Measuring The Viability Of Bacillus cereus Bacteria On The Biodegradation Of Crude Oil In Soil And Incubated At Varying Temperatures And Concentrations
DOI:
https://doi.org/10.36320/ajb/v10.i1.8202Keywords:
Crude oil, Bacillus cereus, BiodegradationAbstract
Forty-four isolates were isolated from soils of crude oil collected from different contaminated sites of crude oil refineries and reservoirs in Al-sulaymaniyah province on (MYP) medium. They were found to be Bacillus cereus bacteria. After phenotypic and biochemical tests, primary and secondary screening was performed on solid
Downloads
References
Bachmann, R.T., Johnson, A.C., Edyvean, R.G.J., (2014). Biotechnology in the petroleum industry: an overview. Int. Biodeterior. Biodegrad. 86, 225-237.
Chorom, M.; Hosseini S. S. and Motamedi H.(2010) . Bioremediation of crude oil polluted soil as affected by sewage-sludge.World Congress of Soil Science, Soil Solutions for a Changing World 19th : 4.
Harry, M. F.(1995). Industrial Pollution Handbook. McGraw Hil Inc., New York.
Wake, H. ( 2005). Oil refineries: A review of their ecological impacts on the aquatic environment. Estuar. Coast Shelf Sci., 62: 131–140.
ghalino, S. O. and Eyinla, B.( 2009). Oil exploration and marine pollution: Evidence from the Niger Delta, Nigeria . Journal of Human Ecology, Vol. 28 (3), 177-82.
Bay, S.; Jones, B. H.; Schiff, K. and Washburn, L. (2003). Marine Environmental Research, 56:205-223.
Kasai, Y.; Kishra, H.; syutsubo, k. and Harayama, S. (2001). Molecular detection of bacterial populations on beaches contaminated by the Nakhdka. Tanker oil – spill accident . Environ.Microbiol.2:246 -255.
Nasr, Raaed Baher (2000). Bacteriological and genetic study of the bacteria Pseudomonas .Spp consuming hydrocarbon compounds, Master letter, Faculty of Science, Baghdad / Iraq-Baghdad University.
Challiant, F.; Fleche L. E. A.; Bury E.; Phantavong T.H.; Grimont P.; Saliot A. and Oudot J.(2004). Identification and biodegradation potential of tropical aerobic hydrocarbon degrading microorganisms .Res. Microbial.755: 587- 595.
Ojo, O. A. 2006. Petroleum hydrocarbon utilization by native bacterial population from waste water canal south west Nigeria. Afr. J. Biotechnol. 5(4): 333 -337.
Jain, R. K.; Kapur, M.; Labana, S.; Lal, B.; Sarma, P. M.; Bhattacharya, D. and Thakur, I. S. (2005). Microbial diversity: application of microorganisms for the biodegradation of xenobiotics. Current Science 89(1): 101-112.
Mossel, D. A. A.; Koopman, M. J. and Jongerius, E. (1967). Enumeration of Bacillus cereus in Foods. Appl. Microbiol., 15; 650:653.
Aslim, B.; Yuksekdag, Z. N. and Beyatli, Y. (2002). Determination of PHB growth quantities of certain Bacillus species isolated from soil. Turkish Electronic Journal of Biotechnology.p. 24-30.
Macfadden, J. F. (2000).Biochemical tests for identification of medical bacteria .(3 rd ed)..Williams and Willikins company. USA .,pp.912.
Forbes, B. A.; Sahm, D. F. And Weissfeld, A. S. (2007). Bailey and Scott's Diagnostic microbiology 12th ed. Mobsy. V.S.A.P:266.
Malatova, A.; Sbirova, P. and Rastosdia, R.(2005). Isolation and characterization of hydrocarbon degrading bacteria from environmental habitats in western New York State. Journal of Applied Microbiology, 65: 780-790.
Kiyohara, H.; Takizawa, N. and Nagao, K. (1992).Natural distribution of bacteria metabolizing many kinds of polyaromatic hydrocarbons. J.Ferment. Bioeng.,74: 49–51.
Arafa, M. A. (2003). Biodegradation of some aromatic hydrocarbons (BTEXs) by a bacterial consortium isolated from polluted site in Saudi Arabia. Pak. J. Biol. Sci. 6(17): 1482-1486.
Marins, P. D.; Carvalho, F. D. D. D. and Lippel, S. A. J. G. (2002). Bioremediation of clay soils impacted by petroleum. Technology feature. PP: 29 – 32.
Randall, J. D. and Hemmingsen, B. B. (1994). Evaluation of mineral agar plates for the enumeration of hydrocarbon – degrading bacteria. J. Microbiol. Methods. 20: 103-113.
Abou-Shanab, R. A. I.; Eraky M. 1 ; Haddad A. M. 1. ; Abdelgaffar A. R. B. 2 and Salem A. M. 2.(2015).Characterization of crude oil degrading bacteria isolated from contaminated soils surrounding gas stations. Proceedings of the 14th International Conference on Environmental Science and Technology Rhodes, Greece, 3-5.
Subathra, M. K.; Immanuel, G. and Suresh, A. H. (2013). Isolation and identification of hydrocarbon degrading from Ennore creek. Bioinformatics. 9(3): 150-157.
Perry, J. J. (1979). Microbial cooxidation involving hydrocarbons. Microbiol. Rev. 43: 59-72.
Sakai, Y.; Maeng, J. H.; Tani, Y. and Kato, N. (1994). Use of long-chain n-alkanes (C13 – C44) by an isolate, Acinetobacter sp.M-1. Biosci. Biotech. Biochem. 58: 2128-2130.
Sarma, P. M.; Bhattacharya, D.; Krishnan, S. and Lal, B. (2004). Degrdation of Polycydic aromatic hydrocarbons by a newly discovered enteric bacteria Leclercia adecarboxylata. Appl. & Environ. Microbiol. 70(5): 3163-3166.
Marchal, R.; Penet, S.; Solano – Serena, F. and Vandecasteele, J. P. (2003). Gasoline and Diesel oil biodegradation. Oil and Gas Science and Technology. Vol. 58, No. 4, PP: 441 – 448.
Stavanger, and Edinburgh. (1999). Project 2.3: Natural degradation and estimated recovery time – scales. Ukooa drill cuttings initiative research and development programme. Environment and Resource Technology. Rogaland research. PP: 1 – 105. Microbial Biosystems : New frontiers proceedings of the 8th International Symposium on microbial Ecology. PP: 1-7.
Latha, R. and Kalaivani, R. (2012).Bacterial degradation of crude oil by gravimetric analysis. Advances in Applied Science Research, 3: 2789-2795.
Dibble, J. T. and R. Bartha. (1979). Effect of environmental parameters on the biodegradation of oil sludge. Appl. Environ. Microbiol., 37:729-739.
yldatk, C.; Lang, S. and wanger, F. (1985). Chemical and physical characterization of four interfacial-active rhaminolipids from.
Al-busodh, Nidal Sohail (2004). Determine the optimal conditions in the production of lipase enzyme from local isolates of the bacterium Pseudomonas .Spp . master letter. College of Science. Baghdad University.
Annadurai, G.; Ling, L. Y. and Lee, J. (2007). Biodegradation of phenol by Pseudomonas pictorum on immobilized with chitin. African J. of Biotech. 6(3): 296-303.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2018 Yasseen Hussain Owaied Wasmi Al-Juboory, Behrouz Mahmoud Ameen, Mohammed Ahmed Jassim
This work is licensed under a Creative Commons Attribution 4.0 International License.
which allows users to copy, create extracts, abstracts, and new works from the Article, alter and revise the Article, and make commercial use of the Article (including reuse and/or resale of the Article by commercial entities), provided the user gives appropriate credit (with a link to the formal publication through the relevant DOI), provides a link to the license, indicates if changes were made and the licensor is not represented as endorsing the use made of the work.