Enhancing Manganese Recovery from Low-Grade Ores by Using Mixed Culture of Indigenously Isolated Bacterial Strains

Conventional leaching methods for manganese (Mn) recovery require strong acids and are threatening to the environment. Alternatively, the use of microbes for Mn recovery is environment friendly in nature. The present investigation compares the capacity of pure and mixed cultures of native bacterial...

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Bibliographic Details
Published inGeomicrobiology journal Vol. 35; no. 3; pp. 242 - 246
Main Authors Ghosh, S., Bal, B., Das, A. P.
Format Journal Article
LanguageEnglish
Published New York Taylor & Francis 16.03.2018
Taylor & Francis Ltd
Subjects
Acinetobacter
Bacteria
Bacterial leaching
Bacterial strains
Capacity
Cell culture
Cultures
enhanced recovery
Flasks
Incubation period
Leaching
Lysinibacillus
Manganese
Microbiological strains
Microorganisms
Minerals
Mixed culture
Ores
pH effects
Pulp
Pure culture
Quality
Recovery
solubilization
Strains (organisms)
Sucrose
Sugar
Synchronism
Synchronization
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Summary:Conventional leaching methods for manganese (Mn) recovery require strong acids and are threatening to the environment. Alternatively, the use of microbes for Mn recovery is environment friendly in nature. The present investigation compares the capacity of pure and mixed cultures of native bacterial strains for bioleaching of low-grade Mn ores. The ability of the isolated microorganisms to recover Mn was evaluated in shake flasks for 20 days under optimized conditions of pulp density (2%), sucrose concentration (2 g/100 mL), initial pH 6.5, and 30°C incubation temperature. In pure culture form, Acinetobacter sp. MSB 5 (70%) was found to have a higher bioleaching potential than Lysinibacillus sp. MSB 11 (67%). Mixed culture of Acinetobacter sp. MSB 5 and Lysinibacillus sp. MSB 11 was found to perform better than the pure cultures with 74% extraction of Mn. The presence of mixed culture increased the dissolution rate and the recovery percentage of Mn. The respective growth pattern of the cultures was in synchronization to their Mn bioleaching performances. This study underlines the importance of mixed cultures and Mn solubilizing activity of native bacterial strains for efficient Mn biorecovery.
ISSN:0149-0451
1521-0529
DOI:10.1080/01490451.2017.1362080