The significance of breed in the prediction of lamb carcass composition from fat thickness measurements

J. D. Wood; H. J. H. MacFie

doi:10.1017/S000335610002465X

Abstract

Fat thickness and measurements of the m. longissimus (‘eye’ muscle) were taken at the last rib in 350 lambs' carcasses which were fully dissected. The lambs were from two ewe breeds, Clun and Colbred, and two ram breeds, Suffolk and Hampshire, and the carcass weight range was 15 to 21kg. Castrated males and females, and singles and twins, were evenly represented.

Rib fat thickness (J) was a slightly more precise predictor of the weights of lean, subcutaneous fat and subcutaneous plus intermuscular fat, when used in a multiple regression equation along with carcass weight, than fat thickness directly above the greatest depth of the ‘eye’ muscle (C). Both of these were more precise predictors than ‘eye’ muscle width and depth. Accounting for breed, either by allowing for different intercepts or completely different regression lines, did increase the proportion of variation in tissue weights explained by carcass weight and J or C, but to a small and, it was considered, commercially unimportant extent. This was despite differences in conformation between the breeds, reflected in this work by smaller ‘eye’ muscles in the ewe than the ram breeds and also in maturity, which might have been expected to influence tissue, including fat, distribution.

The results indicate that breed differences in partition and distribution within and between the carcass fat depots in sheep are smaller than those between the carcass and intra-abdominal fat depots.

References

REFERENCES

Brown, A. J. and Williams, D. R. 1979. Sheep carcass evaluation—(1) measurement of composition using a standardised butcher y method. Memo. Meat Res. Inst., Langford, Bristol, No. 36.Google Scholar

Kempster, A. J., Avis, P. R. D., Cuthbertson, A. and Harrington, G. 1976a. Prediction of the lean content of lamb carcasses of different breed types. J. agric. Set, Camb. 86: 23–34.CrossRef Google Scholar

Kempster, A. J., Cuthbertson, A. and Harrington, G. 1976b. Fat distribution in steer carcasses of different breeds and crosses. 1. Distribution between depots. Anim. Prod. 23: 25–34.Google Scholar

Timon, V. M. and Bichard, M. 1965. Quantitative estimates of lamb carcass composition. 3. Carcass measurements and a comparison of the predictive efficiency of sample joint composition, carcass specific gravity determinations and carcass measurements. Anim. Prod. 7: 189–201.Google Scholar

Wood, J. D., MacFie, H. J. H., Pomeroy, R. W. and Twinn, D. J. 1980. Carcass composition in four sheep breeds: the importance of type of breed and stage of maturity. Anim. Prod. 30: 135–152.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Teixeira, A. Jimenez-Badillo, M. R. and Rodrigues, S. 1970. Effect of sex and carcass weight on carcass traits and meat quality in goat kids of Cabrito Transmontano. Spanish Journal of Agricultural Research, Vol. 9, Issue. 3, p. 753.

Wood, J.D. MacFie, H.J.H. and Brown, A.J. 1983. Effects of body weight, breed and sex on killing-out percentage and non-carcass component weights in lambs. Meat Science, Vol. 9, Issue. 2, p. 89.

Kirton, A.H Woods, E.G and Duganzich, D.M 1984. Predicting the fatness of lamb carcasses from carcass wall thickness measured by ruler or by a total depth indicator (TDI) probe. Livestock Production Science, Vol. 11, Issue. 2, p. 185.

Essien, A. I. and Fetuga, B. L. 1987. Effects of Age and Sex on Some Carcass Traits in the Indigenous Nigerian Pigs. East African Agricultural and Forestry Journal, Vol. 52, Issue. 4, p. 279.

Sulieman, A. H. Osman, A. G. and El Tayeb, A. E. 1987. Carcass Composition of Lambs Fed Chopped Sorghum Vulgare Straw Alone or Supplemented with Energy and Nitrogen Sources. East African Agricultural and Forestry Journal, Vol. 52, Issue. 3, p. 157.

Hopkins, D.L. 1994. Predicting the weight of lean meat in lamb carcasses and the suitability of this characteristic as a basis for valuing carcasses. Meat Science, Vol. 38, Issue. 2, p. 235.

Delfa, R. Gonzalez, C. and Teixeira, A. 1996. Use of cold carcass weight and fat depth measurements to predict carcass composition of Rasa Aragonesa lambs. Small Ruminant Research, Vol. 20, Issue. 3, p. 267.

Hopkins, D.L. Beattie, A.S. and Pirlot, K.L. 1998. Meat quality of cryptorchid lambs grazing either dryland or irrigated perennial pasture with some silage supplementation. Meat Science, Vol. 49, Issue. 3, p. 267.

Hopkins, D.L. and Fogarty, N.M. 1998. Diverse lamb genotypes—1. Yield of saleable cuts and meat in the carcass and the prediction of yield. Meat Science, Vol. 49, Issue. 4, p. 459.

Hopkins, D.L and Nicholson, A 1999. Meat quality of wether lambs grazed on either saltbush (Atriplex nummularia) plus supplements or lucerne (Medicago sativa). Meat Science, Vol. 51, Issue. 1, p. 91.

Bueno, Mauro Sartori Cunha, Eduardo Antonio da Santos, Luiz Eduardo dos Sanchez Roda, Domingos and Leinz, Frederico Fontoura 2000. Características de carcaça de cordeiros Suffolk abatidos em diferentes idades. Revista Brasileira de Zootecnia, Vol. 29, Issue. 6, p. 1803.

Cunha, Eduardo Antonio da Santos, Luiz Eduardo dos Bueno, Mauro Sartori Roda, Domingos Sanchez Leinz, Frederico Fontoura and Rodrigues, Carlos Frederico de Carvalho 2000. Utilização de carneiros de raças de corte para obtenção de cordeiros precoces para abate em plantéis produtores de lã. Revista Brasileira de Zootecnia, Vol. 29, Issue. 1, p. 243.

Safari, E Hopkins, D.L and Fogarty, N.M 2001. Diverse lamb genotypes 4. Predicting the yield of saleable meat and high value trimmed cuts from carcass measurements. Meat Science, Vol. 58, Issue. 2, p. 207.

Dı́az, M.T. Cañeque, V. Lauzurica, S. Velasco, S. Ruı́z de Huidobro, F. and Pérez, C. 2004. Prediction of suckling lamb carcass composition from objective and subjective carcass measurements. Meat Science, Vol. 66, Issue. 4, p. 895.

Hopkins, D.L. Safari, E. Thompson, J.M. and Smith, C.R. 2004. Video image analysis in the Australian meat industry – precision and accuracy of predicting lean meat yield in lamb carcasses. Meat Science, Vol. 67, Issue. 2, p. 269.

Hegarty, R. S. Warner, R. D. and Pethick, D. W. 2006. Genetic and nutritional regulation of lamb growth and muscle characteristics. Australian Journal of Agricultural Research, Vol. 57, Issue. 6, p. 721.

Lambe, N.R. Navajas, E.A. McLean, K.A. Simm, G. and Bünger, L. 2007. Changes in carcass traits during growth in lambs of two contrasting breeds, measured using computer tomography. Livestock Science, Vol. 107, Issue. 1, p. 37.

Hopkins, D. L. Stanley, D. F. and Ponnampalam, E. N. 2007. Relationship between real-time ultrasound and carcass measures and composition in heavy sheep. Australian Journal of Experimental Agriculture, Vol. 47, Issue. 11, p. 1304.

Hopkins, D. L. 2008. An industry applicable model for predicting lean meat yield in lamb carcasses. Australian Journal of Experimental Agriculture, Vol. 48, Issue. 7, p. 757.

Lambe, N.R. Navajas, E.A. Bünger, L. Fisher, A.V. Roehe, R. and Simm, G. 2009. Prediction of lamb carcass composition and meat quality using combinations of post-mortem measurements. Meat Science, Vol. 81, Issue. 4, p. 711.

Download full list

Article contents

The significance of breed in the prediction of lamb carcass composition from fat thickness measurements

Abstract

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

The significance of breed in the prediction of lamb carcass composition from fat thickness measurements

Abstract

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests