生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2013年
12期
1945-1950
,共6页
花莉%洛晶晶%彭香玉%解井坤%范洋
花莉%洛晶晶%彭香玉%解井坤%範洋
화리%락정정%팽향옥%해정곤%범양
生物表面活性剂%产物性质分析%降解%菌株
生物錶麵活性劑%產物性質分析%降解%菌株
생물표면활성제%산물성질분석%강해%균주
biosurfactants%product characterization%degradation%strains
微生物是组成生态系统的重要成员,在污染物去除中发挥着重要作用,是生物修复中的主力,然而在石油污染修复过程中,石油烃的疏水性会限制微生物对石油的降解,但一些微生物的细胞代谢物即生物表面活性剂,它是微生物在一定条件下代谢分泌产生的具有一定表面活性,集亲水基和疏水基结构于一分子的两亲性化合物,可以促进油的乳化,提高油的分散程度,增大菌株和油珠的接触机会,促进对石油烃的吸收和降解。在实验室分离得到了7株产表面活性剂石油降解菌株,经分子鉴定可知菌1和菌2都为粘质沙雷氏菌Serratia marcescens,菌3为居植物柔武氏菌Raoultella planticola,菌4,菌6和菌7都为克雷伯氏菌Klebsiella variicola,菌5为蜡状芽孢杆菌Bacillus cereus。主要研究了它们的生长与表面活性剂物质分泌状况的关系,发现随着时间增加,OD值随之增大,表面张力呈现下降趋势;并对菌株产物进行提取和薄层层析,离子型分析和红外光谱分析,初步判断其产物均为阴离子糖脂类;通过pH,初始油质量浓度,接种量和盐度4个单因素的变化研究菌1粘质沙雷氏菌,菌3居植物柔武士菌,菌5蜡状芽孢杆菌和菌6克雷伯氏菌对石油类物质降解能力,发现菌3居植物柔武氏菌和菌5蜡状芽孢杆菌降解性能较好;通过响应曲面法优化蜡状芽孢杆菌的降解条件,得出其最佳降解条件为pH为5.02,油质量浓度为3 g·L-1,接种量为1199.98μL,盐度为0.5 g·L-1时,在此条件下,菌株对石油的降解率为66.94%。
微生物是組成生態繫統的重要成員,在汙染物去除中髮揮著重要作用,是生物脩複中的主力,然而在石油汙染脩複過程中,石油烴的疏水性會限製微生物對石油的降解,但一些微生物的細胞代謝物即生物錶麵活性劑,它是微生物在一定條件下代謝分泌產生的具有一定錶麵活性,集親水基和疏水基結構于一分子的兩親性化閤物,可以促進油的乳化,提高油的分散程度,增大菌株和油珠的接觸機會,促進對石油烴的吸收和降解。在實驗室分離得到瞭7株產錶麵活性劑石油降解菌株,經分子鑒定可知菌1和菌2都為粘質沙雷氏菌Serratia marcescens,菌3為居植物柔武氏菌Raoultella planticola,菌4,菌6和菌7都為剋雷伯氏菌Klebsiella variicola,菌5為蠟狀芽孢桿菌Bacillus cereus。主要研究瞭它們的生長與錶麵活性劑物質分泌狀況的關繫,髮現隨著時間增加,OD值隨之增大,錶麵張力呈現下降趨勢;併對菌株產物進行提取和薄層層析,離子型分析和紅外光譜分析,初步判斷其產物均為陰離子糖脂類;通過pH,初始油質量濃度,接種量和鹽度4箇單因素的變化研究菌1粘質沙雷氏菌,菌3居植物柔武士菌,菌5蠟狀芽孢桿菌和菌6剋雷伯氏菌對石油類物質降解能力,髮現菌3居植物柔武氏菌和菌5蠟狀芽孢桿菌降解性能較好;通過響應麯麵法優化蠟狀芽孢桿菌的降解條件,得齣其最佳降解條件為pH為5.02,油質量濃度為3 g·L-1,接種量為1199.98μL,鹽度為0.5 g·L-1時,在此條件下,菌株對石油的降解率為66.94%。
미생물시조성생태계통적중요성원,재오염물거제중발휘착중요작용,시생물수복중적주력,연이재석유오염수복과정중,석유경적소수성회한제미생물대석유적강해,단일사미생물적세포대사물즉생물표면활성제,타시미생물재일정조건하대사분비산생적구유일정표면활성,집친수기화소수기결구우일분자적량친성화합물,가이촉진유적유화,제고유적분산정도,증대균주화유주적접촉궤회,촉진대석유경적흡수화강해。재실험실분리득도료7주산표면활성제석유강해균주,경분자감정가지균1화균2도위점질사뢰씨균Serratia marcescens,균3위거식물유무씨균Raoultella planticola,균4,균6화균7도위극뢰백씨균Klebsiella variicola,균5위사상아포간균Bacillus cereus。주요연구료타문적생장여표면활성제물질분비상황적관계,발현수착시간증가,OD치수지증대,표면장력정현하강추세;병대균주산물진행제취화박층층석,리자형분석화홍외광보분석,초보판단기산물균위음리자당지류;통과pH,초시유질량농도,접충량화염도4개단인소적변화연구균1점질사뢰씨균,균3거식물유무사균,균5사상아포간균화균6극뢰백씨균대석유류물질강해능력,발현균3거식물유무씨균화균5사상아포간균강해성능교호;통과향응곡면법우화사상아포간균적강해조건,득출기최가강해조건위pH위5.02,유질량농도위3 g·L-1,접충량위1199.98μL,염도위0.5 g·L-1시,재차조건하,균주대석유적강해솔위66.94%。
Microorganism, which is the main force in bioremediation, is an important member of ecosystem, and it plays an important role in pollutant removal. The hydrophobic of petroleum hydrocarbon may limit the degradation of organisms in the repair process of oil pollution. Some microbial cells metabolites, namely biosurfactants, which is secreted by microorganism under certain conditions and is amphiphilic compounds with combined structure of hydrophilic group and hydrophobic group in a molecule. These biosurfactants can promote oil emulsion, improve the dispersion of the oil, increase the contact opportunity between strain and oil bead and promote absorption and degradation of petroleum hydrocarbons. Seven oil degradation strains producing surfactants were isolated, of which bacteria 1 and bacteria 2 are Serratia marcescens, bacteria 3 is Raoultella planticola, bacteria 4, bacteria 6 and bacteria 7 are Klebsiella variicola, bacteria 5 is Bacillus cereus. The relationship between bacteria growth and the surfactant material secretion was studied and found that OD value increased while surface tension decreased with the increase of time. Extraction products of strains were examined by thin-layer chromatography, ion-type analysis and IR spectroscopy. Anion Glycolipid was found as the main components. Oil degradation capabilities of different strains were measured considering four single factor, pH, initial oil mass concentration, inoculation amount and salinity. Bacteria Raoultella planticola and bacteria Bacillus cereus had better degradation performance. Response surface methodology was used to study on Bacillus cereus degradation conditions. Its optimum degradation conditions were pH of 5.02, oil mass concentration of 3 g·L-1, inoculation amount 1 199.98μL, salt mass concentration of 0.5 g·L-1. In this condition, the oil degradation rate was 66.94%.
