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超越指数型喇叭:一种具有耳道且其功能如同耦合谐振器的螽斯。

Beyond the exponential horn: a bush-cricket with ear canals which function as coupled resonators.

作者信息

Celiker Emine, Woodrow Charlie, Rocha-Sánchez Aurora Y, Chivers Benedict D, Barrientos-Lozano Ludivina, Montealegre-Z Fernando

机构信息

University of Lincoln, School of Life and Environmental Sciences, Joseph Banks Laboratories, Green Lane, Lincoln LN6 7DL, UK.

Tecnológico Nacional de México-I. T. de Ciudad Victoria, Blvd. Emilio Portes Gil No. 1301, Ciudad Victoria, C.P. 87010 Tamaulipas, México.

出版信息

R Soc Open Sci. 2022 Oct 12;9(10):220532. doi: 10.1098/rsos.220532. eCollection 2022 Oct.

Abstract

Bush-crickets have dual-input, tympanal ears located in the tibia of their forelegs. The sound will first of all reach the external sides of the tympana, before arriving at the internal sides through the bush-cricket's ear canal, the acoustic trachea (AT), with a phase lapse and pressure gain. It has been shown that for many bush-crickets, the AT has an exponential horn-shaped morphology and function, producing a significant pressure gain above a certain cut-off frequency. However, the underlying mechanism of different AT designs remains elusive. In this study, we demonstrate that the AT of the duetting Phaneropterinae bush-cricket function as coupled resonators, producing sound pressure gains at the sex-specific conspecific calling song frequency, and attenuating the remainder-a functioning mechanism significantly different from an exponential horn. Furthermore, it is demonstrated that despite the sexual dimorphism between the AT, both male and female AT have a similar biophysical mechanism. The analysis was carried out using an interdisciplinary approach, where micro-computed tomography was used for the morphological properties of the AT, and a finite-element analysis was applied on the precise tracheal geometry to further justify the experimental results and to go beyond experimental limitations.

摘要

螽斯在前腿胫节处有双输入的鼓膜耳。声音首先会到达鼓膜的外侧,然后通过螽斯的耳道、听觉气管(AT)到达内侧,在此过程中会有相位延迟和压力增益。研究表明,对于许多螽斯来说,听觉气管具有指数喇叭形的形态和功能,在特定截止频率以上会产生显著的压力增益。然而,不同听觉气管设计的潜在机制仍然难以捉摸。在本研究中,我们证明了二重唱扇螽亚科螽斯的听觉气管起到耦合谐振器的作用,在特定性别的同种鸣叫歌曲频率上产生声压增益,并衰减其余频率——这一功能机制与指数喇叭形显著不同。此外,研究表明,尽管听觉气管存在两性异形,但雄性和雌性的听觉气管具有相似的生物物理机制。分析采用了跨学科方法,其中微型计算机断层扫描用于研究听觉气管的形态特性,有限元分析应用于精确的气管几何形状,以进一步验证实验结果并突破实验限制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/888b/9554516/495fbf44cf49/rsos220532f01.jpg

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