Vibroacoustic Response of the Tympanic Membrane to Hyoid-Borne Sound Generated during Echolocation in Bats.

IF 2.2 4区 生物学 Q2 BIOLOGY
C C G Snipes, R T Carter
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Abstract

The hyoid apparatus in laryngeally echolocating bats is unique as it forms a mechanical connection between the larynx and auditory bullae, which has been hypothesized to transfer the outgoing echolocation call to the middle ear during call emission. Previous finite element modeling (FEM) found that hyoid-borne sound can reach the bulla at an amplitude likely heard by echolocating bats; however, that study did not model how or if the signal could reach the inner ear (or cochlea). One route that sound could take is via stimulation of the eardrum-similarly to that of air-conducted sound. We used micro computed tomography (μCT) data to build models of the hyoid apparatus and middle ear from six species of bats with variable morphology. Using FEM, we ran harmonic response analyses to measure the vibroacoustic response of the tympanic membrane due to hyoid-borne sound generated during echolocation and found that hyoid-borne sound in all six species stimulated the eardrum within a range likely heard by bats. Although there was variation in the efficiency between models, there are no obvious morphological patterns to account for it. This suggests that hyoid morphology in laryngeal echolocators is likely driven by other associated functions.

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蝙蝠回声定位时鼓膜对舌骨声的振动声响应。
喉回声定位蝙蝠的舌骨是独特的,因为它在喉部和听大泡之间形成了机械连接,这被假设在呼叫发射期间将传出的回声定位呼叫转移到中耳。先前的有限元模型(FEM)发现,舌骨传播的声音可以以回声定位蝙蝠可能听到的振幅到达球;然而,该研究并没有模拟信号如何或是否能到达内耳(或耳蜗)。声音的一种途径是通过刺激耳膜——类似于空气传导的声音。利用微计算机断层扫描(μCT)数据建立了6种不同形态蝙蝠的舌骨和中耳模型。利用有限元方法,对回声定位过程中产生的舌骨声对鼓膜的振声响应进行了谐波响应分析,发现所有6种动物的舌骨声对鼓膜的刺激范围都在蝙蝠可能听到的范围内。虽然模型之间的效率存在差异,但没有明显的形态模式来解释它。这表明喉回声定位器的舌骨形态可能是由其他相关功能驱动的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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