Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-28T10:20:11.977Z Has data issue: false hasContentIssue false

Utilization of rice bran in diets for domestic fowl and ducklings

Published online by Cambridge University Press:  18 September 2007

David J. Farrell
Affiliation:
Department of Biochemistry, Microbiology and Nutrition, University of New England, Armidale, N.S.W. 2351, Australia
Get access

Abstract

Rice bran constitutes about 10% of brown rice and is used as an animal feed. There are 40–45 million tonnes of rice bran produced annually, mainly in the Far East and South-east Asia. In these areas hull adulteration can occur, reducing the quality of the bran. This can now be detected by a simple colormetric method. Rancidity is a major problem due to the high oil content of the bran. Rapid hydrolysis of the oil is followed by oxidation with the changes being accelerated in warm, humid conditions. The effects on nutritive value and acceptability are unclear. An analysis of Australian produced rice bran (on a dry matter basis) gives a mean crude protein concentration of 150 g/kg, ether extract of 220 g/kg and neutral detergent fibre of 220 g/kg. The amino acid profile is generally superior to that of cereal grains. Digestibility of the oil is much less in young chickens than in adult birds resulting in a 28–35% lower metabolizable energy (ME) depending on cultivar. Equations for predicting the ME of rice bran for birds at different ages, and chemical components from rice hull content of rice bran are given. Digestibility of amino acids in rice bran is also lower for young chickens than adult birds. Inclusion of rice bran in chicken diets in excess of 20% frequently depresses growth, but higher levels can be tolerated by ducklings. Results with ducklings suggest that the composition of the basal diet to some extent influences the response of birds when rice bran is included in the diet. The inclusion of animal protein elicits an improved performance compared with that of an all-vegetable based diet. Defatted rice bran (DFRB) gives the same performance as full fat bran when equalized for ME. Laying birds can tolerate high levels of rice bran. Although some reports indicate successful inclusion of well above 600 g/kg, a practical upper limit of 450 g/kg seems to be accepted. Defatted rice bran at 250 g/kg diet resulted in leg problems, increased mortality and reduced egg output. Shell grit alleviated the problem. So far, attempts to improve the nutritive value of rice bran through addition of feed enzymes have had limited success. Feed phytase has been successful in releasing phosphorus from phytate in rice bran which is present at up to 50 g/kg dry matter. Improving the nutritional value of rice bran by heat treatment is probably not economical, although extrusion cooking will stabilize the oil before extraction and is used to stabilize rice bran for human food. Feed enzymes may be effective when a suitable combination is found.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1994

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Balnave, D. (1982) Egg weight and production responses of laying hens fed rice pollard. Journal of the Science of Food and Agriculture 33: 231236CrossRefGoogle Scholar
Barber, S. and De Barber, C.B. (1980) Rice bran: chemistry and technology. In: Rice: Production and Utilization (Ed. Luh, B.S.), AVI Publishing Co., Westport, Connecticut, pp. 790862Google Scholar
Bryden, W.L. (1986) Mycotoxins and duck production. In: Duck Production Science and World Practice (Eds Farrell, D.J. and Stapleton, P.). University of New England Publishing Unit, Armidale, N.S.W., pp. 149167Google Scholar
Cabel, M.C. and Waldroup, P.W. (1989) Research note: ethoxyquin and ethylenediamine-tetraacetic acid for the prevention of rancidity in rice stored at elevated temperatures and humidity for various lengths of time. Poultry Science 68: 438442CrossRefGoogle Scholar
Corley, J.R., Baker, D.H. and Easter, R.A. (1980) Biological availability of phosphorus in rice bran and wheat bran as affected by pelleting. Journal of Animal Science 50: 286292CrossRefGoogle ScholarPubMed
Creswell, D.C. (1987) A survey of rice by products from different countries. In: New Developments in Feed and Technology. Monsanto Technical Symposium, Bangkok, 09 1987 pp 435.Google Scholar
Creswell, D.C., Dharsana, R. and Ketaren, P. (1977) Rice bran and rice polishings in diets of young chickens. Proceedings 1st Seminar Poultry Science and Industry II, Bogor, Indonesia, p. 2Google Scholar
Deolankar, R.P. and Singh, K.S. (1979) Trypsin inhibitor, mineral availability, and performance of broiler chickens fed on diets based on rice bran. Animal Feed Science and Technology 4: 133141CrossRefGoogle Scholar
Diment, J.A. (1983) Rice Bran Studies With Poultry 1978–1983. A collection of papers, protocols and results of David Creswell and others. BPT, Ciawi, IndonesiaGoogle Scholar
Diment, J. A. (1984) Rice Bran Studies With Poultry 1980–1983. A collection of papers, protocols, reports and results of John Diment and others. BPT, Ciawi, IndonesiaGoogle Scholar
Diment, J.A., Kompiang, I.P. and Sugani, S. (1982) Overcoming the disadvantages of rice bran for poultry. Research Report For 1982. Research Institute for Animal Production, CRIAS, Bogor, Indonesia pp 4850.Google Scholar
Din, M.G., Sunde, M.L. and Bird, H.R. (1979) Effect of feeding plant by–product diets on growth and egg production. Poultry Science 58: 12741283CrossRefGoogle Scholar
Farrell, D.J. and Warren, B.E. (1982) The energy concentration of rice by–products for sheep, pigs and poultry. In: Animal Production in Australia, Pergamon Press, Sydney, p. 676Google Scholar
Farrell, D.J. and Martin, E. (1993) The effects of microbial phytase on the performance of ducks given diets with high amounts of rice bran. Proceedings of the Nutrition Society 52: 207AGoogle Scholar
Gunawan, and Tangendjaja, B. (1988) The effect of long storage of rice bran for growing broiler chickens. Ilmu dan Peternakan 3: 135138Google Scholar
Hamid, H. and Jalaludin, S. (1987) Effect of rice bran on production performance of laying hens offered diets with two levels of energy and protein. In: Advances in Animal Feeds and Feeding in the Tropics (Eds Hutagalung, R.I., Peng, C.C., Embong, W.M.W., Theem, L.A. and Sivarajasingam, S.) MSAP, Serdang, Selangor, pp. 307310Google Scholar
Houston, D.F. (1972) Rice bran and polish. In: Rice Chemistry and Technology (Ed. Houston, D.F.), American Association of Cereal Chemists Inc, St. Paul, Minnesota.p. 272Google Scholar
Hussein, A.S. and Kratzer, F.H. (1982) Effect of rancidity on the feeding value of rice for chickens. Poultry Science 61: 24502455CrossRefGoogle Scholar
Karunajeewa, H. and Tham, S.H. (1980) The influence of triticale, rice pollard and dietary fatty acids on growth, egg size and productivity of White Leghorn layers. Proceedings of 1980 South Pacific Poultry Science Convention, WPSA, Auckland, New Zealand, pp. 3643Google Scholar
Kratzer, F.H. and Payne, C.G. (1977) Effect of autoclaving, hot water treatment, par boiling and addition of ethoxyquin on the value of rice bran as a dietary ingredient for chickens. British Poultry Science 18: 475482CrossRefGoogle Scholar
Kratzer, F.H., Earl, L. and Chiaravanont, C. (1974) Factors influencing the feeding value of rice bran for chickens. Poultry Science 53: 17951800CrossRefGoogle Scholar
Lodhi, G.N. and Ichhponani, J.S. (1975) Effect of feeding deoiled rice polish on the growth and subsequently productive performance of White Leghorn pullets. Journal of the Science of Food and Agriculture 26: 641652CrossRefGoogle ScholarPubMed
Lu, J.J. and Chang, T.T. (1980) Rice in its temporal and spacial perspectives. In: Rice Production and Utilization (Ed. Lush, B.S.), AVI Publishing, Westpoint, Connecticut, pp. 174Google Scholar
Majun, G.K. and Payne, C.G. (1977) Autoclaved rice bran in layers' diets. British Poultry Science 18: 201203CrossRefGoogle Scholar
Martin, E.A. (1983) Rice bran and whole rice for broiler chickens. MSc Thesis, University of Arkansas Arkansas,Google Scholar
Martin, E. A. and Farrell, D.J. (1993) The beneficial effects of a microbial phytase in rice bran based diets. Proceedings of Australian Poultry Science Symposium,University of Sydney,February 1993, p. 74Google Scholar
McCall, E.R., Jurgens, J.F., Hoffpauir, C.L., Pons, W.A., Stark, S.M., Cucullu, A.F., Heinzelman, D.C., Cirino, V.O. and Murray, M.D. (1953) Composition of rice bran. Influence of variety and environment on physical and chemical composition. Journal of Agriculture and Food Chemistry 1: 988992CrossRefGoogle Scholar
Nelson, T.D., Ferrara, L.W. and Storer, N.L. (1968) Phytate phosphorus content of feed ingredients derived from plants. Poultry Science 47: 13721376CrossRefGoogle ScholarPubMed
Nitis, I.M. (1973) Nutritional evaluation of copra meal and rice pollard for growing chicks. PhD Thesis, University of New England, Armidale, N.S.W.Google Scholar
NRC (1984) National Research Council Nutrient Requirements of Poultry, 8th edn. National Academy Press, Washington, DCGoogle Scholar
Normand, F.L., Ory, R.L. (1984) Effect of rice hemicellulose on pancreatic lipase activity in vitro. Journal of Food Science 49: 956957CrossRefGoogle Scholar
Normand, F.L. and Ory, R.L. and Mod, R.R. (1981) Interactions of several bile acids with hemi celluloses from several varieties of rice. Journal of Food Science 46: 11591161CrossRefGoogle Scholar
Piliang, W.G., Bird, H.R. and Sunde, M.L. (1982) Rice bran as the major energy source for laying hens. Poultry Science 61: 357363CrossRefGoogle Scholar
Raharjo, Y. and Farrell, D.J. (1984) A new biological method for determining the amino acid digestibility in poultry feedstuff using a simple cannula, and the influence of dietary fibre on endogenous amino acid output. Animal Feed Science and Technology 12: 2945CrossRefGoogle Scholar
Randall, J.M., Sayre, R.N., Schultz, W.G., Fong, R.G., Mossman, A.P., Tribelhom, R.E. and Saunders, R.M. (1985). Rice bran stabilization by extrusion cooking for extraction of edible oil. Journal of Food Science 50: 361368CrossRefGoogle Scholar
Saunders, R.M. (1986) Rice bran composition and potential food uses. Food Reviews International 1: 465495CrossRefGoogle Scholar
Shaheen, A.B., El–Dash, A.A. and El–Shirbeeng, A.E. (1975) Effect of parboiling of rice on the rate of lipid bydrolysis and deterioration of rice bran. Cereal Chemistry 52: 17Google Scholar
Singh, K.S., Deolankar, R., Tomar, A. and Sahu, S. (1987) Calcium nutrition of chickens fed diets based on rice bran In: Advances in Animal Feeds and Feeding in the Tropics (Eds Hutagalung, R.I., Peng, C.C., Embong, W.M.W., Theem, L.A. and Swarajasingam, S.) Malaysian Society of Animal Production, Serdang, Selangor, pp. 298301Google Scholar
Srichai, Y. and Balnave, D. (1981) Egg weight response to dietary supplementation with sun flower oil and rice pollard. Australian Journal of Agricultural Research 32:183188CrossRefGoogle Scholar
Sutikno, A.I. (1990) Screening of aflatoxins in duck feedstuffs in West Java, Indonesia. Journal of the Science of Food and Agriculture 50: 459465CrossRefGoogle Scholar
Tangendjaja, B. (1985) Performance of chickens fed on rice bran treated with hot water to reduce the content of phytic acid. Ilmu dan Peternakan 1: 341343Google Scholar
Tangendjaja, B. and Lowry, J.B. (1985) Improved utilization of rice bran: a rapid field method for estimating hull content. Ilmu dan Peternakan 1: 323361Google Scholar
Tangendjaja, B.Buckle, K.A. and Wootton, M. (1981) Dephosphorylation of phytic acid in rice bran. Journal of Food Science 46: 10211024CrossRefGoogle Scholar
Tangendjaja, B., Cook, L.J. and Creswell, D. (1981) Oxidative and hydrolytic rancidity of rice bran during storage. Proceedings of First ASEAN Workshop on the Technology of Animal Feed Production Utilizing Food Waste Materials. Bandung, 08 1981Google Scholar
Tangendjaja, B., Matondang, R. and Diment, J.R. (1986) Duck and chicken comparison on the utilization of rice bran during growing period. Ilmu dan Peternakan 2: 137139Google Scholar
Tangendjaja, B., Setioko, A.R. and Diment, J.R. (1985) Evaluation of hot water treated rice bran and inclusion of rice hull on the performance of Alabio ducklings. Ilmu dan Peternakan 1: 359361Google Scholar
Warren, B.E. (1985) A nutritional evaluation of defatted and full–fat Australian rice bran. PhD thesis, University of New England, Armidale, NSWGoogle Scholar
Warren, B.E. and Farrell, D.J. (1990a) The nutritive value of full–fat and defatted Australian rice bran. I. Chemical composition. Animal Feed Science and Technology 27: 219228CrossRefGoogle Scholar
Warren, B.E. and Farrell, D.J. (1990b) The nutritive value of full–fat and defatted rice bran. II. Growth studies with chickens, rats and pigs. Animal Feed Science and Technology 27: 229246CrossRefGoogle Scholar
Warren, B.E. and Farrell, D.J. (1990c) The nutritive value of full–fat and defatted rice bran. III. The apparent digestible energy content of defatted rice bran in rats and pigs and the metabolisability of energy and nutrients in defatted and full–fat bran in chickens and adult cockerels. Animal Feed Science and Technology 27: 245247CrossRefGoogle Scholar
Warren, B.E. and Farrell, D.J. (1990d) The nutritive value of full fat and defatted rice bran. IV. Egg production of hens on diets with defatted rice bran. Animal Feed Science and Technology 27: 259268.CrossRefGoogle Scholar
Warren, B.E. and Farrell, D.J. (1991) The nutritive value of full–fat and defatted Australian rice bran. V. The apparent retention of minerals and apparent digestibility of amino acids in chickens and adult cockerels fitted with ileal cannulae. Animal Feed Science and Technology 34: 323342CrossRefGoogle Scholar
Xian, J. and Farrell, D.J. (1991) The nutritive value of microwave processed raw soybeans determined with chickens, rats and rabbits. Animal Feed Science and Technology 34: 127139CrossRefGoogle Scholar
Zanuddin, Z., Iskandar, S. and Gozali, A. (1985) Addition of rice bran to commercial broiler feed for feeding to confined village chickens. Research Report 1984/1985. Research Institute for Animal Production, CRIAS, Bogor, pp. 21–22Google Scholar