Optimal Effective Population Size for the Global Population of Black and White Dairy Cattle

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Optimal Effective Population Size for the Global Population of Black and White Dairy Cattle

M. E. Goddard ¹

¹ Department of Agriculture, Melbourne, Australia

The replacement of other black and white cattle strains bythe North American Holstein breed, which itself is dominatedby a small number of elite sires, has reduced the genetic diversityof the global population. Intense selection on a global basisleads to rapid genetic improvement but reduces effective populationsize.

The optimal global effective population size was chosento maximize the net present value of all future benefits fromthe breeding program. Two separate discount rates were usedto reflect concerns about the long-term costs of small effectivepopulation size. This led to a higher optimal number of bull-siresthan in past analyses. The optimum was sensitive to the magnitudeof inbreeding depression and to the discount rates, but notto the variance caused by new mutations and the size of theworld population.

The genetic correlation between the breedingobjectives of different AI studs controls the extent to whichthey all select the same sires of sons and, hence, affects theglobal effective population size. The prediction is made thatdifferent countries will select partially different sires, butgenetically isolated strains will not reemerge. A better globalbreeding program is likely when selection of sires takes accountof inbreeding depression and small genotype by environment interactions.

Key Words: effective population size • world • black and white cattle • population

Submitted on October 1, 1991
Accepted on March 16, 1992

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