Polycyclic aromatic hydrocarbon (PAH)–degrading bacteria were isolated from aviation fuel contaminated soil at Inua Eyet Ikot in Ibeno, Nigeria. PAH-degrading bacteria in the contaminated soil were isolated by enrichment culture technique. Isolates with high PAH degrading potential characterized by their extensive growth on PAH-supplemented minimal salt medium were screened for their naphthalene, phenanthrene and chrysene degradability. The screening medium which contained selected PAHs as the sole source of carbon and energy showed that Micrococcus varians AFS-2, Pseudomonas putida AFS-3 and Alcaligenes faecalis AFS-5 exhibited a concentration–dependent growth in all the PAH–compounds tested. There were visible changes in the color of growth medium suggesting the production of different metabolites. Their acclimation to different PAH substrates was also evident as A. faecalis AFS-5 isolated from chrysene grew well on other less complex aromatic compounds. The isolate exhibited best growth (0.44 OD600) when exposed to 10 ppm of chrysene for 5 days and could utilize up to 90 ppm of chrysene. This isolate and others with strong PAH-degrading potentials are recommended for bioremediation of PAHs in aviation fuel-contaminated sites in the tropics.
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机译:在尼日利亚伊比诺的Inua Eyet Ikot,从航空燃料污染的土壤中分离了降解多环芳烃(PAH)的细菌。利用富集培养技术分离了污染土壤中降解多环芳烃的细菌。筛选具有高PAH降解潜能的菌株,其特征在于它们在添加了PAH的基本盐培养基上广泛生长,并对其萘,菲和and的可降解性进行了筛选。包含选定的PAHs作为唯一碳和能量来源的筛选介质表明,在所有测试的PAH化合物中,瓦克微球菌AFS-2,恶臭假单胞菌AFS-3和粪便产碱菌AFS-5都显示出浓度依赖性的生长。生长培养基的颜色出现明显变化,表明产生了不同的代谢产物。它们对不同PAH底物的适应性也很明显,因为从车菊中分离出的屎肠球菌AFS-5在其他不太复杂的芳香族化合物上生长良好。当暴露于10 ppm的菊花5天时,分离株表现出最佳的生长(0.44 OD 600 ),并且可以利用高达90 ppm的菊花。建议在热带地区受航空燃料污染的地区使用这种分离物和其他具有强PAH降解潜能的生物进行PAH的生物修复。
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