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Breed structure and genetic analysis of Border Leicester sheep

Published online by Cambridge University Press:  01 October 1962

G. B. Young
Affiliation:
A.R.C. Animal Breeding Research Organisation, Edinburgh, 9
A. F. Purser
Affiliation:
A.R.C. Animal Breeding Research Organisation, Edinburgh, 9
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Extract

Since the year 1900 the number of Border Leicesters has been fairly stable, between 3,000 and 5,000 females being registered each year. The number of flocks, however, has shown a fairly steady increase from 200 to over 600. There has been a decline in the number of ewes registered per flock from 16 to about 6 to 8. The important flocks would seem to number 15 to 20; only a few flocks persist for any appreciable length of time. Generation intervals are short, being only about 2 years on the sire side and 3½ years on the female side.

As with other breeds, relatively few rams have an importance out of proportion to their numbers—14 rams and 2 ewes with direct coefficients of relationship greater than 5% were found. Inbreeding per generation was only 0·32%, and there was no evidence of strain effects.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1962

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References

REFERENCES

Archibald, D., 1881. The Border Leicester breed of sheep. Trans. High, andagric. Soc. Scotl., 13: 262.Google Scholar
Carter, R. C., 1940. A genetic history of Hampshire sheep. J. Hered., 31: 89.CrossRefGoogle Scholar
Dickerson, G. E., & Lush, J. L., 1933. Inbreeding and genetic history of the Rambouillet sheep in America. J. Hered., 24: 19.CrossRefGoogle Scholar
Donald, H. P., & El Itriby, A. A., 1945. Herd size and its genetical significance in pedigree cattle breeding. J. agric. Sci., 35: 84.CrossRefGoogle Scholar
Fraser, A., & Stamp, J. T., 1957. Sheep Husbandry and Diseases. Crosby Lockwood & Son Ltd., London.Google Scholar
Lush, J. L., & Anderson, A. L., 1939. A genetic history of Poland China swine. J. Hered., 30: 219.Google Scholar
Lush, J. L., 1946. Chance as a cause of changes in gene frequency within pure breeds of livestock. Amer. Nat., 80: 318.Google Scholar
Mcdonald, J., 1909. In Stephens' Book of the Farm, Vol. 3. William Blackwood & Sons, Edinburgh and London.Google Scholar
Mcphee, H., & Wright, S., 1925. Mendelian analysis of the pure breeds of livestock. III. The Shorthorns. J. Hered., 16: 205.Google Scholar
Pawson, H. C., 1957. Robert Bakewell. Crosby Lockwood & Son Ltd., London.Google Scholar
Robertson, A., 1953. A numerical description of breed structure. J. agric. Sci., 43: 334.Google Scholar
Robertson, A., & Asker, A. A., 1951. The genetic history and breed structure of British Friesian Cattle. Emp. J. exp. Agric, 19: 113.Google Scholar
Wiener, G., 1961. Population dynamics in fourteen lowland breeds of sheep in Great Britain. J. agric. Sci., 57: 21.Google Scholar
Wood, J., 1921. The Border Leicester breed. Scot. J. Agric, 4: 407.Google Scholar
Wright, S., & McPhee, H. C., 1925. An approximate method of calculating coefficients of inbreeding and relationship from livestock pedigrees. J. agric. Res., 31: 377.Google Scholar
Youatt, W. M., 1869. Sheep, their Breeds, Management and Diseases. Simpkin, Marshall & Co., London.Google Scholar
Young, W., 1950. Border Leicesters in south west Scotland. Scot. Agric, 30: 18.Google Scholar