Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-10T09:55:08.094Z Has data issue: false hasContentIssue false
  • English
  • Français

Genetic analyses of sensory characteristics and relationships with fatty acid composition in the meat from Scottish Blackface lambs

Published online by Cambridge University Press:  01 November 2007

E. Karamichou ,
R. I. Richardson ,
G. R. Nute ,
J. D. Wood  and
S. C. Bishop
E. Karamichou
Affiliation:
Roslin Institute (Edinburgh), Roslin, Midlothian EH25 9PS, UK
R. I. Richardson
Affiliation:
Department of Clinical Veterinary Science, Division of Farm Animal Science, University of Bristol, Langford, Bristol BS40 5DU, UK
G. R. Nute
Affiliation:
Department of Clinical Veterinary Science, Division of Farm Animal Science, University of Bristol, Langford, Bristol BS40 5DU, UK
J. D. Wood
Affiliation:
Department of Clinical Veterinary Science, Division of Farm Animal Science, University of Bristol, Langford, Bristol BS40 5DU, UK
S. C. Bishop*
Affiliation:
Roslin Institute (Edinburgh), Roslin, Midlothian EH25 9PS, UK
*
E-mail: Stephen.Bishop@bbsrc.ac.uk
Get access

Abstract

Genetic parameters for eating quality assessed by trained taste panellists were estimated on longissimus thoracis et lumborum (LTL) muscle in Scottish Blackface lambs, comprising lines previously divergently selected for carcass lean content (FAT and LEAN lines) as well as crosses between these lines. Also, relationships between eating quality assessments and fatty acid composition were investigated. Eating quality and fatty acid phenotypic measurements were made on 350 male lambs, at ca. 8 months of age. Eating quality measurements included 18 descriptive terms and fatty acid composition measurements included in total 17 fatty acids of three types: saturated, monounsaturated and polyunsaturated. The FAT line had juicier meat and more vegetable flavour than the LEAN line. Most of the eating quality traits were moderately to highly heritable, with heritabilities ranging from 0.21 (lamb flavour) to 0.92 (sweet flavour). Lamb flavour, juiciness and overall liking were strongly negatively correlated with individual polyunsaturated fatty acids, with the correlations being significantly different from zero. Overall liking was strongly positively correlated with the proportion of total monounsaturated fatty acids. This study provides new information on genetic parameters for eating quality traits in sheep, which may lead to novel opportunities for genetically improving these traits.

Keywords

eating qualityfatty acidsgenetic parametersmeatsheep
Type
Full Paper
Information
animal , Volume 1 , Issue 10 , November 2007 , pp. 1524 - 1531
Copyright
Copyright © The Animal Consortium 2007

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

Ashgar, A, Gray, JI, Buckley, DJ, Pearson, AM, Booren, AM 1988. Perspectives on warmed-over flavor. Food Technology 42, 102108.Google Scholar
Barkhouse, KL, Van Vleck, LD, Cundiff, LV, Koohmaraie, M, Lunstra, DD, Crouse, JD 1996. Prediction of breeding values for tenderness of market animals from measurements on bulls. Journal of Animal Science 74, 26122621.CrossRefGoogle ScholarPubMed
Bishop, SC 1993. Selection for predicted carcass lean content in Scottish Blackface sheep. Animal Production 56, 379386.Google Scholar
Cameron, ND 1990. Genetic and phenotypic parameters for carcass traits, meat and eating quality traits in pigs. Livestock Production Science 26, 119135.Google Scholar
Demirel, G, Wachira, AM, Sinclair, LA, Wilkinson, RG, Wood, JD, Enser, M 2004. Effects of dietary n-3 polyunsaturated fatty acids, breed and dietary vitamin E on the fatty acids of lamb muscle, liver and adipose tissue. British Journal of Nutrition 91, 551565.CrossRefGoogle ScholarPubMed
Folch, J, Lees, M, Stanley, GHS 1957. A simple method for the isolation and purification of total lipids from animal tissues. Journal of Biological Chemistry 226, 497509.Google Scholar
Gilmour, AR, Cullis, BR, Welham, SJ, Thompson, R 2004. ASREML: program user manual. VSN International Ltd, Hemel Hempstead, UK.Google Scholar
Gray, JI, Gomaa, EA, Buckley, DJ 1996. Oxidative quality and shelf life of meats. Meat Science 43, 111123.Google Scholar
Gray, JI, Pearson, AM 1994. Lipid-derived off-flavours in meat formation and inhibition. In Flavour of meat and meat products (ed. F Shahidi), pp. 116143. Blackie Academic, London.CrossRefGoogle Scholar
Gray, JI, Pearson, AM 1987. Rancidity and warmed-over flavour. InAdvances in meat research (ed. AM Pearson and TR Dutson), pp. 221270. Elsevier, Amsterdam.Google Scholar
Johnston, DJ, Reverter, A, Ferguson, DM, Thompson, JM, Burrow, HM 2003. Genetic and phenotypic characterisation of animal, carcass, and meat quality traits from temperate and tropically adapted beef breeds. 3. Meat quality traits. Australian Journal of Agricultural Research 54, 135147.CrossRefGoogle Scholar
Karamichou, E, Richardson, RI, Nute, GR, McLean, KA, Bishop, SC 2006a. Genetic analyses of carcass composition, as assessed by X-ray computer tomography, and meat quality traits in Scottish Blackface sheep. Animal Science 82, 151162.CrossRefGoogle Scholar
Karamichou, E, Richardson, RI, Nute, GR, McLean, KA, Bishop, SC 2006b. A partial genome scan to map quantitative trait loci for carcass composition, as assessed by X-ray computer tomography, and meat quality traits in Scottish Blackface sheep. Animal Science 82, 301309.Google Scholar
Karamichou, E, Richardson, RI, Nute, GR, Gibson, KP, Bishop, SC 2006c. Genetic analyses and QTL detection for intramuscular fatty acid composition in Scottish Blackface sheep. Journal of Animal Science 84, 32283238.Google Scholar
Kemp, JD, Mahyuddin, M, Ely, DG, Fox, JD, Moody, WG 1981. Effect of feeding systems, slaughter weight and sex on organoleptic properties and fatty acid composition of lamb. Journal of Animal Science 51, 321330.CrossRefGoogle Scholar
Kouba, M, Enser, M, Whittington, FM, Nute, GR, Wood, JD 2003. Effect of a high-linolenic acid diet on lipogenic enzyme activities, fatty acid composition, and meat quality in the growing pig. Journal of Animal Science 81, 19671979.Google Scholar
Kris-Etherton, PM, Pearson, TA, Wan, Y, Hargrove, RL, Moriarty, K, Fishell, V, Etherton, T 1999. High-monounsaturated fatty acid diets lower both plasma cholesterol and triacylglycerol concentrations. American Journal of Clinical Nutrition 70, 10091015.Google Scholar
Labuza, TP 1971. Kinetics of lipid oxidation in foods. CRC Critical Reviews of Food Technology 2, 355404.Google Scholar
Larick, DK, Turner, BE 1990. Flavor characteristics of forage-fed and grain-fed beef as influenced by phospholipid and fatty-acid compositional differences. Journal of Food Science 55, 312317.CrossRefGoogle Scholar
Lo LL 1990. A genetic analysis of growth, real-time ultrasound, carcass and pork quality data in Duroc and Landrace swine. MSc thesis, University of Illinois.Google Scholar
Lo, LL, McLaren, DG, McKeith, FK, Fernando, RL, Novakofski, J 1992. Genetic analyses of growth, real-time ultrasound, carcass, and pork quality traits in Duroc and Landrace pigs, II. Heritabilities and correlations. Journal of Animal Science 70, 23872396.Google Scholar
Melton, SL 1990. Effects of feeds on flavor of red meat – a review. Journal of Animal Science 68, 44214435.CrossRefGoogle ScholarPubMed
Nephawe, KA, Cundiff, LV, Dikeman, ME, Crouse, JD, Van Vleck, LD 2004. Genetic relationships between sex-specific traits in beef cattle, Mature weight, weight adjusted for body condition score, height and body condition score of cows, and carcass traits of their steer relatives. Journal of Animal Science 82, 647653.Google Scholar
Nürnberg, K, Dannenberger, D, Nuernberg, G, Ender, K, Voigt, J, Scollan, ND, Wood, JD, Nute, GR, Richardson, RI 2005. Effect of a grass-based and a concentrate feeding system on meat quality characteristics and fatty acid composition of longissimus muscle in different cattle breeds. Livestock Production Science 94, 137147.CrossRefGoogle Scholar
Statistical Analysis Systems Institute 2003. SAS/STAT user’s guide, version 9.1.3. SAS Institute Inc., Cary, NC.Google Scholar
Sandstrom, B, Marckmann, P, Bindslev, N 1992. An 8-month controlledstudy of a low-fat high-fiber diet – effects on blood-lipids and blood-pressure in healthy-young subjects. European Journal of Clinical Nutrition 46, 95109.Google Scholar
Sanudo, C, Enser, ME, Campo, MM, Nute, GR, Maria, G, Sierra, I, Wood, JD 2000. Fatty acid composition and sensory characteristics of lamb carcasses from Britain and Spain. Meat Science 54, 339346.Google Scholar
Splan, RK, Cundiff, LV, Van Vleck, LD 1998. Genetic parameters for sex-specific traits in beef cattle. Journal of Animal Science 76, 22722278.CrossRefGoogle ScholarPubMed
Van Vleck, LD, Hakim, AF, Cundiff, LV, Koch, RM, Crouse, JD, Boldman, KG 1992. Estimated breeding values for meat characteristics of crossbred cattle with an animal model. Journal of Animal Science 70, 363371.CrossRefGoogle ScholarPubMed
Warren HE, Scollan ND, Nute GR, Wood JD and Richardson RI 2007. Effects of age, breed and a concentrate or grass silage diet on beef quality. II. Meat stability and flavour. Meat Science, doi:10.1016/j.meatsci. 2007.06.007.Google Scholar
Williams, CM 2000. Dietary fatty acids and human health. Annales de Zootechnie 49, 165180.CrossRefGoogle Scholar
Wilson, LL, McCurley, JR, Ziegler, JH, Watkins, JL 1976. Genetic parameters of live and carcass characters from progeny of polled Hereford sires and Angus-Holstein cows. Journal of Animal Science 43, 569576.CrossRefGoogle Scholar
Wood, JD 1990. Consequences for meat quality of reducing carcass fatness. InReducing fat in meat animals (ed. JD Wood and AV Fisher), pp. 344397. Elsevier Applied Science, London.Google Scholar
Wood, JD, Nute, GR, Richardson, RI, Whittington, FM, Southwood, O, Plastow, G, Mansbridge, R, da Costa, N, Chang, KC 2004a. Effects of breed, diet and muscle on fat deposition and eating quality in pigs. Meat Science 67, 651667.CrossRefGoogle ScholarPubMed
Wood, JD, Richardson, RI, Nute, GR, Fisher, AV, Campo, MM, Kasapidou, E, Sheard, PR, Enser, M 2004b. Effects of fatty acids on meat quality, a review. Meat Science 66, 2132.CrossRefGoogle ScholarPubMed