Postweaning Growth, Feed Efficiency and Chemical Composition of Sheep as Affected by Prenatal and Postnatal Testosterone

Abstract

Data were collected from intact males, castrated males and ewe lambs to investigate the effect of presence or absence of testosterone prenatally and during the postweaning period on postweaning growth, feed intake and carcass chemical composition. Half the lambs from each sex were the progeny of dams that had received five injections of testosterone cyprionate from d 32 through d 87 of gestation. Linear contrasts were used to detect differences. Postweaning daily gain of intact males was greater (P < .01) than that of male castrates. Ewe lambs from treated dams had approximately 12% greater rate of growth (P < .04) than ewe lambs from control dams. Ewe lambs from dams that had been treated were 28% more efficient (P < .01) in the conversion of food to weight than those from untreated dams. Ewe lambs from treated dams had heavier livers (P < .07). Carcass protein for intact males was greater (P < .11) than for castrates, and extractable fat was less (P < .05). Masculinization of growth characteristics of ewe lambs affected the quantity of carcass fat relative to control ewes (7.59 vs 8.92 kg). These ewe lambs also had more water in the carcass than did the control ewes (13.93 vs 12.29 kg). Administration of exogenous testosterone to pregnant ewes over an interval of time approximating time of sexual differentiation in the fetus enhances postweaning growth rate, feed conversion efficiency and chemical composition of genetic females. Copyright © 1988. American Society of Animal Science . Copyright 1988 by American Society of Animal Science.