Chicks produce consonant, sometimes jazzy, sounds.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-09-01 Epub Date: 2024-09-25 DOI:10.1098/rsbl.2024.0374
Gianmarco Maldarelli, Andrea Dissegna, Andrea Ravignani, Cinzia Chiandetti
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引用次数: 0

Abstract

Several animal species prefer consonant over dissonant sounds, a building block of musical scales and harmony. Could consonance and dissonance be linked, beyond music, to the emotional valence of vocalizations? We extracted the fundamental frequency from calls of young chickens with either positive or negative emotional valence, i.e. contact, brood and food calls. For each call, we calculated the frequency ratio between the maximum and the minimum values of the fundamental frequency, and we investigated which frequency ratios occurred with higher probability. We found that, for all call types, the most frequent ratios matched perfect consonance, like an arpeggio in pop music. These music-like intervals, based on the auditory frequency resolution of chicks, cannot be miscategorized into contiguous dissonant intervals. When we analysed frequency ratio distributions at a finer-grained level, we found some dissonant ratios in the contact calls produced during distress only, thus sounding a bit jazzy. Complementing the empirical data, our computational simulations suggest that physiological constraints can only partly explain both consonances and dissonances in chicks' phonation. Our data add to the mounting evidence that the building blocks of human musical traits can be found in several species, even phylogenetically distant from us.

小鸡会发出辅音,有时是爵士乐的声音。
与不和谐的声音相比,有几种动物更喜欢辅音,这是音阶与和声的组成部分。除了音乐之外,协和与不协和是否还与发声的情绪价值有关?我们从幼鸡的叫声中提取了基频,这些叫声具有积极或消极的情绪价值,即接触叫声、育雏叫声和食物叫声。对于每种叫声,我们都计算了基频最大值和最小值之间的频率比,并研究了哪种频率比出现的概率更高。我们发现,在所有的叫声类型中,最常见的频率比都是完全一致的,就像流行音乐中的琶音。根据雏鸟的听觉频率分辨率,这些类似音乐的音程不能被错误地归类为连续的不协和音程。当我们对频率比分布进行更精细的分析时,我们发现仅在窘迫时发出的联络鸣叫中存在一些不和谐的比率,因此听起来有点爵士乐的味道。作为对经验数据的补充,我们的计算模拟表明,生理限制只能部分解释雏鸟发音中的共鸣和不共鸣。我们的数据为越来越多的证据增添了砝码,这些证据表明,人类音乐特征的组成部分可以在多个物种中找到,甚至在系统发育上与我们相距甚远的物种中也能找到。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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