Journal
JOURNAL OF HAZARDOUS MATERIALS
Volume 170, Issue 1, Pages 495-505Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.jhazmat.2009.04.136
Keywords
Petroleum hydrocarbon; Biosurfactant; Solubility; Metabolism
Categories
Funding
- Oil and Natural Gas Corporation, India
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Biosurfactant can make hydrocarbon complexes more mobile with the potential use in oil recovery, pumping of crude oil and in bioremediation of crude oil contaminant. In the investigation, bacterial isolates capable of utilizing poly-cyclic aromatic hydrocarbons like phenanthrene, pyrene and fluorene were used. A gradual decrease of the supplemented hydrocarbons in the culture medium was observed with corresponding increase in bacterial biomass and protein. The medium having the combined application of fluorine and phenanthrene caused better biosurfactant production (0.45 g l(-1)) and (0.38 g l(-1)) by Pseudomonas aeruginosa strains MTCC7815 and MTCC7814. The biosurfactant from MTCC7815 (41.0 mu g ml(-1)) and MTCC7812 (26 mu g ml(-1)) exhibited higher solubilization of pyrene; whereas, MTCC8165 caused higher solubilization of phenanthrene; and that of MTCC7812 (24.45 mu g ml(-1)) and MTCC8163 (24.49 mu g ml(-1)) caused more solubilzation of fluorene. Higher solubilization of pyrene and fluorene by the biosurfactant of MTCC7815 and MTCC7812, respectively enhanced their metabolism causing sustained growth. Biosurfactants were found to be lipopeptide and protein-starch-lipid complex in nature and they could reduce the surface tension of pure water (72 mN m(-1)) to 35 mN m(-1). The critical micelle concentration (CMC) was also lower than the chemical surfactant sodium dodecyl sulphate (SDS). They differed in quantity and structure. The predominant rhamnolipids present in biosurfactants were Rha-C-8-C-10 and Rha-C-10-C-8. (C) 2009 Elsevier B.V. All rights reserved.
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