生理限制和认知分块:斑马雀(Taeniopygia guttata)歌声中的序列组织。

IF 1.1 4区 心理学 Q4 BEHAVIORAL SCIENCES
Journal of Comparative Psychology Pub Date : 2023-11-01 Epub Date: 2023-08-10 DOI:10.1037/com0000357
Zina B Ward, Charles T Upton, Manasi Iyer, Heather Williams
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引用次数: 0

摘要

鸟类学唱的歌曲通常具有等级组织。就斑马雀而言,每只鸟的歌声都是由一串按固定顺序排列的音符组成的 "主题",主题重复出现就形成了歌声。在学歌过程中,小雄鸟会从导师的歌声中复制由两个或两个以上连续音符组成的 "音块"。这些音块在记忆(学习过程中)和运动系统(歌曲制作过程中)中表现为不同的单元。在歌曲表演过程中,动机可能会偏离所学的序列,如短暂停止、延迟开始,或跳过、插入或重复音符。我们测量了与鸣唱过程中的呼吸和发声生理有关的声学和时间变量,并询问了它们与每只鸟的 "标准 "序列偏差之间的关系。对偏离 "标准 "序列的最佳预测指标是音符之间无声间隔的持续时间,此时通常会产生灵感。偏离 "标准 "主题的情况较少发生在音调较高的音符之后,这可能是因为高低音序列构成了一个拟声单元。过早的停顿往往出现在音量较大、音程较长的音符之后,这表明呼吸和肌肉生理机能会影响此类停顿的位置。雄性动机的学习块之间的界限预测了非规范起始的发生位置和频率。生理和认知因素也相互作用,确定斑马雀鸣唱序列的分段。音符之间较长的静音间隔既与生理因素(灵感)有关,也与所学音块的认知边界有关,因此也与偏离经典主题有关。(PsycInfo Database Record (c) 2023 APA, 版权所有)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Physiological constraints and cognitive chunking: Sequence organization in the songs of zebra finches (Taeniopygia guttata).

Learned bird songs often have a hierarchical organization. In the case of zebra finches, each bird's song is made up of a string of notes delivered in a stereotyped sequence to form a "motif," and motifs are repeated to form a song bout. During song learning, young males copy "chunks" of two or more consecutive notes from their tutors' songs. These chunks are represented as distinct units within memory (during learning) and within motor systems (during song production). During song performance, motifs may deviate from the learned sequence by stopping short, starting late, or by skipping, inserting, or repeating notes. We measured acoustic and temporal variables related to the respiratory and vocal physiology of song production and asked how they related to deviations from each bird's "canonical" sequence. The best predictor of deviations from that sequence was the duration of the silent interval between notes, when inspiration normally occurs. Deviations from the canonical motif occurred less often after higher-pitched notes, perhaps because a high-low sequence forms a prosodic unit. Premature stops often followed louder and longer notes, suggesting that respiratory and muscular physiology influence the location of such stops. Boundaries between the learned chunks of a male's motif predicted where and how often noncanonical starts occurred. Physiological and cognitive elements also interacted to define the segmentation of zebra finch song sequences. Long silent intervals between notes were associated both with physiology (inspirations) and with the cognitive boundaries of learned chunks-and hence with deviations from the canonical motif. (PsycInfo Database Record (c) 2023 APA, all rights reserved).

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来源期刊
CiteScore
3.30
自引率
7.10%
发文量
0
审稿时长
>12 weeks
期刊介绍: The Journal of Comparative Psychology publishes original research from a comparative perspective on the behavior, cognition, perception, and social relationships of diverse species.
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