音乐、心理与大脑

摘要/Abstract

摘要： 音乐因其对个人和社会的重要意义而吸引心理学和神经科学等学科的研究者对其心理机制及神经基础进行广泛而深入的探究。回顾研究历史，主要从音乐的认知加工和情绪体验及其神经基础、音乐与人格特征的关系、音乐心理学及脑科学研究的应用价值诸方面介绍其重要研究进展和研究结论，并分析迄今研究所面临的问题，提出未来研究的一些方向。

关键词: 音乐, 认知, 情绪, 人格特征, 神经基础

Abstract: Music plays an important role both in one’s life and in a society and therefore attracts psychologists and neuroscientists to explore intensively and extensively the psychological mechanisms and neural basis of human musical mind. This paper reviewed the major research advances and results in the areas of cognitive processing and emotional experience of music, the individual differences in responding to and enjoying music, and the implications of psychological and neuro-scientific research on music. The concluding remarks addressed the key issues in current studies as well as directions for future research in the area of music, mind and brain.

张卫东. 音乐、心理与大脑[J]. 华东师范大学学报(教育科学版), 2014, 32(1): 89-96.

Zhang Weidong. Music, Mind and the Brain[J]. Journal of East China Normal University(Educationa, 2014, 32(1): 89-96.

参考文献

Barrett, F. S., Grimm, K. J., Robins, R. W., Wildschut, T., Sedikides, C., &Janata, P. (2010). Music-evoked nostalgia: Affect, memory, and personality. Emotion, 10, 390–403.
Blood, A. J., &Zatorre, R. J. (2001). Intensely pleasurable responses to music correlate with activity in brain regions implicated in reward and emotion. Proceedings of the National Academy of Sciences of the United States of America, 98, 11818–11823.
Blood, A. J., Zatorre, R. J., Bermudez, P., & Evans, A. C. (1999). Emotional responses to pleasant and unpleasant music correlate with activity in paralimbic brain regions. Nature Neuroscience, 2, 382–387.
Brattico, E., &Pearce, M. (2013). The neuroaesthetics of music. Psychology of Aesthetics, Creativity, and the Arts, 7(1), 48–61.
Brown, C. J., Chen, A. C. N., &Dworkin, S. F. (1989). Music in the control of human pain. Music Therapy, 8, 47–60.
Chamorro-Premuzic, T., &Furnham, A. (2007). Personality and music: Can traits explain how people use music in everyday life? British Journal of Psychology, 98, 175–185.
Christenson, P. G., & Peterson, J. B. (1988). Genre and gender in the structure of music preferences. Communication Research, 15, 282–301.
d’Errico, F., Henshilwood, C., Lawson, G., Vanhaeren, M., Tillier, A.M., Soressi, M., et al. (2003). Archaeological evidence for the emergence of language, symbolism, and music—An alternative multidisciplinary perspective. Journal of World Prehistory, 17, 1–70.
Dollinger, S. J. (1993). Research note: Personality and music preference: Extraversion and excitement seeking or openness to experience? Psychology of Music, 21, 73–77.
Eerola, T., &Vuoskoski, J. K. (2011). A comparison of the discrete and dimensional models of emotion in music. Psychology of Music, 39, 18–49.
Fox, J.G., &Embrey,E.D. (1972).Music — An aid to productivity. Applied Ergonomics, 3(4), 202–205.
Gold, C., Voracek, M., &Wigram, T. (2004). Effects of music therapy for children and adolescents with psychopathology: A meta-analysis. Journal of Child Psychology and Psychiatry, 45, 1054–1063.
Gomez, P., &Danuser, B. (2007). Relationships between musical structure and psychophysiological measures of emotion. Emotion, 7, 377–387.
Grahn, J. A. (2009). The role of the basal ganglia in beat perception. Annals of the New York Academy of Sciences, 1169, 35–45.
Grahn, J.A., & Brett, M. (2007). Rhythm and beat perception in motor areas of the brain. Journal of Cognitive Neuroscience, 19(5), 893–906.
Green, A. C., Boerentsen, K. B., Stødkilde-Jørgensen, H., Wallentin, M., Roepstorff, A., Vuust, P. (2008). Music in minor activates limbic structures: a relationship with dissonance? NeuroReport,
19, 711–715.
Grewe, O., Kopiez, R., &Altenmüller, E. (2009). Chills as an indicator of individual emotional peaks. Annals of the New York Acadamy of Sciences, 1169, 351–354.
Higham, T., Basell, L., Jacobi, R., Wood, R., Ramsey, C. B., &Conard, N. J. (2012). Testing models for the beginnings of the Aurignacian and the advent of figurative art and music: The radiocarbon chronology of Geibenklosterle. Journal of Human Evolution, 62, 664 – 676.
Hucklebridge, F., Lambert, S., Clow, A., Warburton, D., Evans, P., & Sherwood, N. (2000). Modulation of secretory immunoglobulin A in saliva; response to manipulation of mood. Biological Psychology,53, 25–35.
Hunter, P. G., Schellenberg, G., &Schimmack, U. (2008). Mixed affective responses to music with conflicting cues. Cognition & Emotion, 22, 327–352.
Jentzsch, I, Mkrtchian, A, &Kansal, N. (2013). Improved effectiveness of performance monitoring in amateur instrumental musicians. Neuropsychologia, in press.
Jillian, C. S., &Fiona, W. (2002). The role of cognitions and emotions in the music-approach-avoidance behavior relationship.Journal of Services Marketing, 16(1), 51–69.
Juslin, P. N., &Laukka, P. (2004). Expression, perception, and induction of musical emotions: A review and a questionnaire study of everyday listening. Journal of New Music Research, 33, 217–238.
Kallinen, K., & Ravaja, N. (2006). Emotion perceived and emotion felt:Same and different. Musicae Scientiae, 10, 191–241.
Khalfa, S., Schön, D., Anton, J.L., & Liégois-Chauvel, C. (2005). Brain regions involved in recognition of happiness and sadness in music. NeuroReport, 16, 1981–1984.
Khalfa, S., Isabelle, P., Jean-Pierre, B., &Manon, R. (2002). Event-related skin conductance responses to musical emotions in humans. Neuroscience Letters,328, 145–149.
Koelsch, S. (2011). Towards a neural basis of music perception- a review and updated model. Frontiers in Psychology, 2, Article 110.
Koelsch, S. (2010). Towards a neural basis of music-evoked emotions. Trends in Cognitive Sciences, 14(3), 131–137.
Koelsch, S., Fritz, T., von Cramon, D. Y., Müller, K., &Friederici, A. D. (2006). Investigating emotion with music: An fMRI study. Human Brain Mapping, 27, 239–250.
Koelsch, S., & Siebel, W. A. (2005). Towards a neural basis of music perception. Trends in Cognitive Sciences, 9, 578–584.
Kreutz, G., Bongard, S., Rohrmann, S., Hodapp, V., & Grebe, D. (2004). Effects of choir singing or listening on secretory immunoglobulin A, cortisol, and emotional state. Journal ofBehavioral Medicine, 27, 623–635.
Krumhansl, C. L. (2000). Rhythm and pitch in music cognition. Psychological Bulletin, 126, 159–179.
Krumhansl, C. L.(1997). An exploratory study of musical emotions and psychophysiology. Canadian Journal of Experimental Psychology, 51(4), 336-353.
Ladinig, O,&Schellenberg, G.E. (2012). Liking unfamiliar music: Effects of felt emotion and individual differences. Psychology of Aesthetics, Creativity, and the Arts, 6(2), 146–154.
Levitin, D. J., &Tirovolas, A. K. (2009). Current advances in the cognitive neuroscience of music. Annals of the New York Academy of Sciences, 1156, 211–231.
Liégeoise-Chauvel, C., Peretz, I., Babai, M., Laguitton, V., &Chauvel, P. (1998). Contribution of different cortical areas in the temporal lobes to music processing. Brain, 121, 1853–1867.
Little, P., & Zuckerman, M. (1986). Sensation seeking and music preferences. Personality and Individual Differences, 7, 575–577.
Lynxwiler, J., & Gay, D. (2000). Moral boundaries and deviant music: Public attitudes toward heavy metal and rap. Deviant Behavior, 21, 63–85.
McCaffery, M. (1992). Response to “Quantification of the effect of listening to music as a non-invasive method of pain control.” Scholarly Inquiry for Nursing Practice, 6, 59–62.
McCown, W., Keiser, R., Mulhearn, S., & Williamson, D. (1997). The role of personality and gender in preference for exaggerated bass in music. Personality and Individual Differences, 23, 543–547.
McCraty, R., Atkinson, M., Rein, G., & Watkins, A. (1996). Music enhances the effect of positive emotional states on salivary IgA. Stress Medicine, 12, 167–175.
Meyer, L. B. (1956). Emotion and meaning in music. Chicago: University of Chicago Press.
Mitchell, L. A., & MacDonald, R. A. R. (2006). An experimental investigation of the effects of preferred and relaxing music on pain perception. Journal of Music Therapy, 63, 295–316.
Mitchell, L. A., MacDonald, R. A. R., & Brodie, E. E. (2006). A comparison of the effects of preferred music, arithmetic and humour on cold pressor pain. European Journal of Pain, 10, 343–351.
Mitterschiffthaler, M. T., Fu, C. H. Y., Dalton, J. A., Andrew, C. M., & Williams, S. C. R. (2007). A functional MRI study of happy and sad affective states induced by classical music. Human Brain Mapping, 28, 1150–1162.
Orini, M., Bailón, R., Enk, R., Koelsch, S., Mainardi, L., & Laguna, P. (2010). A method for continuously assessing the autonomic response to music-induced emotions through HRV analysis. Medical & Biological Engineering & Computing. 48, 423–433.
Panksepp, J. (1995). The emotional source of “chills” induced by music. Music Perception, 13, 171–207.
Patel, A. (2003). Language, music and the brain. Nature Neuroscience, 6, 674–681.
Pearce, M. T., & Wiggins, G. A. (2006). Expectation in melody: The influence of context and learning. Music Perception, 23, 377–405.
Peretz, I. (2010). Towards a neurobiology of musical emotions. In P. Juslin& J. Sloboda (Eds.), Handbook of music and emotion: Theory, research, applications (pp. 99–126). Oxford: Oxford University Press.
Pearce, M. T., Ruiz, M. H., Kapasi, S., Wiggins, G. A., & Bhattacharya, J. (2010). Unsupervised statistical learning underpins computational, behavioural and neural manifestations of musical expectation.NeuroImage, 50, 302–313.
Peretz, I., &Coltheart, M. (2003). Modularity of music processing. Nature Neuroscience, 6, 688–691.
Peretz, I., &Zatorre, R. (2005). Brain organization for music processing. Annual Reviews of Psychology, 56, 89–114.
Rauscher, F.H., Shaw, G.L., &Ky, K.N. (1993). Music and spatial task performance. Nature, 365, 611.
Rawlings, D., &Ciancarelli, V. (1997). Music preference and the five-factor model of the NEO Personality Inventory. Psychology of Music, 25, 120–132.
Rickard, N. S. (2004). Intense emotional responses to music: A test of the physiological arousal hypothesis. Psychology of Music, 32, 371–388.
Rimland, B., &Edelson, S.M. (1995). A pilot study of auditory integration training in autism. Journal of Autism and Developmental Disorders, 25, 61–70.
Russell, J. A. (1980). A circumplex model of affect. Journal of Personality and Social Psychology, 39, 1161–1178.
Salimpoor, V. N., Benovoy, M., Longo, G., Cooperstock, J. R., &Zatorre, R. J. (2009). The rewarding aspects of music listening are related to degree of emotional arousal. PloS One, 4, e7487.
Schäfer, T., &Sedlmeier, P. (2009). From the functions of music to music preference. Psychology of Music, 37, 279–300.
Schäfer, T., &Sedlmeier, P. (2010). What makes us like music? Determinants of music preference. Psychology of Aesthetics, Creativity, and the Arts, 4(4), 223–234.
Scherer, K. R. (2004). Which emotions can be induced by music? What are the underlying mechanisms? And how can we measure them? Journal of New Music Research, 2004, 33(3), 239–251.
Scherer, K. R., &Zentner, M. R. (2008). Music evoked emotions are different: More often aesthetic than utilitarian. Behavioral and Brain Sciences, 31, 595–596.
Schimmack, U., &Grob, A. (2000). Dimensional models of core affect: A quantitative comparison by means of structural equation modeling. European Journal of Personality, 14, 325–345.
Schubert, E. (1996). Enjoyment of negative emotions in music: An associative network explanation. Psychology of Music, 24, 18–28.
Scott, S. K. (2005). Auditory Processing – speech, space and auditory objects. Current Opinion in Neurobiology, 15, 197–201.
Sloboda, J. (1991). Music structure and emotional response: Some empirical findings. Psychology of Music, 19, 110–120.
Steele, K.M., Bass, K.E., & Crook, M.D. (1999). The mystery of the Mozart Effect: Failure to replicate. Psychological Science, 10(4), 366–369.
Steinbeis, N., Koelsch, S., &Sloboda, J. A. (2006). The role of harmonic expectancy violations in musical emotions: Evidence from subjective, physiological and neural responses. Journal of Cognitive Neuroscience, 18, 1380–1393.
Stewart, L., Overath, T., Warren, J. D., Foxton, J. M., & Griffiths, T. D. (2008). FMRI evidence for a cortical hierarchy of pitch pattern processing. PLoS One, 3, e1470.
Tillmann, B., Bharucha, J. J., &Bigand, E. (2000). Implicit learning of tonality: A self-organized approach. Psychological Review, 107, 885–913.
Trehub, S.E. (2001). Musical predispositions in infancy. Annals of the New York Academy of Sciences, 930, 1–16.
Trost, W., Ethofer, T., Zentner, M., &Vuilleumier, P. (2012). Mapping aesthetic musical emotions in the brain. Cerebral Cortex, 22, 2769–2783.
Vuoskoski, J. K., &Eerola, T. (2011).Measuring music-inducedemotion: A comparison of emotionmodels, personality biases, andintensity of experiences. Musicae Scientiae, 15, 159–173.
Zatorre, R. J., Bouffard, M., Ahad, P., & Belin, P. (2002). Where is ’where’ in the human auditory cortex? Nature Neuroscience, 5, 905–909.
Zentner, M., Grandjean, D., & Scherer, K. R. (2008). Emotions evoked by the sound of music: Characterization, classification and measurement. Emotion, 8, 494–521.

[1]	叶晓梅, 曹晓婕. 教师关怀对农村儿童非认知能力发展的影响——家校共育的机制分析[J]. 华东师范大学学报(教育科学版), 2023, 41(5): 98-112.
[2]	鲍威, 陈得春, 佟琳楠. 美德是否可教？高等教育对学生道德认知发展的影响研究[J]. 华东师范大学学报(教育科学版), 2023, 41(4): 56-71.
[3]	梅伟惠, 张玮逸. 大学生创业意向影响因素研究：制度理论视角下的跨国比较[J]. 华东师范大学学报(教育科学版), 2023, 41(2): 81-92.
[4]	赵雪艳, 游旭群, 秦伟. 中学教师情绪劳动策略与职业幸福感的关系：基于潜在剖面分析[J]. 华东师范大学学报(教育科学版), 2023, 41(1): 16-24.
[5]	郑磊, 孙钰. 有志者，事竟成——学生意志力对认知能力的异质性影响[J]. 华东师范大学学报(教育科学版), 2022, 40(8): 83-95.
[6]	马淑风, 杨向东. 什么才是高阶思维？——以“新旧知识关系建立”为核心的高阶思维概念框架[J]. 华东师范大学学报(教育科学版), 2022, 40(11): 58-68.
[7]	刘志, 朱锐锐, 崔海丽, 黄忠敬. 情绪调节：中国青少年社会与情感能力测评分报告之二[J]. 华东师范大学学报(教育科学版), 2021, 39(9): 47-61.
[8]	武法提, 田浩, 王瑜, 樊敏生. 智慧教育视野下基于Rasch模型的知识掌握与认知能力分析研究[J]. 华东师范大学学报(教育科学版), 2021, 39(8): 57-69.
[9]	蔡红红. 教师在线教学准备与学生学习效果的关系探究——学习者控制与学业情绪的中介作用[J]. 华东师范大学学报(教育科学版), 2021, 39(7): 27-37.
[10]	赵勇. 教育评价的几大问题及发展方向[J]. 华东师范大学学报(教育科学版), 2021, 39(4): 1-14.
[11]	方超, 黄斌. 体育锻炼能够促进青少年的认知能力发展吗？——基于中国教育追踪调查数据的实证研究[J]. 华东师范大学学报(教育科学版), 2021, 39(3): 84-98.
[12]	朱晶. 科学教育中的知识、方法与信念——基于科学哲学的考察[J]. 华东师范大学学报(教育科学版), 2020, 38(7): 106-116.
[13]	尹坚勤, 吴巍莹, 张权, 贾云. 情绪劳动对幼儿园教师的意义:一项定量研究[J]. 华东师范大学学报(教育科学版), 2019, 37(6): 109-122.
[14]	席居哲, 叶杨, 左志宏, 彭雅楠. 积极心理学在我国学校教育中的实践[J]. 华东师范大学学报(教育科学版), 2019, 37(6): 149-159.
[15]	李英, 贾米琪, 郑文廷, 汤蕾, 白钰. 中国农村贫困地区儿童早期认知发展现状及影响因素研究[J]. 华东师范大学学报(教育科学版), 2019, 37(3): 17-32.