Compositions of microbial communities in sulfide nickel ore waste piles

Bacterial communities of moderately acidic waste piles of sulfide nickel ore and of the nickel-leaching enrichments obtained from them are analyzed. The structure of bacterial communities was determined by molecular biological techniques. The PCR profiles of bacterial communities were obtained with the primers to a variable 433 bp site of the eubacterial 16S rRNA gene. The differences in community compositions were determined by comparison of their DGGE profiles. Sequencing of the DNA fragments was then carried out and the results were compared with the GenBank gene sequences. Analysis of the 16S rRNA gene sequences revealed few bacterial genera in the moderately acidic waste piles of sulfide nickel ore, with predomination of Acidithiobacillus sp. and Leptospirillum sp. A number of the bacteria revealed belonged to the species never obtained in pure culture. Molecular biological analysis showed the presence of the same groups of bacteria in enriched cultures obtained by inoculating the liquid medium containing ground ore with the waste pile samples (5 : 1). The geochemical activity of these bacteria was confirmed by their capacity for leaching nickel from the sulfide ore in enriched cultures, resulting in nickel solubilization. Thus, new information was obtained concerning the structure composition of the bacterial communities of sulfide ore waste piles: the dominant forms were determined, their leaching activity was confirmed, and the activity of thiobacilli from the waste, which have not been isolated in pure cultures, was confirmed in liquid medium in the presence of ore.