环境科学与技术
環境科學與技術
배경과학여기술
ENVIRONMENTAL SCIENCE & TECHNOLOGY
2010年
5期
15-20
,共6页
朱生凤%梁生康%吴亮%宋丹丹%吴婷%陈宇
硃生鳳%樑生康%吳亮%宋丹丹%吳婷%陳宇
주생봉%량생강%오량%송단단%오정%진우
石油烃污染物%生物表面活性剂%鼠李糖脂%生物可利用性%生物降解
石油烴汙染物%生物錶麵活性劑%鼠李糖脂%生物可利用性%生物降解
석유경오염물%생물표면활성제%서리당지%생물가이용성%생물강해
petroleum hydrocarbon contaminant%biosurfactant%rhamnolipid%bioavailability%biodegradation
考察了外加鼠李糖脂生物表面活性剂和接种鼠李糖脂产生菌O-2-2对混合烃类降解菌降解原油的影响.结果表明,在降解体系中添加鼠李糖脂使原油20天的降解率由35.7%提高到57.6%.加入鼠李精脂可同时提高烷烃和芳烃的降解率.在降解体系中接人菌株O-2-2能够快速利用石油烃中的烷烃类化合物并合成鼠李糖脂类生物表面活性刺,从而有效提高总石油烃的降解率.体系中菌株O-2-2的接入虽然使饱和烃的降解率大大提高,却降低了芳烃的降解率;这说明菌株O-2-2和其它烃类降解菌之间可能存在竞争生长关系.
攷察瞭外加鼠李糖脂生物錶麵活性劑和接種鼠李糖脂產生菌O-2-2對混閤烴類降解菌降解原油的影響.結果錶明,在降解體繫中添加鼠李糖脂使原油20天的降解率由35.7%提高到57.6%.加入鼠李精脂可同時提高烷烴和芳烴的降解率.在降解體繫中接人菌株O-2-2能夠快速利用石油烴中的烷烴類化閤物併閤成鼠李糖脂類生物錶麵活性刺,從而有效提高總石油烴的降解率.體繫中菌株O-2-2的接入雖然使飽和烴的降解率大大提高,卻降低瞭芳烴的降解率;這說明菌株O-2-2和其它烴類降解菌之間可能存在競爭生長關繫.
고찰료외가서리당지생물표면활성제화접충서리당지산생균O-2-2대혼합경류강해균강해원유적영향.결과표명,재강해체계중첨가서리당지사원유20천적강해솔유35.7%제고도57.6%.가입서리정지가동시제고완경화방경적강해솔.재강해체계중접인균주O-2-2능구쾌속이용석유경중적완경류화합물병합성서리당지류생물표면활성자,종이유효제고총석유경적강해솔.체계중균주O-2-2적접입수연사포화경적강해솔대대제고,각강저료방경적강해솔;저설명균주O-2-2화기타경류강해균지간가능존재경쟁생장관계.
The effect of adding rhamnolipid and inoculating biosurfactant-producing strain to the biodegradation system of petroleum hydrocarbons was investigated. The addition of rhamnolipid increased the biodegradation extent of total petroleum hydrocarbon from 35.7% to 57.6% within 20 days. The biodegradation rates of both saturate and aromatic fractions were enhanced.Biosurfactant-producing strain O-2-2 could utilize saturate fractions of crude oil and excrete rhamnolipid biosurfactant,resulting in a higher biodegradation of total petroleum hydrocarbon. Co-inoculating biosurfactant-producing strain O-2-2 could enhance the biodegradation of saturate fractions greatly, but decrease that of aromatic fractions, which indicated that there might be competition between biosurfactant-producing strain and the hydrocarbon-degrading consortium.