财团原位生物修复效率及精炼石油CO2演化方法的微观研究

S. Dutta, Padma Singh
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引用次数: 3

摘要

利用混合微生物群落在实验室进行了原位生物修复研究。将从印度不同油料污染地点分离到的两种假单胞菌和两种曲霉菌组合在一起,形成了一个本地微生物群落。实验室可行性研究在一个225平方米的区块中进行。六种处理方案:单独用油、用油+最佳补救剂、用油+细菌联合、用油+真菌联合、用油+混合微生物联合、用油+本地微生物群。在5个处理中,混合微生物联合体(Block 5)在处理结束(60天)后对精炼石油的降解率为55.12%,而细菌(Block 3)和真菌联合体(Block 4)的降解率分别为19.88%和18.07%。通过CO 2进化法验证了该菌群的生物修复能力。结果表明,培养12天后co2释放量为136.36%。16r DNA测序结果显示,菌株为铜绿假单胞菌,真菌形态分类为土曲霉(Aspergillus terrus, At)和黄曲霉(Aspergillus flavus, Af)。该联合体对精制石油合成混合物的降解能力使其在生物修复和微生物提高石油采收率方面具有潜在的应用价值。
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Efficiency of consortium for in-situ bioremediation and CO2 evolution method of refines petroleum oil in microcosms study
An in-situ bioremediation study was conducted in a laboratory by using mixed microbial consortium. An indigenous microbial consortium was developed by assemble of two Pseudomonas spp. and two Aspergillus spp. which were isolated from various oil contaminated sites of India. The laboratory feasibility study was conducted in a 225 m 2 block. Six treatment options-Oil alone, Oil+Best remediater, Oil+Bacterial consortium, Oil+Fungal consortium, Oil+Mixed microbial consortium, Oil+Indigenous microflora. Out of five treatments, the mixed microbial consortium (Block 5) degraded 55.12% refine petroleum oil compare to degradation of bacterial (Block 3) and Fungal consortium (Block 4) (i.e, degradation rate were 19.88% and 18.07% correspondingly) after the end of treatment (60 days). Bioremediation ability of this consortium was confirmed by CO 2 evolution method. The result showed that 136.36 % CO 2 release after 12 days incubation. 16r DNA sequencing showed that two bacterial species were Pseudomonas aeruginosa and morph taxonomical examination of fungus were Aspergillus terrus (At) and Aspergillus flavus (Af).The ability of degradation of  synthetic mixture of refine petroleum oils  makes the consortium potentially useful for bioremediation and microbial enhanced oil recovery.
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