Microbial Population of Industrial Biooxidation Reactors

Aleksandr Bulaev; Aleksandr Belyi; Anna Panyushkina; Natalia Solopova; Tatyana Pivovarova

doi:10.4028/www.scientific.net/SSP.262.48

Paper Titles

The MONDO Minerals Nickel Sulfide Bioleach Project: From Test Work to Early Plant Operation
p.28

Recent Advances in Biomining and Microbial Characterisation
p.33

Linking Microbial Community Dynamics in BIOX^® Leaching Tanks to Process Conditions: Integrating Lab and Commercial Experience
p.38

Enzymatic Pre-Treatment of Carbonaceous Matter in Preg-Robbing Gold Ores: Effect of Ferrous Ion Additives
p.43

Microbial Population of Industrial Biooxidation Reactors
p.48

An XPS and XANES Study on the Bioleaching of Arsenopyrite with or without Pyrite
p.53

Evaluation of Long-Term Post Process Inactivation of Bioleaching Microorganisms
p.57

Bioleaching of Copper Slag Material
p.61

Biooxidation of a Refractory Gold Ore: Implications of Whole-Ore Heap Biooxidation
p.65

HomeSolid State PhenomenaSolid State Phenomena Vol. 262Microbial Population of Industrial Biooxidation...

Microbial Population of Industrial Biooxidation Reactors

Abstract:

Microbial population performing biooxidation of flotation concentrate of gold bearing sulfide ore containing pyrite, arsenopyrite, and pyrrhotite was studied using cultural and molecular biological (metagenomics sequencing of V3-V4 fragments of 16S rRNA gene) approaches. The biooxidation of the concentrate was conducted at temperatures from 38 to 42°C. Strains of Acidithiobacillus thiooxidans, Acidiphilium multivorum, Leptospirillum ferriphilum, Sulfobacillus thermotolerans, Ferroplasma acidarmanus, and Ferroplasma acidiphilum were isolated from the samples of the pulp from biooxidation reactors. It was shown that optimum temperatures of isolated strains were from 38 to 40°C. Metagenomic analysis demonstrated predominance of the genera Acidiferrobacter, Acidithiobacillus, Acidiphilum, Leptospirillum, and Ferroplasma. According to results of molecular biological analysis, share of the genus Acidithiobacillus was of 0 to 25%, share of the genus Acidiferrobacter was of 7 to 56%, share of the genus Acidiphilum was of 0.03 to 36%, share of the genus Leptospirillum was of 0.7 to 7%, whereas share of the archaea of the genus Ferroplasma was of 33 to 94%. Thus, it was shown that representatives of the genus Ferroplasma can play significant role in bioleach process. Representatives of the genus Acidiferrobacter were previously detected in acid mine drainages, acid soils as well as in bioleach heaps and reactors, whereas data on predominance of the genus in tank bioleach processes have not been presented in the literature. In the present study, strains of the genus Acidiferrobacter were not isolated despite application of the nutrient media recommended for Acidiferrobacter and their properties were not studied. Nevertheless, results of the present study suggest that representatives of the genus Acidiferrobacter have a great impact on industrial bioleach processes.

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Periodical:

Solid State Phenomena (Volume 262)

Pages:

48-52

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.262.48

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Online since:

August 2017

Authors:

Aleksandr Bulaev, Aleksandr Belyi*, Anna Panyushkina, Natalia Solopova, Tatyana Pivovarova

Keywords:

Gold Bearing Sulfide Concentrate, Metagenomics Sequencing, Microbial Population, Tank Biooxidation

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References

[1] P.C. van Aswegen, J. van Niekerk, W. Olivier, The BIOX process for the treatment of refractory gold concentrate, in: D.E. Rawlings, B.D. Johnson (Eds. ), Biomining, Springer, Berlin, 2007, p.1–35.