Effect of oral supplement of zinc and copper on lameness and reproductive performance in dairy cattle
Subject Areas :
Veterinary Clinical Pathology
حسین Koochekzadeh Omran
1
,
میثم Fallah
2
,
مجید Fartashvand
3
,
A.M Vatankhah
4
1 - Member of Research club, Faculty of Veterinary Medicine, Tabriz Branch, Islamic Azad University, Tabriz, Iran
2 - Department of Clinical Sciences, Faculty of Veterinary Medicine, Tabriz Branch, Islamic Azad University, Tabriz, Iran
3 - Department of Clinical Sciences, Faculty of Veterinary Medicine, Tabriz Branch, Islamic Azad University, Tabriz, Iran
4 - Drug Applied Research Center, Tabriz University of Medical Science, Tabriz, Iran
Received: 2012-10-25
Accepted : 2012-11-21
Published : 2012-08-22
Keywords:
Copper,
reproductive performance,
Zinc,
dairy cattle,
lameness,
Abstract :
The aim of this study was to evaluate the effects of oral supplements of zinc and copper on lameness and reproductive performance in dairy cattle. Performance indicators on a dairy farm are very different. In this study which was conducted on 40 Holstein cows at one of Amol's dairy farms, some of these indicators include lameness, abortion; retained placenta and open days were studied. 360 mg zinc and 125 mg copper were added to rations of daily 20 heads of cattle (case group) daily for one year. Control group was given same diet without the supplement. Regular and seasonal blood sampling were done and serum levels of zinc and copper were analyzed. The results suggested that lameness (p<0.01), retained placenta (p<0.05), open day (p<0.05) and abortion (p<0.05) were reduced significantly after treatment. There is a significant difference in these incidence, between case and control group (p<0.01). Due to the simultaneous increase in serum levels of copper and zinc with reduction the incidence of the disease, we conclude that the use of trace elements such as copper and zinc in improving reproductive performance and lameness were useful.
References:
Ahmed, W.M., El-Ekhnawy, K.I., Desouky, H.M., Zaabal, M.M. and Ahmed, Y.F. 1999. Investigations on retained fetal membranes in Friesian cows in Egypt. Global Veterinaria, 3(2):120-124.
Ahola, J. K., et al., 2004. Effect of copper, zinc, and manganese supplementation and source on reproduction, mineral status, and performance in grazing beef cattle over a two-year period. J Anim. Sci. 82:2375-2383.
Akar, Y. and Yeldiz, H. 2005. Concentrations of some minerals in cows with retained placenta and abortion. Turkish J. Vet. Anim. Sci. 29:1157-1162.
Arthington, J.D., Johnson, K.R., Corah, L.R., Williams, C.L. and Hill, D.A. 1995. The effect of dietary zinc level and source on yearling bull growth and fertility. J. Anim. Sci. 73:277
Azizzadeh, M., Mohri, M. and Seifi, H.A., 2005. Effect of oral zinc supplementation on hematology, serum biochemistry, performance, and health in neonatal dairy calves.Comparative Clinical Pathology 14:67–71.
Ballantine, H.T., Socha, M.T., Tomlinson, D.J., Johnson, A.B., Fielding, A.S., Shearer, J. K. and Van Amstel, S.R. 2002. Effects of feeding complexed zinc, manganese, copper, and cobalt to late gestation and lactating cows on claw integrity, reproduction, and lactation performance. Prof. Anim. Sci. 18:211–218.
Campbell, M.H. and Miller, J.K., 1998. Effect of supplemental dietary vitamin E and zinc on reproductive performance of dairy cows and heifers fed excess iron. J. Dairy Sci. 81, 2693–2699
Christoph, K. and Muelling, W. 2009. Nutritional Influences on Horn Quality and Hoof Health. WCDSAdvances in Dairy Technology 21:283-291.
Clarkson, M.J., Downham, D.Y., et al. 1996. Incidence and prevalence of lameness in dairy cattle. Vet. Rec. 138:563-567.
Enjalbert, F., Lebreton, P., and Salat, O. 2006. Effects of copper, zinc and selenium status on performance and health in commercial dairy and beef herds: Retrospective study. J. Anim. Physiol. Anim. Nutr. 90:459-466.
Gao, G., Yi, J., Zhang, M., Xiong, J., Geng, L., Mu, C. and Yang, L.G. 2007. Effects of iron and copper in culture medium on bovine oocyte maturation, preimplantation embryo development, and apoptosis of blastocysts. J. Reprod. Dev., 53:777–784.
Geyer, H. 1998. The influence of biotin on horn quality of hooves and claws. In: 10th International Symposium on Lameness in Ruminants. Lucerne, Switzerland. pp:192-199.
Greene, L.W., Johanson, A.B., Paterson, J. and Ansotegui, R. 1998. Role of trace minerals in cow-calf cycle examined. Feedstuffs Magazine 70:37.
Green, L.E., Hedges, V.J., Schukken, Y.H., Blowey, R.W. and Packington, A.J.2002. The impact of clinical lameness on the milk yield of dairy cows. J. Dairy. Sci. 85:2250-2256.
Griffiths, L. M., Loeffler, S. H., Socha, M. T., Tomlinson, D. J., and Johnson, A. B. 2007. Effects of supplementing complexed zinc, manganese, copper and cobalt on lactation and reproductive performance of intensively grazed lactating dairy cattle on the South Island of New Zealand. Anim. Feed Sci. Technol. 137:69–83.
Harrison, J.H., Hancock, D.D., Conrad, H.R., 1984. Vitamin E and selenium for reproduction of the dairy cow. J. Dairy Sci. 67, 123–132.
Johns, J.T., Gay, N., Aaron, D.K., Randolph, J.R. and Wyles, J.W., .1991. The effect of chelated minerals and protein level in conditioning rations on gain of newly weaned calves. J. Anim. Sci. 69: 25.
Linder, M.C. 1996. Copper. In: Present knowledge in nutrition. Ziegler, E.E. and Filer, L.J., ILSI Press, Washington, DC., 7th edition, pp:307-319
Lotthammer, K.H. 1982. Level of some blood parameters as indicators for liver disorder-their causes, relations to fertility and possibilities to prevent fertility problems. Proceeding of XII World Congress Disease Cattle, 1:527-532.
Manspeaker, J.E., Robl, M.G., Edwards, G.H. and Douglass, L.W. 1987. Chelated minerals: Their role in bovine fertility. Vet. Med. 82:951–956.
Marta Lopez-Alonso. A., Felipe. P., Marta. M., Cristina. C., Joaquın. R., Hernandez. A. andJose´Luis. B., 2005. Intracellular distribution of copper and zinc in the liver of copper-exposed cattle from northwest Spain. The veterinary journal, 170:332-338.
Miller, J.K., Brzezinska, S. and Madsen, F.C. 1993. Oxidative stress, antioxidants and animal function. J. Dairy Science, 76: 2812-2823.
Mohamadnia, A.R., 2008. The Role of Trace Minerals in Bovine Claw Horn Quality and Lameness. Iranian. J.Vet.Sur.(2).pp.133-140
Moore, C.L., Walker, P.M., Jonses, M.A. and Webb, J.M. 1988. Zinc methionine supplementation for dairy cows. J. Dairy Sci. 71(1):152.
Mülling Ch., Bragulla, H., Reese, S., Budras, K.D. and Steinberg, W. 1999. How structures in bovine hoof epidermis are influenced by nutritional factors. Anat. Hist. Embryol. 28:103-108.
Noakes, D.E., Parkinson, T.J. and England, G.C.W. 2009.Veterinary reproduction and obstetrics. .Elsevier,9 Edition(Oxford), pp:427-460.
Nocek, E., Johnson, A.B. and Socha,M.T. 2000. Digital characteristics in commercial dairy herds fed metal-specific amino acid complex. J. Daiy Sci.83:1553.
Siciliano-Jones, J. L., Socha, M. T., Tomlinson, D. J., and DeFrain, J. M. 2008. Effect of trace mineral source on lactation performance, claw integrity, and fertility of dairy cattle. J. Dairy Sci. 91:1985–1995.
Smart, M. and Cymbaluk, N.F. 1997. Role of nutritional supplements in bovine lameness-review of nutritional toxicities. In: Lameness in cattle. 3rd edition. W.B. Saunders Co., Philadelphia, pp:145-161.
Starcher, B.C., Hill, C.H., Madaras, J.G. 1980. Effect of zinc deficiency on bone collagenase and turnover. J. Nutr. 110:2095-2102.
Tomlinson, D.J., Muelling, Ch.K.W. and Fakler, T.M. 2004. Formation of Keratins in the Bovine claw: Roles of Hormones, Minerals, and Vitamins in Functional Claw Integrity. J. Dairy Sci 87:797-809.
Tomlinson, D.J., Socha, M.T. and DeFrain, J.M. 2008. Role of trace minerals in the immune system. Page 39-52. In: Proc. Penn State Dairy Cattle Nutrition Workshop. Grantville, PA.
Underwood. E.j. and Suttle, N.F. 1999. The Mineral Nutrition of Livestock, 3rd Edition. CABI publishing,New York, pp:283-342, 477-513.
