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http://dx.doi.org/10.5713/ajas.2003.1

Heritabilities and Genetic Correlation, and Sire and Environment Effects on Meat Production Potential of Hanwoo Cattle  

Baik, D.H. (Department of Animal Resources and Biotechnology, College of Agriculture, Chonbuk National University)
Hoque, M.A. (Department of Animal Breeding and Genetics, Bangladesh Agricultural University)
Park, G.H. (Department of Animal Resources and Biotechnology, College of Agriculture, Chonbuk National University)
Park, H.K. (Department of Animal Resources and Biotechnology, College of Agriculture, Chonbuk National University)
Shim, K.S. (Department of Animal Resources and Biotechnology, College of Agriculture, Chonbuk National University)
Chung, Y.H. (Department of Animal Resources and Biotechnology, College of Agriculture, Chonbuk National University)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.16, no.1, 2003 , pp. 1-5 More about this Journal
Abstract
Genetic parameters of live weight at slaughter (LWT), quantity index (QIX), yield grade (YGD), quality grade (QGD), pH of meat, and boiled meat tenderness in terms of mastication (BMAS), shear force (BSFR) and penetration (BPEN) in Hanwoo steers were estimated. Effects of sire, location and their interaction on these traits were also evaluated. Sire effects were found to be significant on all the traits studied except for pH and BSFR. The LWT, QIX and QGD were also significantly affected both by location and by interaction effect between sire${\times}$location. The BSFR and BPEN were significantly (p<0.01) affected by location but not significantly by sire${\times}$location interaction. The boiled meat tenderness and pH were negatively correlated ($r_g$ and $r_p$) with LWT, QIX and QGD. All the other traits were positively correlated with each other. Positive and high genetic correlation (+0.56) between LWT and QGD was obtained indicating that selection for LWT would improve QGD. The $h^2$ estimates were 0.43, 0.37, 0.37, 0.35 and 0.32 for QGD, LWT, pH, BSFR and BPEN, respectively.
Keywords
Genetic Parameters; Quantity Index; Yield Grade; Quality Grade; Boiled Meat Tenderness;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
Times Cited By Web Of Science : 2  (Related Records In Web of Science)
Times Cited By SCOPUS : 3
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1 Ensminger, M. E. 1987. Marketing and slaughtering cattle and calves. In: Beef Cattle Science. Sixth edition. The Interstate Printers and Publishers, Inc. Danville, Illinois. 572-602.
2 Gregory, K. E., L. V. Cundiff, R. M. Koch, M. E. Dikeman and M. Koohmaraie. 1994. Breed effects, retained heterosis, and estimates of genetic and phenotypic parameters for carcass and meat traits of beef cattle. J. Anim. Sci. 72:1174-1183.   DOI
3 Kim, H. C., D. H. Lee, K. S. Seo, Y. M. Cho and Y. I. Park. 1998. Estimation of heritabilities and expected progeny differences for carcass traits in Hanwoo. Animal Genetics and Breeding 2(1):1-4.
4 Lamb, M. A., O. W. Robinson and M. W. Tess. 1990. Genetic parameters for carcass traits in Hereford bulls. J. Anim. Sci. 68:64-69.
5 Shin, O.Y. and Y. I. Park. 1990. Estimation of genetic parameters for body weights of Korean native cattle. Korean J. Anim. Sci. 32(6):315-317.
6 Wheeler, T. L., L. V. Cundiff, R. M. Koch and J. D. Crouse. 1996. Carcass traits and longissimus palatability. J. Anim. Sci. 74: 1023-1035.   DOI
7 Son, S. K., D. H. Baik, H. S. Choi and K. J. Han. 1997. Estimation of heretabilities for body weights and measurements of Korean native cows in Hanwoo breeding regions. Korean J. Anim. Sci. 39(6):653-660.
8 Arnold, J. W., J. K. Bertrand, L. L. Benyshek and C. Ludvig. 1991. Estimation of genetic parameters for live ultrasound, actual carcass data, and growth traits in beef cattle. J. Anim. Sci. 69: 985-992.   DOI
9 Baik, D. H., M. A. Hoque and H. S. Choe. 2002. Estimation of genetic and environmental parameters of carcass traits in Hanwoo (Korean Native Cattle) population. Asian-Aust. J. Anim. Sci. 15(11):1523-1526.   DOI
10 Watanabe, A., C. C. Daley and C. Devine. 1996. The effects of the ultimate pH of meat on tenderness changes during aging. Meat Sci. 42:774-780.
11 Becker, W. A. 1985. Manual of Quantitative Genetics. Fourth edition. Academic Enterprises, Pullman, Washington.
12 NFCF (National Farmers' Cooperatives Federation of Korea). 2000. Progress report on grading of livestock products. Grading Office of Livestock Products. 214-215.
13 Parkkonen P., A. E. Liinamo and M. Ojala. 2000. Estimates of genetic parameters for carcass traits in Finnish Ayrshire and Holstein-Friesian. Livest. Prod. Sci. 64:203-213.   DOI   ScienceOn
14 SAS. 1991. Statistical Analysis System. SAS Institute, SAS Inc. Cary, USA.
15 Baik, D. H., M. A. Hoque and H. K. Park. 2002. Correlation between tenderness and other carcass characteristics of Hanwoo (Korean Native) steers. Asian-Aust. J. Anim. Sci. 15(12):1677-1679.   DOI
16 Robinson, D. L., M. Schneeberger, S. Sivaranjasingam, M. Ukkonen, S. A. Borwick, C. A. McDonald, B. Tier, K. Hammond and B. Sundstrom. 1990. Genetic evaluation for carcass traits in Australian beef cattle. Proc. of 4th WCGPLP. Edinburgh, pp. 461-464.
17 Bouton, P. E., F. D. Carroll, P. V. Harris and W. R. Shorthose. 1973. Influence of pH and fibre construction state upon factors affecting the tenderness of bovine muscle. J. Food Sci. 38: 404-407.   DOI
18 Taylor, R. E. 1977. Genetic change through selection. In: Scientific Farm Animal Production. Fifth edition. 227-242.