Biosorption an innovative tool for bioremediation of metal-contaminated municipal solid waste leachate: optimization and mechanisms exploration |
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| Authors: | A K Awasthi A K Pandey J Khan |
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| Institution: | 1.Mycological Research Laboratory, Department of Biological Sciences,Rani Durgavati University,Jabalpur,India;2.Madhya Pradesh Private Universities Regulatory Commission,Bhopal,India;3.Department of Microbiology and Biotechnology,Veerangna Awanti Bai P.G. College,Chhatarpur,India;4.School of Environment,Tsinghua University,Beijing,P. R. China |
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| Abstract: | Municipal solid waste poses a risk on surrounding environment and public health, mainly because of unscientific disposal and shortage of facilities for proper handling and recycling of leachate. This research article objective is to pinpoint the indigenous fungal isolates of waste leachate samples. Therefore, we carried out biosorption of Cd2+ tested the applicability by applying indigenous fungal isolates. The limited number of fungal isolates was found based on their ability for biosorption of Cd2+ metal. The fungal strains Trichoderma sp., Aspergillus niger and Aspergillus flavus were reported as potential strains for metal exclusion ability from the leachate. Among them, the Trichoderma sp. was found as excellent fungal agent for Cd2+ absorption. The optimum pH was 5.5 ± 1, temperature 45 °C, and spore concentration 10?5 to achieve the maximum biosorption, and 35 days of incubation period were required by three strains. The maximum metal biosorption achieved was comparable for the three isolates: 56.34% by Trichoderma sp., 44.74 and 42.04% by A. niger and A. flavus, respectively. Concluding, the further intending application to identified potentially fungal isolates is able to improve the efficiency of metal biosorption. These strains are recommended for development of consortia could become a best technique for MSW leachate treatment if its reliability and applicability should be verified prior to technology acceptance. |
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