Strydom P.E., Frylinck L., Montgomery J.L., Smith M.F.
Animal Nutrition and Animal Products Institute (ANPI), Agricultural Research Council of South Africa, Private Bag X2, Irene, 0062, South Africa; Intervet a Part of Schering-Plough Corporation, 29160 Intervet Lane, Millsboro, DE 19966, United States; Biometry Unit, Agricultural Research Council of South Africa, Private Bag X519, Silverton 0127, South Africa
Strydom, P.E., Animal Nutrition and Animal Products Institute (ANPI), Agricultural Research Council of South Africa, Private Bag X2, Irene, 0062, South Africa; Frylinck, L., Animal Nutrition and Animal Products Institute (ANPI), Agricultural Research Council of South Africa, Private Bag X2, Irene, 0062, South Africa; Montgomery, J.L., Intervet a Part of Schering-Plough Corporation, 29160 Intervet Lane, Millsboro, DE 19966, United States; Smith, M.F., Biometry Unit, Agricultural Research Council of South Africa, Private Bag X519, Silverton 0127, South Africa
Forty-eight Bonsmara steers were assigned to three treatment groups and one control group consisting of 12 animals each. The control (C) received no β-agonist, while the three treatment groups received zilpaterol (6 ppm) (Z), ractopamine (30 ppm) (R) or clenbuterol (2 ppm) (Cl) for the last thirty days on feed. Growth performance (final 30 days), USDA quality and yield grades and meat quality (shear force, chemical, histological and biochemical) were compared for the three β-agonist and control groups. Animals responded negatively to Cl treatment during initial stages of supplementation, which was evident in lower feed consumption and initial growth rates. For carcass growth and yield, Cl had greater and more efficient growth rates, higher dressed out yields (proportional), lower USDA yield grades, and reduced marbling compared with C (P < 0.05). For meat quality measurements, the M. longissimus (LL) and M. semitendinosus (ST) were sampled. Cl had the greatest effect (P < 0.05) on WBSF, especially on the LL, followed by Z. Variation in tenderness and ageing effects corresponded with variation in calpastatin activity and myofibrillar fragmentation between treatment groups. While zilpaterol and ractopamine are currently the only products registered for cattle in different countries, it seems that zilpaterol has an advantage in carcass growth efficiency and yield without showing any adaptation problems for animals such as experienced by the more aggressive β-agonist clenbuterol. © 2008 Elsevier Ltd. All rights reserved.