Abstract
AbstractAcoustic communication is well-known in insects since the Mesozoic, but earlier evidence of this behavior is rare. Titanoptera, an ‘orthopteroid’ Permian-Triassic order, is one of the few candidates for Paleozoic intersex calling interactions: some specimens had highly specialized broadened zones on the forewings, which are currently considered—despite inconclusive evidence—as ‘resonators’ of a stridulatory apparatus. Here we argue that the stridulatory apparatus hypothesis is unlikely because the Titanoptera lack a stridulatory file on their bodies, legs or wings. Instead, comparing these broadened zones with similar structures in extant locusts, flies, and fossil damselflies, we find evidence that the Titanoptera used their wings to produce flashes of light and/or crepitated sounds. Moreover, we describe the first Carboniferous (~310 Mya) Titanoptera, which exhibits such specialized zones, thus corresponding to the oldest record of wing communication in insects. Whether these communication systems were used to attract sexual partners and/or escape predators remain to be demonstrated.
Publisher
Springer Science and Business Media LLC
Subject
General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology,Medicine (miscellaneous)
Reference50 articles.
1. Leonard, J. L. & Córdoba-Aguilar, A. The Evolution of Primary Sexual Characters in Animals (Oxford University Press, 2010).
2. Tsai, C.-C. et al. Physical and behavioral adaptations to prevent overheating of the living wings of butterflies. Nat. Commun. 11, 1–14 (2020).
3. Botosaneanu, L. Remarquable double androconial system in some West Indian Trichoptera. Entomologische Ber. 51, 64–68 (1991).
4. Sweeney, A., Jiggins, C. & Johnsen, S. Polarized light as a butterfly mating signal. Nature 423, 31–32 (2003).
5. Eichorn, C. et al. How flies are flirting on the fly. BMC Biol. 15, 1–20 (2017).
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