Identification and biodegradation potential of tropical aerobic hydrocarbon-degrading microorganisms

Screening of aerobic culturable hydrocarbon (HC)-degrading microorganisms isolated from petroleum-polluted soils and cyanobacterial mats from Indonesia resulted in the collection of 33 distinct species. Eight bacteria, 21 fungi and 4 yeasts were identified to the specific level by molecular and phen...

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Bibliographic Details
Published in:Research in microbiology 2004-09, Vol.155 (7), p.587-595
Main Authors: Chaillan, Frédéric, Le Flèche, Anne, Bury, Edith, Phantavong, Y-hui, Grimont, Patrick, Saliot, Alain, Oudot, Jean
Format: Article
Language:English
Subjects:
Aspergillus
Bacteria - isolation & purification
Bacteria - metabolism
Biodegradation
Biodegradation, Environmental
Biological and medical sciences
Brevibacterium
Burkholderia
Candida
Dietzia
Fuel Oils
Fundamental and applied biological sciences. Psychology
Fungi - isolation & purification
Fungi - metabolism
Fusarium
Gordonia
Graphium
Hydrocarbon
Hydrocarbons - metabolism
Indonesia
Microbiology
Mycobacterium
Neosartorya
Paecilomyces
Penicillium
Pichia
Soil Microbiology
Talaromyces
Tropical Climate
Yarrowia
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Summary:Screening of aerobic culturable hydrocarbon (HC)-degrading microorganisms isolated from petroleum-polluted soils and cyanobacterial mats from Indonesia resulted in the collection of 33 distinct species. Eight bacteria, 21 fungi and 4 yeasts were identified to the specific level by molecular and phenotypic techniques. Bacterial strains belonged to the genera Gordonia, Brevibacterium, Aeromicrobium, Dietzia, Burkholderia and Mycobacterium. Four species are new and not yet described. Fungi belonged to Aspergillus, Penicillium, Fusarium, Amorphoteca, Neosartorya, Paecilomyces, Talaromyces and Graphium. Yeasts were Candida, Yarrowia and Pichia. All strains were cultivated axenically in synthetic liquid media with crude oil as sole carbon and energy source. After incubation, the detailed chemical composition of the residual oil was studied by gravimetric and gas-chromatographic techniques. Thirteen parameters for assessing the biodegradation potential were defined and computed for each strain. Maximum degradation was observed on the saturated HCs ( n- and isoalkanes, isoprenoids), whereas aromatic HC degradation was lower and was related to the structural composition of the molecules. A principal components analysis (PCA) permitted grouping and classifying the strains as a function of their degradative capacities. It was shown that the most active strains produced polar metabolites which accumulated in the resins and asphaltene fractions. These fractions are highly resistant to microbial metabolism. No taxonomic trend could be defined between microbial phyla in terms of HC biodegradation activity.
ISSN:0923-2508
1769-7123
DOI:10.1016/j.resmic.2004.04.006