• 关键词：高效降油菌  石油污染土壤  接种量  生物修复

• 基金项目：国家自然科学基金资助项目(No.50378077)

• 徐金兰
• 西安建筑科技大学环境与市政工程学院, 西安710055

• 黄廷林
• 西安建筑科技大学环境与市政工程学院, 西安710055

• 唐智新
• 西安建筑科技大学环境与市政工程学院, 西安710055

• 肖洲强
• 西安建筑科技大学环境与市政工程学院, 西安710055

• 摘要：从陕北石油污染土壤中富集分离、优选出7株菌株,并进一步研究了7株菌的生理生化特性.菌株鉴定结果表明,SY₂₁为不动细菌属,SY₂₂为奈瑟氏球菌属,SY₂₃为邻单胞菌属、SY₂₄为黄单胞菌属、SY₄₂为动胶菌属、SY₄₃为黄杆菌属、SY₄₄为假单胞菌属.7株菌的降油试验结果表明,降解8d后,加菌试样的石油烃降解率均达到80%左右,7株菌的石油烃降解速率高于目前已有的报道.接种量越大,石油菌数量越多,石油烃降解率随接种量的增加而提高.采用SY₄₃和SY₂₃菌株对土壤进行生物修复,试验结果表明,投加高效菌株SY₄₃和SY₂₃均可在较短的时间内将土壤中的石油污染物去除,去除率可达88.4%和73.4%,其中菌株SY₄₃的修复效果优于SY₂₃.

• Abstract：7 strains of bacteria were isolated from petroleum-contaminated soil in north of Shaanxi province and their physiological characteristics were investigated. Results showed that strain SY₂₁ was Acinetobacter sp., strain SY₂₂ Neisseria sp., strain SY₂₃ Plesiomonas sp., strain SY₂₄ X anthomonas sp., strain SY₄₂ Azotobacter sp., strain SY₄₃ Flavobacterium sp., and strain SY₄₄ Pseudomonas sp.. Removal efficiency of the bacteria to TPH (Total Petroleum hydrocarbon) reached about 80% after 8 days' inoculation, which is higher than that of bacteria reported. For strain SY₄₃, the more inoculation the higher removal efficiency to TPHachieved. The experiment of application strain SY₄₃ and SY₂₃ to remedy petroleum-contaminated soil indicated that they could remove 88.4% and 73.4% of TPH, respectively within short period. The strain SY₄₃ was more efficient in bioremediation than that of SY23.

• Key words：petroleum-degradation bacterial  oil-contaminated soils  inoculation  bioremediation

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