BACTERIAL BIOSORPTION : AN ALTERNATIVE TREATMENT OPTION FOR HEAVY METAL MANAGEMENT

E. PARAMESWARP; A. LAKSHMANAN; T. THILAGAVATHI

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BACTERIAL BIOSORPTION : AN ALTERNATIVE TREATMENT OPTION FOR HEAVY METAL MANAGEMENT

机译：细菌生物吸附：重金属管理的替代处理方案

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A study was carried out to assess the heavy metal (Cr (VI) and Ni) removal efficiency of Azotohacter chroococcum, Bacillus sp. and Pseudomonas fluorescens isolated from sewage and sewage irrigated soils. The optimum time for maximum metal removal (82.58 %, 89.50 % and 95.54 % of Cr, 86.16 %, 84.32 % and 90.98 % of Ni by A. chroococcum, Bacillus sp. and P. fluorescens respectively) was foimd to be 72 hours at an initial metal concentration of 25 ppm. While comparing the percentage uptake, more amountof Cr (VI) was absorbed than Ni by Bacillus sp. and P. fluorescens. The percentage of Cr (VI) and Ni removal decreased with increasing initial metal concentration. The uptake of Cr (VI) and Ni increased as the incubation period advanced. The bioacccmulation of heavy metals by these bacterial isolates was observed to be in the order of P. fluorescens > Bacillus sp.> A. chroococcum.

机译：进行了一项研究，以评估绿脓杆菌（Bacillus sp。）的重金属（Cr（VI）和Ni）去除效率。从污水和污水灌溉的土壤中分离出的荧光假单胞菌。最佳金属去除的最佳时间（分别由铬球菌，芽孢杆菌和荧光假单胞菌分别去除82.58％，89.50％和95.54％的Cr，86.16％，84.32％和90.98％的Ni）为72小时。初始金属浓度为25 ppm。在比较摄取百分比时，芽孢杆菌吸收的铬（VI）比镍吸收的量更多。和荧光。 Cr（VI）和Ni去除的百分比随着初始金属浓度的增加而降低。随着潜伏期的延长，对Cr（VI）和Ni的吸收增加。观察到这些细菌分离物对重金属的生物富集程度为：荧光假单胞菌>芽孢杆菌>嗜铬曲霉。

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《Asian Journal of Microbiology, Biotechnology and Environmental Science》 |2010年第3期|共6页
作者
E. PARAMESWARP; A. LAKSHMANAN; T. THILAGAVATHI;
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原文格式 PDF
正文语种 eng
中图分类生物科学;
关键词
Biosorption; Chromium; Nickel; Bacterial isolates; Sewage.;

机译：生物吸附铬镍细菌分离物污水;

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1. BACTERIAL BIOSORPTION : AN ALTERNATIVE TREATMENT OPTION FOR HEAVY METAL MANAGEMENT [J] . E. PARAMESWARP, A. LAKSHMANAN, T. THILAGAVATHI Asian Journal of Microbiology, Biotechnology and Environmental Science . 2010,第3期

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BACTERIAL BIOSORPTION : AN ALTERNATIVE TREATMENT OPTION FOR HEAVY METAL MANAGEMENT

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