Center for Neural Science, New York University, New York, NY 10003, USA.
Curr Biol. 2010 Jun 8;20(11):1035-41. doi: 10.1016/j.cub.2010.04.019. Epub 2010 May 20.
Some combinations of musical notes are consonant (pleasant), whereas others are dissonant (unpleasant), a distinction central to music. Explanations of consonance in terms of acoustics, auditory neuroscience, and enculturation have been debated for centuries. We utilized individual differences to distinguish the candidate theories. We measured preferences for musical chords as well as nonmusical sounds that isolated particular acoustic factors--specifically, the beating and the harmonic relationships between frequency components, two factors that have long been thought to potentially underlie consonance. Listeners preferred stimuli without beats and with harmonic spectra, but across more than 250 subjects, only the preference for harmonic spectra was consistently correlated with preferences for consonant over dissonant chords. Harmonicity preferences were also correlated with the number of years subjects had spent playing a musical instrument, suggesting that exposure to music amplifies preferences for harmonic frequencies because of their musical importance. Harmonic spectra are prominent features of natural sounds, and our results indicate that they also underlie the perception of consonance.
有些音符组合是协和的(悦耳的),而有些则是不协和的(刺耳的),这种区别是音乐的核心。几个世纪以来,人们一直在用音响学、听觉神经科学和文化适应的观点来解释协和音。我们利用个体差异来区分候选理论。我们测量了对音乐和弦以及分离出特定声学因素的非音乐声音的偏好——具体来说,是拍频和频率成分之间的和声关系,这两个因素长期以来一直被认为可能是协和音的基础。听众更喜欢没有拍频和声谱的刺激,但在超过 250 名受试者中,只有对和声谱的偏好与对协和和弦的偏好一致相关。和声偏好也与受试者演奏乐器的年数相关,这表明由于音乐的重要性,接触音乐可以增强对和声频率的偏好。和声谱是自然声音的突出特征,我们的结果表明它们也是协和音感知的基础。