Bioremediation and Metal Resistant Bacteria in a Closed, Cold Northern Mine

Malin Bomberg; Mona Arnold; Päivi Kinnunen

doi:10.4028/www.scientific.net/AMR.1130.551

Paper Titles

Biometal Demonstration Plant for the Biological Rehabilitation of Metal Bearing-Wastewaters (Biometal Demo)
p.535

Dynamic Modelling of Biofilm Reactors with Immobilised Sulfate-Reducing Bacteria
p.539

Biorecovery of Rare Earth Elements: Potential Application for Mine Water Remediation
p.543

Passive System for Bio-Recovery of Copper from Acid Mine Drainage
p.547

Bioremediation and Metal Resistant Bacteria in a Closed, Cold Northern Mine
p.551

Biosynthesis of Zinc Sulfide Quantum Dots Using Waste Off-Gas from Metal Bioremediation Process
p.555

Enhancing ARD Mitigation by Application of Benign Tailings to Reduce the Permeability of Waste Rock Dumps
p.560

Metal Removal from Spent Catalyst Using Microbacterium liquefaciens in Solid Culture
p.564

Study on As Uptake and Rhizobacteria of Two as Hyperaccumulators Forward to As Phytoremediation
p.568

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Bioremediation and Metal Resistant Bacteria in a Closed, Cold Northern Mine

Abstract:

Heavy metals, e.g. copper and nickel, are released to the environment as a result of mining activities. Heavy metals are required by most living organisms as trace elements, but in excess they are toxic and cause considerable environmental stress. Microbes have developed different strategies to tolerate otherwise toxic conditions. In the surroundings of closed Kotalahti Mine the concentrations of copper and nickel in the water have earlier been highly elevated. In order to decrease the concentrations of heavy metals and increase water pH, manure sludge was added to the flooded mine pit. This in situ bioreactor has operated successfully for 15 years after the treatment. The current concentrations of heavy metals are generally low. Nevertheless, resistance genes for copper (copA), cadmium-nickel (cnrA), nickel-cadmium-cobalt (nccA) and cadmium-zink (czcA) could still be found in the microbial community of the flooding water.