表面活性剂对分枝杆菌KR2生长的影响

研究了表面活性剂的浓度、离子类型和分子结构等对分枝杆菌KR2菌株生长的影响。结果表明，一些表面活性剂在低浓度时可以促进分枝杆菌KR2的生长，高浓度时则会抑制KR2菌株的生长。表面活性剂的离子类型对KR2菌株生长抑制作用的顺序为：阳离子活性剂TDTMA＞阴离子表面活性剂LAS＞非离子表面活性剂Tween80。表面活性剂的直链长度对KR2菌株生长的影响为：直链越短，对分枝杆菌KR2菌株生长的抑制作用越大。     

冶炼企业周边农田土壤的多环芳烃污染及其细菌群落效应

多环芳烃是一类持久性有机污染物,进入土壤后可能产生多方面生态效应。为研究多环芳烃对土壤微生物的影响,选取南京某冶炼企业周边农田样品,在分析污染物含量基础上,采用高通量测序、定量PCR等方法综合评价了土壤细菌多样性和组成以及多环芳烃降解细菌丰度等特征。17个土壤样品中,多环芳烃总量为0.25~31.08 mg·kg-1,并具有随污染源距离增加而降低的空间分布特征。与土壤理化性质如p H相比较,多环芳烃污染对土壤细菌的总体多样性和群落组成影响不显著。进一步分析发现多环芳烃与潜在降解微生物的相对丰度和降解功能基因(芳香环羟基化双加氧酶,PAH-RHDα)拷贝数显著正相关。污染较重样品的克隆、测序分析表明,土壤中PAH-RHDα基因主要属于革兰氏阳性细菌nid A3/fad A1类群,且与分支杆菌相关序列较为接近。这些结果综合评价了冶炼企业周边农田土壤多环芳烃污染对微生物群落的影响,提示土壤污染在多环芳烃潜在降解细菌中的富集作用,将为后续污染土壤生物修复提供重要科学依据。     

利用微生物絮凝剂处理煤泥水的试验研究

对利用微生物絮凝剂处理难于自然沉降的煤泥水进行试验研究，考察了草分枝杆菌这种微生物絮凝剂对煤泥水的絮凝效果，并确定了最佳工艺条件。研究结果表明，利用草分枝杆菌絮凝煤泥水具有较好的净化效果，处理后的煤泥水的各项指标均达到国家排放标准，并可回收利用煤泥水中的可燃物质，具有很好的经济效益和社会效益。     

草分枝杆菌及其吸附Pb2+后的可浮性研究

用草分枝杆菌作吸附剂,探讨了采用生物吸附-浮选法去除水中Pb²⁺的可能性,并对吸附剂与捕收剂的作用机理进行了分析.草分枝杆菌的浮选试验结果表明,阳离子型捕收剂对草分枝杆菌的捕收能力明显比阴离子型捕收剂的强.草分枝杆菌的吸附-浮选试验结果表明,浮选过程可在10min左右达到终点,pH在4～7时,阳离子型捕收剂对草分枝杆菌有较好的浮选去除率,Pb²⁺去除率也很高.当二正丁胺的浓度为45mmol/L,pH=4.75时,草分枝杆菌和Pb²⁺的去除率分别达到92%和98%.动电位测试表明,草分枝杆菌的等电点为pH=3.09;吸附Pb²⁺或与二正丁胺发生作用后,草分枝杆菌的等电点均有所增加.草分枝杆菌细胞壁表面具有较强的负电性,使得阳离子捕收剂对其具有较强的捕收能力,这对采用生物吸附-浮选法去除废水中的重金属离子可能会有重要意义.     

给水管网中耐氯性细菌的灭活特性研究

使用4种常见消毒剂对从实际管网中分离出来的7株耐氯性细菌进行消毒实验.结果表明,这7株细菌均具有较高的耐氯性,其中1株耐氯性最高的类龟分支杆菌自由氯99.9%灭活的CT值为120 mg.(L.min)-1,另外2株血红鞘氨醇单胞菌和甲基杆菌99.9%灭活的CT值分别为7 mg.(L.min)-1和4 mg.(L.min)-1.比较4种消毒剂的消毒效果发现,二氧化氯和单过硫酸氢钾的消毒效果较好,能够在30 min内使分支杆菌的灭活率达到5个数量级.自由氯由于衰减较快,消毒效果不佳.一氯胺能够维持一定的消毒剂浓度,但由于其氧化性较弱,因此需要提高浓度,才能满足消毒要求.能在1 h内灭活3个数量级以上分支杆菌的消毒剂投加量为:3.0 mg/L一氯胺、1.0 mg/L二氧化氯(以Cl2计)和1.0 mg/L单过硫酸氢钾(以Cl2计).考虑到我国水厂消毒的实际情况,建议采用间歇性提高一氯胺浓度或改换二氧化氯消毒的方法,提高对耐氯性细菌的灭活效果.     

Physicochemical soil parameters affecting sequestration and mycobacterial biodegradation of polycyclic aromatic hydrocarbons in soil

Six soils, obtained from grasslands and wooded areas in Northeastern Illinois, were physicochemically characterized. Measured parameters included total organic carbon (TOC) content, contents of humic acid, fulvic acid and humin, pore volume and pore size distribution, and chemical makeup of soil organic matter (determined using solid-state ¹³C-NMR). Moistened, gamma-sterilized soils were spiked with 200 ppm of either phenanthrene or pyrene (including ¹⁴C label); following 0, 40, or 120 days of aging, the contaminant-spiked soils were then inoculated with Mycobacterium austroafricanum strain GTI-23, and evolution of ¹⁴CO₂ was assessed over a 28-day period. Results for both phenanthrene and pyrene indicated that increased contact time led to increased sequestration and reduced biodegradation, and that TOC content was the most important parameter governing these processes. One soil, although only tested with phenanthrene, showed significantly lower-than-expected sequestration (higher-than-expected mineralization) after 40 days of aging, despite a very high TOC value (>24%). Because the level of sequestration in this soil was proportional to the others after 120 days of aging, this implies some difference in the temporal progression of sequestration in this soil, although not in its final result. The primary distinguishing feature of this soil was its considerably elevated fulvic acid content. Further experiments showed that addition of exogenous fulvic acid to a soil with very low endogenous humic acids/fulvic acids content greatly enhanced pyrene mineralization by M. austroafricanum. Extractabilities of 13 three- to six-ring coal tar PAHs in n-butanol from the six soils after 120 days of sequestration were strongly TOC-dependent; however, there was no discernible correlation between n-butanol extractability and mycobacterial PAH mineralization.     

两株降解芘的分枝杆菌的筛选鉴定及降解性能

为获得芘降解细菌,从中国南方地区采集了受PAHs严重污染的土壤与污泥样品.利用平板升华法,分离到2个菌株W52和W74.经形态观察、生理生化试验和16S rDNA的序列分析,2个菌株被鉴定为分枝杆菌属(Mycobacterium sp.).在含芘膜的固体平板上培养,W52和W74在23d中降解芘分别达到13.2Iμg和11.8μg.在含芘50mg·L-1和lOOmg·L-1的无机盐液体中培养,2d时W52的芘降解率达57.8%和20.5%.W74达19.2%和4.O%;随着培养时间的延长,芘降解率不断提高;在第10ci时W52的芘降解率分别达到96.3%和82.3%,W74达83.8%和64·5%.在固体和液体条件下降解芘的结果表明,W52降解芘的能力强于W74.鉴于W52和W74末端双加氧化酶中编码a大亚基的nida基因存在明显差异,推断二者降解芘的能力不同与它们的末端双加氧酶有关.