opportunity for polymorphism and genic variation in social hymenoptera with worker-produced males

In many eusocial Hymenoptera, for example, bumble bees, a proportion, ψ of the males are produced by the workers. The conditions for there to be at least one stable polymorphic equilibrium were found to be, w 11 v 1 – ½ψv 2 (w 11 – w l2 ) < ½w 12 (v 1 + v 1 ) > w 22 v 2 – ½ψv 1 (w 22 – w 12 );...

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Bibliographic Details
Published in:Heredity 1985-01, Vol.54 (1), p.25-36
Main Author: Owen, R.E
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Autoecology
Biological and medical sciences
Biomedical and Life Sciences
Biomedicine
Cytogenetics
Ecology
Evolutionary Biology
Fundamental and applied biological sciences. Psychology
genetic variation
Genetics of eukaryotes. Biological and molecular evolution
Human Genetics
Hymenoptera
original-article
Plant Genetics and Genomics
polymorphism
Population genetics, reproduction patterns
Protozoa. Invertebrata
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Summary:In many eusocial Hymenoptera, for example, bumble bees, a proportion, ψ of the males are produced by the workers. The conditions for there to be at least one stable polymorphic equilibrium were found to be, w 11 v 1 – ½ψv 2 (w 11 – w l2 ) < ½w 12 (v 1 + v 1 ) > w 22 v 2 – ½ψv 1 (w 22 – w 12 ); where w 11 , w 12 w 22 are respectively the fitnesses of the female genotypes A 1 A 1 , A 1 A 2 , A 2 A 2 and v 1 , v 2 are the fitnesses of the male genotypes A 1 and A 2 . The equilibrium gene frequencies are given by the root(s) of a cubic polynomial. The conditions given above were shown to be both sufficient and necessary to find all stable equilibria for three regular selection models analysed in detail: (1) Codominance and (2) Dominance with opposite selection in the sexes (3) Overdominance with identical selection in the sexes. The effect of worker-produced males on the probability of a polymorphism and the expected genic variation was investigated for these three models. Compared to other Hymenoptera, species with worker-produced males will have a reduced frequency of polymorphisms and lower mean genic diversity at loci with dominant and overdominant fitnesses. In contrast at loci with codominant fitnesses the probability of a polymorphism and the genic diversity will be higher if the selective differentials are large (0–1·0), with smaller selective differentials (0–0·125, 0–0·01) a reduction will again occur. Therefore the overall level of genic diversity depends on the proportion of codominant loci and the selection intensity.
ISSN:0018-067X
1365-2540
DOI:10.1038/hdy.1985.5