Growth and carcass characters of the South Australian Merino and its crosses with the Booroola and Trangie Fertility Merino

Abstract

South Australian Merino (M) and highly fecund Booroola (B) and Trangie Fertility (TF) Merino strain rams were mated to M ewes to produce M, B x M and TF x M progeny. At 4-5 months of age (24-kg slaughter group), TF x M and M lambs were heavier than B x M lambs (25.3 and 24.8 kg respectively, v. 228 kg). Similar proportional strain differences were observed at 14-1 5 months of age (38-kg slaughter group), except that, in one year, no difference was observed between the M and B x M strains, resulting in a strain x year interaction (P<0.05). When adjusted for age, TF x M carcasses were heavier than those of B x M at the first slaughter and heavier than those of B x M and M strains at the second slaughter. B x M and TF x M strains had the same fat depths and eye muscle areas, when compared at the same age, but B x M had greater fat depths and larger eye muscle areas than TF x M, relative to carcass weight; values for M were less than those of B x M and TF x M, with and without carcass weight as a covariate. Similarly, ranking of the strains did not change for carcass length, leg length and depth of thorax with and without carcass weight as a covariate. Carcasses of M lambs were longer than those of B x M, TF x M being intermediate. No differences were observed among progeny of FF and + + Booroola sires for the 12 variables measured. We conclude that carcasses of B x M and TF x M high fecundity cross Merino strains have greater depths of fat at both the same age and same carcass weight than those of the South Australian Merino, and suggest that the effect of the Booroola F gene on the characters measured is negligible. The implications of the results to the sheep industry are discussed.