Microfungi in highly copper-contaminated soils from an abandoned Fe–Cu sulphide mine: Growth responses, tolerance and bioaccumulation

•Fungi can play a key role in metal-polluted ecosystems via colonization and decontamination.•Clonostachys rosea, Trichoderma harzianum, and Aspergillus alliaceus were tested at increasing Cu(II).•The strains showed a Cu(II)-tolerance capability ranging from 100 to 400mgL−1.•The strains of T. harzia...

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Published in:Chemosphere (Oxford) 2014-12, Vol.117, p.471-476
Main Authors: Zotti, Mirca, Di Piazza, Simone, Roccotiello, Enrica, Lucchetti, Gabriella, Mariotti, Mauro Giorgio, Marescotti, Pietro
Format: Article
Language:English
Subjects:
Applied sciences
Aspergillus - genetics
Aspergillus - growth & development
Aspergillus - metabolism
Aspergillus alliaceus
Bare soil
Bioaccumulation
Biodegradation, Environmental
Biological and medical sciences
Biotechnology
Clonostachys rosea
Copper
Copper - metabolism
Decontamination. Miscellaneous
Derelict mine
Environment and pollution
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Fungal Proteins - genetics
Fungal Proteins - metabolism
Fungi
Hypocreales - genetics
Hypocreales - growth & development
Hypocreales - metabolism
Industrial applications and implications. Economical aspects
Iron
Italy
Metal tolerance
Mines
Mining
Miscellaneous
Molecular Sequence Data
Pollution
Sampling
Sequence Analysis, DNA
Soil and sediments pollution
Soil Pollutants - metabolism
Soils
Strain
Sulfides
Trichoderma - genetics
Trichoderma - growth & development
Trichoderma - metabolism
Tubulin - genetics
Tubulin - metabolism
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description •Fungi can play a key role in metal-polluted ecosystems via colonization and decontamination.•Clonostachys rosea, Trichoderma harzianum, and Aspergillus alliaceus were tested at increasing Cu(II).•The strains showed a Cu(II)-tolerance capability ranging from 100 to 400mgL−1.•The strains of T. harzianum and C. rosea presented a high Cu(II)-bioaccumulation capability.•These microfungi may be fruitfully exploited in mycoremediation protocols. Copper is one of the most dangerous soil contaminants. Soils affected by high copper concentrations show low biodiversity and, above all, inadequate environmental quality. Microorganisms such as fungi can play a key role in metal-polluted ecosystems via colonization and decontamination. The study is devoted to characterize the microfungal community in highly Cu-contaminated bare soil from derelict Fe–Cu sulphide mines and to isolate microfungal strains able to tolerate and accumulate Cu. 11 Different taxa to be isolated has been isolated during two sampling campaigns (in Autumn and in Spring). Among these, Clonostachys rosea, Trichoderma harzianum, and Aspergillus alliaceus were tested at increasing Cu(II) concentrations and showed a Cu(II)-tolerance capability ranging from 100 to 400mgL−1. Moreover, the strains of T. harzianum and C. rosea presented a high Cu(II)-bioaccumulation capability, 19628 and 22222mgkg−1, respectively. These microfungi may be fruitfully exploited in mycoremediation protocols.
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subjects Applied sciences
Aspergillus - genetics
Aspergillus - growth & development
Aspergillus - metabolism
Aspergillus alliaceus
Bare soil
Bioaccumulation
Biodegradation, Environmental
Biological and medical sciences
Biotechnology
Clonostachys rosea
Copper
Copper - metabolism
Decontamination. Miscellaneous
Derelict mine
Environment and pollution
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Fungal Proteins - genetics
Fungal Proteins - metabolism
Fungi
Hypocreales - genetics
Hypocreales - growth & development
Hypocreales - metabolism
Industrial applications and implications. Economical aspects
Iron
Italy
Metal tolerance
Mines
Mining
Miscellaneous
Molecular Sequence Data
Pollution
Sampling
Sequence Analysis, DNA
Soil and sediments pollution
Soil Pollutants - metabolism
Soils
Strain
Sulfides
Trichoderma - genetics
Trichoderma - growth & development
Trichoderma - metabolism
Tubulin - genetics
Tubulin - metabolism
title Microfungi in highly copper-contaminated soils from an abandoned Fe–Cu sulphide mine: Growth responses, tolerance and bioaccumulation
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