Metal tolerance potential of filamentous fungi isolated from soils irrigated with untreated municipal effluent

Considering the importance of filamentous fungi for bioremediation of wastewater and contaminated soils, this study was planned to investigate the metal tolerance potential of indigenous filamentous fungi. Nineteen fungal strains were isolated from soils irrigated with untreated municipal/industrial...

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Veröffentlicht in:Soil & environment (Faisalabad) 2013-06, Vol.32 (1), p.55-62
Hauptverfasser: Akhtar, S. (National Agricultural Research Centre, Islamabad (Pakistan). Land Resources Research Inst.), Mahmood-ul-Hassan, M. (National Agricultural Research Centre, Islamabad (Pakistan). Land Resources Research Inst.), Ahmad, R. (National Agricultural Research Centre, Islamabad (Pakistan). Land Resources Research Inst.), Suthor, V, Yasin, M
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Sprache:eng
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Zusammenfassung:Considering the importance of filamentous fungi for bioremediation of wastewater and contaminated soils, this study was planned to investigate the metal tolerance potential of indigenous filamentous fungi. Nineteen fungal strains were isolated from soils irrigated with untreated municipal/industrial effluent using dilution technique and 10 prominent isolates were used for metal tolerance. The isolated fungal isolates were screened for metal tolerance index (MTI) at 1mM cadmium (Cd), nickel (Ni) and copper (Cu) concentrations and for minimum inhibitory concentration (MIC) and metal tolerance by growing on potato dextrose agar plates amended with varying amounts of Cd, Cu and Ni. Seven out of 10 isolated fungi belonged to the genera Aspergillus and three belonged to Curvularia, Acrimonium and Pithyum. The results revealed that the order of tolerance of isolates for metals was Cd greater than Cu greater than Ni and Aspergillus sp. were more tolerant than other fungi. Tolerance ranged from 900-9218 mg L-1 for Cd, followed by 381-1780 mg L-1 for Cu and 293-1580 mg L-1 for Ni. The isolated fungi exhibiting great tolerance to metals (Cd, Cu and Ni) can be used successfully for bioremediation of metals from contaminated soil and wastewaters.
ISSN:2074-9546
2075-1141