Full Length Research Paper
References
Abioye OP, Abdul Aziz A, Agamuthu P (2009). Stimulated biodegradation of used lubricating oil in soil using organic wastes. Malays. J. Sci. 28(2):127-133. | ||||
Abioye OP, Agamuthu P and Abdul Aziz AR (2012). Biodegradation of used lubricating oil by microbes isolated from pristine soil environment. Malays. J. Sci. 31(1):1-7. | ||||
Adesodun JK, Mbagwu JSC (2008). Biodegradation of waste lubricating petroleum oil in a tropical alfisol as mediated by animal droppings. Biores. Technol. 99:5659-5665. Crossref |
||||
Agarry SE, Aremu MO, Aworanti OA (2013). Kinetic modelling and half-life study on enhanced soil bioremediation of bonny light crude oil amended with crop and animal-derived organic wastes. Petrol. Crossref |
||||
Agarry SE (2013). Application of carbon-nitrogen supplementation from plant and animal sources in in-situ soil bioremediation of diesel oil: experimental analysis and kinetic modelling. J. Environ. Earth Sci. 3(7):1-13. | ||||
Amadi A, Dickson AA, Marrire GO (1992). Remediation of oil polluted Soils. Air Water Soil Poll. 66:59-76. Crossref |
||||
Amanchukwu SC, Obafemi A and Okpokwasili GC (1989). Hydrocarbon degradation and utilization by a palm-wine yeast isolate. FEMS Microbiol. Lett. 57:151-154. Crossref |
||||
Antai SP, Mgbomo E (1989). Distribution of hydrocarbon utilizing bacteria in oil-spill areas, Microbios. Lett. 40:137-143. | ||||
Atlas RM (1981). Petroleum microbiology. In:Encyclopedia of Microbiology. Baltimore, USA: Academic Press. 1992:363-369. | ||||
Baker KH, Herson DS (1994). Comprehensive guide to bioremediation – introduction to the basic techniques and applications of Bioremediation. Bioremediation. McGraw-Hill. New York, USA. P. 375. | ||||
Bento AM, Cropper M, Mobarak M, Vinha K (2005). "The Impact of Urban Spatial Structure on Travel Demand in the United States." Review. Econ. Stat. 87(3):466-478. Crossref |
||||
Black CA (1965). "Methods of Soil Analysis: Part I Physical and mineralogical properties". American Society of Agronomy, Madison, Wisconsin, USA. | ||||
Blodgett WC (2001). "Water-soluble mutagen production during the bioremediation of oil-contaminated soil," Florida Scientist 60(1):28-36. | ||||
Boonchan S, Britz ML, Stanley GA (2000). "Degradation and mineralization of high-molecular-weight polycyclic aromatic hydrocarbons by defined fungal-bacterial cultures," Appl. Environ. Microbiol. 66(3):1007-1019. Crossref |
||||
Bossert I, Bartha R (1984). The fate of petroleum in soil ecosystem. In: R.M. Atlas (Ed.) Petroleum microbiology, Macmillan, New York, NY, USA. pp. 435-73. | ||||
Bremner JM, Mulvaney CS (1982). Nitrogen-Total. In: A.L. Page, R.H. Miller (Eds). Methods of Soil Analysis. Part 2. 2nd ed. Agron. Monogr. 9. ASA and SSSA, Madison, WI. pp. 595-624. | ||||
Bumpus JA (1989). "Biodegradation of polycyclic aromatic hydrocarbons by Phanerochaete chrysosporium," Appl. Environ. Microbiol. 55(1):154-158. | ||||
Cerniglia CE, Sutherland JB (2001). "Bioremediation of polycyclic aromatic hydrocarbons by ligninolytic and non-ligninolytic fungi," in Fungi in Bioremediation, G. M. Gadd, Ed. Cambridge University Press, Cambridge. pp. 136-187. | ||||
Chikere CB (2012a). Culture-Independent analysis of bacterial community composition during bioremediation of crude oil-polluted soil. British Microbiol. Res. J. 2(3):187-211. Crossref |
||||
Chukwudozie SO (2013). Stimulated Biodegradation of Spent Lubricating Motor Oil in Soil Amended with Animal Droppings. J. Nat. Sci. Res. 3(12):2224-3186. | ||||
Clemente AR, Anazawa TA, Durrant LR (2001). "Biodegradation of polycyclic aromatic hydrocarbons by soil fungi," Brazilian J. Microbiol. 32(4):255–261. Crossref |
||||
Dick WA, Tabatabai MA (1977). An alkaline oxidation method for determination of total phosphorus in soils. Soil Sci. Society Am. J. 41:511-514. Crossref |
||||
Ekpo IA, Agbor RB, Okpako EC, Ekanem EB (2012). Effect of crude oil polluted soil on germination and growth of soybean (Glycine max). Annals of Biol. Res. 3(6):3049-3054. | ||||
Husain A, Roslan HA, Hii KSY, Ang CHA (2008). "Biodegradation of aliphatic hydrocarbon by indigenous fungi isolated from used motor oil contaminated sites," World J. Microbiol. Biotechnol. 24(12):2789-2797. Crossref |
||||
Hagwell LS, Delfino LM, Rao JJ (1992). "Partitioning of polycyclic aromatic hydrocarbons from diesel fuel into water." Environ. Sci. Technol. 26(11):2104-2110. Crossref |
||||
Hollender J, Althoff K, Mundt M, Dott W (2003). "Assessing the microbial activity of soil samples, its nutrient limitation and toxic effects of contaminants using a simple respiration test," Chemosphere 53(3):269–275. Crossref |
||||
Ijah UJJ (1998). Studies on relatives capabilities of bacterial and yeast isolates from tropical soil in degrading crude oil. Waste Manage. 18:293-299. Crossref |
||||
Ijah UJJ, Antai SP (2003). "The potential use of chicken-drop micro-organisms for oil spill remediation." Environmentalist 23(1):89-95. Crossref |
||||
Jobson A, McLaughli M, Cool FD, Westlake DWS (1974). Effects of amendments on the microbial utilization of oil applied to soil. Appl. Environ. Microbiol. 27:166-71. | ||||
Kaplan CW, Kitts CL (2004). Bacterial succession in a petroleum land treatment unit. Appl. Environ. Microbiol. 70(3):1777-1786. Crossref |
||||
MacNaughton SJ, Stephen JR, Venosa AD, Davis GA, Chang CJ, White DC (1999). Microbial population changes during bioremediation of an experimental oil spill. Appl. Environ. Microbiol. 65(8):3566-3574. | ||||
Mandri T, Lin J (2007). "Isolation and characterization of engine oil degrading indigenous microorganisms in Kwazulu-Natal." Afr. J. Biotechnol. 6(1):23-27. | ||||
Margesin R, Hammerle M, Tscherko D (2007). "Microbial activity and community composition during bioremediation of diesel-oil-contaminated soil: effects of hydrocarbon concentration, fertilizers, and incubation time." Microbiol. Ecol. 53(2):259-269. Crossref |
||||
Mathieu C, Pieltain F (2003). Chemical analysis of soils. Selected methods. France. P. 387. | ||||
Mclean EO (1982). Soil pH and lime requirement. In: A.L. Page, R.H. Miller, and D.R. Keeney (eds.), Methods of Soil Analysis. Part 2: Chemical and Microbiological Properties. 2nd ed. American Society of Agronomy, Madison, WI. pp. 199-224. | ||||
Mills AL, Breuil C, Colwell RR (1978). Enumeration of petroleum-degrading marine and estuarine microorganisms by the most probable number method. Canad. J. Microbiol. 24:552-557. Crossref |
||||
Mishra S, Jyot J, Kuhad RC, Lal B (2001). "Evaluation of inoculums addition to stimulate in situ bioremediation of oily-sludge-contaminated soil," Appl. Environ. Microbiol. 67(4):1675-1681. Crossref |
||||
Mohajeri L, Aziz HA, Isa MH, Zahed MA, Mohajeri S (2010). Ex situ bioremediation of crude oil in soil, a comparative kinetic analysis, Bull. Environ. Contamin. Toxicol. 85:54-58. Crossref |
||||
Odokuma LO, Okpokwasili GC (1993). Seasonal ecology of hydrocarbon-utilizing microbes in the surface water of a river. Environ. Assess. 27(3):175-191. Crossref |
||||
Odokuma LO, Ibor MN (2002) Nitrogen fixing bacteria enhanced bioremediation of crude oil polluted soil. Global J. Pure and Appl. Sci. 8(4):455-468. Crossref |
||||
Odokuma LO, Dickson AA (2003). Bioremediation of a crude oil-polluted tropical rain forest soil. Glob. J. Environ. Sci. 2:29-40. | ||||
Okpokwasili GC, Amanchukwu SC (1988). Petroleum hydrocarbon degradation by Candida species. Environ. Int. 14:243-247. Crossref |
||||
Okpokwasili GC, Somerville CC, Sullivan M, Grimes DJ, Colwell RR (1986). Plasmid mediated degradation of hydrocarbons in estuarine bacteria. Oil Chem. Pollu. 5:117-129. Crossref |
||||
Onuoha SC, Olugbue VU, Uraku JA, Uchendu DO (2011). Biodegradation potentials of hydrocarbon degraders from waste–lubricating oil spilled soils in Ebonyi State, Nigeria. Int. J. Agric. Biol. 13:586-590. | ||||
Onuoha, S.C. (2013). Stimulated Biodegradation of Spent Lubricating Motor oil in Soil Amended with Animal droppings. J. Nat.l Sci. Res. 3(12):106-116. | ||||
Rahman KSM, Thahira-Rahman J, Lakshmanaperumalsamy P, Banat IM (2002). "Towards efficient crude oil degradation by a mixed bacterial consortium." Biores. Technol. 85(3):257-261. Crossref |
||||
Roling WFM, Milner MG, Jones DM, Lee K, Daniel F, Swannell RJP, Head IM (2002). Robust hydrocarbon degradation and dynamics of acterial communities during nutrient-enhanced oil spill bioremediation. Appl. Environ. Microbiol. 68:5537-5548. Crossref |
||||
Ruberto LAM, Vazquez SC, Curtosi A, Mestre MC, Pelletier E, Cormack WPM (2006). Phenanthrene Biodegradation in Soils Using an Antarctic Bacterial Consortium. Bioremed. J. 10(4):191-201 Crossref |
||||
Schaefer M, Juliane F (2007). The influence of earthworms and organic additives on the biodegradation of oil contaminated soil. Appl. Soil Ecol. 36:53-62. Crossref |
||||
Semple KT, Dew NM, Doick KJ, Rhodes AH (2006). "Can microbial mineralization be used to estimate microbial availability of organic contaminants in soil?." Environ. Pollut. 140(1):164-172. Crossref |
||||
Sheldrick, BH, Wang C (1993). Particle size distribution. In Soil Sampling and Methods of Analysis, ed. M.R. Carter, pp. 499-511. Canadian Society of Soil Science, Lewis Publishers, Ann Arbor, MI. | ||||
Sinkkonen, S, Paasivirta J (2000). Degradation half-life times of PCDDs, PCDF sand PCBs for environmental fate modeling. Chemosphere 40:943-949. Crossref |
||||
USEPA (1999). Use of monitored natural attenuation at superfund, RCRA corrective action and underground storage tank sites. OSWER Directive 9200, Washington, DC, USA. pp. 4-17. | ||||
Walworth J, Pond A, Snape I, Rayner J, Ferguson S, Harvey P (2007). "Nitrogen requirements for maximizing petroleum bioremediation in a sub-Antarctic soil." Cold Regions Sci. Technol. 48(2):84-91. Crossref |
||||
Yeung PY, Johnson RL, Xu JG (1997). Biodegradation of petroleum hydrocarbons in soil as affected by heating and forced aeration. J. Environ. Qual. 26:1511-1516. Crossref |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0