Growth of Frankia strains in leaf litter-amended soil and the rhizosphere of a nonactinorhizal plant |
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| Authors: | Babur S. Mirza,Allana Welsh,& Dittmar Hahn |
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| Affiliation: | Interdepartmental Centre 'G. Scansetti' for Studies on Asbestos and Other Toxic Particulates, University of Torino, Turin, Italy;;Dipartimento di Biologia Vegetale and Centre of Excellence for Plant and Microbial Biosensing (CEBIOVEM), University of Torino, Turin, Italy;and;Dipartimento di Chimica IFM and Centre of Excellence of Nanostructured Interfaces and Surface (NIS), University of Torino, Turin, Italy |
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| Abstract: | Verticillium leptobactrum , a rare fungal species, has repeatedly been isolated from serpentinic rocks in the Western Alps, thus suggesting that it adapts easily to this selective mineral substrate. The rRNA internal transcribed spacer region of several isolates has been sequenced to confirm their identity and taxonomic position within Verticillium , a recently revised polyphyletic entity. Isolates of V. leptobactrum have also been investigated to establish their ability to weather asbestos chrysotile, the most common mineral in the isolation sites. The results of solubilization assays on magnesium and silicon, as well as measurement of the Mg/Si ratio in the asbestos fibres after exposure to fungal mycelia, indicate a high bioweathering activity of V. leptobactrum towards chrysotile. Comparison with data on Fusarium oxysporum shows differences among species, with V. leptobactrum being more active than F. oxysporum in removing structural ions from chrysotile. Asbestos weathering by fungi could be envisaged as a bioremediation strategy for hazardous asbestos-rich soils (e.g. abandoned mines). Fungi that have adapted to live in serpentine sites could be good candidates for this purpose. |
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| Keywords: | Verticillium serpentine asbestos magnesium silicon |
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