Evaluation of nutritional and antinutritional composition of meals of Jatropha curcas seeds/kernels obtained from four different agro-climatic areas of Ghana

Authors

  • Solomon Kofi Chikpah Department of Biotechnology, Faculty of Agriculture, University for Development Studies, Tamale, Ghana
  • B. Demuyakor Department of Biotechnology, Faculty of Agriculture, University for Development Studies, Tamale, Ghana

Keywords:

Jatropha curcas, Seed meal, Kernel meal, Crude phorbol ester, Phytic acid, Tannins

Abstract

The research was conducted to evaluate the nutritional and antinutritional composition of defatted seeds and kernels of Jatropha curcas obtained from four different agro-climatic areas of Ghana with the aim of identifying an alternative source of plant protein that can be developed to supplement soyabean meal/fish meal. Jatropha curcas seeds were obtained from four different agro-climatic areas of Ghana: (1. Nyankpala, Northern Region, 2. Dambai, Volta Region, 3. WA, Upper West Region, 4. Techiman, Brong Ahafo Region). The seeds were processed in to seed meals and kernel meals for each Jatropha seed group. Large amount/percentage (77-79 %) of seed cake was produced from the mechanical defatted seeds. The seed meal samples differed in chemical composition. The dry matter content of the seed meal samples (1A, 2A, 3A, 4A) was between (92.27-94.37 %). The crude protein content of seed meals ranged between (27.33 - 29.61 %). The crude fibre was very high in the seed meal (21.46 - 24.72 %).  Lipid, ash, and carbohydrates contents in seed meals were between (16.52 – 19.56 %), (7.15 – 9.01 %), and (12.16 – 19.35 %) respectively. on the other hand the kernel meals were very rich in crude protein (63.39 – 64.35 %) that did not differ significantly between the kernel meal samples (1B, 2B, 3B, 4B). Crude fibre was low in Jatropha kernel meals (5.55 – 8.25 %) and total ash was between (8.20 – 9.78 %).  Jatropha curcas meals contained good amounts of phosphorus, potassium, calcium, and magnesium. Total nitrogen was also very high in the kernel meals (10.14 -10.30 %). Jatropha seed/kernel meals contained crude phorbol esters (CPE), phytic acid, and tannins. The concentrations of these antinutrients in the seed meals were CPE (4.87-6.07 mg/g), phytic acid (8.11-9.82 % dry matter), and tannins (0.72-0.93 % tannic acid equivalent). The concentration of phorbol esters reduced by 39 -49 % in the kernel meals and ranged between (2.60 – 3.70 %). The phytic acid content in kernel meals was (6.56 – 7.46 %) while negligible amount of tannins were present in the kernel meals in the range of (0.03-0.07 %). The processing method (removal of shells) reduced tannins in kernel meals by 92-94 %). The kernel meals are therefore better source of protein for animals if detoxified completely.

References

Achtena, W.M.J., Verchot, L., Frankenc,Y.J., Mathijsd, E., Singhe, V.P., Aertsa, R., Muys, B., 2008. Jatropha bio-diesel production and use. Biomass and Bioenergy, 32, 1063-1084.

Adam, S.E.I., 1974. Toxic effects of Jatropha curcas in mice. Toxicology 2, 67-76.

Adam, S.E.I., Magzoub, M., 1975. Toxicity of Jatropha curcas in goats. Toxicology 4, 347-354.

Ahmed, O.M., Adam, S.E.I., 1979a. Toxicity of Jatropha curcas in sheep and goats. Research in Veterinary Science 27, 89-96.

Ahmed, O.M., Adam, S.E.I., 1979b. Effects of Jatropha curcas on calves. Veterinary Pathology 16, 476-482.

AOAC, 1990. Official methods of analysis (15th ed.). Arlington, VA: Association of Official Analytical Chemists.

Aregheore, E.M., Becker, K., Makkar, H.P.S., 2003. Detoxification of a toxic variety of Jatropha curcas using heat and chemical treatments, and preliminary nutritional evaluation with rats. S. Pac. J. Nat. Sci. 21, 50-56.

Azaza, M.S., Wassim, K., Mensi, F., Abdelmouleh, A., Brini, B., Kraïem, M.M., 2009. Evaluation of faba beans (Vicia faba L. Var. minuta) as a replacement for soybean meal in practical diets of juvenile Nile tilapia Oreochromis niloticus. Aquaculture 287, 174–179.

Chivandi, E., Mtimuni, J.P., Read, J.S., Makuza, S.M., 2004. Effect of processing method on phorbol esters concentration, total phenolics, trypsin inhibitor activity and the proximate composition of the Zimbabwean Jatropha curcas provenance: A potential livestock feed. Pak. J. Biol. Sci. 7, 1001-1005.

El Diwani, G.I., El-Rafei S.A., Hawash, S.I., 2011. Ozone for Phorbol Esters Removal from Egyptian Jatropha Oil Seed Cake. Advances in Applied Science Research, 2011, 2 (4),221-232.

Fournier, V., Huelvan, C., Desbruyeres, E., 2004. Incorporation of a mixture of plant feedstuffs as substitute for fish meal in diets of juvenile turbot (Psetta maxima). Aquaculture 236, 451–465.

Goel, G., Makkar, H.P.S., Francis, G., Becker, K., 2007. Phorbol esters: structure, biological activity, and toxicity in animals. International Journal of Toxicology 26, 279-288.

Halaweish, F.T., Kronberg, S., Hubert, M.B., Rice, J.A., 2002. Toxic and aversive Diterpenes of Euphorbia esula. J. Chem. Ecol. 28,1599–1611.

Hass, W., Mittelbach, M., 2000. Detoxification experiments with the seed oil from Jatropha curcas L. Ind. Crop Prod. 12, 111-118.

Heller, J., 1996. Physic Nut: Jatropha curcas L. Promoting the Conservation and Use of Underutilized and Neglected Crops. I. Institute of Plant Genetics and Crop Plant Research, Gatersleben/ International Plant Genetic Resources Institute, Rome.

Ishii, Y., Takeuchi, R., Tokida, K., 1987. Transesterified curcas oil as a farm diesel engine fuel. In proceedings of the International Symposium on Agriculture Mechanization and International Cooperation in a High Technology Era. Pp 239. University of Tokyo, 3rd April.

International Pharmacopoeia, 2003. World Health Organization, 3rd ed., v.5, Geneva.

Joubert, P.H., Brown, M.M., Hay, I.T., Sebata, D.B., 1984. Acute poisoning with Jatropha curcas purging nut tree in children. South African Medical Journal 65, 729-730.

Kaushik, S.J., Cravedi, J.P., Lalles, J.P., Sumpter, J., Fauconneau, B., Laroche, M., 1995. Partial or total replacement of fish meal by soybean protein on growth, protein utilization, potential estrogenic or antigenic effects, cholesterolemia and flesh quality in rainbow trout, Oncorhynchus mykiss. Aquaculture 133, 257–274.

Kronberg, S.L., Muntifering, R.B., Ayers, E.L., Marlow, C.B., 1993. Cattle avoidance of leafy spurge: A case of conditioned aversion. J. Range Manage 46,364–366.

Kumar, V., Sharma, S., 2008. An evaluation of multipurpose oil seed crop for industrial uses (Jatropha curcas L.): A review. Industrial Crops & Products, 28, 1–10.

Liberalino, A.A.A., Bambirra, E.A., Moraes-Santos, T., Viera, E.C., 1988. Jatropha curcas L. seeds: Chemical analysis and toxicity. Braz. Arch. Biol. Technol. 31, 539–550.

Liu, S.Y., Sporer, F., Wink, M., Jourdane J., Henning, R., Li Y.L., Ruppel, A., 1997. Anthraquinones in Rheum palmatum and Rumex dentatus (Polygonaceae), and phorbol esters in Jatropha curcas (Euphorbiaceae) with molluscicidal activity against the schistosome vector snails Oncomelania, Biomphalaria and Bulinus. Tropical Medicine and International Health 2, 179-188.

Lucas, G.M., Markakes, P., 1975. Phytic acid and other phosphorus compounds of nevy bean (Phaseolous vulgaris). J. Agric., Food Chem., 23,13-15.

Lutz, A., 1992. Vegetable oil as fuel- an environmentally and socially compatible concept for Mali. GATE-Eschborn 4, pp. 38– 46.

Makkar, H.P.S., Aderibigbe, A.O., Becker, K., 1998. Comparative evaluation of non- toxic and toxic Jatropha curcas for chemical composition, digestibility, protein degradability and toxic factors. Food Chemistry, 62(2), 207-215.

Makkar, H.P.S., Becker, K., 1997a. Jatropha curcas toxicity: identification of toxic principle (s). In: Garland, T., Barr, A.C. (Eds.), Toxic Plants and Other Natural Toxicants. CAB International, New York, pp. 554–558.

Makkar, H.P.S., Becker, K., 1997b. Potential of Jatropha curcas Seed Meal as Protein Supplement in Livestock Feed, Constraints to its Utilisation and Possible Strategies to Overcome Constraints. Developed from the Symposium “Jatropha 97”. 23–27 February 1997, Managua, Nicaragua. Biofuel and Industrial Products from J. curcas, pp. 190–205.

Makkar, H.P.S., Becker, K., 1999. Nutritional studies on rats and fish (carp Cyprinus carpio) fed diets containing unheated and heated Jatropha curcas meal of a non-toxic provenance. Plant Foods Human Nutrition, 53,183–192.

Makkar, H.P.S., Becker, K., 2009a. Jatropha curcas, a promising crop for the generation of biodiesel and value-added co-products. Eur. J. Lipid Sci. Technol. 111, 773– 787.

Makkar, H.P.S., Becker, K., 2009b. Challenges and Opportunities for Using Byproducts from the production of Biodiesel from Jatropha oil as Livestock Feed. Proceedings of Animal Nutrition Association World Conferences, 14-17 February 2009, New Delhi, India: 168- 170.

Makkar, H.P.S., Becker, K., 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.

Makkar, H.P.S., Francis, G., Becker, K., 2007. Bioactivity of phytochemicals in some lesser-known plants and their effects and potential applications in livestock and aquaculture production systems. Animal 1(9),1371–1391.

Makkar, H.P.S., Martinez-Herrera, J., Becker K., 2008. Variations in Seed Number per Fruit, Seed Physical Parameters and Contents of Oil, Protein and Phorbol Ester in Toxic and Non-Toxic Genotypes of Jatropha curcas, Journal Plant Science, 3(3), 260-265.

Mampane, K.J., Joubert, P. H., Hay, I.T., 1987. Jatropha curcas: use as a traditional Tswana medicine and its role as a cause of acute poisoning. Phytotherapy Research 1, 50-51.

Martinez-Herrera, J., Siddhuraju, P., George, F., Davilá-Ortíz, G., Becker, K., 2006. Chemical composition, toxic/anti-metabolic constituents and effects of different treatments on their levels in four provenances of Jatropha curcas L. from Mexico. Food Chemistry 96, 80-89.

Munch, E. and Kiefer, J., 1989. Purging nut (Jatropha curcas L.). Multi-use plant as a source of fuel in the future. Schriftenreihe der GTZ 209, 1-32.

Ouedraogo, M., Ayers, P.D., Linden, J.C., 199. Diesel engine performance tests using oil from Jatropha curcas L. Agricultural Mechanization in Asia, Africa and Latin America, 22: pp. 25-29.

Raja, A.S., Robinson, S.D.S., Lindon, R., Lee C., 2011. Biodiesel production from jatropha oil and its characterization. Research Journal of Chemical Science, Vol.1 (1), pp. 81-87.

Donlaporn, S., Suntornsuk, W., 2010. Antifungal Activities of Ethanolic Extract from Jatropha curcas Seed Cake. Journal of Microbiology and Biotechnology 20(2), 319–324.

Samia, M.A., Badwi, E.L., Mausa, H.M., Adam, S.E.I., 1992. Response of brown hisex chicks to low levels of Jatropha curcas, Ricinus communis or their mixture. Veterinary and Human Toxicology 34, 304-306.

Samocha, T.M., Davis, A.D., Soud, P.I., de Bault, K., 2004. Substitution of FM by co-extruded soybean poultry by-product meal in practical diets for the Pacific white shrimp, Litopenaeus vannamei. Aquaculture 231,197–203

SOFIA, 2007. The state of world fisheries and aquaculture 2006. FAO Fisheries and aquaculture Department, Rome, pp 1–180.

Stirpe, F., Pession-Brezzi, A., Lorenzoni, E., Strocchi, P., Montanaro, L. and Sperti, S., 1976. Studies on the proteins from the seeds of Croton tiglium and of Jatropha curcas. Biochemical Journal 156, 1-6.

Trabi, M., Gubitz, G.M., Steiner, W., Foidi, N., 1997. Toxicity of Jatropha curcas seeds. Biofuel and Industrial products from Jatropha curcas. Proceeding of a symposium held in Managua, Nicaragua, February 1997. Technical University of Graz, Uhlandgasse 8, A-8010 Graz, Austria.

Wiesenhütter, J., 2003. Use of the Physic Nut (Jatropha curcas L.) to Combat Desertification and Reduce Poverty. Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ).

Young, S.M., Greaves, J.E., 1940. Influence of variety and treatment on phytic acid content of wheat. Food Res., 5,103-105.

Yue, Y., Zhou, Q., 2009. Effect of replacing soybean meal with cottonseed meal on growth, feed utilization, and hematological indexes for juvenile hybrid tilapia, Oreochromis niloticus, O. aureus. Aquaculture 284,185–189

Zayed, S.M., Farghaly, M., Taha, H., Gotta, H., Hecker, E., 1998. Dietary cancer risk conditional carcinogens in produce of livestock fed on species of spurge (Euphorbiaceae). I. Skin irritant and tumor-promoting ingenane-type diterpene esters in E. peplus, one of several herbaceous Euphorbia species contaminating fodder of livestock. J. Cancer Res. Clin. Oncol. 124,131–140.

Published

2013-01-28

How to Cite

Kofi Chikpah, S. ., & Demuyakor, B. . (2013). Evaluation of nutritional and antinutritional composition of meals of Jatropha curcas seeds/kernels obtained from four different agro-climatic areas of Ghana. Agricultural Advances, 2(1), 36-46. Retrieved from https://sjournals.com/index.php/aa/article/view/766

Issue

Section

Original Article