https://orcid.org/0000-0001-7728-3115
References
- Abioye OP, Ijah UJJ, Aransiola SA. Phytoremediation of soil contaminants by biodiesel plant Jatropha curcas, Chapter 4 of K. Bauddh et al. (eds.), Phytoremediation potential of bioenergy plants, doi:10.1007/978-981-10-3084-0_4. Springer Nature Singapore Pte Ltd. (2017).
- Obot E, Antonio Q, Braide S, et al. Niger delta natural resource damage assessment and restoration project, phase 1 – scoping report. Federal Ministry of Environment, Abuja, Nigeria Conservation Foundation, Lagos, WWF UK, CEESP- IUCN Commission on Environmental, Economic, and Social Policy. (2006).
- United Nations Environment Programme, Environmental Assessment of Ogoniland, United Nations Environment Programme. ISBN, 978-92-807-3130-9. http,//www.unep.org/nigeria. Accessed 12 Oct 2014 (2011).
- Aransiola SA, Evinemi OT, Falade NO, et al. Assessment of water contamination in Nigeria review. J Bas App Res Int. 2016;19(1):62–76.
- Hoffmann T, Kutter C, Santamaria J. Capacity of Salvinia minima baker to tolerate and accumulate As and Pb. Engr Life Sci. 2005;4(1):61–65.
- Pathiratne K, Senarathna P. Accumulation of heavy metals in a food fish, Mystusgulin inhabiting Bolgoda lake, Sri Lanka. Sri Lanka J Aqu Sci. 2007;12:61–75.
- Dindar E, Fatma O, Topac S, et al. Biodegradation of used engine oil in a wastewater sludge-amended agricultural soil. Turkish J Agri Fore. 2016;40:631–641.
- Tiku DR, Antai SP, Asitok AD, et al. Hydrocarbon biodegradation, heavy metal tolerance, and antibiotic resistance among bacterial isolates from petroleum polluted and pristine soil samples in Calabar metropolis. Int J Cur Tre Pharmaco Med Sci. 2016;1(3):50–64.
- Bergey GH, John GH. Bergey’s manual of determinative bacteriology. 9th ed. Baltimore, MD: Williams and Wikkins; 1994.
- Rhodes JD. Electrical conductivity and total dissolved solids. In Sparks, Method of soil analysis. Published by: Soil Science Society of America, Inc. American Society of Agronomy, Inc. Madison, Wisconsin, USA. (1996) 417–436.
- Nelson DW, Sommers LE. Total carbon, organic carbon, and organic mater.p. 539–580.In A. L. Page (ed), methods of soil analysis. Part 2. 2nd ed. Chemical and microbiological properties. Agronomy monograph no.9. SSSA and ASA, Madison, WI. (1982).
- Alshawabkeh AN. Electrokinetic soil remediation, Challenges and Opportunities. Separation Sci Tech. 2009;44:2171–2187.
- Lindsay WL, Norvell WA. Development of DTPA soil test for zinc, iron, manganese and copper. Soil Sci Soc Am J. 1978;42:421–428.
- Xenia ME, Refugio RV. Microorganisms Metabolism during bioremediation of Oil contaminated soils. J Bioreme Biodegrada. 2016;7(2):340), doi: 10.4172/2155-6199.1000340
- Riskuwa-Shehu ML, Ijah UJJ. Enhanced Removal of crude Oil in soil by mixed Culture of Bacillus megaterium UL05 and Pseudomonas aeruginosa UL07. Int J Environ Bioremed Biodegrad. 2016;4(1):8–12.
- Abiodun O, Yemisi E, Olabode F, et al. Bioremediation of crude Oil polluted soil: Maize Husk Compost as a test Bioremediant. Pharmaceu Chem J. 2016;3(2):254–261.
- Sarkar P, Ajoy R, Siddhartha P, et al. Enrichment and characterization of hydrocarbon-degrading bacteria from petroleum refinery waste as potent bioaugmentation agent for in situ bioremediation. Bioresources Technol. 2017;242:15–27.
- Agnello C, Bagard M, Van Hullebusch D, et al. Comparative bioremediation of heavymetals and petroleumhydrocarbons co-contaminated soil by natural attenuation, phytoremediation. Sci Total Environ. 2015;1:563–564.
- Olama Z, Hanafy H, Darin M. Environmental studies on the microbial degradation of oil hydrocarbons and its application in Lebanese oil polluted coastal and marine ecosystem. Int J Curr Microbio Appl Sci. 2013;2(6):1–18.
- Wang J, Wang M, Wei X. Effects of petroleum in soil growth of maize in loess hilly region of north Shaanxi. Environ Poll Contr. 2012;34(2):55–59.
- Obasi N, Eberechukwu E, Anyanwu I, et al. Effects of organic manures on the physicochemical properties of crude oil polluted soils. Afri J Biochem Res. 2013;7(6):67–75.
- Ijah UJJ, Safiyanu H, Abioye OP. Comparative study of biodegradation of crude oil in soil amended with Chicken droppings and NPK fertilizer. Sci W J. 2008;3(2):63–67.
- Liu PWG, Chang T, Chen C, et al. Effects of soil organic matter and bacterial community shift on bioremediation of diesel-contaminated soil. Int J Biodeter Biodegrad. 2013;85:661–670.
- Sandor M, Schrader S. Interaction of earthworms and enchytraeids in organically amended soil. North-Western J Zool. 2012;8(1):46–56.
- Azarpira H, Behdarvand P, Dhumal K. Effect of different bulking materials and earthworms species on bioremediation potential of municipal sewage sludge. J Environ Earth Sci. 2013;3(12):68–72.
- Milala M, Blessing D, Abdulrahman A. Effects of spent engine Oil on soil physicochemical properties of and microorganisms (bacteria). Asian J Sci Tech. 2015;6:1032–1035.
- Olaniran A, Adhika B, Balakrishna P. Bioavailability of heavy metals in soil, impact on microbial biodegradation of organic compounds and possible improvement strategies. Int J Mol Sci. 2013;14(5):10197–10228.
- Smith E, Thavamani P, Ramadass K, et al. Remediation trials for hydrocarbon-contaminated soils in arid environments, evaluation of bioslurry and biopiling techniques. Int Biodeter Biodegrad. 2015;101:56–65.
- NRCS. Soil electrical conductivity. Soil quality kit—guide for educators. Natural resources conservation service, United States Department of Agriculture; (2013) 7.
- Ekperusi OA, Aigbodion FI. Bioremediation of petroleum hydrocarbons from crude oil-contaminated soil with the earthworm, Hyperiodrilus africanus3. Biotechno. 2015;5(6):957–965.
- Azubuike CC, Chikere CB, Okpokwasili GC. Bioremediation techniques–classification based on site of application, principles, advantages, limitations and prospects. World J Microbial Biotechnol. 2016;32(11):180), https://doi.org/10.1007/s11274-016-2137-x
- Stephen E, Okwute L, Peter J, et al. Microbiological and physicochemical studies of spent lubricating oil contaminated soil amended with wood ash. J Biosci Biotechnol Discovery. 2016;1:36–41.
- Lang F, Tarayre C, Destain J, et al. The effect of nutrients on the degradation of hydrocarbons in Mangrove Ecosystems by microorganisms. Int J Environ Resour. 2016;10(4):583–592.
- Ibrahim HMM. Biodegradation of used engine oil by novel strains of Ochrobactrumanthropi HM-1 and Citrobacter freundii HM-2 isolated from oil-contaminated soil. 3 Biotech. 2016;6(2):226, doi: 10.1007/s13205-016-0540-5
- Abioye OP, Agamuthu P, AbdulAziz A. Biodegradation of used lubricating oil by microbes isolated from pristine soil environment. MJS. 2012;31(1):1–7.
- Zhang Y, Li X, Guowen L, et al. Development of ELISA for detection of mercury based on specific monoclonal antibodies against mercury-chelate. Biol Trace Elem Res. 2011;144:854–864.
- Wang X, Frenq J, Zhao J. Effects of crude oil residuals on soil chemical properties in oil sites, Momonge Wetland, China. Environ Monit Assess. 2010;161(1-4):271–282.
- Eman K, Andrew B. Soil bioremediation approaches for petroleum hydrocarbon polluted Environments. AIMS Micro. 2010;3(1):25–49.
- Rojo F. Degradation of alkanes by bacteria. Environ Microb. 2009;11:2477–2490.