Hexavalent chromium removal in vitro and from industrial wastes, using chromate-resistant strains of filamentous fungi indigenous to contaminated wastes

Hexavalent chromium removal in vitro and from industrial wastes, using chromate-resistant strains of filamentous fungi indigenous to contaminated wastes

Two chromate-resistant filamentous fungi, strains H13 and Ed8, were selected from seven independent fungal isolates indigenous to Cr(VI)-contaminated soil because of their ability to decrease hexavalent chromium levels in the growth medium. Morphophysiological studies identified strain H13 as a Peni...

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Bibliographic Details
Published in:Canadian journal of microbiology Vol. 52; no. 9; p. 809
Main Authors: Acevedo-Aguilar, Francisco Javier, Espino-Saldaña, Angeles Edith, Leon-Rodriguez, Ireri Lizzuli, Rivera-Cano, Ma Elena, Avila-Rodriguez, Mario, Wrobel, Kazimierz, Wrobel, Katarzyna, Lappe, Patricia, Ulloa, Miguel, Gutiérrez-Corona, J Felix
Format: Journal Article
Language:English
Published: Canada 01-09-2006
Subjects:
Aspergillus - drug effects
Aspergillus - metabolism
Biomass
Chromates - metabolism
Chromates - toxicity
Chromium - metabolism
Fungi - drug effects
Fungi - metabolism
Industrial Waste - analysis
Industrial Waste - prevention & control
Oxidation-Reduction
Soil Microbiology
Soil Pollutants - metabolism
Time Factors
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Summary:Two chromate-resistant filamentous fungi, strains H13 and Ed8, were selected from seven independent fungal isolates indigenous to Cr(VI)-contaminated soil because of their ability to decrease hexavalent chromium levels in the growth medium. Morphophysiological studies identified strain H13 as a Penicillium sp. isolate and Ed8 as an Aspergillus sp. isolate. When incubated in minimal medium with glucose as a carbon source and in the presence of 50 microg/mL Cr(VI), these strains caused complete disappearance of Cr(VI) in the growth medium after about 72 h of incubation. Total chromium concentration in growth medium was constant during culture growth, and no accumulation of chromium in fungal biomass was observed. Quantitative determinations of oxidized and reduced chromium species during the reduction process revealed stoichiometric conversion of Cr(VI) to Cr(III). A decrease in Cr(VI) levels from industrial wastes was also induced by Ed8 or H13 biomass. These results indicate that chromate-resistant filamentous fungi with Cr(VI)-reducing capability could be useful for the removal of Cr(VI) contamination.
ISSN:0008-4166
DOI:10.1139/w06-037