Identification of microorganisms at different times in a bioleaching process for the recovery of gold and silver from minerals in oxide form.

Abstract

In this study, gold and silver were recovered through a bioleaching process conducted at room temperature over 11 days. Native bacteria and varying ratios of mineral pulp to culture medium (20/80, 37.5/62.5, and 50/50 %) from a mining operation in Zacatecas, Mexico, were evaluated. The mineral was crushed to a particle size of 0.125 inches or smaller, containing gold and silver concentrations of 0.609 g/ton and 138.89 g/ton, respectively. Four native microorganisms were identified using molecular biology techniques and a 16S rRNA gene fragment: Acidovorax citrulli, Brevundimonas albigilva, Sphingomonas korenensis, and Methylobacterium organophilum. The bioleaching system achieved metal extractions of 84.12 % and 63.93 % for gold and silver, respectively. Different microorganisms were identified at various processing times: Sphingomonas korenensis (days 1, 2, 5, 8, and 11), Methylobacterium organophilum (days 1 and 2), Paenibacillus dongdonensis (days 1 and 2), Brevundimonas albigilva (day 5), Ureibacillus manganicus (day 5), Peribacillus simplex (day 8), Niallia circulans (day 8), Massilia atriviolacea (day 11), and Bacillus licheniformis (day 11). The dominant bacterium throughout the process was Sphingomonas korenensis, which appeared at all stages of the experiment.