蟋蟀鼓膜振动的频率调谐与方向敏感性

Frequency tuning and directional sensitivity of tympanal vibrations in the field cricket .

作者信息

Lankheet Martin J, Cerkvenik Uroš, Larsen Ole N, van Leeuwen Johan L

机构信息

Experimental Zoology Group, Department of Animal Sciences, Wageningen University, De Elst 1, Wageningen, The Netherlands

Experimental Zoology Group, Department of Animal Sciences, Wageningen University, De Elst 1, Wageningen, The Netherlands.

出版信息

J R Soc Interface. 2017 Mar;14(128). doi: 10.1098/rsif.2017.0035.

DOI:10.1098/rsif.2017.0035

PMID:28298611

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5378147/

Abstract

Female field crickets use phonotaxis to locate males by their calling song. Male song production and female behavioural sensitivity form a pair of matched frequency filters, which in are tuned to a frequency of about 4.7 kHz. Directional sensitivity is supported by an elaborate system of acoustic tracheae, which make the ears function as pressure difference receivers. As a result, phase differences between left and right sound inputs are transformed into vibration amplitude differences. Here we critically tested the hypothesis that acoustic properties of internal transmissions play a major role in tuning directional sensitivity to the calling song frequency, by measuring tympanal vibrations as a function of sound direction and frequency. Rather than sharp frequency tuning of directional sensitivity corresponding to the calling song, we found broad frequency tuning, with optima shifted to higher frequencies. These findings agree with predictions from a vector summation model for combining external and internal sounds. We show that the model provides robust directional sensitivity that is, however, broadly tuned with an optimum well above the calling song frequency. We therefore advocate that additional filtering, e.g. at a higher (neuronal) level, significantly contributes to frequency tuning of directional sensitivity.

摘要

雌性田蟋通过趋声性，根据雄性的求偶鸣叫来定位它们。雄性的鸣叫发声和雌性的行为敏感性形成了一对匹配的频率滤波器，其调谐到大约4.7千赫兹的频率。一个复杂的气管声学系统支持定向敏感性，该系统使耳朵起到压差接收器的作用。结果，左右声音输入之间的相位差被转化为振动幅度差。在这里，我们通过测量鼓膜振动作为声音方向和频率的函数，严格检验了以下假设：内部传输的声学特性在将定向敏感性调谐到求偶鸣叫频率方面起主要作用。我们发现，定向敏感性并非对应于求偶鸣叫的尖锐频率调谐，而是宽泛的频率调谐，其最优值向更高频率偏移。这些发现与用于组合外部和内部声音的矢量求和模型的预测一致。我们表明，该模型提供了强大的定向敏感性，然而，其是宽泛调谐的，最优值远高于求偶鸣叫频率。因此，我们主张额外的滤波，例如在更高（神经元）水平上，对定向敏感性的频率调谐有显著贡献。

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