Hostname: page-component-78c5997874-94fs2 Total loading time: 0 Render date: 2024-11-17T16:52:55.474Z Has data issue: false hasContentIssue false
  • English
  • Français

4.3 Oral Treatment of Trace Element Deficiencies in Ruminant Livestock

Published online by Cambridge University Press:  27 February 2018

A. MacPherson
A. MacPherson*
Affiliation:
The West of Scotland Agricultural College, Auchincruive, Ayr
Get access

Extract

Oral treatment of trace element deficiencies of livestock has a long although not always distinguished history. It has generally been the method first employed following the discovery of a trace element deficiency. Thus, Robert Fraser (1794) used oral dosing with soil to counteract the effects of cobalt (Co) deficiency in sheep; Hunter, Eden and Green (1945) dosed ewes with copper (Cu) for the control of swayback; McLean, Thomson and Claxton (1959) obtained significant growth responses following selenium (Se) supplementation of unthrifty lambs and Dynna and Havre (1963) used oral dosing with zinc (Zn) as part of the treatment of cattle suffering from a combined Zn-Cu deficiency in Northern Norway.

Type
4. Prevention of Disease
Information
BSAP Occasional Publication , Volume 7: Trace Elements in Animal Production and Veterinary Practice , 1983 , pp. 93 - 103
Copyright
Copyright © British Society of Animal Production 1983

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

Alexander, G. I., Harvey, J. M., Lee, H. J. and Stubbs, W. C. 1967. Studies on copper and cobalt therapy of cattle in central coastal Queensland. Aust. J. agric. Res. 18: 169181 CrossRefGoogle Scholar
Anderson, P. H. 1978. Biochemical and practical implications of selenium deficiency in cattle and sheep in Britain. Paper NC/0/78/1 presented to ADAS Nutrition Chemists Open Conference at Swannick, Derbyshire.Google Scholar
Anderson, P. H. 1981. Selenium Deficiency and Livestock Diseases in Britain, (ed. Poland, J.). Unit for Continuing Veterinary Education, Royal Veterinary College, London.Google Scholar
Andrews, E. D., Grant, A. B. and Stephenson, B. J. 1964. Weight responses of sheep to cobalt and selenium in relation to vitamin B12 and selenium concentrations in liver and kidney. N.Z.J, agric. Res. 7: 1727.CrossRefGoogle Scholar
Andrews, E. D., Grant, A. B. and Brunswick, L. F. C. 1964. An assessment of the effects of ruminai selenium pellets given to young sheep grazing selenium-deficient pastures. N.Z. vet. J. 22:4650.CrossRefGoogle Scholar
Andrews, E. D., Hartley, W. J. and Grant, A. B. 1968. Selenium responsive diseases of animals in New Zealand. N.Z. vet. J. 16: 317.Google Scholar
Andrews, E. D., Stephenson, B. J., Isaacs, C. E. and Register, R. H. 1966. The effects of large doses of soluble and insoluble forms of cobalt given at monthly intervals on cobalt deficiency disease in lambs. N.Z. vet. J. 14: 191196.Google Scholar
Arthur, J. 1982. In Trace Element Deficiency In Ruminants. Report of a study group commissioned by the Scottish Agricultural Colleges and the Scottish Agricultural Research Institutes, Edinburgh.Google Scholar
Bennets, H. W. and Chapman, F. E. 1937. Copper deficiency in sheep in Western Australia; a preliminary account of the aetiology of enzootic ataxia of lambs and on anaemia of ewes. Aust. vet. J. 13: 138149.Google Scholar
Blaaxter, K. L. 1963. The effect of selenium administration on the growth and health of sheep on Scottish farms. Br. J. Nutr. 17: 105115.Google Scholar
Davis, G. H. 1974. Effect of selenium and an anthelmintic on the growth of weaned calves in the South Island high country. N.Z. J. exp. Agric. 2: 393395.Google Scholar
Deland, M. P. B., Cunningham, P., Milne, M. L. and Dewey, D. W. 1979. Copper administration to young calves: oral dosing with copper oxide compared with subcutaneous copper glycinate injection. Aust. vet. J. 55: 493494.Google Scholar
Dewey, D. W. 1977. An effective method for the administration of trace amounts of copper to ruminants. Search, Aust. 8 (9): 326327.Google Scholar
Dunlop, G. and Wells, H. E. 1938. Swayback in lambs in North Derbyshire and its prevention by adding copper supplements to the diet of the ewes during gestation. Vet. Rec. 50: 11751182.Google Scholar
Dunlop, G., Innes, J. R. M.; Shearer, G. D. and Wells, H. E. 1939. The feeding of copper to pregnant ewes in the control of swayback. J. comp. Path. 52: 259265.CrossRefGoogle Scholar
Dynna, O. and Havre, G. N. 1963. Inter-relationship of zinc and copper in the nutrition of cattle. A complex zinc-copper deficiency. Acta. vet. Scand. 4: 197208.Google Scholar
Essig, H. W. 1962. Study of the effects of cobalt bullets for cattle and sheep. J. Anim Sci. 21: 386 (Abstr.).Google Scholar
Fearn, J. T. 1961. Cobalt supplements for cattle. Aust. J. exp. Agric. Anim. Husb. 1: 9598.Google Scholar
Fraser, R. 1794. In Report of the County of Devon, Old Board of Agriculture, London.Google Scholar
Gardiner, M. R. 1963. Quoted in Selenium in Animal Nutrition . Outl. on Agric. 6: 1928. J. Agric. West. Aus. 4: 632.CrossRefGoogle Scholar
Gardiner, M. R. 1966. Chronic selenium toxicity studies in sheep. Aust. vet. J. 42: 442448.CrossRefGoogle ScholarPubMed
Gardiner, M. R., Armstrong, J., Fels, H. and Glencross, R. N. 1962. A preliminary report on selenium and animal health in Western Australia. Aust. J. exp. Agric. Anim. Husb. 2: 261269.Google Scholar
Givens, D. I., Cross, P. J., Baker, K. B. and Knight, P. E. 1979. The effect of cobalt bullet treatment before and after weaning on the growth rate and serum vitamin B12 concentrations in lambs. MAFF Paper No. SP03 00226.Google Scholar
Hartley, W. J. 1967. Levels of selenium in animal tissues and methods of selenium administration. In Selenium in Biomedicine (ed. Muth, O. H.), pp. 7996. Avi Publishing Co., Westport, Connecticut.Google Scholar
Hartley, W. J. and Grant, A. B. 1961. A review of selenium responsive diseases of New Zealand livestock. In Nutritional Significance of Selenium (Factor 3). Fed. Proc. Fed. Am. Soc. Exp. Biol. 20: 679688.Google Scholar
Healy, W. B. 1974. Ingested soil as a source of elements to grazing animals. In Trace Element Metabolism in Animals2 (ed. Hoekstra, W. G., Suttie, J. W., Ganther, H. E. and Mertz, W.), pp. 448450. University Park Press, Baltimore.Google Scholar
Hemingway, R. G. 1982. In Trace Element Deficiency in Ruminants. Report of a Study Group Commissioned by the Scottish Agricultural Colleges and the Scottish Agricultural Research Institutes, Edinburgh.Google Scholar
Hudson, D. R., Hunter, R. A. and Peter, D. W. 1981. The effect of selenium grain size on the efficiency of selenium pellets. In Trace Element Metabolism in Man and Animals (TEMA-4) (ed. Howell, J. McC., Gawthorne, J. M. and White, C. L.), pp. 214217. Aust. Academy of Science, Canberra.Google Scholar
Hunter, A. H., Eden, A. and Green, H. H. 1945. Contributions to the study of swayback in lambs. 1. Field experiments. J. comp. Path. 55: 1928.CrossRefGoogle Scholar
Jamieson, S. and Allcroft, R. 1950. Copper pine of calves. Br. J. Nutr. 4: 1631.Google Scholar
Julien, W. E., Conrad, H. R., Jones, J. E. and Moxon, A. L. 1976. Selenium and vitamin E and incidence of retained placenta in parturient dairy cows. J. Dairy Sci. 59: 19541959.CrossRefGoogle ScholarPubMed
Kuchel, R. E. and Buckley, R. A. 1969. The provision of selenium to sheep by means of heavy pellets. Aust. J. agric. Res. 20: 10991107.CrossRefGoogle Scholar
Lee, H. J. and Marston, H. R. 1969. The requirement for cobalt of sheep grazed on cobalt-deficient pastures. Aust. J. agric. Res. 20: 905918.CrossRefGoogle Scholar
Lewis, G., Anderson, P., Gitter, M. and Stranks, M. H. 1978. Selenium supplementation. Vet. Ree. 102: 6970.CrossRefGoogle ScholarPubMed
McLaren, A. R. C., Johnston, W. G. and Voss, R. C. 1964. Cobalt poisoning in cattle. Vet. Rec. 76: 11481149.Google Scholar
McLean, J. W., Thompson, G. G. and Claxton, J. H. 1959. Growth responses to selenium in lambs. N.Z. vet. J. 7: 4752.CrossRefGoogle Scholar
MacPherson, A. 1981a. Field studies with trace element metering devices. In Trace Element Metabolism in Man and Animals (TEMA-4) (ed. Howell, J. McC., Gawthorne, J. M. and White, C. L.), pp. 175178. Aust. Academy of Science, Canberra.CrossRefGoogle Scholar
MacPherson, A. 1981b. The effectiveness of different methods of selenium supplementation. In New Zealand Workshop on Trace Elements in New Zealand (ed. Robinson, M. F.), University of Otago, Dunedin, New Zealand.Google Scholar
MacPherson, A. 1983. Copper oxide wire for the bovine. In Trace Elements in Animal Production and Veterinary Practice (ed. Suttle, N. F., Gunn, R. G., Allen, W. M., Linklater, K. A. and Wiener, G.), Occ. Pubi. Br. Soc. Anim. Prod. No. 7.Google Scholar
MacPherson, A. and Dixon, J. 1980. Effect of copper and cobalt treatment on finishing steers. Anim. Prod. 30: 373381.Google Scholar
MacPherson, A. and Hemingway, R. G. 1968. Effects of liming and various forms of oral copper supplementation on the copper status of grazing sheep. J. Sci. Fd Agric. 19: 5356.Google Scholar
MacPherson, A., Voss, R. C. and Dixon, J. 1978. Effect of soil ingestion on cobalt deficiency in sheep. In Trace Element Metabolism in Man and Animals3 (ed. Kirchgessner, M.), pp. 490493. Arbeitskreis fur Tierernährung, Weihenstephan.Google Scholar
MacPherson, A., Voss, R. C. and Dixon, J. 1979. The effect of copper treatment on the performance of hypocupraemic calves. Anim. Prod. 29: 9199.Google Scholar
Millar, K. R. and Andrews, E. W. 1964. A method of preparing and detecting radioactive cobaltic oxide pellets and an assessment of their retention by sheep. N.Z. vet. J. 12: 912.Google Scholar
Peter, D. W., Hunter, R. A. and Hudson, D. W. 1981. Optimum selenium grain size for selenium pellets. In Trace Element Metabolism in Man and Animals (TEMA-4) (ed. Howell, J. McC., Gawthorne, J. M. and White, C. L.), pp. 218221. Aust. Academy of Science, Canberra.Google Scholar
Poole, D. B. R. and Connolly, J. F. 1967. Some observations on the use of the cobalt heavy pellet in sheep. Irish J. agric. Res. 6: 281284.Google Scholar
Reguis, J. and Nagy, Z. 1972. Effect of copper given in chelate or ion form. Allatenyésztés 21: 361370.Google Scholar
Rigg, T. and Askew, H. O. 1934. Soil and mineral supplements in the treatment of Bush Sickness. Emp. J. exp. Agric. 2: 18.Google Scholar
Russel, A. J. F., Whitelaw, A., Moberly, P. and Fawcett, A. R. 1975. Investigation into diagnosis and treatment of cobalt deficiency in lambs. Vet. Rec. 96: 194198.Google Scholar
Schubert, J R., Muth, O. H., Oldfield, J. E. and Remmert, L. F. 1961. Experimental results with selenium in white muscle disease of lambs and calves. Fed. Proc. 20: 689694.Google Scholar
Skerman, K. D. and O'Halloran, M. W. 1962. Effect of cobalt bullet treatment of Hereford cows on the birth weight and growth rate of their calves. Aust. vet. J. 38: 98102.CrossRefGoogle Scholar
Skerman, K. D., Sutherland, A. K., O'Halloran, M. W., Bourke, J. M. and Munday, B. L. 1959. The correction of cobalt or vitamin B12 deficiency in cattle by cobalt pellet therapy. Am. J. vet. Res. 20: 977984.Google Scholar
Stewart, J., Mitchell, I. W. and Young, F. J. 1955. Cobalt therapy in farm practice with special reference to hill farms. Vet. Rec. 67: 755757.Google Scholar
Suttle, N. F. 1979. Treatment of bovine hypocuprosis by the oral administration of cupric oxide needles. Proc. Nutr. Soc. 38: 135A.Google ScholarPubMed
Trinder, N., Hall, R. J. and Renton, C. P. 1979. The relationship between the intake of selenium and vitamin E on the incidence of retained placentae in dairy cows. Vet. Rec. 93: 641644.Google Scholar
Trinder, N., Woodhouse, C. D. and Renton, C. P. 1969. The effect of vitamin E and selenium on the incidence of retained placentae in dairy cows. Vet. Rec. 85: 550553.CrossRefGoogle ScholarPubMed
Underwood, E. J. 1981. The Mineral Nutrition of Livestock, p. 157. C.A.B., Farnham Royal, Slough, England.Google Scholar
Whanger, P. D., Weswig, P. H., Schmitz, J. A. and Oldfield, J. E. 1978. Effects of various methods of selenium administration on white muscle disease, glutathione peroxidase and plasma enzyme activities in sheep. J. Anim. Sci. 47: 11571166.CrossRefGoogle ScholarPubMed
Whitelaw, A., Armstrong, R. H., Evans, C. C Fawcett, A. R., Russel, A. J. F. and Suttle, N. F. 1980. Effects of oral administration of copper oxide needles to hypocupraemic sheep. Vet. Rec. 107: 8788.Google Scholar
Whitelaw, A. and Russel, A. J. F. 1979. Investigations into the prophylaxis of cobalt deficiency in sheep. Vet. Rec. 104: 811.Google Scholar
Wilkins, J. F. and Hamilton, B. A. 1980. Low release of selenium from recovered ruminai pellets. Aust. vet. J. 56: 8789.Google Scholar