Frequency‐dependent and density‐dependent larval competition between life‐history strains of a fly,Lucilia cuprina

1. Competition was created between the larvae of two life‐history strains of the blowfly Lucilia cuprina (Wiedemann) that have different requirements for larval resource acquisition. Adult females of one strain had the ability to mature eggs in the absence of adult feeding (autogeny) whereas the other strain lacked this ability. Autogeny shifts the burden of resource acquisition from adults to larvae, potentially leading to greater competition at this earlier life history stage. 2. A replacement series was used to determine the per‐capita competitive effect between strains relative to the intra‐strain effect, and density‐ and frequency‐dependent variation in this per‐capita effect was then evaluated. Evidence was found of competitive superiority of autogenous larvae when they occurred at a low frequency and low density, but their competitive ability was lost or reversed at higher frequencies and densities. 3. A dynamic competitive environment created by frequency and density dependence can account for the maintenance of genetic diversity for major life‐history traits. Such competition may explain why autogeny is rare in field populations of L. cuprina even although underlying genetic variation for the trait seems to be present.