Optimal Marker-Assisted Selection to Increase the Effective Size of Small Populations

Optimal Marker-Assisted Selection to Increase the Effective Size of Small Populations

Jinliang Wang^a
^a Institute of Zoology, Zoological Society of London, London NW1 4RY, United Kingdom

Corresponding author: Jinliang Wang, Regent's Park, London NW1 4RY, United Kingdom., jinliang.wang{at}ioz.ac.uk (E-mail)

Communicating editor: J. B. WALSH

An approach to the optimal utilization of marker and pedigreeinformation in minimizing the rates of inbreeding and geneticdrift at the average locus of the genome (not just the markedloci) in a small diploid population is proposed, and its efficiencyis investigated by stochastic simulations. The approach is basedon estimating the expected pedigree of each chromosome by usingmarker and individual pedigree information and minimizing theaverage coancestry of selected chromosomes by quadratic integerprogramming. It is shown that the approach is much more effectiveand much less computer demanding in implementation than previousones. For pigs with 10 offspring per mother genotyped for twomarkers (each with four alleles at equal initial frequency)per chromosome of 100 cM, the approach can increase the averageeffective size for the whole genome by $~$ 40 and 55% if matingratios (the number of females mated with a male) are 3 and 12,respectively, compared with the corresponding values obtainedby optimizing between-family selection using pedigree informationonly. The efficiency of the marker-assisted selection methodincreases with increasing amount of marker information (numberof markers per chromosome, heterozygosity per marker) and familysize, but decreases with increasing genome size. For less prolificspecies, the approach is still effective if the mating ratiois large so that a high marker-assisted selection pressure onthe rarer sex can be maintained.

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