Abstract
BackgroundSeveral new mosquito control strategies will involve the release of laboratory reared males which will be required to compete with wild males for mates. Currently, the determinants of male mating success remain unclear. The presence of convergence between male and female harmonic flight tone frequencies during a mating attempt have been found to increase male mating success in the yellow fever mosquito, Aedes aegypti. Size has also been implicated as a factor in male mating success. Here, we investigated the relationships among body size, harmonic convergence signalling, and mating success. We predicted that harmonic convergence would be an important determinant of mating success and that large individuals would be more likely to converge.MethodsWe used diet to manipulate male and female body size and then measured acoustic interactions during mating attempts between pairs of different body sizes. Additionally, we used playback experiments to measure the direct effect of size on signalling performance.ResultsIn live pair interactions, harmonic convergence was found to be a significant predictor of copula formation. However, we also found interactions between harmonic convergence behaviour and body size. The probability that a given male successfully formed a copula was a consequence of his size, the size of the female encountered, and whether or not they converged. While convergence appears to be predictive of mating success regardless of size, the positive effect of convergence was modulated by size combinations. In playbacks, adult body size did not affect the probability of harmonic convergence responses.ConclusionsBoth body size and harmonic convergence signalling were found to be determinants of male mating success. Our results suggest that in addition to measuring convergence ability of mass release lines that the size distribution of released males may need to be adjusted to complement the size distribution of females. We also found that diet amount alone cannot be used to increase male mating success or convergence probability. A clearer understanding of convergence behaviours, their relationship to mating success, and factors influencing convergence ability would provide the groundwork for improving the mating performance of laboratory reared lines.Electronic supplementary materialThe online version of this article (doi:10.1186/s13071-016-1914-6) contains supplementary material, which is available to authorized users.
Highlights
Several new mosquito control strategies will involve the release of laboratory reared males which will be required to compete with wild males for mates
Effect of diet on adult size Our manipulation of larval diet led to significant differences in body size in males (LM, wing length 2.33 ± 0.02 mm; Small male (SM) 2.02 ± 0.02 mm; χ2 = 147.43, df = 1, P < 0.01) and females (LF, 2.81 ± 0.02 mm; Small female (SF), 2.50 ± 0.02 mm; χ2 = 115.04, df = 1, P < 0.01)
There was no effect of diet treatment or playback size on whether females converged (Additional file 1: Table S1) and there was no difference in the convergence characteristics of large and small females
Summary
Several new mosquito control strategies will involve the release of laboratory reared males which will be required to compete with wild males for mates. Most reproductive control strategies will involve the release of laboratory reared males which will be required to successfully mate with wild females [4,5,6] Some of these strategies are at advanced levels of development with published field trials indicating that some are ready for widespread deployment as part of mosquito control programs [7,8,9]. The success of these new innovative tools would greatly benefit from a better understanding of the basic mating biology of the organisms we are attempting to control. The advantage of focusing male performance is that it decreases the number of males that need to be released to achieve control targets while minimizing the costs associated with production
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