Department of Life Sciences and Systems Biology, University of Turin, Turin, Italy.
Department of Life Sciences and Systems Biology, University of Turin, Turin, Italy; Equipe de Neuro-Ethologie Sensorielle (ENES), Centre de Recherche en Neurosciences de Lyon (CRNL), CNRS, INSERM, University of Lyon/Saint-Étienne, Saint-Étienne, France.
Curr Biol. 2021 Oct 25;31(20):R1379-R1380. doi: 10.1016/j.cub.2021.09.032.
What are the origins of musical rhythm? One approach to the biology and evolution of music consists in finding common musical traits across species. These similarities allow biomusicologists to infer when and how musical traits appeared in our species. A parallel approach to the biology and evolution of music focuses on finding statistical universals in human music. These include rhythmic features that appear above chance across musical cultures. One such universal is the production of categorical rhythms, defined as those where temporal intervals between note onsets are distributed categorically rather than uniformly. Prominent rhythm categories include those with intervals related by small integer ratios, such as 1:1 (isochrony) and 1:2, which translates as some notes being twice as long as their adjacent ones. In humans, universals are often defined in relation to the beat, a top-down cognitive process of inferring a temporal regularity from a complex musical scene. Without assuming the presence of the beat in other animals, one can still investigate its downstream products, namely rhythmic categories with small integer ratios detected in recorded signals. Here we combine the comparative and statistical universals approaches, testing the hypothesis that rhythmic categories and small integer ratios should appear in species showing coordinated group singing. We find that a lemur species displays, in its coordinated songs, the isochronous and 1:2 rhythm categories seen in human music, showing that such categories are not, among mammals, unique to humans.
音乐节奏的起源是什么?研究音乐的生物学和进化的一种方法是在物种之间寻找共同的音乐特征。这些相似之处使生物音乐学家能够推断出音乐特征在我们物种中何时以及如何出现。另一种研究音乐的生物学和进化的方法侧重于在人类音乐中寻找统计上的普遍性。这些普遍性包括在音乐文化中出现的、超出随机概率的节奏特征。其中一个普遍性是产生分类节奏,即那些音的起始时间间隔以分类而不是均匀的方式分布的节奏。突出的节奏类别包括那些间隔与小整数比相关的类别,例如 1:1(等时性)和 1:2,这意味着有些音符的长度是其相邻音符的两倍。在人类中,普遍性通常是相对于节拍来定义的,节拍是一种自上而下的认知过程,从复杂的音乐场景中推断出时间规律。在不假设其他动物存在节拍的情况下,人们仍然可以研究其下游产物,即在记录信号中检测到的具有小整数比的节奏类别。在这里,我们结合了比较和统计普遍性的方法,检验了这样一个假设,即具有小整数比的节奏类别应该出现在表现出协调的群体歌唱的物种中。我们发现,一种狐猴物种在其协调的歌声中表现出人类音乐中所见的等时性和 1:2 节奏类别,这表明在哺乳动物中,这些类别并非人类所特有。
