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Bone-muscle relationships in lamb and mutton carcasses

Published online by Cambridge University Press:  27 March 2009

A. J. F. Russel
Affiliation:
Sheep Husbandry Department, Massey University, Palmerston North, New Zealand
R. A. Barton
Affiliation:
Sheep Husbandry Department, Massey University, Palmerston North, New Zealand

Extract

Carcass weight, bone weight, bone length, and bone weight per unit length were examined as possible indices of the weight of muscular tissue in lamb and mutton carcasses.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1967

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References

REFERENCES

Barnicoat, C. K. & Shorland, F. B. (1952). New Zealand lamb and mutton II. Chemical composition of edible tissues. N.Z. Jl Sci. Technol. 33 A, 1623.Google Scholar
Barton, R. A. (1947). Grading of New Zealand fat lamb carcasses for export. Proc. 10th Annu. Meet. Sheepfarmers, pp. 126–30. Massey Agricultural College.Google Scholar
Barton, R. A. & Kirton, A. H. (1958). Carcass weight as an index of carcass components with particular reference to fat. J. agric. Sci., Camb. 50, 331–4.Google Scholar
Clarke, E. A. & Mcmeekan, C. P. (1952 a). New Zealand lamb and mutton I. Anatomical characteristics of lamb and mutton carcasses. N.Z. Jl Sci. Technol. 33 A, 115.Google Scholar
Clarke, E. A. & McMeekan, C. P. (1952 b). New Zealand lamb and mutton III. The nutritive status of lamb and mutton carcasses. N.Z. Jl Sci. Technol. 33 A, 24–8.Google Scholar
Kraybill, H. F., Hankins, O. G. & Farnworth, V. M. (1954). Adaptation of anthropometric and roentgenological measurements for appraisement of the percentage of bone in cattle. J. appl. Physiol. 7, 1318.Google Scholar
Li, C. C. (1956). The concept of path coefficients and its impact on population genetics. Biometrics 12, 190210.CrossRefGoogle Scholar
Lush, J. L. (1928). Changes in body measurements of steers during intensive fattening. Bull. Tex. agric. Exp. Stn. no. 385, 59 pp.Google Scholar
McMeekan, C. P. (1956). Beef carcase judging by measurement. Pastoral Rev. Graz. Rec. 66, 1273–4.Google Scholar
McMeekan, C. P. & Clarke, E. A. (1942). The nutritive value of N.Z. lamb and mutton. Roy. agric. Soc. N.Z. Gaz. no. 47, 4 pp.Google Scholar
Shorland, F. B., de la Mare, P. B. D., Sorrell, D. M. P. & Barnicoat, C. R. (1947). Simplified procedures for determining the nutritive value of carcasses with special reference to New Zealand lamb and mutton. N.Z. Jl Sci. Technol. 29 A, 7690.Google Scholar
Smith-Pilling, S. H. (1959). The grading of carcasses for export. Sheepfmg A. pp. 149167. Massey Agricultural College.Google Scholar
Snedecor, G. W. (1967). Statistical Methods, 5th edn.Ames, Iowa. Iowa State College Press.Google Scholar
Ulyatt, M. J. & Barton, R. A. (1963). A comparison of the chemical and dissectible carcass composition of New Zealand Romney Marsh ewes. J. agric. Sci., Camb. 60, 285–9.CrossRefGoogle Scholar
Wright, S. (1934). The method of path coefficients. Ann. math. Statist. 5, 161215.Google Scholar
Wythe, L. D., Orts, F. A. & King, G. T. (1961). Bonemuscle relationships in beef carcasses. J. Anim. Sci, 20, 35.Google Scholar
Zimmermann, W. (1956). Über die Variabilität des Os femoris und seine Beziehungen zum Fleisohansatz im Schinken beim Schwein. [The variability of the os femoris and its relation to flesh in the ham of the pig.] Züchtungskunde 28, 3141.Google Scholar