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Characterization of an autotrophic bioreactor microbial consortium degrading thiocyanate

Version 2 2024-06-13, 11:31
Version 1 2018-04-11, 15:50
journal contribution
posted on 2024-06-13, 11:31 authored by MP Watts, LP Spurr, HM Gan, JW Moreau
Thiocyanate (SCN-) forms as a by-product of cyanidation during gold ore processing and can be degraded by a variety of microorganisms utilizing it as an energy, nitrogen, sulphur and/or carbon source. In complex consortia inhabiting bioreactor systems, a range of metabolisms are sustained by SCN-degradation; however, despite the addition or presence of labile carbon sources in most bioreactor designs to date, autotrophic bacteria have been found to dominate key metabolic functions. In this study, we cultured an autotrophic SCN--degrading consortium directly from gold mine tailings. In a batch-mode bioreactor experiment, this consortium degraded 22 mM SCN-, accumulating ammonium (NH4+) and sulphate (SO42-) as the major end products. The consortium consisted of a diverse microbial community comprised of chemolithoautotrophic members, and despite the absence of an added organic carbon substrate, a significant population of heterotrophic bacteria. The role of eukaryotes in bioreactor systems is often poorly understood; however, we found their 18S rRNA genes to be most closely related to sequences from bacterivorous Amoebozoa. Through combined chemical and phylogenetic analyses, we were able to infer roles for key microbial consortium members during SCN-biodegradation. This study provides a basis for understanding the behaviour of a SCN-degrading bioreactor under autotrophic conditions, an anticipated approach to remediating SCN-at contemporary gold mines.

History

Journal

Applied microbiology and biotechnology

Volume

101

Pagination

5889-5901

Location

Berlin, Germany

ISSN

0175-7598

eISSN

1432-0614

Language

eng

Publication classification

C Journal article, C1.1 Refereed article in a scholarly journal

Copyright notice

2017, Springer-Verlag Berlin Heidelberg

Issue

14

Publisher

Springer