音乐的层次句法模型可预测听音乐时的 Theta 功率。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-11 DOI:10.1016/j.neuropsychologia.2024.108905
Steffen A. Herff , Leonardo Bonetti , Gabriele Cecchetti , Peter Vuust , Morten L. Kringelbach , Martin A. Rohrmeier
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引用次数: 0

摘要

语言学研究表明,句法嵌入的深度反映在大脑的θ功率上。在此,我们测试了这是否也适用于非语言刺激,特别是音乐。我们使用音乐句法的层次模型,对整首西方古典音乐中专家注释的两类和声依赖关系进行连续量化:延长和准备。延长大致可以理解为音乐中具有相同功能的成分之间的语言协调(例如 "我吃了披萨和意大利面 "中的 "披萨 "和 "意大利面")。准备是指两个和声之间的依存关系,前者意味着向后者的转化(例如,主音向调性转化;类似于 "我喜欢辣...... "中形容词如何暗示名词的存在)。然后,我们对 65 名聆听音乐作品的参与者的源 MEG 重建数据进行了分析。我们使用贝叶斯混合效应模型预测大脑中的 Theta 包络,使用开放式延长和准备依赖的数量作为预测因子,同时控制音频包络。我们观察到,延长和准备都对关键语言区域的θ波段波动具有独立且可区分的预测价值,如角区、上颞区和赫斯丘区或其右侧同源区,而准备则对与奖励系统和预测相关的区域显示出额外的预测价值。音乐专业知识进一步促进了语言相关脑区的这些效应。研究结果表明,精确形式化的音乐理论模型的预测结果反映在听众的大脑活动中,这进一步加深了我们对音乐结构的感知和认知的理解。
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Hierarchical syntax model of music predicts theta power during music listening

Linguistic research showed that the depth of syntactic embedding is reflected in brain theta power. Here, we test whether this also extends to non-linguistic stimuli, specifically music. We used a hierarchical model of musical syntax to continuously quantify two types of expert-annotated harmonic dependencies throughout a piece of Western classical music: prolongation and preparation. Prolongations can roughly be understood as a musical analogue to linguistic coordination between constituents that share the same function (e.g., ‘pizza’ and ‘pasta’ in ‘I ate pizza and pasta’). Preparation refers to the dependency between two harmonies whereby the first implies a resolution towards the second (e.g., dominant towards tonic; similar to how the adjective implies the presence of a noun in ‘I like spicy … ’). Source reconstructed MEG data of sixty-five participants listening to the musical piece was then analysed. We used Bayesian Mixed Effects models to predict theta envelope in the brain, using the number of open prolongation and preparation dependencies as predictors whilst controlling for audio envelope. We observed that prolongation and preparation both carry independent and distinguishable predictive value for theta band fluctuation in key linguistic areas such as the Angular, Superior Temporal, and Heschl's Gyri, or their right-lateralised homologues, with preparation showing additional predictive value for areas associated with the reward system and prediction. Musical expertise further mediated these effects in language-related brain areas. Results show that predictions of precisely formalised music-theoretical models are reflected in the brain activity of listeners which furthers our understanding of the perception and cognition of musical structure.

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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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