Hostname: page-component-84b7d79bbc-c654p Total loading time: 0 Render date: 2024-07-30T03:26:23.779Z Has data issue: false hasContentIssue false
  • English
  • Français

Effects of ewe's colostrum and various substitutes on the serum immunoglobulin concentration, gut closure process and growth rate of lambs

Published online by Cambridge University Press:  02 September 2010

A. B. Al-Jawad  and
J. L. Lees
A. B. Al-Jawad
Affiliation:
Department of Agriculture, University College of Wales, Aberystwyth
J. L. Lees
Affiliation:
Department of Agriculture, University College of Wales, Aberystwyth
Get access

Abstract

Ewe's colostrum, dried milk, ewe's blood, cow's blood and cow's serum, given to a total of 56 newborn lambs, had various effects on serum immunoglobulin concentrations, the gut closure process and early growth rate.

Cow's colostrum and serum proved to be good alternative sources of immunoglobulin for rearing lambs. Cow's and ewe's blood had adverse effects on immunoglobulin absorption, speeding up the closure process. This process was only slightly affected when lambs were fed immunoglobulin-free powdered milk.

Lambs survived with concentrations of serum immunoglobulin as low as 5 zinc sulphate turbidity units. Similar and satisfactory mean early growth rates were observed for lambs given ovine and bovine colostrum and bovine serum, whilst those given ovine and bovine whole blood had relatively low early weight gains. Those receiving powdered milk substitute followed by ewe colostrum at 8 h post partumshowed intermediate rates of growth.

Type
Research Article
Information
Animal Production , Volume 40 , Issue 1 , February 1985 , pp. 123 - 127
Copyright
Copyright © British Society of Animal Science 1985

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

REFERENCES

Campbell, S. G., Siegel, M. J. and KNOWLTON, BRENDA J. 1977. Sheep immunoglobulins and their transmission to the neonatal lamb. N.Z. vet. J. 25: 361365.Google Scholar
Ducker, M. J. and McEwan, A. D. 1972. The estimation of immunoglobulin levels in neonatal lambs using a turbidity test. Br. vet. J. 128: 5961.Google Scholar
Eales, F. A., Gilmour, J. S., Barlow, R. M. and Small, J. 1982a. Causes of hypothermia in 89 lambs. Vet. Rec. 110: 118120.CrossRefGoogle ScholarPubMed
Eales, F. A., Murray, L. and Small, J. 1982b. Effects of feeding ewe colostrum, cow colostrum or ewe milk replacer on plasma glucose in newborn lambs. Vet. Rec. III: 451453.Google Scholar
Fahey, J. L. and McKelvey, E. M. 1965. Quantitative determination of serum immunoglobulins in antibody- agar plates. J. Immun. 94: 8490.Google Scholar
Fisher, E. W. and Martinez, A. A. 1976. Immune globulins and enterotoxic colibacillosis. Vet. Rec. 98: 31.CrossRefGoogle ScholarPubMed
Gamble, J. A., Earle, I. P. and Howe, P. E. 1938. Rearing foals and lambs by the use of colostrum, blood serum and substitute milks. Tech. Bull. U.S. Dep. Agric. No. 661.Google Scholar
Halliday, R. 1974. Variations in immunoglobulin concentrations in Merino and Scottish Blackface lambs. Anim. Prod. 19: 301308.Google Scholar
Hunter, A. G., Reneau, J. K. and Williams, J. B. 1977. Factors affecting immunoglobulin concentration in day-old lambs. J. Anim. Sci. 45: 11461151.CrossRefGoogle ScholarPubMed
Husbard, A. J., Branden, M. R. and Lascelles, A. K. 1973. The effect of corticosteroid on absorption and endogenous production of immonoglobulins in calves. Aust. J. exp. Biol. med. Sci. 51: 707710.Google Scholar
Kruse, V. 1970. Absorption of immunoglobulin from colostrum in newborn calves. Anim. Prod. 12: 627638.Google Scholar
Logan, E. F., Foster, W. H. and Irwin, D. 1978. A note on bovine colostrum as an alternative source of immunoglobulin for lambs. Anim. Prod. 26: 9396.Google Scholar
McCarthy, E. F. and McDougall, E. I. 1949. Absorption of immune globulin by the young lamb after ingestion of colostrum. Nature, Lond. 164: 354.Google Scholar
McCarthy, E. and McDougall, E. I. 1953. Absorption of immunoglobulin by the young" lamb after ingestion of colostrum. Biochem. J. 55: 177182.Google Scholar
McEwan, A. D., Fisher, E. W., Selman, I. E. and Penhale, W. J. 1970. A turbidity test for the estimation of immunoglobulin levels in calf serum. Clinica chim. Acta 27: 155163.CrossRefGoogle ScholarPubMed
Meat and Livestock Commission. 1976. Artificial Rearing of Lambs. Sheep Improvement Service Technical Report. Meat and Livestock Commission, Bletchley, Milton Keynes.Google Scholar
Molla, A. 1978. Immoglobulin levels in calves fed colostrum by stomach tube. Vet. Rec. 103: 377380.CrossRefGoogle Scholar
Sawyer, M., Willadsen, C. H., Osburn, B. I. and McGuire, T. C. 1977. Passive transfer of colostral immunoglobulins from ewe to lamb and its influence on neonatal lamb mortality. J. Am. vet. med. Ass. 171: 12551259.Google Scholar
Smith, T. and Little, R. 1922. Cow serum as a substitute for colostrum in newborn calves. J. exp. Med. 36: 453–468.Google Scholar
Veress, B. and Baintner, K. Jr 1970. Morphological and histochemical features of protein absorption in- newborn animals. Acta morph. neerl-scand. 18: 237248.Google Scholar