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http://dx.doi.org/10.5713/ajas.2002.1191

Effects of Replacing Corn with Chinese Brown Rice on Growth Performance and Apparent Fecal Digestibility of Nutrients in Weanling Pigs  

Li, Defa (Ministry of Agricultural Feed Industry Center, China Agricultural University)
Zhang, D.F. (Ministry of Agricultural Feed Industry Center, China Agricultural University)
Piao, X.S. (Ministry of Agricultural Feed Industry Center, China Agricultural University)
Han, In K. (806 Kwachon Officetel)
Yang, Chul J. (Dept. of Animal Science, Sunchon National University)
Li, J.B. (Ministry of Agricultural Feed Industry Center, China Agricultural University)
Lee, J.H. (Easy Bio System, Inc.)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.15, no.8, 2002 , pp. 1191-1197 More about this Journal
Abstract
This experiment was conducted to study the effects of replacing corn with Chinese brown rice on performance and apparent fecal digestibility of nutrients in weanling pigs. Seventy-two cross-bred (Duroc${\times}$Landrace${\times}$Large White) weanling pigs, weighing an average of $7.38{\pm}0.06kg$, were randomly assigned to either a corn-soybean meal diet (treatment 1), a corn-brown ricesoybean meal diet (treatment 2) and a brown rice-soybean meal diet (treatment 3). The brown rice used in this experiment was husked from one kind of early, long grain, non-glutinous rice (ELGNR, indica rice). The growth performance of weanling pigs in the experiment was similar during weeks 1 and 2, but feed conversion ratio (FCR) was significantly better in treatment 2 during weeks 3 and 4. During week 2, only the digestibility of organic matter in treatments 2 and 3 was significantly higher than that in treatment 1. During week 4, the digestibility of gross energy, ether extract, organic matter and dry matter in brown rice treatment, especially in treatment 3, were significantly higher than in treatment 1. At the end of the experiment, the concentration of serum urea nitrogen of pigs in treatment 2 was lower than that in treatment 1 and 3 and no difference was found in serum glucose and phosphorus. It could be concluded from this experiment that replacing 50% of corn with brown rice in the corn-soybean meal diet caused no negative effects to weanling pig performance, and apparent fecal digestibility was unaffected. It is feasible to replace corn with brown rice in weanling pig diets in southern China.
Keywords
Brown Rice; Corn; Weanling Pig; Performance; Digestibility;
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Times Cited By Web Of Science : 5  (Related Records In Web of Science)
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1 Farrell, D. J. and K. Hutton. 1990. Rice and rice milling byproducts. In: Nontraditional Feed Sources for Use in Swine Production (Ed. P. A. Thacker and R. N. Kirkwood). Butterworth & Co. (Publishers) Ltd. pp. 339-353.
2 Sukhija, P. S. and D. L. Palmquist. 1988. Rapid method for determination of total fatty acid content and composition of feedstuffs and feces. J. Agric. Food Chem. 36(6):1202-1206.   DOI
3 Zheng, C. T., D. F. Li, S. Y. Qiao, L. M. Gong, D. F. Zhang, P. Thacker and In K. Han. 2001. Effects of isoleucine supplementation of a low protein, corn-soybean meal diet on the performance and immune function of weanling pigs. Asian-Aust. J. Anim. Sci. 14(1):70-76.   DOI
4 He, R. G., Y. L. Ma, Y. Q. Wang, J. Y. Zhao and H. X. Wang. 1994. Study of the brown rice nutritional value by the pig's digestion and metabolism trial. J. Huazhong Agric. University, 13(3):268-273.
5 Gao, G. H. and T. X. Dong. 1993. Pilot study on replacing corn with brown rice in Duhu pigs. Hubei Agric. Sci., China. Issue 11:25-26.
6 Wu, X. J. and F. Y. Liu. 1986. Comparing experiment of feeding both polished rice and corn separately to growing pigs. Feed Research, Beijing, China. Issue 6:22-23.
7 NRC. 1998. Nutrient Requirements of Swine (10th Ed.) National Academy Press. Washington, DC.
8 Zheng, Y. C. 2000. Nutritional values and iatrical functions of the rice. Chin. Rice. Issue 1:38.
9 SPSS 9.0 for windows update. SPSS Inc. 1998.
10 Xiang, Y. H., Q. Y. Tang and Y. X. Huang. 1990. The relativity of rice grain quality characteristics I: Relations between eating quality and other grain quality characteristics of Indica nonwaxy rice. J. Hunan Agric. College. 16(4):325-330.
11 Zhang, S. R., K. X. Tian, J. C. Wang, M. H. Huang, W. J. Shen and H. Jin. 1999. Comparison on feeding value between brown rice and corn in finishing pig diets. Feed Industry, Shenyang, China. 20(5):26-27.
12 He, J. H., M. H. Huang, H. Jin, S. Y. Ceng and Q. G. Xu. 2000. Nutritional character of fodder paddy and brown rice. In: the 8th Symposium on Chinese Animal Nutrition of Chinese Animal Nutrition Association of CAVS. Published by the Paper's Publishing Company of Heilongjiang. pp. 189-193.
13 Tang, W. R., M. H. Huang, K. X. Tian, J. C. Wang, P. Ren, Z. R. Miao and Z. Y. Zhang. 1992. Investigation of paddy and broken rice production and its nutrition value in China. In:Advance of Chinese Animal Nutrition. Symposium of Chinese Animal Nutrition Association, Changsha, Hunan. pp. 12-18.
14 Duncan, D. B. 1955. Multiple Range and Multiple F Tests. Biometrics. 11:1-42.   DOI   ScienceOn
15 Piao, X. S., Defa Li, In K. Han, Y. Chen, J. H. Lee, D. Y. Wang, J. B. Li and D. F. Zhang. 2002. Evaluation of Chinese brown rice as an alternative energy source in pig diets. Asian-Aust. J. Anim. Sci. 15(1):89-93.   DOI
16 He, R. G., Y. L. Wang, L. B. Ma, M. Li and S. X. Zhang. 2000. Nutritive value of early long-grain brown rice in Hubei province (II): Effect of substitution of brown rice for maize as energy foodstuff on the growth and meat quality of growingfinishing pigs. J. Chin. Cereal Oil Assoc. 15(1):50-53.
17 Brown, J. A. and T. R. Cline. 1974. Urea excretion in the pig: An indicator of protein quality and amino acid requirements. J. Nutr. 104:542-545.
18 AOAC. 1990. Official Methods of Analysis (15th Ed.). Association of Official Analytical Chemists. Washington. DC.