Zusammenfassung
The ant species Cardiocondyla batesii is unique in that, in contrast to all other ant species, both sexes are flightless. Female sexuals and wingless, ergatoid males mate in the nest in autumn and young queens disperse on foot to found their own colonies in spring. The close genetic relatedness between queens and their mates (r(qm)= 0.76+/-SE 0.12) and the high inbreeding coefficient (F=0.55; 95% ...
Zusammenfassung
The ant species Cardiocondyla batesii is unique in that, in contrast to all other ant species, both sexes are flightless. Female sexuals and wingless, ergatoid males mate in the nest in autumn and young queens disperse on foot to found their own colonies in spring. The close genetic relatedness between queens and their mates (r(qm)= 0.76+/-SE 0.12) and the high inbreeding coefficient (F=0.55; 95% CI 0.45-0.65) suggest that 83% of all matings are between brothers and sisters. As expected from local mate competition theory, sex ratios were extremely female biased, with more than 85% of all sexuals produced being young queens. Despite the common occurrence of inbreeding, we could not detect any adult diploid males. Though the probability of not detecting multiple mating was relatively high, at least one-third of all queens in our sample had mated more than once. Multiple mating to some extent counteracts the effects of inbreeding on worker relatedness (r(ww)=0.68+/-SE 0.05) and would also be beneficial through decreasing diploid male load, if sex was determined by a single locus complementary system.
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