Вестник МГТУ. 2017, том 20, № 1/2.

Вестник МГТУ. 2017. Т. 20, № 1/2. С. 205–211. DOI: 10.21443/1560-9278-2017-20-1/2-205-211 211 N. V. Fokina, Е. S. Yanishevskaya, I. N. Vishnyakova, А. Sh. Gershenkop, G. А. Evdokimova Development and functioning of microorganisms in concentration cycles of sulfide copper-nickel and non-sulfide apatite-nepheline ores The number and trophic diversity of bacteria in flotation samples of apatite-nepheline and sulfide copper-nickel ores at the concentration plants of JSC "Apatite" and Kola Mining and Metallurgical Company have been determined. The study of the size and diversity of the microbiota has been conducted by culture on selective nutrient media. The total number and biomass of bacteria have been considered by fluorescence microscopy using Cyclopore polycarbonate membrane filters. Bacteria have been identified by molecular genetic methods. The least amount of both saprotrophic and other trophic groups of bacteria has been observed in the samples of ore and recycled water as at the concentrating factory of Apatit JSC, and also at the plant "Pechenganikel". It has been found out that the bacteria contained in the ore and recycling water flowing from the tailings increased their number during the flotation process due to coming of the nutrients with the flotation reagents, aeration and increased temperature. Strains which occurrence is more than 60 % have been extracted from recycled water and basic flotation products and classified as Pseudomonas . Two strains with occurrence of more than 60 % have been discovered at Apatit JSC and classified as Stenotrophomonas and Acinetobacter . The number of fungi in the cycle of apatite-nepheline ore enrichment at the factories is very low (1 to 24 CFU / 1 ml or 1 g of ore). Fungi of the genus Penicillium have been dominated, fungi of the genera Acremonium , Aureobasidium , Alternaria , Chaetomium have also been detected. At the plant "Pechenganikel" species Aspergillus fumigatus , Penicillium aurantiogriseum and P . glabrum have been extracted. It has been shown that the bacteria deteriorate the apatite flotation as a result of their interaction with active centers of calcium-containing minerals and intensive flocculation decreasing the floatation selectivity. Also some trend of copper and nickel recovery change has been detected with the presence of a high number of bacteria. Key words: copper-nickel ore, apatite-nepheline ore, flotation, flotation reagents, recycling water, bacteria.

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