Hostname: page-component-84b7d79bbc-l82ql Total loading time: 0 Render date: 2024-07-29T18:12:53.879Z Has data issue: false hasContentIssue false
  • English
  • Français

Growth and development in the pig, with special reference to carcass quality characters: Part IV. The use of sample joints and of carcass measurements as indices of the composition of the bacon pig: Part V. The bearing of the main principles emerging upon the many problems of animal production and human development

Published online by Cambridge University Press:  27 March 2009

C. P. McMeekan
C. P. McMeekan
Affiliation:
School of Agriculture, University of Cambridge, and Massey Agricultural College, University of New Zealand
Get access Rights & Permissions [Opens in a new window]

Extract

1. The accurate measurement of the amount of bone, muscle and fat in the bodies of meat animals is of considerable importance in all technical studies relating to carcass quality. Chemical analysis and laboratory dissection of complete animals are associated with disadvantages which preclude their extensive use. Material derived from nutritional experiments has provided the opportunity for statistical investigation of the possibility of using sample joints and carcass measurements as indices of the composition of bacon pigs of 200 lb. live weight. The extent and nature of the variation in the composition of the pigs concerned adds to the significance of the results obtained.

2. The total weight of bone, muscle and fat in the bacon-pig carcass can be estimated with a high degree of accuracy from the respective weights of these tissues in either the loin or the leg. The combination of these two joints provide even higher correlations in each case than either one alone. In all cases the correlation coefficients approach unity and are strongly significant at the 1% point. For the combined joints the values of r for bone, muscle and fat respectively are +0·9444, + 0·9765 and +0·9750. Regression functions have been developed for the purpose of estimating carcass composition from these joints.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 31 , Issue 1 , January 1941 , pp. 1 - 49
Copyright
Copyright © Cambridge University Press 1941

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

Anderson, D. H. (1932). Physiol. Rev. 12, 1.CrossRefGoogle Scholar
Anderson, W. E. & Mendel, L. B. (1928). J. biol. Chem. 76, 729.CrossRefGoogle Scholar
Aron, H. (1911). Philip. J.Sci. B, 6, 1. Quoted by Hogan A. G. (1928). Growth and Nutrition. Yale Univ. Press.Google Scholar
Berge, S. (1936). 8th Meld. fra Norges. Landbrukshøiskole.Google Scholar
Bonsma, F. N. & Oosthuizen, P. M. (1935). S. Afr. J. Set. 32, 360.Google Scholar
Brody, S. & Ragsdale, A. C. (1924). Res. Bull. Mo. agric. Exp. Sta. no. 67.Google Scholar
Callow, E. H. (1935 a). Emp. J. Exp. Agric. 3, 80.Google Scholar
Callow, E. H. (1935 b). Rep. Food Invest. Bd, Sect. 3.Google Scholar
Callow, E. H. (1936). Rep. Food Invest. Bd, Sect. 3.Google Scholar
Callow, E. H. (1937). Rep. Food Invest. Bd. Sect. 3.Google Scholar
Callow, E. H. (1938). Private communication.Google Scholar
Callow, E. H. & Davidson, H. R. (1933). Rep. Food Invest. Bd, Sect. 3.Google Scholar
Capon, P. J. L. (1937). J. Roy. Army med. Cps., 68, 293.Google Scholar
Carroll, W. E. (1929). Bull. Ill. agric. Exp. Sta. no. 321.Google Scholar
Chirvinsky, N. P. (1909). Poleteknich. Inst. Kiev, 2.Google Scholar
Conte-Marotta, R. (1937). Boll. Soc. tied. Biol. sper. 12, 186. Nutrit. Abstr. Rev. 7, 402.Google Scholar
Davidson, H. R. & Duckham, A. N. (1929–30). Rep. East Anglian Pig Recording Scheme, Cambridge, nos. 1 and 2.Google Scholar
Davidson, H. R., Hammond, J., Swain, J. B. and Wright, N. L. (1936). Pig Breed. Ann. 16, 49.Google Scholar
Dechambre, P. (1922). Traité de Zootechnie. III. Lea Bovins. Paris. Quoted by , Hammond (1932a).Google Scholar
Difloth, P. (1922). Zootechnie: Races bovines. Paris. Quoted by , Hammond (1932a).Google Scholar
Donald, H. R. (1937). Emp. J. exp. Agric. 5, 20.Google Scholar
Donaldson, H. H. & King, H. D. (1937). Amer. J. Anat. 60, 203.CrossRefGoogle Scholar
Duckham, A. N. (1930). Rep. East Anglian Pig Recording Scheme, Cambridge, no. 2.Google Scholar
Duckham, A. N. (1938). Bacon Development Board—Private communication.Google Scholar
Dunlop, G. (1933). J. agric. Sci. 23, 580.CrossRefGoogle Scholar
Dunlop, G. & Hammond, J. (1937). J. Genet. 34, 463.CrossRefGoogle Scholar
Eckles, C. H. & Swett, W. W. (1918). Res. Bull. Mo. Agric. Exp. Sta. no. 31.Google Scholar
Ellis, N. R. & Hankins, O. G. (1925). J. biol. Chem. 66, 101.CrossRefGoogle Scholar
Ellis, N. R. & Zeller, J. H. (1934). Bull. U.S. Dep. Agric. no. 413.Google Scholar
Evvard, J. M. (1929). Res. Bull. Iowa agric. Exp. Sta. no. 118.Google Scholar
Fishwick, V. C. (1936). Rep. Wye Pig Hus. Dep., Pig Breeders Ann. (London).Google Scholar
Fisher, R. A. (1934). Statistical Methods for Research Workers, 5th ed. London.Google Scholar
Glaser, O. (1938). Biol. Rev. 13, 20.CrossRefGoogle Scholar
Gramlich, H. J. & Thalman, R. R. (1930). Bull. Neb. Agric. Exp. Sta. no. 252.Google Scholar
Hammett, F. S. (1929). Endokrinologie, 5, 81. Quoted by , Huxley (1932).Google Scholar
Hammond, J. (1922). J. agric. Sci. 12, 387.Google Scholar
Hammond, J. (1927). Pig Breed. Ann. 7, 76.Google Scholar
Hammond, J. (1929). Actes 146 Cong. Internal. Agric. Bucarest, Sect. 5, 605.Google Scholar
Hammond, J. (1932 a). Growth and Development of Mutton Qualities in the Sheep. Edinburgh.Google Scholar
Hammond, J. (1932 b). J. Roy. agric. Soc. 93, 131.Google Scholar
Hammond, J. (1933). Pig Breed. Ann. 13, 28.Google Scholar
Hammond, J. (1934). Vet. J. 90, 98.Google Scholar
Hammond, J. (1935). Emp. J. exp. Agric. 3, 1.Google Scholar
Hammond, J. (1936 a). Vet. Rec. 16, 519.Google Scholar
Hammond, J. (1936 b). Festschrift. Prof. Duerst. Bern. 92.Google Scholar
Hammond, J. (1936 c). Problems of Animal Husbandry (U.S.S.R.), no. 8, 101.Google Scholar
Hammond, J. (1937). Proc. Int. Sheep. Breed. Conf. Wolverhampton.Google Scholar
Hammond, J. & Appleton, A. B. (1932). Growth and Development of Mutton Qualities in the Sheep, Part 5. Edinburgh.Google Scholar
Hammond, J. & Murray, G. N. (1937). J. agric. Sci. 27, 394.Google Scholar
Hankins, O. G. & Ellis, N. R. (1934). J. agric. Res. 48, 257.Google Scholar
Hansson, N. (1927). Z. Tierz. ZuchtBiol. 10, 341.Google Scholar
Hansson, N. & Bengtsson, (1926). Cent. Anst. Forsoksv. Jordbr. Stockholm, Med. 306.Google Scholar
Harris, H. A. (1937). Anatomy School, Camb., Private communication.Google Scholar
Henriques, V. & Hansen, C. (1901). Skand. Arch. Physiol. 11, 151.CrossRefGoogle Scholar
Henseler, H. (1914). Kühn-Arch. Univ. Halle, 5, 207.Google Scholar
Hilditch, T. P., Lee, C. H. & Pedelty, W. H. (1939). Biochem. J. 33, 493.Google Scholar
, Hirzel (1936). Thesis Univ. Pretoria; and (1939) Onderstepoort J. vet. Sci. 12, 379.Google Scholar
Hoagland, R. & Powick, W. C. (1925). J. agric. Res. 31, 1001.Google Scholar
Hogan, A. G., Weaver, L. A., Edinger, A. T. & Trowbridge, E. A. (1925). Res. Bull. Mo. agric. Exp. Sta. no. 73.Google Scholar
Holmes, E. (1937). Metabolism of the Living Tissues. Cambridge.Google Scholar
Huxley, J. S. (1932). Problems of Relative Growth. London.Google Scholar
Jackson, C. M. (1913). Amer. J. Anal. 15, 1.Google Scholar
Jackson, C. M. (1914). Morphogenesis” in Morris's Human Anatomy, 5th ed. Philadelphia.Google Scholar
Jackson, C. M. (1937). Anat. Rec. 68, 371.Google Scholar
Jackson, C. M. & Stewart, C. A. (1920). J. exp. Zool. 30, 97.CrossRefGoogle Scholar
Lacy, M. D. (1932). Proc. Amer. Soc. Anim. Prod. 25, 354.Google Scholar
Lawes, J. B. & Gilbert, J. A. (1859). Philos. Trans. 9, 348.Google Scholar
Lea, C. H. (1931). Proc. roy. Soc. B, 108, 175.Google Scholar
Lea, C. H. (1934). J. Soc. Chem. Ind. 53, 182T.Google Scholar
Lowry, L. G. (1911). Amer. J. Anat. 12, 107.Google Scholar
Luck, J. M. (1936). J. biol. Chem. 115, 491.CrossRefGoogle Scholar
Lush, J. L. (1936 a). Res. Bull. Iowa agric. Exp. Sta. no. 204.Google Scholar
Lush, J. L. (1936 b). Proc. Amer. Soc. Anim. Prod. 29, 259.Google Scholar
McCarrison, R. (1921). Studies in Deficiency Diseases. London.Google Scholar
McCay, C. M. & Crowell, M. F. (1934). Sci. Monthly, 39, 405. Quoted from Maynard, L. A. (1937), Animal Nutrition. London.Google Scholar
McCay, C. M., Crowell, M. F. & Maynard, L. A. (1935). J. Nutrit. 10, 63.CrossRefGoogle Scholar
McKenzie, F. F. (1926). Res. Bull. Mo. agric. Exp. Sta. no. 86.Google Scholar
MacLennan, H. R. (1937). J. Obstet. Gynaec. 44, 245.Google Scholar
McMeekan, C. P. (1937). N.Z. J. Agric. 54, 147, 223.Google Scholar
McMeekan, C. P. (1939). J. agric. Sci. 29, 131.Google Scholar
McMeekan, C. P. & Hammond, J. (1940). Emp. J. exp. Agric., 8, 6.Google Scholar
Mansfield, W. S. & Trehane, W. R. (1936). J. Roy. agric. Soc. 96, 137.Google Scholar
Mansfield, W. S., Trehane, W. R. & Peacock, R. B. (1937). J. Roy. agric. Soc. 98, 172.Google Scholar
Maynard, L. A., McCay, C. M. & Madsen, L. L. (1936). J. Dairy Sci. 19, 49.Google Scholar
Millikan, G. A. (1936). J. Physiol. 87, 38P.Google Scholar
Mitchell, H. H. & Hamilton, T. S. (1929). Bull. Ill. agric. Exp. Sta. no. 323.Google Scholar
Mitchell, H. H., Card, L. E. & Hamilton, T. S. (1926). Bull. Ill. agric. Exp. Sta. no. 278.Google Scholar
Menzies-Kitchin, A. W. (1937). J. Agric. Sci. 27, 611.CrossRefGoogle Scholar
Moment, G. B. (1933). J. exp. Zool. 65, 359.Google Scholar
Morris, H. P., Palmer, L. S. & Kennedy, C. (1933). Tech. Bull. Minn, agric. Exp. Sta. no. 92.Google Scholar
Moulton, C. R. (1920). J. biol. Chem. 43, 67.Google Scholar
Moclton, C. R., Trowbridge, P. F. & Haigh, L. D. (1922). Res. Bull. Mo. agric. Exp. Sta. nos. 43, 54.Google Scholar
Murray, A. (1922). J. agric. Sci. 12, 103.Google Scholar
Mubray, G. N. (1934). Onderatepoort J. vet. Sci. 2, 301.Google Scholar
Murray, G. N., Schutte, D. J. & Plessis, J. A. Du (1933). Onderstepoort J. vet. Sci. 1, 595.Google Scholar
Needham, D. M. (1926). Physiol. Rev. 6, 1.CrossRefGoogle Scholar
Olofsson, N. E. & Larsson, S. (1930). Medd. 371, Centralst. för forsöks. pa. jordbruksomradet (Stockholm).Google Scholar
Olson, F. C. & Bull, S. (1931). Nat. Prov. 85, 17, 43. Abstr. in N.P.B.A. Gaz. (1932), no. 20, 53.Google Scholar
Osborne, T. B. & Mendel, L. B. (1914). J. biol. Chem. 18, 95.Google Scholar
Osborne, T. B. & Mendel, L. B. (1915). J. biol. Chem. 23, 439.Google Scholar
Osborne, T. B. & Mendel, L. B. (1916). Amer. J. Physiol. 40, 16.Google Scholar
Pálsson, H. (1938). Thesis Univ. Edinburgh; and (1939–40). J. Agric. Sci. 29, 544 and 30, 1.Google Scholar
Pugliese, A. (1904). J. Physiol. Path. gen. 6, 193.Google Scholar
Robins, W. J., Brody, S., Hogan, A. G., Jackson, C. M. & Greene, C. W. (1928). Growth. Yale Univ. Press.CrossRefGoogle Scholar
Roez, M. (1932). Abst. in Dtsch Landw. Rundschau, 11, no. 9.Google Scholar
Rijssenbeek, T. C. J. M. (1936). Zevende Jaarverslog. comm. van. Toezicht, Selectiemesterijen. Utrecht.Google Scholar
Rubli, H. (1931). Arch. Verebungs. Sozialanthrop. und Rassenhygiene, 5, 391.Google Scholar
Sanson, A. (1910). Traitidé Zootechnie, 5th ed. Paris. Quoted by , Hammond (1932a).Google Scholar
Schmidt, J. & Zlmmermann, C. (1934). Z. Schweinezuchr. 41, no. 22.Google Scholar
Scott, E. L. (1930). Res. Bull. Ind. agric. Exp. Sta. no. 340.Google Scholar
Shaw, A. M. (1929). Sci. Agric. 10, 23.Google Scholar
Shaw, A. M. (1930). Sci. Agric. 10, 690.Google Scholar
Sinclair, R. D. (1935). Sci. Agric. 16, 169.Google Scholar
Sinclair, R. D. (1936). Sci. Agric. 17, 31.Google Scholar
Terroine, E. F. (1920). Ann. sci. not. Zool. 4, 5.Google Scholar
ThompsonD'Arcy, W. D'Arcy, W. (1917). Growth and Form. London.Google Scholar
Thompson, C. P. (1931). Proc. Amer. Soc. Anim. Prod. 24, 266.Google Scholar
Thompson, H. B. & Mendel, L. (1917). Amer. J. Physiol. 45, 431.Google Scholar
Tschirwinsky, N. (1883). Land. Vers. Stat. 29, 317. Quoted , Hammond (1922).Google Scholar
Walton, A. & Hammond, J. (1938). Proc. roy. Soc. B, 125, 311.Google Scholar
Waters, H. J. (1909). Proc. Soc. Prom, of Agric. Sci. 30th Meeting, Portland, Oregon.Google Scholar
Waters, H. J. (1910). Rep. Kansas State Board Agr. no. 113.Google Scholar
Wellman, O. (1914). Landw. Jahrb. 46, 499.Google Scholar
Wenck, E. (1931). Z. Zuchtung, B, 22, 1.Google Scholar
Whetham, E. O. (1934). Pig Breed. Ann. 14, 188.Google Scholar
Wild, H. (1927). Inaug. Diss. Berlin: Abstr. in Züchtungskunde (1929), 4, 486.Google Scholar
Wilson, W. K. & Morris, S. (1932). J. Agric. Sci. 22, 453.Google Scholar
Wishart, J. & Sanders, H. G. (1935). Principles and Practice of Field Experimentation. Emp. Cott. Grow. Corp.Google Scholar
Wood, T. B. (1926). J. Agric. Sci. 16, 425.Google Scholar
Woodman, A. E., Evans, R. E., Callow, E. H. & Wishart, J. (1936). J. Agric. Sci. 26, 546.CrossRefGoogle Scholar
Woodman, H. E., Evans, R. E. & Turpitt, W. G. (1937). J. Agric. Sci. 27, 569.Google Scholar