Progress in bioleaching: fundamentals and mechanisms of bacterial metal sulfide oxidation-part A

VERA M.; Schippers A.; Sand W.

Keywords: bioleaching, acidithiobacillus, metal sulfides, extracellular polymeric substances

Abstract

Bioleaching of metal sulfides is performed by a diverse group of microorganisms. The dissolution chemistry of metal sulfides follows two pathways, which are determined by the mineralogy and the acid solubility of the metal sulfides: the thiosulfate and the polysulfide pathways. Bacterial cells can effect this metal sulfide dissolution via iron(II) ion and sulfur compound oxidation. Thereby, iron(III) ions and protons, the metal sulfide-attacking agents, are available. Cells can be active either in planktonic state or in forming biofilms on the mineral surface; however, the latter is much more efficient in terms of bioleaching kinetics. In the case of Acidithiobacillus ferrooxidans, bacterial exopolymers contain iron(III) ions, each complexed by two uronic acid residues. The resulting positive charge allows an electrostatic attachment to the negatively charged pyrite. Thus, the first function of complexed iron(III) ions is the mediation of cell attachment, while their second function is oxidative dissolution of the metal sulfide, similar to the role of free iron(III) ions in non-contact leaching. In both cases, the electrons extracted from the metal sulfide reduce molecular oxygen via a redox chain forming a supercomplex spanning the periplasmic space and connecting both outer and inner membranes. In this review, we summarize some recent discoveries relevant to leaching bacteria which contribute to a better understanding of these fascinating microorganisms. These include surface science, biochemistry of iron and sulfur metabolism, anaerobic metabolism, and biofilm formation. The study of microbial interactions among multispecies leaching consortia, including cell-to-cell communication mechanisms, must be considered in order to reveal more insights into the biology of bioleaching microorganisms and their potential biotechnological use.

Más información

Título según WOS: Progress in bioleaching: fundamentals and mechanisms of bacterial metal sulfide oxidation-part A
Título de la Revista: APPLIED MICROBIOLOGY AND BIOTECHNOLOGY
Volumen: 97
Número: 17
Editorial: Springer
Fecha de publicación: 2013
Página de inicio: 7529
Página final: 7541
Idioma: English
DOI:

10.1007/s00253-013-4954-2

Notas: ISI