Bacterial reduction of Fe- and Mn-oxides was studied in a surfacehorizon of a New-Caledonian Ferralsol in batch experiments. Twotreatments were imposed containing different sources of organicmatter (soil organic matter with or without glucose addition) tolink organic matter biodegradation with reduction process. Theconcomitant solubilization of Ni and Co was also studied. Resultsshowed that anaerobic Fe- and Mn-reducing bacterial activity wasresponsible for Fe- and Mn-oxide solubilization by anaerobicrespiration or fermentation. When C was more available, oxidereduction was enhanced. Mn-oxide appeared as the major reduciblephase and metal source rather than goethite. Co and Ni weresolubilized with Fe and Mn but their amounts in solutiondecreased at the end of experiment. The bioavailability of heavymetals in this soil was increased by biological reduction but waslimited by adsorption or precipitation phenomena.