria tolerant to 2,500 µM CdCl2(120 mg/L) isolated in soils of cocoa farms in presence of different levels of Cd were selected, to evaluate their Cd tolerance and immobilization using liquid culture medium (Nutritive broth) in the presence of two Cd concentration (10 and 15 mg/L) and the ability to Cd capture by native strains in the liquid broth was characterized by Transmission Electron Microscopy (TEM) and the changes in the functional groups in cell surface were analyzed by Fourier Transform infrared spectroscopy (FT-IR), furthermore, in the greenhouse experiments were carried out applied the strains Exiguobacterium sp. (11-4A), Klebsiella variicola sp. (18-4B), Enterobacter sp. (29-4B) in combined treatments using CCN51 cacao genotype seeds grown in soil with different concentrations of Cd. TEM images showed deformation in cell morphology for all bacteria strains and identify for six strains biosorption interactions and four strains with bioaccumulation capacities; FT-IR analysis suggested that the amide, carbonyl, hydroxyl, ethyl, phosphate groups on bacteria biomass were the main binding sites for Cd; in the pot experiments, the Cd concentration is distributed in all parts of the cacao plant, but certain Cd immobilization degree can occur in soil to preventing increased the Cd root concentration in presence to Klebsiella sp. (18-4B), this native strain is potential and promising Cd adsorbent to avoid translocation to cacao plant.