Inbreeding under a cyclical mating system |
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| Authors: | A Farid M Makarechian C Strobeck |
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| Institution: | (1) Department of Animal Science, University of Alberta, T6G 2P5 Edmonton, Alberta, Canada;(2) Department of Zoology, University of Alberta, T6G 2E9 Edmonton, Alberta, Canada;(3) Present address: Department of Animal Science, University of Manitoba, R3T 2N2 Winnipeg, Manitoba, Canada |
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| Abstract: | Summary General recursion formulae for the coefficient of inbreeding under a cyclical mating system were derived in which one male and one female are selected from each of the n families per generation (population size N = 2 n). Each male is given the family number of his sire in each generation, while his mate comes from another family, varying systematically in different generations. Males of the r-th family in generations 1, 2, 3,..., t = n–1 within each cycle mate with females from families r+1, r+2, r+3,..., r+t to produce generations 2, 3, 4,..., t+1=1, respectively. The change in heterozygosity shows a cyclical pattern of rises and falls, repeating in cycles of n–1 generations. The rate of inbreeding oscillates between <-3% to >6% in different generations within each cycle, irrespective of the population size. The average rate of inbreeding per generation is approximately 1/4 N-(Log2N+1)], which is the rate for the maximum avoidance of inbreeding. The average inbreeding effective population size is approximately 2 N–2. |
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| Keywords: | Cyclical mating Rate of inbreeding Population size |
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