Isolation of Arsenic Resistant and Arsenopyrite Oxidizing Acidithiobacillus Species from pH Neutral Colombian Mine Effluents

Isolation of Arsenic Resistant and Arsenopyrite Oxidizing Acidithiobacillus Species from pH Neutral Colombian Mine Effluents

Inactive mines provide a great source of bacterial diversity for studying acidophilic communities and their biotechnological applications, but prospecting of these anthropogenic environments in Colombia has been limited. Conventional microbiological methods were used to isolate acidophilic bacterial...

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Bibliographic Details
Published in:Geomicrobiology journal Vol. 37; no. 7; pp. 682 - 689
Main Authors: Barragán, Carlos Eduardo, Márquez, Marco Antonio, Dopson, Mark, Montoya Castaño, Dolly
Format: Journal Article
Language:English
Published: New York Taylor & Francis 01-07-2020
Taylor & Francis Ltd
Subjects:
Abandoned mines
Acidithiobacillus sp
Anthropogenic factors
Arsenic
Arsenic ions
Arsenopyrite
Bacteria
biooxidation
Concentrates (ores)
Culture
Effluents
Exploration
Flasks
Gene sequencing
Gold
Leaching
Microbiological strains
Microbiology
Mikrobiologi
Minerals
Mixed culture
Ores
Oxidation
pH effects
Phylogeny
Pretreatment
Pulp
rRNA 16S
Shaking
Strains (organisms)
Sulfur
Sulphur
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Summary:Inactive mines provide a great source of bacterial diversity for studying acidophilic communities and their biotechnological applications, but prospecting of these anthropogenic environments in Colombia has been limited. Conventional microbiological methods were used to isolate acidophilic bacterial strains from effluents emanating from the Colombian gold mine 'El Zancudo' (Titiribí, Antioquia). Despite the drainage waters having circumneutral pH, all of the isolated strains were phylogenetically related to the extreme acidophile Acidithiobacillus genus. However, based upon 16S rRNA gene sequences the mesophilic sulfur-oxidizing indigenous strains could not be assigned to a species. Pure cultures were selected by screening in medium with soluble inorganic arsenic (III) and their mineral-oxidative activity was evaluated at 30 °C in Erlenmeyer flasks with arsenopyrite ore under rotary shaking conditions. The indigenous strains were able to catalyze arsenopyrite oxidation in a mixed culture with a pulp density of 10%, maintaining their growth in the presence of >80 mM leached arsenic. This research provides information regarding the isolation of arsenic resistant bacterial communities from neutral effluents from El Zancudo mine and the possibility of the isolated strains to be useful in the biooxidation pretreatment of refractory gold-bearing arsenopyrite ores and concentrates.
ISSN:0149-0451
1521-0529
1521-0529
DOI:10.1080/01490451.2020.1761910