Offspring allocation in structured populations with dimorphic males

Abstract

Many fig wasp species have dimorphic males. These males often mate in different localities; one typically disperses before mating whereas the other does not disperse. In 1979 a model was developed for offspring allocation in dimorphic fig wasps, but it assumed that females only lay a single egg per fig. This assumption is not realistic and precludes any effects local mate competition (LMC) may exert on morph abundance. I develop a model without these restrictions and show that the optimal proportions of each morph is determined by two parameters. Firstly, the proportion of the non-dispersing morph is affected by the mean number of females that oviposit in a patch. This effect is due to the negative correlation between LMC between brothers and the number of females that oviposit in a patch. Secondly, the proportions of both male morphs correlate with the expected proportion of females which will mate with each morph. The separation of the two parameters generalizes the model to any other species which is spatially structured and which has two male morphs or even two alternative mating strategies. A comparison of two models shows that parent—offspring conflict involving morph ratios will not have far reaching consequences. I test these models using the 1979 model's data and both models accurately predict the variation in morph ratios in six species of dimorphic fig wasps.