紫外诱变选育高效降酚微生物

用紫外线作为诱变剂,处理由燕化炼油厂污水厂的活性污泥中驯化筛选得到的降酚菌株,好氧条件筛选出2种高效降酚微生物QH2、QH3,分别为紫外线照射2min和3min。通过正交实验可知,温度对QH2、QH3生长影响有非常显著的意义P<0.01,在30℃时生长良好。应用QH2、QH3菌种处理炼油厂含酚废水,菌种能够有效降解较为复杂的含酚污水,且QH2菌种处理效果最佳。     

一株对硫磷降解菌的诱变复壮研究

从长期施用对硫磷的土壤中筛选分离出1株能以对硫磷为唯一C源的菌株D10,研究微生物对有机磷农药的降解作用.鉴定表明,D10为不动杆菌属(Acinetobacter sp.)微生物,该菌株对农药对硫磷的最大耐受质量浓度为1 800 mg/L,但D10对农药对硫磷的降解率仅为25%.本文通过D10诱变复壮试验提高对硫磷降解率,结果表明,经紫外线(18 W)辐照10 s后,D10对农药对硫磷降解率提高至49.1%; 用0.8%盐酸羟胺溶液振荡处理30 min后,降解率为69.6%; 用60%土壤浸出液振荡培养48 h后,降解率为53.9%.对D10进行上述条件下的复合诱变,对硫磷降解率可达到82.8%.高效降解菌的选育为提高微生物对农药的降解奠定了基础.此外,通过改进有机磷农药萃取的前处理方法,使紫外分光光度法检测简便、精确,与气相色谱法检测结果拟合较好,具有一定实用价值.     

He-Ne激光诱变选育高效石油烃降解菌的研究

采用He-Ne激光器对绿针假单胞菌(Pseudomonas chlororaphis)进行激光诱变育种。在激光照射功率10 mW,时间10 min条件下,筛选到一株遗传性状稳定的高效石油烃降解菌PS 2。摇瓶实验发现当培养液中初始柴油含量为0.2%～0.5%(V/V)、温度为30℃左右、pH值为7～8的条件下,突变菌PS 2对石油烃的降解效果最好。在最适生长条件下,突变菌PS 2在120 h内将培养液中的石油烃完全降解且不存在延滞期,比出发菌株少用24 h。结果表明,He-Ne激光诱变育种技术是获得高效石油烃降解菌的有效途径之一。     

Humic Acids from Endemic Arsenicosis Areas in Inner Mongolia and from the Blackfoot-Disease Areas in Taiwan: A Comparative Study

The physical and chemical properties of humic acids (HA) extracted from drinking waters from the endemic arsenicosis areas in Inner Mongolia and from the Blackfoot disease (BD) areas in Taiwan are studied by using AAS (atomic absorption spectrophotometry), ICP-MS (inductively coupled plasma emission-mass spectrometry), IR (Infrared spectroscopy), FR (fluorescence spectrometry) and TLS (total luminescence spectroscopy) in order to shed light on the pathogenesis of BD with the concern as to whether the disease may eventually occur in arsenicosis-affected areas in the Mainland of China. Ames test and lipid peroxidation experiments were also conducted on these HA samples. It is found that water samples from the two regions are high in arsenic (As) with strong fluorescence and apparent positive correlations between As content, fluorescence, pH and total dissolved solids (TDS). The water samples are similar in fluorescence spectra but differ somewhat in IR and TLS between the two regions. The difference may be a reflection of the difference in radicals and structure of the HA owing to different hydrogeological conditions, and may also be related to the difference in their biological effects, i.e., HA from Inner Mongolia have a stronger ability to cause lipid peroxidation while HA from Taiwan exhibits a more prominent effect of mutation with respect to TA98(±S9).