2017
DOI: 10.1111/jeb.13066
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Evolutionary diversification of the auditory organ sensilla in Neoconocephalus katydids (Orthoptera: Tettigoniidae) correlates with acoustic signal diversification over phylogenetic relatedness and life history

Abstract: Neoconocephalus Tettigoniidae are a model for the evolution of acoustic signals as male calls have diversified in temporal structure during the radiation of the genus. The call divergence and phylogeny in Neoconocephalus are established, but in tettigoniids in general, accompanying evolutionary changes in hearing organs are not studied. We investigated anatomical changes of the tympanal hearing organs during the evolutionary radiation and divergence of intraspecific acoustic signals. We compared the neuroanato… Show more

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Cited by 5 publications
(12 citation statements)
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References 89 publications
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“…However, this correlation so far provides no direct explanation for why a specific number of CA sensilla evolved in a given species. In Neoconocephalus, the number of CA sensilla from nine species was statistically negatively correlated to the species' call frequency (Strauß et al 2017). Since this correlation was also found for the CA length and body size, it was assumed to indicate an allometric relationship (see below), because larger animals have larger stridulatory structures that produce calls in lower frequencies, and body size also influences the number of CA sensilla and CA length.…”
Section: Does a Correlation Exist Between Carrier Frequency Of The Comentioning
confidence: 96%
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“…However, this correlation so far provides no direct explanation for why a specific number of CA sensilla evolved in a given species. In Neoconocephalus, the number of CA sensilla from nine species was statistically negatively correlated to the species' call frequency (Strauß et al 2017). Since this correlation was also found for the CA length and body size, it was assumed to indicate an allometric relationship (see below), because larger animals have larger stridulatory structures that produce calls in lower frequencies, and body size also influences the number of CA sensilla and CA length.…”
Section: Does a Correlation Exist Between Carrier Frequency Of The Comentioning
confidence: 96%
“…By the functions of hearing in mate detection and predator evasion, both sexual and natural selection affect the hearing organs in Tettigoniidae. Adaptations are notable in particular in the size differences of spiracles, which can be related to specific acoustic behaviors and selection pressures between sexes (e.g., Bailey and Römer 1991, Heller et al 1997a, Mason and Bailey 1998, Strauß et al 2017. In some circumstances, evolutionary forces may be difficult to identify by studying only the phenotypes, as selection pressures may overlap or even act in different directions (see Strauß and Stumpner 2015).…”
Section: Selection and Evolutionary Adaptations Of The Tettigoniid Hementioning
confidence: 99%
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