Study on the Effect of Waste Engine Oil on the Growth of Three Local Pepper Species Capsicum frutescens, Capsicum chinense and Capsicum annum
Keywords:
Waste engine oil, Soil, Pepper, Capsicum frutescens, Capsicum chinese, Capsicum annum, bacterial population.Abstract
The effect of waste engine oil on germination, height and nutrient uptake of three species of pepper (Capsicum frutescens, Capsicum chinense and Capsicum annum) was studied. After growth in 0%, 1%, 3%, 6% and 9% w/v oil contaminated soil, the germination, growth and height of the pepper species were inhibited by the treatments of 3%, 6% and 9% concentrations and reduced growth in 1% treatment. Only the control (0%) had germination. Capsicum annum was the most affected pepper specie. Germination and growth of the pepper species was in the order C.annum < C.chinense < C.frutescens. Nutrient uptake was inhibited in the three pepper species in concentrations of 3%, 6%, 9% waste engine oil. There was decline in the bacterial population in soil with increasing concentration of waste engine oil.
References
• Anoliefo, G.O and Vwioko, D.E (1995) Effects of spent lubricating oil on the growth of Capsicum annum and Lycopersicom esculentum Miller. Environmental Pollution 88: 361-364.
• AOAC (1990) Official method of analysis. Association of Official Analytical Chemists, Washington DC Pp 38 – 46.
• Atuanya, E. I (1987) Effect of waste engine oil on physical and chemical properties of soil. A case study of waste oil contaminated Delta soil in Bendel State. Nigerian Journal of Applied Science 5: 155 – 176.
• Bekendem, J and Grob R (1979) Handbook for seedling evaluation. ISTA Zurich Switzerland 130pp.
• Dejong E. A (1980) The effect of crude oil spill on cereals. Environmental Pollution 22: 187 – 196
• Esenowo, G. J., Sam, S. M and Eluk, A. I (2006) Effect of crude oil on seedling of Telfaria Ocidentalis in: Botany and Environmental Health Akpan G and C.S.J Odoema (Eds) University of Uyo Nigeria pp 93 - 96.
• Gill, L. S and Sandota R.M.A (1976) Effect of foliarly applied ccc on the growth of Phaseolus aureus – Roxob. (mung or green gram). Bangladesh Journal of Biological Science 15: 35-40.
• Gill, L.S., Nyawuame., H.G. K., Ehikhametalor A.O (1992) Effect of crude oil on growth and anatomical features of Chromoleana, odorata L. Newsletter 6: 1- 6
• Gudin, C and Syratt, W.J (1975) Biological aspects of land rehabilitation following hydrocarbon contamination. Environmental Pollution 8: 106 – 112
• IITA (1979) Selected methods for soil and plant analysis. IITA manual series no 1, Ibadan Nigeria IITA.
• Marschner, H (1995) Mineral nutrition of higher plants (2nd ed) New York, Academic Press. 889pp.
• Ogbeibu A.E (2005) Biostatistics: A Practical Approach to Research and Data Handling. Mindex Publishing Co Ltd Benin City 264 pp.
• Okonokhua, B. O., Ikhajiagbe, B., Anoliefo, G. O and Emede, T. O (2007) The effects of spent engine oil on soil properties and growth of maize (Zea mays L). Journal of Applied Science and Environmental Management 11(3): 147 – 152.
• Oludele, O. E and Ogundele, D. T (2013) The impact of diesel contaminated soil on seedling growth of okro (Abelmoschus escelentus), pumpkin (Amaranthus hybridus), maize (Zea mays) and pepper (Capsicum annum). International Journal of Scientific Research 2(11): 237 – 239.
• Pearson, D (1973) Laboratory techniques in food analysis. Butterwort London and Boston pp 50 - 57
• Ren, F.C., Liu, T. C., Liu, H. O., Hu, B. Y (1993) Influence of zinc on the growth, distribution of elements and metabolism of one year old American ginseng. Journal of Plant Nutrition 16: 393-405.
• Samina, S and Adams, W. A (2002) The fate of diesel hydrogens in soil and their effect on the germination of perennial ryegrass. Environmental Toxicology 17: 49 – 62.
• Shadow, I (2002) Isolation and characterization of bacteria from crude petroleum oil contaminated soil and their potential to degrade diesel fuel. Journal of Basic Microbiology 6:420 – 428
• Terge, K (1984) Effect of soil pollution on the germination and vegetative growth of five species of vascular plants. Oil and Petroleum Pollution Journal 2: 25 – 30.
• Vwioko, D. E and Fashemi, D. S (2005) Growth response of Ricinus communis L (castor oil) in spent lubricating oil polluted soil. Journal of Applied Sciences and Environmental Management 9(2): 73 – 79.
• Weryszko – Chmielewska, E and Chwil, M (2005) Lead – induced histological and ultrastructural changes in the leaves of soyabean (Glycine max L. Merr) Soil Science and Plant Nutrition 51(2): 203 – 212
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