Huang G T, Rosowski J J, Peake W T
Eaton-Peabody Laboratory of Auditory Physiology, Massachusetts Eye and Ear Infirmary, Boston 02114, USA.
J Comp Physiol A. 2000 May;186(5):447-65. doi: 10.1007/s003590050444.
Is the acoustic performance of the mammalian middle ear dependent on body size? We focus on the cat family, because of its qualitatively uniform (and distinctive) middle-ear structure, large size range, and the extensive data available from domestic cats which provide a framework for relating middle-ear acoustics to structure. We report measurements of acoustic admittance in 17 live adult ears of 11 exotic species, ranging in size from sand cat (3 kg) to tiger (180 kg). For low frequencies, the middle-ear response is compliant for all species and generally increases with size. The compliance of the middle-ear air space increases with size, but the compliance of the tympanic membrane and ossicular chain is not correlated with size. Structure-based rules are developed to represent some features of middle-ear performance: (1) low-frequency sensitivity increases with size; and (2) the frequency of a prominent notch in admittance decreases with size. Although some species deviate from the rules, the data generally support the idea that in larger felids the middle-ear response is shifted to lower frequencies. Thus, in the cat family, body size partly describes variations in auditory features. More speculatively, ethological pressures which might influence hearing performance are discussed.
哺乳动物中耳的声学性能是否取决于体型?我们聚焦于猫科动物,因为其具有质量上统一(且独特)的中耳结构、较大的体型范围,以及来自家猫的大量数据,这些数据为将中耳声学与结构联系起来提供了一个框架。我们报告了对11种外来物种的17只成年活体耳朵的声导纳测量结果,这些物种的体型从沙猫(3千克)到老虎(180千克)不等。对于低频,所有物种的中耳响应都是顺应性的,并且通常随体型增大而增加。中耳气腔的顺应性随体型增大而增加,但鼓膜和听骨链的顺应性与体型无关。我们制定了基于结构的规则来描述中耳性能的一些特征:(1)低频敏感度随体型增大而增加;(2)导纳中突出凹陷的频率随体型减小。尽管有些物种偏离了这些规则,但数据总体上支持这样一种观点,即体型较大的猫科动物中耳响应向低频偏移。因此,在猫科动物中,体型部分地描述了听觉特征的变化。更具推测性地,我们还讨论了可能影响听力性能的行为学压力。
