鳔作为发声鱼类交流声器官的功能可塑性

L. Rogers, Nicholas R. Lozier, Yulia P. Sapozhnikova, Kelly M. Diamond, Julian Ly Davis, J. Sisneros
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引用次数: 0

摘要

硬骨鱼已经进化出许多发声机制,包括鱼鳔的振动。除了声音的产生,鱼鳔也有助于声音的接收。虽然鱼类的鱼鳔对声音的产生和接收已经分别进行了描述,但它在单一物种中对两者的作用程度尚不清楚。本文采用形态学、电生理学和建模方法,研究了雄性平鳍中鳍鱼(Porichthys notatus)的鱼鳔在形态和声音产生和接收功能上表现出生殖状态依赖性的变化。非生殖雄性拥有吻侧“角状”的鱼鳔延伸,通过减少鱼鳔和内耳之间的距离来增强低频(小于800赫兹)声压敏感性,从而使压力引起的鱼鳔振动能够传导到内耳。相比之下,生殖雄性的鱼鳔音肌增大,可以发出广告叫声,但也改变了鱼鳔的形态,增加了鱼鳔到内耳的距离,有效地降低了声压敏感性。综上所述,我们表明鱼鳔表现出季节性的功能可塑性,使其能够有效地调节声音的产生和接收。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Functional plasticity of the swim bladder as an acoustic organ for communication in a vocal fish
Teleost fishes have evolved a number of sound-producing mechanisms, including vibrations of the swim bladder. In addition to sound production, the swim bladder also aids in sound reception. While the production and reception of sound by the swim bladder has been described separately in fishes, the extent to which it operates for both in a single species is unknown. Here, using morphological, electrophysiological and modelling approaches, we show that the swim bladder of male plainfin midshipman fish (Porichthys notatus) exhibits reproductive state-dependent changes in morphology and function for sound production and reception. Non-reproductive males possess rostral ‘horn-like’ swim bladder extensions that enhance low-frequency (less than 800 Hz) sound pressure sensitivity by decreasing the distance between the swim bladder and inner ear, thus enabling pressure-induced swim bladder vibrations to be transduced to the inner ear. By contrast, reproductive males display enlarged swim bladder sonic muscles that enable the production of advertisement calls but also alter swim bladder morphology and increase the swim bladder to inner ear distance, effectively reducing sound pressure sensitivity. Taken together, we show that the swim bladder exhibits a seasonal functional plasticity that allows it to effectively mediate both the production and reception of sound in a vocal teleost fish.
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