Booroola Merino (B(o)M) ewes have a high ovulation rate and litter size which in 1980 was Postulated to be clue to the effects of a major gene (FecB). This was confirmed in breeding experiments and FecB was Subsequently shown to be due to a mutation (BMPR-1B) on chromosome 6. The B(o)M originated from an Australian commercial fine wool Merino flock (Booroola) and has been used in crossing experiments and for introgression of FecB into many breeds around the world to improve fecundity. The mutation has recently been found in native sheep breeds in India, China and Indonesia and it is likely that FecB in the Australian B(o)M was derived from importations of Garole sheep from India in 1792 and 1793. The effects on production traits of the FecB Mutation in a range of genetic comparisons, environments and production systems are reviewed. Comparisons involving B(o)M crosses with various other breeds and contrasts of FecB homozygous (BB), heterozygous (B ) and non-carrier ( ) genotypes in comparable background genotypes, including non-B(o)M, have been summarised from 45 reports. The weighted mean effect for ewes carrying one copy of FecB (B ) was 1.3 (range 0.8 to 2.0) for Ovulation rate and 0.7 (range 0.4 to 1.3) for litter size. The effect of a second copy (BB) was generally additive for ovulation rate, with little or no increase in litter size for BB ewes among B(o)M crosses. However there was generally a further increase in litter size for BB ewes of about half the effect of one copy (B ) in the Indian and Chinese breeds. Poor lamb Survival and lamb growth reduced the number of lambs weaned and total weight of lamb weaned by B ewes. Most studies still showed a small advantage for B ewes, although several reported negative effects. While embryo survival declines at higher ovulation rates, the effects of FecB per se are equivocal. There is some evidence of a higher non-pregnancy rate among homozygous BB ewes. Most studies reported lower birth weight and growth rate from B(o)M cross lambs and lambs from crossbred ewes introgressed with FecB. However it is difficult to separate the effects of low background genetic merit for growth of the B(o)M and the lower birth weight and growth rate of lambs from larger litters from the genetic effect of carrying FecB. There was little or no difference in growth rate between 1313, B and genotype lambs. For other traits including, seasonal oestrous activity, carcass and meat quality and wool production, there was no evidence of major effects of FecB. The opportunities for management and nutritional modification of FecB expression and implications for industry adoption are briefly discussed.

• 出版日期2009-8