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The Additivity of True or Apparent Phosphorus Digestibility Values in Some Feed Ingredients for Growing Pigs
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The Additivity of True or Apparent Phosphorus Digestibility Values in Some Feed Ingredients for Growing Pigs
Fang, R.J.; Li, T.J.; Yin, F.G.; Yin, Y.L.; Kong, X.F.; Wang, K.N.; Yuan, Z.; Wu, G.Y.; He, J.H.; Deng, Z.Y.; Fan, M.Z.;
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Two experiments were conducted to determine the additivity of apparent or true digestibility of phosphorus (P) in soybean meal (SBM), peas, faba beans, corn, oats, broken rice meal, rough rice meal, buckwheat, and sorghum for growing pigs. Chromic oxide (0.3%) was used as a digestion marker in both experiments. Each experiment lasted for 12 d, which consisted of a 7-d dietary adaptation period followed by a 5-d fecal collection period. Experiment 1 involved 6 diets: the SBM-based control diet; 4 diets with corn, oats, rough rice meal and broken rice meal substituted for SBM; and an additional diet with a representative mixture of the 5 ingredients. In Experiment 2, 6 diets were prepared similarly, except that the tested ingredients besides SBM were faba beans, peas, buckwheat, and sorghum. In each experiment, six barrows with an initial average individual BW of 20.5 kg were fed one of the six diets according to a Latin square design. The apparent and true P digestibility values for the nine tested ingredients were determined by the substitution method. There were no differences (p>0.05) between the determined and the predicted true P digestibility values for the mixture of ingredients in Experiments 1 and 2. However, the determined and the predicted apparent P digestibility values for the mixture of ingredients differed (p = 0.059) in Experiment 1, but not in Experiment 2. These results indicate that true P digestibility values are additive in ingredients containing low levels of phytate phosphorus and anti-nutritional factors, whereas the apparent P digestibility values are not always additive in single feed ingredients for growing pigs.
Additivity;Phosphorus Digestibility;Feed Ingredients;Growing Pigs;
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아세아태평양축산학회지, 2008. vol.21. 4, pp.603-615 crossref(new window)
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Anderson, J. B. 1991. Nutritional biochemistry of calcium and phosphorous. J. Nutr. Biochem. 2:300-307. crossref(new window)

Association of Official Analytical Chemists. 1993. Official methods of analysis. 15th ed. AOAC., Washington, DC.

Association of Official Analytical Chemists. Animal Feeds. 1995. Phosphorus. Photometric method. In Official Methods of Analysis, AOAC, Washington, DC.

Barrier-Guillot, B., P. Casado, P. Maupetit, C. Jondreville and F. Gatel. 1996. Wheat phosphorus availability: 1. In vitro study; factors affecting endogenous phytasic activity and phytic phosphorus content. J. Sci. Food Agric. 70:62-68. crossref(new window)

Begbie, R. and A. Pusztai. 1989. The resistance to proteolytic breakdown of some plant (seed) proteins and their effects on nutrient utilization and gut metabolism. pp. 243-263 in M. Friedman, ed. Absorption and utilization of amino acids. CRC Press, Boca Raton, FL.

Berk, A. and E. Schulz. 1993. Die Verdaulichkeit des Phosphorus aus unterschiedliehen Futtermitteln beim Schwein wahrend der Mast. pp. 309-312 in Kongressband, 1993.

Bhanja, S. K., V. R. Reddy, A. K. Panda, S. V. R. Rao and R. P. Sharma. 2005. Effect of supplementing microbial phytase on performance of broiler breeders fed low non-phytate phosphorus diet. Asian-Aust. J. Anim. Sci. 18:1299-1304.

Byrkit, D. R. 1987. Statistics today-A comprehensive introduction. The Benjamin/Cummings Publishing Company, Inc., Menlo Park, CA.

Chemical Composition of Some Feed Ingredients Commonly Used for Swine in China. 1999. Chinese Data Bank of Feedstuffs. 10th Ed, J. Chinese Feed 23:26-29, 24:14-19.

Chubb, L. G. 1982. Anti-nutritive factors in animal feedstuffs (Ed. W. Haresign). Recent Advances in Animal Nutrition, Vol. 16, Butterworths, London, pp. 21-37.

Cromwell, G. L. 1992. The biological availability of phosphorus in feedstuffs for pigs. Pig News Info 13:75N-78N.

Cromwell, G. L., T. S. Stahly, R. D. Coffey, H. J. Monegue and J. H. Randolph. 1993. Efficacy of phytase in improving the bioavailability of phosphorus in soybean meal and cornsoybean meal diets for pigs. J. Anim. Sci. 71:1831-1840.

Dellaert, B. M., G. V. F. Van der Peet, A. W. Jongbloed and S. Beers. 1990. A comparison of different techniques to assess the biological availability of feed phosphates in pig feeding. Netherlands J. Agric. Sci. 38:555-566.

Deng, D., R. L. Huang, T. J. Li, G. Y. Wu, M. Y. Xie, Z. R. Tang, P. Kang, Y. M. Zhang, M. Z. Fan, X. F. Kong, Z. Ruan, H. Xiong, Z. Y. Deng and Y.-L. Yin. 2007a Nitrogen balance in barrows fed low-protein diets supplemented with essential amino acids. Livest. Sci., 109 :220-223. crossref(new window)

Deng, D., A. K. Li, W. Y. Chu, R. L. Huang, T. J. Li, X. F. Kong, Z. J. Liu, G. Y. Wu, Y. M. Zhang and Y. L. Yin. 2007b. Growth performance and metabolic responses in barrows fed lowprotein diets supplemented with essential amino acids. Livest. Sci. 109:224-227. crossref(new window)

Dungelhoef, M., M. Rodehutscord, H. Spiekers and E. Pfeffer. 1994. Effects of supplemental microbial phytase on availability of phosphorus contained in maize, wheat and triticale to pigs. Anim. Feed Sci. Technol. 49:1-10. crossref(new window)

Eeckhout, W. and M. de Paepe. 1994. Total phosphorus, phytatephosphorus and phytase activity in plant feedstuffs. J. Anim. Feed Sci. Technol. 47:19-29. crossref(new window)

Engelen, A. J., C. van der Heeft Fred, H. G. Randsdorp Peter and A. C. Somers Wim. 2001. Determination of phytase activity in feed by a colorimetric enzymatic method: collaborative interlaboratory study. J. AOAC Int. 84:629-633.

Fan, M. Z. and W. C. Sauer. 1999. Variability of apparent ileal amino acid digestibility in different pea samples for growingfinishing pigs. Can. J. Anim. Sci. 79:467-475. crossref(new window)

Fan, M. Z., T. Archbold, W. C. Sauer, D. Lackeyram, T. Rideout, Y. Gao, C. F. M. de Lange and R. R. Hacker. 2001. Novel methodology allows measurement of true phosphorus digestibility and the gastrointestinal endogenous phosphorus outputs in studies with pigs. J. Nutri. 131:2388-2396.

Fan, M. Z. and W. C. Sauer. 2002. Additivity of apparent ileal and fecal phosphorus digestibility values measured in single feed ingredients for growing-finishing pigs. Can. J. Anim. Sci. 82:183-191. crossref(new window)

Fan, M. Z., T. J. Li, Y. L. Yin, R. J. Fang, Z. Y. Tang, Z. P. Hou, R. L. Huang, Z. Y. Deng, H. Y. Zhong, R. G. Zhang, J. Zhang, B. Wang and H. Schulze. 2005. Effect of phytase suplementation with two levels of phosphorus diets on ileal and faecal digestibilities of nutrients and phosphorus, calcim, nitrogen and energy balances in growingpigs. Anim. Sci. 81:67-75

Fang, R. J., Y. L. Yin, K. N. Wang, J. H. He, Q. H. Chen, M. Z. Fan and G. Wu. 2007. Comparison of the regression analysis technique and the substitution method for the determination of true phosphorus digestibility and faecal endogenous phosphorus losses associated with feed ingredients for growing pigs. Livest. Sci. 109:251-254. crossref(new window)

Furuya, S. and Y. Kaji. 1991. Additivity of the apparent and true ileal digestible amino acid supply in barley, maize, wheat or soya-bean meal based diets for growing pigs. J. Anim. Feed Sci. Technol. 32:321-331. crossref(new window)

Griffiths, D. W. 1983. The polyphenolic content of field peas and their possible significance on nutritive value (Ed. R. Thompson and R. Casey). Perspectives for Peas and Lupins as Protein Crops. Martinus Nijhoff, The Hague, pp. 322-327.

Honeyman, M. S. 1996. Sustainability issues of U.S. swine production. J. Anim. Sci. 74:1410-1417.

Huang, R. -L., Y. -L. Yin, K.-P. Wang, T.-J. Li and J.-X. Liu. 2003. Nutritional value of fermented and not fermented material of distiller''s grains in pig nutrition. J. Anim. Feed Sci. 12:261-269.

Jobgen, W. S., S. K. Fried, W. J. Fu, C. J. Meininger and G. Wu. 2006. Regulatory role for the arginine-nitric oxide pathway in metabolism of energy substrate. J. Nutr. Biochem. 17:571-588. crossref(new window)

Jongbloed, A. W. 1987. Phosphorus in the feeding pigs. PhD thesis. Drukkerij de Boer, Lelystad, Netherland. pp. 92-99.

Jongbloed, A. W. and P. A. Kemme. 1990a. Apparent digestible phosphorus in the feeding of pigs in relation to availability, requirement and environment. 1. Digestible phosphorus in feedstuffs from plant and animal origin. Netherlands J. Agric. Sci. 38:3B,567-575.

Jongbloed, A. W. and P. A. Kemme. 1990b. Effect of pelleting mixed feeds on phytase activity and the apparent absorbability of phosphorus and calcium in pigs. Anim. Feed Sci. Technol. 28:3-4, 233-242. crossref(new window)

Jongbloed, A. W., H. Everts and P. A. Kemme. 1991. Phosphorus availability and requirements in pigs. pp. 65-80 in Recent advances in animal nutrition. Butterworth Heinemann, London, UK.

Jongbloed, A. W., N. P. Lenis and Z. Morz. 1997. Impact of nutrition on reduction of environmental pollution by pigs: an overview of recent research. Veterinary-Quarterly. 19:130-134.

Kadirvel, R. and D. R. Clandinin. 1974. The effect of faba beans (Vicia faba) on the performance of turkey poults and broiler chicks from 0-4 weeks of age. Poult. Sci. 53:1810-1816.

Lei, X. G., P. K. Ku, E. R. Miller, M. T. Yokoyama and D. E. Ullrey. 1993. Supplementing corn-soybean meal diets with microbial phytase maximizes phytate phosphorus utilization by weanling pigs. J. Anim. Sci. 71:12, 3368-3375.

Leiner, I. E. 1974. Phytohemagglutinins: Their nutritional significance. J. Agric. Food Chem. 22:17-22. crossref(new window)

Li, T.-J., Y.-L. Yin, S.-Y. Bin, R.-L. Huang, Q.-Z. Dai, P. Zhang, Z.-P. Hou and H. Yang. 2007a. Growth performance and nitrogen metabolism in weaned pigs fed diets containing different sources of starch. Livest. Sci. 109:73-76. crossref(new window)

Li, L.-L., Y. -L. Yin, Y.-H. Liu, D.-X. Hou, Z.-P. Hou, C.-B Yang and X.-J. Yang. 2007b. Effects of metallothionein on antioxidative function and related enzyme activities in blood and liver, and pork meat quality. Asian-Aust. J. Anim. Sci. 20:761-767.

Mallin, M. 2000. Impacts of industrial animal production on rivers and estuaries. J. Anim. Sci. 88:26-37.

Nasi, M. 1990. Microbial phytase supplementation for improving availability of plant phosphorus in the diet of the growing pig. J. Agric. Sci. Finl. 62:435-443.

National Research Council. 1998. Nutrient requirements for swine. 10th ed. National Academy Press, Washington, DC.

Ravindran, V. 1994. Total and phytate phosphorus contents of various foods and feedstuffs of plant origin. J. Food Chem. 50:133-136. crossref(new window)

Rodehutscord, M., M. Faust and H. Lorenz. 1996. Digestibility of phosphorus contained in soybean meal, barley and different varieties of wheat, without and with supplemental phytase fed to pigs and additivity of digestibility in a wheat-soybean-meal diet. J. Anim. Physiol. Anim. Nutr. 75:40-48. crossref(new window)

Saha, D. C. and R. L. Gilbreath. 1981. Analytical recovery of chromium from diet and feces determined by colorimetry and atomic absorption spectrophotometry. J. Sci. Food Agric. 55:433-446.

SAS Institute. 1999. SAS/STAT User's Guide. SAS Institute Inc., Cary, North Carolina, USA.

Sacakli, P., A. Sehu, A. Ergun, B. Genc and Z. Selcuk. 2006. The effect of phytase and organic acid on growth performance, carcass yield and tibia ash in quails fed diets with low levels of non-phytate phosphorus. Asian-Aust. J. Anim. Sci. 19:198-202.

Shen, Y., M. Z. Fan, A. Ajakaiye and T. Archbold. 2002. Use of the regression analysis technique to determine the true phosphorus digestibility and the endogenous phosphorus output associated with corn in growing pigs. J. Nutr. 132:1199-1206.

Simons, P. C. M., H. A. J. Versteegh, A. W. Jongbloed, P. A. Kemme, P. Slump, K. D. Box, M. G. E. Wolters, R. F. Beudeker and G. J. Verschoor.1990. Improvement of phosphorus availability by microbial phytase in broilers and pigs. Br. J. Nutr. 64:525-529. crossref(new window)

Tang, Z. R., Y. L. Yin, M. Charles, Nyachoti, R. L. Huang, T. J. Li, C. B. Yang, X. J. Yang, J. H. Gong, J. Peng, D. S. Qi, J. J. Xing, Z. H. Sun and M. Z. Fan. 2005. Effect of dietary supplementation of chitosan and galacto-mannanoligosaccharide on serum parameters and the insulin-like growth factor-I mRNA expression in early-weaned piglets. Domist. Anim. Endocrin. 28:430-441. crossref(new window)

Viveros, A., C. Centeno, A. Brenes, R. Canales and A. Lozano. 2000. Phytase and acid phosphatase activities in plant feedstuffs. J. Agric. Food Chem. 48:9, 4009-4013. crossref(new window)

Weremko, D., H. Fandrejewski, T. Zebrowska, I. K. Han, J. H. Kim and W. T. Cho. 1997. Bioavailability of phosphorus in feeds of plant origin for pigs. Asian-Aust. J. Anim. Sci. 10:551-566

Wu, G. 1998. Intestinal mucosal amino acid catabolism. J. Nutr. 128:1249-1252.

Yang, Cheng-bo, Ai-ke Li, Yu-long Yin, Rui-Lin Huang, Tie-jun Li, Li-li Li, Yi-ping Liao, Ze-yuan Deng, Hua-yi Zhong, Xiao-jian Yang and Ming-Z. Fan. 2005. Effects of dietary supplementation of cysteamine on growth performance, carcass quality, serum hormones and gastric ulcer in finishing pigs. J. Sci. Food Agric. 85:1047-1952.

Yang, H., A. K. Li, Y. L. Yin, T. J. Li, Z. R. Wang, G. Wu, R. L. Huang, X. F. Kong, C. B. Yang, P. Kang, J. Deng, S. X. Wang, B. E. Tan, Q. Hu, F. F. Xing, X. Wu, Q. H. He, K. Yao, Z. J. Liu, Z. R. Tang, F. G. Yin, Z. Y. Deng, M. Y. Xie and M. Z. Fan. 2007. True phosphorus digestibility and the endogenous phosphorus outputs associated with brown rice for weanling pigs measured by the simple linear regression analysis technique weanling pigs. Anim. 1:213-220. crossref(new window)

Yang, S. 1993. Technology of Analysis and Quality Inspection for Feedstuffs. Beijing: Publishing Company of Beijing Agricultural University (in Chinese)

Yin, Y.-L., Z.-Y. Deng, H.-L. Huang, T.-J. Li and H.Y. Zhong.2004. The effect of arabinoxylanase and protease supple-mentation on nutritional value of diets containing wheat bran or rice bran in growing pigs. J. Anim. Feed Sci. 13:445-461.

Yin, Y.-L, Baidoo, S. K., Schulze, H. and Simmins, P.H. 2001a. Effect of supplementing diets containing hulless barley varieties having different levels of non-starch polysaccharides with $\beta$-glucanase and xylanase on the physiological status of gastrointestinal tract and nutrient digestibility of weaned pigs. Livestock Production Science. 71:97-107. crossref(new window)

Yin, Y.-L, Baidoo, S. K., Jin, Z. L., Liu,Y.G., Schulze, H. and Simmins, P. H. 2001a.The effect of different carbohydrase and protease supplementation on apparent (ileal and overall) digestibility of nutrient of five hulless barley varieties in young pigs. Livestock Production Science. 71:109-120. crossref(new window)

Yin, Y. L., R. L. Huang, H. Y. Zhong, T. J. Li, W. B. Souffrant and C. F. M. de Lange. 2002a. Evaluation of mobile bag technique for determining apparent ileal digestibilities of crude protein and amino acids in growing pig. J. Anim. Sci. 80:409-420.

Yin, Y. L., N. K. Gurung, E. A. Jeaurond, P. H. Sharpe and C. F. M. de Lange. 2002b. Nutrient digestibility of Canadian-developed sorghum and pearl millet grains fed to growing pigs compared to traditional cereal grains. Can. J. Anim. Sci. 82:385-391. crossref(new window)

Yin, Y. L., R. L. Huang and H. Y. Zhong. 1993. Effect of autoclaving on ileal digestibility of crude protein, amino acid, urease activity of beans. Zeitschrift fur Tierphysiologie, Tierernahrung und Futtermittelkunde 71:65-74.