Convergent Evolution of Wingbeat-Powered Anti-Bat Ultrasound in the Microlepidoptera
| Autor: | Brogan J. Harris, Marc W. Holderied, David J. L. Agassiz, Liam J. O’Reilly |
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| Rok vydání: | 2021 |
| Předmět: |
0106 biological sciences
0301 basic medicine Evolution Depressariidae 010603 evolutionary biology 01 natural sciences Tineidae acoustic mimicry 03 medical and health sciences Evolutionary arms race Convergent evolution QH359-425 Yponomeuta Oecophoridae QH540-549.5 Ecology Evolution Behavior and Systematics Microlepidoptera Wing Ecology biology micromoths Insectivore biology.organism_classification bat-moth arms race 030104 developmental biology Macrolepidoptera Evolutionary biology |
| Zdroj: | Frontiers in Ecology and Evolution, Vol 9 (2021) O'Reilly, L J, Harris, B J, Agassiz, D & Holderied, M W 2021, ' Convergent Evolution of Wingbeat-Powered Anti-Bat Ultrasound in the Microlepidoptera ', Frontiers in Ecology and Evolution, vol. 9, 648223 . https://doi.org/10.3389/fevo.2021.648223 |
| ISSN: | 2296-701X |
| Popis: | Certain moth taxa can produce ultrasound to defend themselves against echolocating bats; most do so actively in response to detecting an approaching bat. Species of the deaf microlepidopteran genus Yponomeuta were recently shown to constantly produce wingbeat-powered anti-bat sounds during flight using novel wing-embedded aeroelastic tymbals (ATs). These sounds closely match acoustic warning signals of other moths, meaning Yponomeuta gain protection whilst negating the need for bat detection. Such an elegant evolutionary solution to anti-bat defence for deaf moths is unlikely to be exclusive to the Yponomeuta and their relatives. Indeed, we predicted it would be found in other microlepidoptera, a group often overlooked in terms of their defences against bats. Here we show ATs have likely evolved convergently 15 times in the microlepidoptera, including thrice in the subfamily Tineinae (Tineidae). We also present the first acoustic recordings and characterisation of four of these microlepidopteran taxa, and the first molecular phylogeny of the Tineidae. Until now the microlepidoptera have been understudied in terms of the bat-moth evolutionary arms race, but our approach of phylogenetic, morphological, and acoustic analysis indicates that many of these moths possess advanced acoustic defences. The high levels of convergence we find in AT evolution are indicative of these moths suffering strong predation pressure from bats. In fact, link the extraordinary three examples of convergence in the Tineinae to their unusual life histories and feeding ecology; these moths can spend their entire lives in bat roosts feeding, as larvae, on guano, placing them under constant predation pressure. Here we provide the first evidence that anti-bat defences are widespread in the microlepidoptera, we anticipate that this will provide a catalyst to further research on the group’s ecological relationships with bats. The bat-moth evolutionary arms race is a burgeoning field of sensory, behavioural, and evolutionary biology, with adaptations on both sides having huge scope for technological advances such as biomimetics. Through this project we open a new chapter in the field, the anti-bat adaptions of microlepidoptera. |
| Databáze: | OpenAIRE |
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