斑胸草雀运动产生和歌声模仿的呼吸单位。

M. Franz, F. Goller
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引用次数: 73

摘要

幼年雄性斑胸草雀(Taeniopygia guttata)通过模仿成年雄性导师的声音来学习一种刻板的歌曲。他们的歌是由一系列音节组成的,这些音节被无声的时期分开。在歌曲学习过程中,歌曲的声学单位是如何转化为呼吸和注射器运动手势的,目前还不清楚。为了了解呼吸对模仿过程的贡献,我们记录了38只雄性斑胸草雀的气囊压力,并定性和定量地比较了相似音节的声学结构和气囊压力模式。声学音节与呼气压力脉冲相对应,大多数情况下(74%)整个音节是用类似的气囊压力模式复制的。即使是放在不同音节中的音符,当只复制音节片段时,也会产生相似的气囊压力模式(9%)。一些相似的音节(17%)是通过修改的压力模式产生的,通常包括添加或删除灵感。类似音节的压力模式的高度相似性表明,特定声音的产生受到气囊压力条件的狭窄范围的限制。在频闪仪闪烁后,歌曲通常在呼气压力脉冲结束时中断,证实呼气,因此,音节是歌曲运动产生的最小单位。无声期,在声学上分开音节,是由呼气和吸气切换产生的。因此,呼吸阶段之间的转换似乎在组织歌曲制作的刻板运动程序中起着主导作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Respiratory units of motor production and song imitation in the zebra finch.
Juvenile male zebra finches (Taeniopygia guttata) learn a stereotyped song by imitating sounds from adult male tutors. Their song is composed of a series of syllables, which are separated by silent periods. How acoustic units of song are translated into respiratory and syringeal motor gestures during the song learning process is not well understood. To learn about the respiratory contribution to the imitation process, we recorded air sac pressure in 38 male zebra finches and compared the acoustic structures and air sac pressure patterns of similar syllables qualitatively and quantitatively. Acoustic syllables correspond to expiratory pressure pulses and most often (74%) entire syllables are copied using similar air sac pressure patterns. Even notes placed within different syllables are generated with similar air sac pressure patterns when only segments of syllables are copied (9%). A few of the similar syllables (17%) are generated with a modified pressure pattern, typically involving addition or deletion of an inspiration. The high similarity of pressure patterns for like syllables indicates that generation of particular sounds is constrained to a narrow range of air sac pressure conditions. Following presentation of stroboscope flashes, song was typically interrupted at the end of an expiratory pressure pulse, confirming that expirations and, therefore, syllables are the smallest unit of motor production of song. Silent periods, which separate syllables acoustically, are generated by switching from expiration to inspiration. Switching between respiratory phases, therefore, appears to play a dominant role in organizing the stereotyped motor program for song production.
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