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http://dx.doi.org/10.5713/ajas.2010.80437

Effect of Dietary Copper Sources (Cupric Sulfate and Cupric Methionate) and Concentrations on Performance and Fecal Characteristics in Growing Pigs  

Huang, Y. (Department of Animal Resource and Science, Dankook University)
Zhou, T.X. (Department of Animal Resource and Science, Dankook University)
Lee, J.H. (Department of Animal Resource and Science, Dankook University)
Jang, H.D. (Department of Animal Resource and Science, Dankook University)
Park, J.C. (Swine Science Division, National Institute of Animal Institute of Animal Science, Rural Development administration)
Kim, I.H. (Department of Animal Resource and Science, Dankook University)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.23, no.6, 2010 , pp. 757-761 More about this Journal
Abstract
This study was conducted to assess the effects of organic and inorganic copper on performance in growing pigs. A total of 100 pigs, average age 63 d and initial body weight 21.46${\pm}$1.13 kg, were assigned to five treatment groups. Dietary treatments included i) CON (basal diet, 0 ppm Cu), ii) T1 (basal diet with 67 ppm Cu as cupric sulfate, $CuSO_4$), iii) T2 (basal diet with 134 ppm Cu as $CuSO_4$), iv) T3 (basal diet with 67 ppm Cu as cupric methionate, CuMet) and v) T4 (basal diet with 134 ppm Cu as CuMet). Throughout the entire experimental period, ADG (average daily gain), ADFI (average daily feed intake) and G/F (gain: feed) ratios showed no significant differences. The dry matter digestibility was improved in the T1, T2, T3, and T4 treatments (p<0.05), as compared with CON. Nitrogen digestibility was improved in the T3 treatment group as compared with CON (p<0.05). As compared with the T1 treatment group, fecal pH values were improved in the CON, T3, and T4 treatment groups (p<0.05). Fecal Cu concentrations were significantly lower in the CON, T3, and T4 treatment groups than in T1 and T2 (p<0.05). The incidence of diarrhea was reduced when the pigs were fed on the T2, T3, and T4 diets as compared with CON. In conclusion, diets supplemented with 67 or 134 ppm Cu as CuMet may prove effective in improving nutrient digestibility and fecal pH value in growing pigs, and fecal Cu concentrations may be reduced by CuMet supplementation.
Keywords
Growing Pigs; Copper; Nutrients Digestibility; pH; Diarrhea;
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  • Reference
1 Braude, R. 1967. Copper as a stimulant in pig feed (cuprum pro pecunia). World Rev. Anim. Prod. 3:69-81
2 Bunch, R. J., J. T. McCall, V. C. Speer and V. W. Hays. 1965. Copper supplementation for weanling pigs. J. Anim. Sci. 24:995
3 Guo, R., P. R. Henry, R. A. Holwerda, J. Cao, R. C. Littell, R. D. Miles and C. B. Ammerman. 2001. Chemical characteristics and relative bioavailability of supplemental organic copper sources for poultry. J. Anim. Sci. 79:1132-1141   PUBMED   ScienceOn
4 Hawbaker, J. A., V. C. Speer, V. W. Hays and D. V. Catron. 1961. Effects of copper sulfate and other chemotherapeutics in growing swine rations. J. Anim. Sci. 20:163-167
5 Hill, G. M., G. L. Cromwell, T. D. Crenshaw, C. R. Dove, R. C. Ewan, D. A. Knabe, A. J. Lewis, G. W. Libal, D. C. Mahan, G. C. Shurson, L. L. Southern and T. L. Veum. 2000. Growth promotion effects and plasma changes from feeding high dietary concentrations of zinc and copper to weanling pigs (regional study). J. Anim. Sci. 78:1010-1018   PUBMED   ScienceOn
6 Paik, I. K., S. H. Seo, J. S. Um, M. B. Chang and B. H. Lee. 1999. Effects of supplementary copper-chelate on the performance and cholesterol level in plasma and breast muscle of broiler chickens. Asian-Aust. J. Anim. Sci. 12:794-798
7 SAS Inc., 1996. SAS$^{{\circledR}}$ User’s Guide. Version 6.12 Edition SAS Inc., Cary, NC, USA
8 Stansbury, W. F., L. F. Tribble and D. E. Orr, Jr. 1990. Effect of chelated copper sources on performance of nursery and growing pigs. Anim. Sci. 68:1318-1322
9 Veum, T. L., M. S. Carlson, C. W. Wu, D. W. Bollinger and M. R. Ellersieck. 2004. Copper (L)proteinate in weanling pig diets for enhancing growth performance and reducing fecal copper excretion compared with copper sulfate. J. Anim. Sci. 82:1062-1070   PUBMED   ScienceOn
10 Yu, B., W. J. Huang and P. W. Chiou. 2000. Bioavailability of iron from amino acid complex in weanling pigs. Anim. Feed Sci. Technol. 86:39-52   DOI   ScienceOn
11 Dove, C. R. and R. C. Ewan. 1990. Effect of excess dietary copper, iron or zinc on the tocopherol and selenium status of growing pigs. J. Anim. Sci. 68:2407-2413   PUBMED
12 AOAC. 1995. Official Methods of Analysis (16th Ed.). Association of Official Analytical Chemists, Washington, DC
13 Apgar, G. A., E. T. Kornegay, M. D. Lindeman and D. R. Notter. 1995. Evaluation of copper sulfate and a copper lysine complex as growth promoters for weanling swine. J. Anim. Sci. 73:2640-2646   PUBMED   ScienceOn
14 Cromwell, G. L., S. T. Stahly and H. J. Monegue. 1989. Effects of source and level of copper on performance and liver copper stores in weanling pigs. J. Anim. Sci. 67:2996-3002   PUBMED
15 Wang, Y. Z., T. Z. Shan, Z. R. Xu, J. Feng and Z. Q. Wang. 2007. Effect of the lactoferrin (LF) on the growth performance, intestinal microflora and morphology of weanling pigs. Anim. Feed Sci. Technol. 135:263-127   DOI   ScienceOn
16 Smith II, J. W., M. D. Tokach, R. D. Goodband, J. L. Nelssen and B. T. Richert. 1997. Effects of interrelationships between zinc oxide and copper sulfate on growth performance of earlyweaned pigs. J. Anim. Sci. 75:1861-1866   PUBMED   ScienceOn
17 Cromwell, G. L., T. S. Stahly and W. D. Williams. 1981. Efficacy of copper as a growth promotant and its interaction with sulfur and antibiotics for swine. Proc. Distill. Feed Conf. 36:15
18 Downs, K. M., J. B. Hess, K. S. Macklin and R. A. Norton 2000. Dietary zinc complex and vitamin E for reducing cellulities incidence in broilers. J. Appl. Poult. Res. 9:319-323   ScienceOn
19 Cromwell, G. L. 2001. Antimicrobial and promicrobial agents. Pages 401-426 in Swine Nutrition. 2nd ed. (Ed. A. J. Lewis and L. L. Southern). CRC Press LLC, Boca Raton, FL
20 Baker, D. H. and C. B. Ammerman. 1995. Copper bioavailability. In: Bioavailability of Nutrients for Animals (Ed. C. B. Ammerman, D. H. Baker and A. J. Lewis). Amino Acids, Minerals, and Vitamins, Academic Press, San Diego, CA, pp.127-156
21 Barber, R. S., R. Braude, K. G. Mitchell and J. Cassidy. 1955. High copper mineral mixture for fattening pigs. Chem. Ind. (Lond.) 21:601
22 National Research Council. 1998. Nutrient requirements of swine. 10th revised ed. National Academic Science, Washington, DC, USA
23 Smith II, J. W., J. D. Arthington, M. D. Tokach, F. Blecha, R. D. Goodband, J. L. Nelssen, B. T. Richert, K. Q. Owen, J. R. Bergstrom and W. B. Nessmith, Jr. 1996. The effect of supplemental mineral regimen on weanling pig blood and immune parameters, and liver and plasma mineral concentrations. J. Anim. Sci. 74 (Suppl. 1):57(Abstr.)
24 Braude, R. 1975. Copper as a performance promoter in pigs. In:Farming Symp. Development Assoc., London
25 Fouad, M. T. 1976. The physiochemical role of chelated minerals in maintaining optimal body biological functions. J. Appl. Nutr. 28:5
26 Bowland, J. P. 1990. Copper as a performance promoter for pigs. Pig News Infor. 11:163