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Mercury removal and recovery by immobilized Bacillus megaterium MB1 被引量:1

Mercury removal and recovery by immobilized Bacillus megaterium MB1
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摘要 From several mercury removing microorgan- isms, we selected Bacillus megaterium MB 1, which is non- pathogenic, broad-spectrum mercury resistant, mercuric ion reducing, heat tolerant, and spore-forming, as a useful bacterium for bioremediation of mercury pollution. In this study, mercury removal performance of the immobilized B. megaterium MB1 was investigated to develop safe, efficient and stable catalytic bio-agent for mercury bioremediation. The results showed that the alginate gel immobilized B. megaterium MB 1 cells efficiently removed 80% of mercury from the solution containing 10mg/L mercuric chloride within 24 h. These cells still had high activity of mercury removal even after mercuric ion loading was repeated for nine times. The analysis of mercury contents of the alginate beads with and without immobilized B. megaterium MB1 suggested that a large portion of reduced metallic mercury was trapped in the gel beads. It was concluded that the alginate gel immobilized B. megaterium MB 1 cells have potential to remove and recover mercury from mercury-containing water. From several mercury removing microorgan- isms, we selected Bacillus megaterium MB 1, which is non- pathogenic, broad-spectrum mercury resistant, mercuric ion reducing, heat tolerant, and spore-forming, as a useful bacterium for bioremediation of mercury pollution. In this study, mercury removal performance of the immobilized B. megaterium MB1 was investigated to develop safe, efficient and stable catalytic bio-agent for mercury bioremediation. The results showed that the alginate gel immobilized B. megaterium MB 1 cells efficiently removed 80% of mercury from the solution containing 10mg/L mercuric chloride within 24 h. These cells still had high activity of mercury removal even after mercuric ion loading was repeated for nine times. The analysis of mercury contents of the alginate beads with and without immobilized B. megaterium MB1 suggested that a large portion of reduced metallic mercury was trapped in the gel beads. It was concluded that the alginate gel immobilized B. megaterium MB 1 cells have potential to remove and recover mercury from mercury-containing water.
作者 Meifang CHIEN Ryo NAKAHATA Tetsuya ONO Keisuke MIYAUCHI Ginro ENDO
机构地区 Faculty of Engineering
出处 《Frontiers of Chemical Science and Engineering》 SCIE EI CAS CSCD 2012年第2期192-197,共6页 化学科学与工程前沿(英文版)
关键词 mercury removal immobilized bacteria alginate gel BIOREMEDIATION mercury removal, immobilized bacteria, alginate gel, bioremediation
分类号 S959 [农业科学—水产养殖] O614.243 [理学—无机化学]
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参考文献18

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Frontiers of Chemical Science and Engineering
2012年 第2期

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