用从长期 PCB 污染土壤中分离的微生物降解滴滴涕到七氯联苯。

Degradation of Di- Through Hepta-Chlorobiphenyls in Clophen Oil Using Microorganisms Isolated from Long Term PCBs Contaminated Soil.

机构信息

CSIR-National Environmental Engineering Research Institute (CSIR-NEERI), Nehru Marg, Nagpur, 440020 India.

出版信息

Indian J Microbiol. 2014 Sep;54(3):337-42. doi: 10.1007/s12088-014-0459-7. Epub 2014 Feb 26.

DOI:10.1007/s12088-014-0459-7

PMID:24891742

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4039729/

Abstract

Present work describes microbial degradation of selected polychlorinated biphenyls (PCBs) congeners in Clophen oil which is used as transformer oil and contains high concentration of PCBs. Indigenous PCBs degrading bacteria were isolated from Clophen oil contaminated soil using enrichment culture technique. A 15 days study was carried out to assess the biodegradation potential of two bacterial cultures and their consortium for Clophen oil with a final PCBs concentration of 100 mg kg(-1). The degradation capability of the individual bacterium and the consortium towards the varying range of PCBs congeners (di- through hepta-chlorobiphenyls) was determined using GCMS. Also, dehydrogenase enzyme was estimated to assess the microbial activity. Maximum degradation was observed in treatment containing consortium that resulted in up to 97 % degradation of PCB-44 which is a tetra chlorinated biphenyl whereas, hexa chlorinated biphenyl congener (PCB-153) was degraded up to 90 % by the consortium. This indicates that the degradation capability of microbial consortium was significantly higher than that of individual cultures. Furthermore, the results suggest that for degradation of lower as well as higher chlorinated PCB congeners; a microbial consortium is required rather than individual cultures.

摘要

本工作描述了在用作变压器油且含有高浓度多氯联苯（PCBs）的 Clophen 油中，选择的多氯联苯（PCBs）同系物的微生物降解。使用富集培养技术，从 Clophen 油污染土壤中分离出了土著 PCBs 降解细菌。进行了为期 15 天的研究，以评估两种细菌培养物及其混合物对终浓度为 100mg/kg 的 Clophen 油的生物降解潜力。使用 GCMS 测定了单个细菌和混合物对不同范围的 PCBs 同系物（二氯至七氯联苯）的降解能力。还测定了脱氢酶酶以评估微生物活性。在含有混合物的处理中观察到最大降解，导致四氯联苯（PCB-44）的降解率高达 97%，而六氯联苯同系物（PCB-153）的降解率高达 90%。这表明微生物混合物的降解能力明显高于单个培养物。此外，结果表明，对于低氯和高氯 PCB 同系物的降解，需要微生物混合物而不是单个培养物。

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