Abstract
In ovipositing animals, egg placement decisions can be key determinants of offspring survival. One oviposition strategy reported across taxa is egg clustering, whereby a female lays multiple eggs next to one another or next to the eggs of other females. The fitness benefits of egg clustering, especially in mixed maternity clusters, are unknown. In some species, mothers provision eggs with diffusible defence compounds, such as antimicrobials, raising the possibility of public good benefits arising from egg clustering. Here we report that Drosophila melanogaster females frequently lay eggs in mixed maternity clusters. We tested two hypotheses for potential drivers of this oviposition behaviour: (i) the microbial environment affects fecundity and egg placement in groups of D. melanogaster females; (ii) D. melanogaster eggs exhibit antimicrobial activity. The results partially supported the first hypothesis. Females exposed to environmental microbes that naturally colonised the oviposition substrates in the absence of antimicrobial preservatives reduced their levels of fecundity but did not significantly alter egg clustering. In contrast, the presence of commensal (fly-associated) microbes did not affect oviposition. The second hypothesis was not supported. There was no evidence of antimicrobial activity, either in whole eggs or in soluble surface material extracted from them. In conclusion, while there was no evidence that oviposition decisions are shaped by the opportunity to share antimicrobials, there is evidence that the microbial environment provides cues that females use to make sophisticated decisions on fecundity and egg placement.
Competing Interest Statement
The authors have declared no competing interest.