多氯代二苯并-对-二噁的微生物降解

从多氯代二苯并-对-二噁(PCDDs)污染的土壤和含氧沉积物中分离筛选出8株降解PCDDs的菌株,均能以一氯代和二氯代二为单一碳源和能源生长并使其降解,多数几乎不能降解三氯代二噁.但是,用邻二氯苯作为初级营养共代谢物,可以增强菌株对较高氯代二噁(如三氯代和四氯代二噁)的降解能力.利用所筛选菌株中的1株,经鉴定为假单胞菌EE41(Pseudomonas sp.EE41).降解试验结果表明,1,2,3-TrCDD在浓度为1.2mg/L时3周内可降解33%,2,3,7,8-TCDD在0.1 mg/L时3周内最多可降解37.8%.试验的高氯代二噁(pCDD,H6-CDD,H7-CDD和OCDD)则只被菌体强烈吸收并积累,却不能被降解.

Microbial Degradation of Polychlorinated Dibenzo-p-dioxins

PCDDs-degrading bacterial strains were isolated from soil and oxic-sediments polluted by PCDDs. One of them was identified as Pseudomonas sp. EE41. They are capable of growing on and degrade mono- and di-chlorinated dibenzo-p-dioxins as a sole carbon source. The biodegradability of TrCDD and TCDD can be enhanced through primary nutrient of co-metabolism of o-CDB, thus, 1,2,3-TrCDD and 2,3,7,8-TCDD were degraded by 33% (at the concentration of 1.2mg/L, within 3 weeks) and 37.8 % (at the concentration of 0.1mg/L, within 3 weeks) respectively. Most highly chlorinated dibenzo-p-dioxins (P-CDD, H6-, H7-CDD and OCDD) tested in this study were accumulated in bacterial cells, but could not be degraded.