Biocement stabilization of an experimental-scale artificial slope and the reformation of iron-rich crusts.

Proceedings of the National Academy of Sciences of the United States of America
Alan LevettGordon Southam

Abstract

Novel biotechnologies are required to remediate iron ore mines and address the increasing number of tailings (mine waste) dam collapses worldwide. In this study, we aimed to accelerate iron reduction and oxidation to stabilize an artificial slope. An open-air bioreactor was inoculated with a mixed consortium of microorganisms capable of reducing iron. Fluid from the bioreactor was allowed to overflow onto the artificial slope. Carbon sources from the bioreactor fluid promoted the growth of a surface biofilm within the artificial slope, which naturally aggregated the crushed grains. The biofilms provided an organic framework for the nucleation of iron oxide minerals. Iron-rich biocements stabilized the artificial slope and were significantly more resistant to physical deformation compared with the control experiment. These biotechnologies highlight the potential to develop strategies for mine remediation and waste stabilization by accelerating the biogeochemical cycling of iron.

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Dec 23, 2019·The Science of the Total Environment·Alan LevettGordon Southam
Jan 11, 2020·Frontiers in Microbiology·Emma J GagenGordon Southam

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Citations

Aug 20, 2020·Microbial Biotechnology·Emma J GagenGordon Southam

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