Analysis of the bacterial genera associated with the rhizosphere of Cyperussp., Parkiasp., Panicumpariflorium, Zea mays, Elaeisguineensis inpetroleum hydrocarbon contaminated soil in Ugada, Imo State, Nigeria was done. The study shows that densities of total culturable heterotrophic and hydrocarbon-utilizing bacteria varied with the type of plant and were higher in the contaminated rhizosphere than in the contaminated bulk soil (non- rhizosphere) of all the plants. Unlike the result of total culturable heterotrophic counts in the bulk soil, the mean counts of the hydrocarbon-utilizing bacteria were higher in the contaminated bulk soil for all plants. Elaeisguineensis, gave the lowest mean counts for both total culturable heterotrophic and hydrocarbon-utilizing bacteria of all the plants studied, this may be as a result of some of the plant’s exudates not stimulating all the bacterial community. Statistical analysis showed no significant difference (P>0.05) between the rhizosphere and bulk of total culturable heterotrophic and hydrocarbon-utilizing bacterial counts in both contaminated and uncontaminated soils. The hydrocarbon-utilizing bacterial genera isolated and identified were Acinetobacter, Arthrobacter, Alcaligenes, Bacillus, Flavobacterium, Micrococcus, Pseudomonas spp. These isolates were able to grow on petroleum hydrocarbon at different growth rates indicating that they can be used as seeds for bioaugmentation during remediation of petroleum contaminated soil.
| [1] | R.C. John, M.M. Akpan, J.P. Essien and D. I.Ikpe,“Impact of crude oil pollution on the densities of nitrifying and denitrifying bacteria in the rhizosphere of tropical legumes grown on wetland soil”. Nig. J. Micro. XXIV(1) pp2088-2094, 2010. |
| [2] | I. Kuiper, E.L. Lagendijk, G.V.Bloemberg and B.J.J Lugtenberg. Rhizoremediation: A beneficial plant-microbe interaction”. Mol. Plant-Microbe Interact. XVII(1) pp6-15, 2004.View Article |
| [3] | C.U. Edema, T.E. Idu and M.O. Edema. “Remediation of soil contaminated with polycyclic aromatic hydrocarbons from crude oil”. African Journal of Biotechnology, X(7) pp1146-1149, 2011. |
| [4] | G. Plaza, G. Nalecz-Jawecki, K.Ulfig and R.L. Brigmon.“The application of bioassays as indicators of petroleum-contaminated soil remediation”. Chemosphere, 59pp289-296, 2005. |
| [5] | B. Stenuit, L. Eyers, L. Schuler, S.N. Agathos and I.George. “Emerging high-throughput approaches to analyze bioremediation of sites contaminated with hazardous and/or recalcitrant wastes”. Biotechnology Advances, 26pp561-575, 2008. |
| [6] | J.Juhanson, J.Truu, E.Heinaru and A.Heinaru. ‘Temporal dynamics of microbial community in soil during phytoremediation field experiments”. JEELM. XV (4) pp 213-220, 2007. |
| [7] | X.D. Huang, A.Yousef, G. Jolanta, G.R. Bernard and G.M. Bruce. ‘A multi-process phytoremediation system for decontamination of persistent total petroleum hydrocarbon (TPH) from soil’. Microchem J, 81, pp139-147, 2005.View Article |
| [8] | S.H. Hong, H.W.Ryu, J. Kim and K.S. Cho, ‘Rhizoremediation of diesel-contaminated soil using the plant growth-promoting rhizobacterium Gordonia sp. S2RP-17’. Biodegradation. 2010. |
| [9] | G.O. Abu and P.A. Ogiji,‘Initial test of a bioremediation scheme for the clean-up of an oil-polluted water body in rural community in Nigeria’. Bioresources Technology, 58, pp7-12, 1996.View Article |
| [10] | G.C. Okpokwasili and B.B,Okorie. ‘Biodeterioration potential of microorganisms isolated from car engine lubricating oil’. Tribology International, 21, pp215-217, 1988.View Article |
| [11] | J.G. Holt, N.R.Kieg, P.H.A. Sneath, J.T.Staley and S.T. Williams, Bergey’s Manual of Determinative Bacteriology. 9th edition. Williams and Wilkins Pub. Co. Baltimore, Maryland, USA. 1994 |
| [12] | I.R. Schaffner, J.M. Wieck, C.F. Wright, M.D. Katz and E.W. Pickering. ‘Microbial enumeration and laboratory-scale microcosm studies in assessing enhanced bioremediation potential of petroleum hydrocarbons. In Proceedings of the 11th Annual conference on contaminated soil, University of Masschsetts at Amherst. 1996 |
| [13] | G.T. Hill, N.A. Mitkowski, L. Aldrich-Wolfe, L.R. Emele, D.D. Jurkoine, A. Ficke, S. Maldonao- Ramirez, S.T. Lynch and E.B. Nelson, ‘Methods for Assessing the Composition of and Diversity of Soil Microbial Communities’. J. Appl. oil Ecol, 15. pp 25-36, 2000. |
| [14] | J.G. Leahy and R.R. Colwell, ‘Microbial degradation of hydrocarbons in the environment’. Microbial. Rev.54 pp 305–315, 1990. |
| [15] | M. Tesar, T.G. Reichenauer and A. Sessitsch. ‘Bacterial rhizosphere populations of blank poplar and herbal plants to be used for phytoremediation. J. Soil Biol’. Biochem.34pp1883- 892, 2002. |
| [16] | M.L.U. Ibrahim, J.J. Ijah, S.B. Manga and A.B. Rabah, ‘Occurrence of hydrocarbon utilizing bacteria in the rhizosphere of Eucalyptus camaldulensis, Lablab purpureus and Moringaoleifera’, IJPAS, II(3) pp21-26, 2008. |
