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Nutritional and chemical composition of Jatropha curcas (L) seed oil from Nigeria

Amadike Eziuche Ugbogu, Emmanuel Iroha Akubugwo, Friday Obinwa Uhegbu, Chinyere Godwin Chinyere, Ositadinma Chinyere ugbogu, Kayode Adegboyega Oduse

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Int. J. Biosci.3(5), 125-134, May 2013

DOI: http://dx.doi.org/10.12692/ijb/3.5.125-134

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Abstract

This study investigated the nutritional and chemical properties of Jatropha curcas (L) seed oil from Abia State, Nigeria using standard analytical methods. Proximate composition results show it is rich in protein (29.4%), carbohydrate (16.89%) and fat (46.89%). Low concentrations of phytonutrients were also detected; alkaloids (1.5g/100g), flavonoids (0.81g/100g). The seed is also rich in essential and non-essential amino acids in varying concentrations. The mineral content is low ranging between 0.09 ± 0.01Mg/Kg for Pb as lowest to 163.38 ± 4.00Mg/Kg for Mg as the highest amongst other minerals. Physicochemical analysis result shows percentage yield (62.20), specific gravity (0.92), acid value (9.48), iodine value (95.00), and saponification number (195.00), while peroxide value and percentage free fatty acid were less than 5. The Jatropha curcas (L) oil is also rich in unsaturated fatty acids especially oleic acid (52.27%) and linoleic acid (27.87%). The dominant saturated fatty acids were palmitic acid (14.24%) and stearic acid (5.15%).These results suggest that Jatropha curcas (L) seed oil may not be suitable for human consumption except it is subjected to detoxification and purification before use, but may be suitable for industrial purposes such as production of soaps, paints and lubricants.

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Nutritional and chemical composition of Jatropha curcas (L) seed oil from Nigeria

Adolf W, Opferkuch HJ, Hecker E. 1984. Irritant phorbol derivatives from four Jatropha species. Phytochemistry 23, 129–132.

Akintayo ET. 2004. Characteristics and composition of Parkia biglobbossa and Jatropha curcas oils and cakes. Bioresource Technology, 92, 307-310.

Akubugwo IE, Ugbogu AE .2007. Physicochemical studies on oils from five selected Nigerian plant seeds. Pakistan Journal of Nutrition 6, 75-78.

Akubugwo IE, Obasi, AN, Ginika SC .2007. Nutritional potential of the leaves and seeds of black nightshade- Solanum nigrum L. Var virginicum from afikpo-Nigeria. Pakistan Journal of Nutrition 6, 323-326.

Amaechi NC. 2009. Nutritive and anti-nutritive evaluation of wonderful Kola (Buccholzia coricea) Seeds. Pakistan Journal of Nutrition 8(8), 1120-1122.

Amoo IA. 2003. Effect of Fermentation on the Nutrient and Mineral Content of Bauhinia reticulata. Journal of Research in Science and Management. FUTA, Akure 1, 13-16.

AOAC. 1990. Association of Official Analytical Chemist. 14th Edn., AOAC, Arlington, VA,

Augustus GDPS, Jayabalan M, Seiler GJ. 2002. Evaluation and bioinduction of energy components of Jatropha curcas. Biomass and Bioenergy 23, 161-164.

Azza AA, Ferial MA. 2010. Nutritional quality of Jatropha curcas seeds and effect of some physical and chemical treatments on their anti-nutritional factors. African Journal of Food Science 4, 93-103.

Bassler NR, Buchholz H. 1993. Amino Acid Analysis. In: Methodenbuch: Die chemische Untersuchung von Futtermitteln, Naumann, C., R. Seibold, C. Barth and H. Buchholz (Eds.). 3rd Edn., VDLUFA, Verlag, Darmstadt, Germany, Austria p,l-5.

Cano-Asseleih LM, Plumbly RA, Hylands PJ. 1989. Purification and partial characterization of the hemagglutination from seeds of Jatropha curcas. Journal of Food Biochemistry 13, 1-20.

Chinyere GC, Akubugwo E.I, Nwaukwa I C, Ugbogu AE. 2009. Nutrition Value of Lagenaria sphaerica seed (wild Bottle Gourds) from south-Easthern Nigeria. Pakistan.Journal of Nutrition 8(3), 284-287.

Chitra P, Venkatachalam P, Sampathrajan A. 2005. Optimisation of experimental oonditions for biodiesel production from alkali-Catalysed transesterification of Jatropha curcas Oil”. Energy for Sustainable Development 9(3),13-18.

Delanghe J, de Slypere JP, de Buyzere M, Robbrecht, J Wieme R, Vermeulen A. 1989. Normal reference values for creatine, creatinine, and carnitine are lower in vegetarians. Clinical Chemistry 35(8), 1802-1813.

Dosunmu MI, Ochu C .1995. Physicochemical properties and fatty composition of lipid extracted from some Nigerian fruits and seeds. Global Journal of Pure and Applied Science 1, 45-50.

Ekop AS. 2007. Determination of chemical composition of Gnetum africanum (AFANG) Seeds. Pakistan Journal of Nutrition 6, 40-43.

Emebu PK, Anyika JU. 2011. Proximate and mineral composition of kale(Brassica oleracea) grown in Delta state, Nigeria. Pakistan Journal of Nutrition 10(2), 190-194.

Emil A, Yaakob, Z, Kumar MNS, Jahim, JM, Salimon J. 2010. Comparative evaluation of physicochemical properties of jatropha seed oil from Malaysia, Indonesia and Thailand. Journal of the American Oil Chemists’ Society 87, 689–695.

Eze SO, Ibe OJ .2005. Effect of fermentation on the nutritive value of B. Eurycoma “Achi”. Chemical Society of Nigeria 30,1-5.

Fagbemi TN, Oshodi AA . 1991. Chemical composition and functional properties of full flat fluted pumpkin, Telferria occidentalis seed flour. Nigerian Food Journal 9, 26-32.

Fairless D. 2007. “Biofuel: The little shrub that could-maybe”. Nature 449 (7163), 652–655.

FAO/WHO. 1988. Requirements of Vitamin A, Iron, Folate and Vitamin B12: Report of a Joint FAO/WHO Expert Consultation. Food and Agriculture Organization of the United Nations,. Rome, Italy.Geissler, C.A. and H.J. Powers,. 2005. Human Nutrition 11th Ed., Elsevier Churchill Livigstone, 236-243 P.

Gubitz GM, Mittelbach M, Trabi, M. 1999. Exploitation of the tropical oil seed plant Jatropha curcas L. Bioresources Technology 67, 73-82.

Hajos G, Gelencser E, Pusztai, A, Grant G, Sakhri M, Bardocz S .1995. Biological effects and survival of trypsin inhibitors and the agglutinin from soybean in the small intestine of the rat. Journal of Agriculture and Food Chemistry 43, 165-170.

Harboune JB. 1973. Phytochemical Methods. A Guide  to  Modern  Method of  plant Analysis. Chapman and Hall New York, 97-143 P.

Hess R, Schmid B. 2002. Zinc supplement overdose can have toxic effects. Journal of Pediatric Hematology./Oncology 24, 582-584.

James CS. 1995. Analytical Chemistry of Foods. Blakie Academic and Professional, London, 108-113 P.

Knothe G, Steidley KR. 2005. Kinematic viscosity of biodiesel fuel components and related compounds. Influence of compound structure and comparison to petrodiesel fuel components. Fuel 84, 1059–65.

Kochhar SL. 1986. Okra (Lady’s finger) In: Tropical Crops, A Textbook of Economic Botany. Editor S.L Kochhar. P. 263– 264.

Kumar A, Ilavarasan R, Jayachandran T, Decaraman M, Aravindhan P, Padmanabhan N, Krishnan MRV. 2009. Phytochemicals investigation on a tropical plant, Syzygium cumini from Kattuppalayam, Erode District, Tamil Nadu, South India. Pakistan Journal of Nutrition 8(1), 83-85.

Makkar HPS, BeckerK,  Sporer F, Wink M .1997. Studies on nutritive potential and toxic constituents of different provenances of Jatropha curcas. Journal of Agriculture and Food Chemistry 45, 3152–3157.

Martinez-Herrera J, Siddhuraju P,  Francis G Davila-Ortiz G, Becker K. 2006. Chemical composition, toxic/antimetabolic constituents and effects of different treatments on their levels, in four provenances of Jatropha curcas L. from Mexico. Food Chemistry 96, 80-89.

 Minzangi K, Kaaya AN, Kansiime F, Tabuti JRS, Samvura B. 2011. Oil content and physicochemical characteristics of some wild oilseed plants from Kivu region Eastern Democratic Republic of Congo. African Journal of Biotechnology 10(2), 189-195.

Nayak BS, Patel KN. 2010. Physicochemical Characterization of Seed and Seed Oil of Jatropha curcas L. collected from Bardoli (South Gujarat). Sains Malaysia 39, 951–955.

Nzikou JM, Matos L, Moussounga JE, Ndangui CB, Kimbonguila A, Silou Th, Linder M, Desobry S. 2009. Characterization of Moringa oleifera seed oil variety congo-brazzaville. Journal of Food Technology 7, 59-65.

Obasi NL, Ejikeme MP, Egbuonu CAC. 2011. Antimicrobial and phytochemical activity of methanolic extract and its fractions of Jatropha curcas Linn. (Eurphorbiaceae) stem bark. African Journal of Pure and Applied Chemistry 5(5), 92-96.

Oboh G, Akindahunsi AA, Oshodi AA. 2003. Dynamics of Phytate-Zn balance of Fungi Fermented Cassava products (Flour & Gari). Plants Food for Human Nutrition 58, 1-7.

Odunfa SA, Oyeyiola GF. 1985. Microbiological study of the fermentation of Ugba- A Nigerian indigenous fermented food. Plants Foods for Human Nutrition 6,155-163.

Oladele EOP, Oshodi AA .2008. Effect of Fermentation on Some chemical and nutritive properties of Berlandier nettle Spurge (Jatropha cathartica) and physic nut (Jatropha curcas) seeds. Pakistan Journal of Nutrition 7, 292-296.

Oloyede OI. 2008. Chemical Constituents of Cowry (Cyparica samplomoneta). Pakistan Journal of Nutrition 7 (4), 540-542.

Orhan I, Kupeli E, Terzioglu S, Yesilada E .2007. Bioassay-guided isolation of kaempferol-3-O-beta-D-galactoside with anti-inflammatory and antinociceptive activity from the aerial part of Calluna vulgaris L. Journal of Ethnopharmacology 144, 32-37.

Oseni OA, Akindahunsi AA. 2011. Some Phytochemical properties and effect of fermentation on the seed of Jatropha curcas L. American Journal of Food Technology 6,158-165.

Pearson D. 1976. The Chemical Analysis of Food. Churchill, livingstone, P. 488-496.

Rakshit KD, Darukeshwara J, Raj KR, Narasimhamurthy K, Saibaba P, Bhagya S. 2008. Toxicity studies of detoxified Jatropha meal (Jatropha curcas) in rats. Food and Chemical Toxicology 46, 3621–3625.

Reddy NR, Pierson MD. 1994. Reduction in antinutritional and toxic components in plant foods by fermentation. Food Research International 27 281–290.

Russel, EW 1973. Soil conditions and plant growth. Supergene Zone, M. Nedra, p. 19. (in Russian).

Sarwar G, Peace RW. 1994. The protein quality of some enteral products is inferior to that of casein as assessed by rat growth methods and digestibility-corrected amino acid scores. Journal of Nutrition 124, 2223-2232.

Suarez FL, Springfield J, Furne JK, Lohrmann TT, Kerr, PS Levitt, MD. 1999. Gas production in humans ingesting soybean flour derived from beans naturally low in oligosaccharides. American Journal of Clinical Nutrition 69, 135-140.

Stirpe F, Pession-Brizzi A, Lorenzoni E, Strocchi P, Montanaro, L, Sperti S. 1976. Studies on the proteins from the seeds of Croton tigilium and Jatropha curcas. Toxic properties and inhibition of protein synthesis in vitro. Biochemical Journal 156, 1-6.

Udoh JC, Ogunwale, JA . 1986. Laboratory Manual for the analysis of Soil, Plant and water samples. Ibadan University Press, P. 200.

Zarkadas CG, Ziran YU, Burrows VD. 1995. Protein quality of three new Canadian-developed naked oat cultivars using amino acid composition data. Journal of Agriculture and Food Chemistry 43, 415-421.

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