排序方式: 共有74条查询结果,搜索用时 31 毫秒
31.
为有效治理石油污染土壤,从长期遭受石油污染的土壤中筛选出一株烃降解菌8-11作为出发菌,利用低能N+注入烃降解菌进行诱变,在能量为20 keV、剂量为90×2.6×1013ions/cm2条件下筛选出一株高效烃降解菌——诱变菌23。原油摇瓶发酵实验表明诱变菌对原油的降解率达到74%;降解后原油的全烃气相色谱图显示,经过7 d的作用,原油中的正构烷烃完全降解。诱变菌23能够产生大量的生物表面活性物质,傅里叶红外光谱分析表明其产生的生物活性物质为糖脂类化合物,该糖脂类生物表面活性剂能使发酵液的表面张力从空白对照的56.1 mN/m降低为29.3 mN/m。研究表明诱变菌23具有较高的烃降解能力,能有效降低表面张力,具有较大的应用潜力。 相似文献
32.
利用液相色谱/质谱联用仪(HPLC-ESI-MS)分析了石油降解菌Pseudomonas aeruginosa W3以甘露醇为碳源所产鼠李糖脂生物表面活性剂的组成.结果表明,所产鼠李糖脂共检出6种主要的鼠李糖脂同系物,均由1~2个鼠李糖分子和1~2个含β羟基的碳链长度为8~12的饱和或不饱和脂肪酸分子构成,其主要组分的m/z为649.6和621.5,对应的结构是RhaRhaC10C10和RhaRhaC8C10,分别占总检出物质量的57%和15.5%.该鼠李糖脂混合物中双鼠李糖脂的含量达到90%,是目前报道的双鼠李糖脂含量较高的菌株之一.该糖脂类生物表面活性剂可将水的表面张力从71.4mN.m-1降到30.5mN.m-1,临界胶束浓度为48mg·L-1,在高温、高盐度及高pH等极端环境下,仍能保持较高的表面活性和乳化能力,在生物修复中具有潜在应用价值. 相似文献
33.
The objective of this study was to examine the effect of biosurfactant on sorption of phenanthrene (PHE) onto the original or H2O2-treated black loamy soil (typic isohumisols) and red sandy soil (typic ferralisols). The sorption isotherms were performed with the original and "soft" carbon-removed soils in the presence and absence of biosurfactant (200 mg/L). The sorption and degradation of biosurfactant were investigated. The result showed that organic matter played an important role in PHE sorption onto the black loamy and red sandy soils, and the PHE sorption isotherms on the "soft" carbon-removed soils exhibited more nonlinearity than those on the original soils. The values of partition coefficient (Kd) on the original black loamy soil with or without 200 mg/L biosurfactant were 181.6 and 494.5 mL/g, respectively. Correspondingly, in the red sandy soil, Kd was 246.4 and 212.8 mL/g in the presence or absence of biosurfactant, respectively. The changes of Kd suggested that biosurfactant inhibited PHE sorption onto the black loamy soil, but facilitated PHE sorption onto the red sandy soil. The nonlinearity of PHE sorption isotherm was decreased in the presence of biosurfactant. Site specific sorption might occur during PHE sorption onto both the original and the "soft" carbon-removed soils in the presence of biosurfactant. It was noted that biosurfactant could also be sorbed onto soils. The maximal sorption capacity of the red sandy soil for biosurfactant was (76.9 ± 0.007) μg/g, which was 1.31 times that of black loamy soil. Biosurfactant was degraded quickly in the two selected soils, and 92% of biosurfactant were mineralized throughout the incubation experiment for 7 d. It implied that biosurfactant should be added frequently when the remediation of polycyclic aromatic hydrocarbon (PAH)-contaminated soils was conducted through PAH desorption approach facilitated by biosurfactant. 相似文献
34.
The objective of this study was to examine the effect of biosurfactant on the sorption of phenanthrene (PHE) onto the original or
H2O2-treated black loamy soil (typic isohumisols) and red sandy soil (typic ferralisols). The sorption isotherms were performed with
the original and “soft” carbon-removed soils in the presence and absence of biosurfactant (200 mg/L). The sorption and degradation
of biosurfactant were investigated. The result showed that organic matter played an important role in PHE sorption onto the black
loamy and red sandy soils, and the PHE sorption isotherms on the “soft” carbon-removed soils exhibited more nonlinearity than those
on the original soils. The values of partition coe cient (Kd) on the original black loamy soil with or without 200 mg/L biosurfactant
were 181.6 and 494.5 mL/g, respectively. Correspondingly, in the red sandy soil, Kd was 246.4 and 212.8 mL/g in the presence or
absence of biosurfactant, respectively. The changes of Kd suggested that biosurfactant inhibited PHE sorption onto the black loamy
soil, but facilitated PHE sorption onto the red sandy soil. The nonlinearity of PHE sorption isotherm was decreased in the presence
of biosurfactant. Site specific sorption might occur during PHE sorption onto both the original and the “soft” carbon-removed soils in
the presence of biosurfactant. It was noted that biosurfactant could also be sorbed onto soils. The maximal sorption capacity of the
red sandy soil for biosurfactant was (76.9 0.007) g/g, which was 1.31 times that of black loamy soil. Biosurfactant was degraded
quickly in the two selected soils, and 92% of biosurfactant were mineralized throughout the incubation experiment for 7 d. It implied
that biosurfactant should be added frequently when the remediation of polycyclic aromatic hydrocarbon (PAH)-contaminated soils was
conducted through PAH desorption approach facilitated by biosurfactant. 相似文献
35.
The kinetics of the recombinant Coprinus cinereus peroxidase-catalyzed 2-naphthol oxidation was investigated in the presence of rhamnolipid biosurfactant JBR425 and synthetic surfactant Surfynol465 at pH 5.5 and 25℃, with concentrations of (bio)surfactants both less than critical micelle concentrations (CMC) and larger than CMC. It was shown that monomers of JBR425 as well as monomers of Surfynol465 had an enhancing effect on the conversion of 2-naphthol in dose response manner and did not influence the initial rate of 2-naphthol oxidation. The results were accounted by a scheme, which contains a stadium of enzyme inhibition by oligomeric 2-naphthol oxidation products. The action of the biosurfactant's (or synthetic surfactant's) monomers was explained by avoidance of the enzyme active center clothing with oligomers. Similar results have demonstrated the potential of rhamnolipid biosurfactant JBR425 due to its biodegradability. When biosurfactants' concentrations are larger than CMC, (bio)surfactants have an opposite effect on the oxidation of 2-naphthol by peroxidase. 相似文献
36.
产生物表面活性剂耐盐菌的筛选鉴定及其对石油污染盐渍化土壤的修复作用 总被引:2,自引:0,他引:2
为得到高效产生物表面活性剂耐盐菌,从黄河三角洲石油污染盐渍化土壤中分离出41株细菌,经测定发酵液排油活性、表面张力和乳化值(EI24),得到1株高效产生物表面活性剂耐盐菌BF40.通过形态、生理生化特征和16S rDNA序列分析,确定该菌为沙雷氏菌(Serratia sp.).通过液体培养试验,研究了BF40的耐盐特性和降解原油能力,并通过室内土壤培养试验研究了BF40及其产生的生物表面活性剂对石油污染盐渍化土壤的修复作用.结果表明,在含5~70 g·L-1NaCl液体培养基中BF40生长良好,属中度耐盐菌.BF40能有效利用原油,在含10 g·L-1NaCl液体培养基中培养7d,原油降解率达到56.7%.添加BF40产生的生物表面活性剂或接入BF40能明显促进盐渍化土壤石油烃的降解,修复60 d,土壤石油去除率与对照相比分别提高了24.6%和13.4%.接种BF40能降低土壤溶液表面张力,明显提高土壤脱氢酶活性,更能有效促进沥青质降解.添加生物表面活性剂土壤脱氢酶活性与对照相比没有显著差异,但更能有效降低土壤溶液表面张力,促进饱和烃降解,表明接种BF40和添加生物表面活性剂可能对促进石油污染盐渍化土壤的生物修复存在不同作用机制. 相似文献
37.
An inhibitory effect of a traditional Japanese fermented food, natto, was found against plant pathogens such as Rhizoctonia solani and Fusarium oxysporum, and the bacteria which showed inhibition were isolated from the natto. Among isolated bacteria, BC-1 and GAc exhibited a strong antagonistic effect in vitro against plant pathogens on an agar medium. The supernatant of bacterial culture also showed strong activity against R. solani, which meant the antimicrobial substances were produced and secreted into the medium. Both of the bacteria were estimated as Bacillus amyloliquefaciens from a partial sequence of the 16s rRNA gene. High performance liquid chromatography analysis clearly showed the production of the lipopeptide antibiotic iturin A by BC-1 and GAc. 相似文献
38.
生物表面活性剂茶皂素离子浮选去除废水中镉离子 总被引:11,自引:0,他引:11
对生物表面活性剂茶皂素作为离子浮选剂去除废水中镉离子的能力进行了研究,对影响去除率和富集比的物理因素(包括溶液初始pH值、C茶皂素CCd2+(摩尔比)、离子强度(NaCl和NaNO3))和动力学参数(包括浮选时间和通气量)进行了考察.C茶皂素CCd2+=2∶1,pH为6.0,通气量为0.15L·min-1时得到了最佳去除效果,去除率达到85.87%,Cd2+的富集比达到19.43;而在C茶皂素CCd2+=2∶1,pH为8.0,通气量0.15L·min-1时,Cd2+去除率达到70.97%,富集比高达32.17.随着溶液离子强度的增强,镉离子去除率和富集比显著降低.泡沫浓缩液中加碱回收Cd2+,回收率为79.62%. 相似文献
39.
40.