Effect of Roasting and Oil Extraction Method on the Nutritive Value of Soybean Seed Cake
Abstract
This study was conducted to evaluate the effect of roasting and method of oil extraction on the chemical composition, Metabolizable energy (ME), and in vitro gas production of soybean seed cake: from un-roasted or roasted (at 164.5 °C for 10 minutes) soybean seeds oil was extracted mechanically or by solvent (hexane). A complete randomized design was used with 2×2 factorial arrangements (un-roasted × mechanical extraction, un-roasted × solvent extraction, roasted × mechanical extraction, and roasted × solvent extraction). The results revealed that although roasting had no significant effect on the chemical composition of the seed cake, it resulted in a significant (P<0.05) reduction in total gas production throughout the different incubation periods. More oil was retained in mechanically extracted soybean cake (24.51%) compared with solvent-extracted cake (5%). The high oil content of mechanically extracted soybean cake was reflected in high ME content (14.1 MJ/kg DM) compared with solvent-extracted cake (11.2 MJ/kg DM). Crude protein content was higher in solvent extracted cake (48.8%) compared with mechanically extracted cake (35.1%). The study concluded that the heat or roasting reduced the fermentation process resulting in less in vitro gas production, and the same trend was observed for mechanically extracted cake. Solvent extraction increased crude protein content and enhanced the fermentation process.
Downloads
References
AOCA. 1990. Official Methods of Analysis, Association of Official Analytical Chemists Washington, D.C.
Baker, D. H. 2000. Nutritional Constraints to use of soy products by animal. Anim. Nutri. Book, pages 1-12.
Broderick, G. A., R. D. Wallace, and E. R. Orskov. 1988. Comparison of estimates of ruminal protein degradation by in vitro and in situ methods. J. Anim. Sci, 66:1735-1745.
Cromwell, G. L. 1999. Soybean Meal-The “Gold Standard”. The Farmer’s Pride, KPPA News, Vol. 11, No. 20.
Dunsoford, B. R., D. A. Knabe, and W. E. Hacnsly. 1989. Effect of dietary soybean meal on the microscopic anatomy of the small intestine in the early weaned pig. J. Anim. Sci, 72: 1855-1864.
Ewan, R.C. 1975. World soybean Research Conference 11. Edition by R. Shibles. Westview press, Boulder, CO.
Feng, J., X. Liu, Z. R. Xu, Y. P. Lu, and Y.Y. Liu. 2007. Effect of fermented soybean meal on intestinal morphology and digestive enzyme activities in weaned piglets. Dig. Dis. Sci; 52: 1845-1850.
Fetuge, B., G. Babatundo, and V. O. Yenuga. 1974. Composition and nutritive value of cashean nut to do rate. Agri. Food. Chem, 22: 678-682.
Goelema, J. O. S., M. A. M. Wenberg, G. Hof, A. F. B. Van der Peol, and S. Tomminga. 1998. Effect of pressure toasting on rumen degradability and intestinal digestibility of whole and broken peas, lupins, faba beans and a mixture of these feedstuffs. Anim.Feed Sci. Techno, 76: 35-50.
Hamerstrand, E. G., T. L. Black, and D. L. Glover. 1980. Trypsin Inhibitors in Soy Products: Modification of the Standard Analytical Procedure. Chemists, 58:42-45.
Hittle, G. N. 1975. Soybean: Improvement, production and uses. American Soc. Agro, 16:2-2.
Hossain, M. A., and Becker. 2001. In vitro rumen degradability of crude protein in seeds from four sesbania spp. and the effects of treatments designed to reduce the levels of anti-nutrients in the seeds. Anim. Feed Sci.Techno, 95:49-62.
Kim, S. W., and D. H. Baker. 2003. Use of enzyme supplements in pig diets based on soybean meal. Pig New information, 24:91N-96N.
Lance, G., and B. Garren. 2005. Origin, History and Uses of Soybean. Iowa State University, Department of Agronomy. www.Agron.iastate.edu/courses/agron212/Readings/Soy-history.htm.
Leiner, I. E. 1981. Protein utilization factors affecting nutritive quality of Soya products. J. Am. oil Chem. Soc., 58:406.
Lord, W. A. R. 2000. Improvement protein quality. Anim. Feed Sci. Techno, 28:27-38.
MAFF. 1975. Energy allowances and feeding system for ruminants. Ministry of Agriculture, Fisheries and Food, Maff technical Bulletin, No.33.London, HMSO.
Menke, K.H., and H. Steingus. 1988. The Estimation of energetic feed and in vitro gas production using content of rumen fluid. Anim. Res. Develop. 28: 7 – 55.
Nesheim, A. R., and M. Garlich. 1975. Report on the effect heat treatment on soy bean quality. J. Agri. Food Chem, 32:717-721.
NRC. 1994. Nutrient Requirements of Poultry. National Research Council. 9th Rev. Edition. Natl. Acad. Press, Washington, D. C. Agri. Food Chem, 42:1666-1673.
PFS. 2005. Poultry Feeding Standards. The Kielanowski Institute of Animal Physiology and Nutrition, , Polish Academy of Sciences, ISBN 83-917097-7-9, Jabłonna /Warszawa, Poland.
Rynek Rzepaku. 2010. Soybean and Nutrition Book, Page 2. Edited by Hany A. EL-Shamy.
Statistix. 1985. Statistix for windows, Software program for data analysis, statistix 8.
Stern, M. D., K. A. Santos, and L. D. Satter. 1985. Protein degradation in rumen and amino acid adsorption in small intestine of lactation dairy cattle feed heat treated by bean, J. Dairy Sci, 25: 2256 – 2276.
Vishnu-Sharma, Sharma., And Mathura, sonjita. Sharma-v. 2001. The effect of heat and formaldehyde and heat treatment alone and incubation on insitu dry matter and nitrogen disappearance protein source India. J. Anim. Sci. 71: 703-705.
Warnick, R. E., and J. O. Anderson. 1968. Limiting essential amino acid in soybean meal for growing chickens and the effect of heat upon availability of the essential amino acids. Poult.sci, 47:281-287.
Yong, J. H., A. Broderick, and R. G. Koegelk. 1993. Effect of treating alfalfa hay on chemical composition and Ruminal in vitro protein degradation. J. Dairy Sci. 76:154-264.
