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Abstract
Recent recordings of the stridulations of Myrmica ants revealed that their queens made distinctive sounds from their workers, although the acoustics of queens and workers, respectively, were the same in different species of Myrmica. Queen recordings induced enhanced protective behavior when played to workers in the one species tested. Larvae and pupae of the butterfly genus Maculinea inhabit Myrmica colonies as social parasites, and both stages generate sounds that mimic those of a Myrmica queen, inducing similar superior treatments from workers as their model. We discuss how initial penetration and acceptance as a colony member is achieved by Maculinea through mimicking the species-specific semio-chemicals of their hosts, and how acoustical mimicry is then employed to elevate the parasite’s membership of that society towards the highest attainable level in their host’s hierarchy. We postulate that, if acoustics is as well developed a means of communication in certain ants as these studies suggest, then others among an estimated 10,000 species of ant social parasite may supplement their well-known use of chemical and tactile mimicry to trick host ants with mimicry of host acoustical systems.
Acknowledgements
This research was supported by CLIMIT under the EU-Biodiversa funding scheme.
Figures and Tables
Figure 1 MDS plot of the normalised Euclidean distances of the mean pulse length, dominant frequency, and pulse repetition frequency of the acoustical signals made by individual queens and workers of two Myrmica ant species and by the pupae and caterpillars of their Maculinea butterfly mimics. M. rebeli is a cuckoo social parasite, fed directly by worker ants; M. arion is a predator of ant brood, less closely integrated with its host society. The final instar larval stages of M. arion are separated into ‘pre-adoption’ before the larvae had contact with ants and ‘post-adoption’ recorded after they were in contact with ants. The contours indicate the normalised Euclidean distance separating the groups. ANOSIM indicates significant intra-specific separation between queen and worker acoustics in each ant species (p < 0.001) but no inter-specific differences in either the queen or worker sounds of the two species. The sounds of both Maculinea species’ pupae and caterpillars were significantly closer to queen Myrmica ant stridulations than to those of worker ants. Green arrows indicate known or presumed source of signals
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