疏水性石油烃降解菌细胞表面疏水性及降解特性

从石油污染的土壤中分离纯化得到3株能以石油为唯一碳源和能源生长的石油烃降解菌,分别命名为HDB-1、HDB-2、HDB-3,并采用微生物粘着碳烃化合物法(MATH)对3株菌株的细菌表面疏水性及其环境影响因子进行研究.结果表明:二甲苯-水两相体系适用于3种细菌表面疏水性研究;HDB-1、HDB-2、HDB-3的疏水性分别为68.8%、57.4%、64.1%;随培养时间、碳源的不同和温度、pH的改变,细菌表面疏水性均发生不同程度变化;6d后初始含油量为1000mg/L的培养液的去除率分别为91.6%、64.5%、79.8%.结果还表明,细菌的细胞表面疏水性与其在环境中对有机污染物的降解呈一定的相关性,疏水性大的细菌对疏水性有机物的降解速度较疏水性小的快.

Cell-Surface Hydrophobicity and Degradation Characteristics of Hydrophobic Hydrocarbon Degrading Bacteria

Three high efficient hydrocarbon degrading bacteria named HDB-1HDB-2HDB-3 were separated from the oil contaminant soil. This paper studied on the cell-surface hydrophobicity of these three bacteria and environment influence factor by MATH,and the results show that the xylene-water two-phase system is suitable for studying the cell-surface hydrophobicity of three bacteria; the cell-surface hydrophobicities of HDB-1,HDB-2 and HDB-3 are respectively 68.8%,57.4% and 64.1%; the hydrophobicity changed with the difference of cultivation and time,carbon source temperature and pH value; the removal ratio of (1 000) mg/L oil content for 6 day can reach 91.6%,64.5% and 79.8%.The hydrophobicity is related definitely with the degradation of the organic pollutant, and the degradation rate of hydrophobic organic by the bacteria of high hydrophobicity is quicker than that by the bacteria of low hydrophobicity.