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| Isolation,identification, Pb(Ⅱ) biosorption isotherms and kinetics of a lead adsorbing Penicillium sp. MRF-1 from South Korean mine soil | |
| 作者姓名: | Natarajan Velmurugan Grim Hwang Muthuswamy Sathishkumar Tae Kie Choi Kui-Jae Lee Byung-Taek Oh Yang-Soo Lee |
| 作者单位: | Natarajan Velmurugan,Tae Kie Choi,Yang-Soo Lee(Department of Forest Science and Technology,Institute of Agriculture and Life Sciences,Chonbuk National University,South Korea);Grim Hwang(College of Agriculture and Life Sciences,Seoul National University,South Korea);Muthuswamy Sathishkumar(Singapore-Delft Water Alliance,National University of Singapore,2 Engineering Drive 2,Singapore 117577,Singapore);Kui-Jae Lee,Byung-Taek Oh(Division of Biotechnology,College of Environment and Bioresources Sciences,Chonbuk National University,South Korea) |
| 摘 要: | |
| 收稿时间: | 17 August 2009 |
| 修稿时间: | 4 November 2009 |
Isolation, identification, Pb(II) biosorption isotherms and kinetics of a lead adsorbing Penicillium sp. MRF-1 from South Korean mine soil |
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| Natarajan Velmurugan,Grim Hwang,Muthuswamy Sathishkumar,Tae Kie Choi,Kui-Jae Lee,Byung-Taek Oh,Yang-Soo Lee.Isolation, identification, Pb(II) biosorption isotherms and kinetics of a lead adsorbing Penicillium sp. MRF-1 from South Korean mine soil[J].Journal of Environmental Sciences,2010,22(7):1049-1056. | |
| Authors: | Natarajan Velmurugan Grim Hwang Muthuswamy Sathishkumar Tae Kie Choi Kui-Jae Lee Byung-Taek Oh and Yang-Soo Lee |
| Institution: | 1. Department of Forest Science and Technology,Institute of Agriculture and Life Sciences,Chonbuk National University,South Korea 2. College of Agriculture and Life Sciences,Seoul National University,South Korea 3. Singapore-Delft Water Alliance,National University of Singapore,2 Engineering Drive 2,Singapore 117577,Singapore 4. Division of Biotechnology,College of Environment and Bioresources Sciences,Chonbuk National University,South Korea |
| Abstract: | A heavy metal contaminated soil sample collected from a mine in Chonnam Province of South Korea was found to be a source of heavy metal adsorbing biosorbents. Chemical analyses showed high contents of lead (Pb) at 357 mg/kg and cyanide (CN) at 14.6 mg/kg in the soil. The experimental results showed that Penicillium sp. MRF-1 was the best lead resistant fungus among the four individual metal tolerant fungal species isolated from the soil. Molecular characterization of Penicillium sp. MRF-1 was determined using ITS regions sequences. E ects of pH, temperature and contact time on adsorption of Pb(II) by Penicillium sp. MRF-1 were studied. Favorable conditions for maximum biosportion were found at pH 4 with 3 hr contact time. Biosorption of Pb(II) gradually increased with increasing temperature. E cient performance of the biosorbent was described using Langmuir and Freundlich isotherms. Adsorption kinetics was studied using pseudo first-order and pseudo second-order models. Biosorbent Penicillium sp. MRF-1 showed the maximum desorption in alkali conditions. Consistent adsorption/desorption potential of the biosorbent in repetitive cycles validated the e cacy of it in large scale. SEM studies given notes on surface modification of fungal biomass under metal stress and FT-IR results showed the presence of amino groups in the surface structure of the biosorbent. In conclusion, the new biosorbent Penicillium sp. MRF-1 may potentially be used as an inexpensive, easily cultivatable material for the removal of lead from aqueous solution. |
| Keywords: | heavy metal resistant fungus Penicillium sp biosorption isotherms kinetics |
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