Э. В. Данилова scite author profile

The role of fungi in metal cycling in acidic environments has been little explored to date. In this study, two acid-tolerant and metal-resistant Penicillium isolates, strains ShG4B and ShG4C, were isolated from a mine site in the Transbaikal area of Siberia (Russia). Waters at the mine site were characterized by extremely high metal concentrations: up to 18 g l Fe and > 2 g l each of Cu, Zn, Al, and As. Both isolates were identified as Penicillium spp. by phylogenetic analyses and they grew well in Czapek medium acidified to pH 2.5. Resistance to Cu, Cd, Ni, Co, and arsenate was in the range of 1-10 g l. Further experiments with Penicillium strain ShG4C demonstrated that growth in Cu-containing media was accompanied by the precipitation of Cu-oxalate (moolooite) and the formation of extracellular vesicles enriched in Cu on the mycelia. Vesicles were greatly reduced in size in Cd-containing media and were not formed in the presence of Ni or Co. Cd-oxalate was detected as a crystalline solid phase in Cd-exposed mycelia. Hydrated Ni-sulfate (retgersite) and Co-sulfate (bieberite) were detected in mycelia grown in the presence of Ni and Co, respectively. The results demonstrated that acid-tolerant and metal-resistant Penicillium constitute a component in extremophilic microbiomes, contributing to organic matter breakdown and formation of secondary solid phases at pH ranges found in acid rock drainage.

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An acidophilic Desulfosporosinus isolated from the oxidized mining wastes in the Transbaikal area

Карначук

Kurganskaya

Avakyan

et al. 2015

Microbiology

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Dissimilatory sulfate reduction plays an important role in removal of dissolved metals from acidic mine waters. Although this process was convincingly shown to occur in acidic waste of metal recovery, few isolates of acidophilic/acid tolerant sulfate reducers are known. We isolated a new acidophilic sulfidogen, strain BG, from the oxidized acidic waste of the Bom Gorkhon tungsten deposit, Transbaikalia, Russia. Phy logenetic analysis of its 16S rRNA gene sequence made it possible to identify it as a member of the genus Des ulfosporosinus. Unlike other known acidophilic sulfate reducers of this genus, strain BG was tolerant to high copper concentrations (up to 5 g/L), could grow on organic acids at low ambient pH, and formed crystalline copper sulfides (covellite and chalcopyrite). Molecular analysis of the phylotypes predominating in oxidized waste and in enrichment cultures confirmed the presence of various Desulfosporosinus strains.

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The form of the CR energy spectrum up to (Tien-Shan data)

Shaulov

Besshapov

Cherdintseva

et al. 2009

Nuclear Physics B - Proceedings Supplements

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