Abstract
This paper holds an evolutionary approach to musical semantics. Revolving around the nature/nurture dichotomy, it considers the role of the dispositional machinery to respond to sounding stimuli. Conceiving of music as organized sound, it stresses the dynamic tension between music as a collection of vibrational events and their potential of being structured. This structuring, however, is not gratuitous. It depends on levels of processing that rely on evolutionary older levels of reacting to the sounds as well as higher-level functions of the brain, which allow listeners to emancipate themselves from mere acoustic processing of sounds to the level of epistemic interactions with the sounding music. These interactions are partly autonomous and partly constrained, but they all stress the realization of systemic cognition in the context of a living system‘s interactions with the environment. As such, listeners can be conceived as adaptive devices, which can build up new semiotic linkages with the sounding world.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abler, W. (1989). On the particulate principle of self-diversifying systems. Journal of Social and Biological Structures, 12, 1–13.
Balkwill, L.-L., & Thompson, W. (1999). A cross-cultural investigation of the perception of emotion in music: psychophysical and cultural cues. Music Perception, 17, 43–64.
Barkow, J. H., Cosmides, L., & Tooby, J. (1992). The Adapted Mind: Evolutionary Psychology and the Generation of Culture. Oxford: Oxford University Press.
Bispham, J. (2009–2010). Music’s “design features”: Musical motivation, musical pulse, and musical pitch. Musicae Scientiae, Special Issue 2009–2010, 41–61.
Blacking, J. (1973). How Musical is Man? Seattle: Universtiy of Washington Press.
Blacking, J. (1987). A common-sense view of all music. Reflections on Percy Grainger's contribution to ethnomusicology and music education. Cambridge: Cambridge University Press.
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 United State of America, 98, 11818–11823.
Blacking, J. (1995). Music, Culture and Experience. London: University of Chicago Press.
Bown, O. & Wiggins, G. (2009–2010). From Maladaptation to Competition to Cooperation in the Evolution of Musical Behaviour. Musicae Scientiae, Special Issue 2009–2010, 387–411.
Bregman, A. (1990). Auditory Scene Analysis: The Perceptual Organization of Sound. Cambridge, Massachusetts: The MIT Press.
Brown, S. (2000). Evolutionary models of music: from sexual selection to group selection. Perspectives in Ethology, 13(13), 231–281.
Brown, S., Martinez, M. J., & Parsons, L. M. (2004). Passive music listening spontaneously engages limbic and paralimbic systems. NeuroReport, 15, 2033–2037.
Bruner, J. (1957). On perceptual readiness. Psychological Review, 64, 123–152.
Bühler, K. (1965 [1934]). Sprachtheorie: die Darstellungsfunktion der Sprache. Stuttgart: Gustav Fischer.
Burkhardt, R. W. (2005). Patterns of behavior. Chicago: University of Chicago Press.
Clynes, M. (1973). Sentics: biocybernetics of emotion communication. Annals of the New York Academy of Sciences, 220(3), 55–131.
Clynes, M. (1977). Sentics, the touch of emotion. Anchor, New York: Doubleday.
Clynes, M., & Walker, J. (1986). Music as time's measure. Music Perception, 4(1), 85–120.
Cross, I. (2001a). Music, Cognition, Culture, and Evolution. In Peretz, I. & Zatorre, R. (Eds.). The Biological Foundations of Music. Annals of the New York Academy of Science, 930, 28–42.
Cross, I. (2001b). Music, mind and evolution. Psychology of Music, 29, 95–102.
Cross, I. (2003a). Music and evolution: consequences and causes. Contemporary Music Review, 22(3), 79–89.
Cross, I. (2003b). Music, Cognition, Culture, and Evolution. In I. Peretz & R. Zatorre (Eds.), The Cognitive Neuroscience of Music (pp. 42–56). Oxford - New York: Oxford University Press.
Cross, I. (2009–2010). The evolutionary nature of musical meaning. In I. Deliège (Ed), Music and Evolution (pp.179–200). Musicae Scientiae, Special issue 2009–2010.
D’Errico, F., Henshilwood, C., Lawson, G., Vanhaeren, M., Tillier, A.-M., Soressi, M., et al. (2003). Archeological evidence for the emergence of language, symbolism, and music-an alternative multidisciplinary perspective. Journal of World Prehistory, 17, 1–70.
Damasio, A. (1994). Descartes’ Error: Emotion, Reason, and the Human Brain. New York: Harper Collins.
Damasio, A. (2004). Looking for Spinoza. Joy, Sorrow and the Feeling Brain. London: Vintage.
Dean, R., Byron, T., & Bailes, F. (2009–2010). The Pulse of Symmetry: On the Possible Co-Evolution of Rhythm in Music and Dance. In I. Deliège (Ed), Music and Evolution (pp. 341–367). Musicae Scientiae, Speciall issue 2009–2010.
Dissanayake, E. (2000). Antecedents of the temporal arts in early mother-infant interactions. In N. Wallin, B. Merker, & S. Brown (Eds.), The origins of music (pp. 389–407). Cambridge, MA: MIT Press.
Drake, C., & Bertrand, D. (2003). The Quest for Universals in Temporal Processing in Music. In I. Peretz & R. Zatorre (Eds.), The Cognitive Neuroscience of Music (pp. 21–31). Oxford - New York: Oxford University Press.
Dretske, F. (1985). Précis of Knowledge and the Flow of Information. In H. Kornblith (Ed.), Naturalizing Epistemology (pp. 169–187). Cambridge/London: MIT Press.
Durham, W. (1991). Coevolution: Genes, Culture and Human Diversity. Stanford, CA: Stanford University Press.
Edelman, G. (1987). Neural Darwinism. The Theory of Neuronal Group Selection. New York: Oxford University Press.
Edelman, G. (1992). Bright air, brilliant fire: On the matter of mind. New York: Basis Books.
Ehlich, K. (1982). Anaphora and Deixis: Same, Similar, or Different? In R. J. Jarvella & W. Klein (Eds.), Speech, Place and Action. Studies in Deixis and Related Topics (pp. 315–338). Chichester – New York: John Wiley & Sons.
Feldman, M. W., & Laland, K. N. (1996). Gene-culture coevolutionary theory. Trends in Ecology and Evolution, 11, 453–457.
Fillmore, C. (1982). Towards a Descriptive Framework for Spatial Deixis. In R. Jarvella & W. Klein (Eds.), Speech, Place, and Action. Studies in Deixis and Related Topics (pp. 31–59). Chichester - New York: John Wiley.
Fleagle, J. (1999). Primate adaptation and Evolution. San Diego: Academic.
Frayer, D. W., Nicolay, C., & Wallin, N. (2000). Fossil Evidence for the Origin of Speech Sounds. In B. Merker & S. Brown (Eds.), The Origins of Music (pp. 271–300). Cambridge, MA - London: The MIT Press.
Frick, R. (1985). Communicating emotion: the role of prosodic features. Psychological Bulletin, 97, 412–429.
Gabrielsson, A., & Lindström, E. (2001). The Influence of Musical Structure on Emotional Expression. In P. N. Juslin & J. Sloboda (Eds.), Music and Emotion: Theory and Research (pp. 223–248). Oxford: Oxford University Press.
Goldschmidt, W. (1959). Man’s Way: A Preface to the Understanding of Human Society. New York: Holt.
Gould, S. (1977). Ontogeny and Phylogeny. Cambridge (MA): The Belknap Press of Harvard University Press.
Gould, S., & Vrba, S. (1982). Exaptation — a missing term in the science of form. Paleobiology, 8, 4–15.
Gratier, M. (1999). Expressions of belonging: the effect of acculturation on the rhythm and harmony of mother-infant interaction. Musicae Scientiae, Special Issue, 1999, 93–122.
Handel, S. (1989). Listening. An Introduction to the Perception of Auditory Events. Cambridge - London: MIT Press.
Hauser, M. D. (1996). Evolution of communication. Cambridge, MA: MIT Press.
Hauser, M., & McDermott, J. (2003). The evolution of the music faculty: a comparative perspective. Nature Neuroscience, 6(7), 663–668.
Huron, D. (2003). Is Music an Evolutionary Adaptation? In I. Peretz & R. Zatorre (Eds.), The Cognitive Neuroscience of Music (pp. 57–75). Oxford - New York: Oxford University Press.
Imberty, M. (1979). Entendre la musique. Sémantique psychologique de la musique. Paris: Bordas.
Jürgens, U., & Hage, S. R. (2007). On the role of the reticular formation in vocal pattern generation. Behavioral Brain Research, 182, 308–314.
Juslin, P. (2001). Communicating Emotion in Music Performance: A Review of and Theoretical Framework. In P. N. Juslin & J. Sloboda (Eds.), Music and Emotion: Theory and Research (pp. 309–337). Oxford: Oxford University Press.
Juslin, P. N., & Sloboda, J. (Eds.). (2001). Music and Emotion: Theory and Research. Oxford: Oxford University Press.
Kita, S. (2003). Pointing. Where Language, Culture, and Cognition Meet. Mahwah (N.J.): Erlbaum.
Krumhansl, C. (1990). Cognitive foundations of musical pitch. New York: Oxford University Press.
Krumhansl, C. (1997). An exploratory study of musical emotions and psychophysiology. Canadian Journal of Experimental Psychology, 51, 336–353.
Langacker, R. (1987). Foundations of cognitive grammar (Vol. 1). Stanford CA: Stanford University Press.
Lehman, C., Welker, L., & Schiefenhövel, W. (2009–2010). Towards an Ethology of Song: A categorization of musical behaviour. In I. Deliège (Ed), Music and Evolution (pp. 321–338). Musicae Scientiae, Special issue 2009–2010.
Leroy, J.-L. (dir.) (2013). Actualités des Universaux en Musique/Topics in Universals in Music. Paris: Edition des Archives Contemporaines.
Levitin, D. (2006). This Is Your Brain On Music: The Science of a Human Obsession. New York: Penguin.
Lumsden, C., & Wilson, E. (1981). Genes, Mind and Culture. Cambridge: Harvard University Press.
Lynch, M. P., Eilers, R. E., Oller, D. K., & Urbano, R. C. (1990). Innateness, experience, and music perception. Psychological Science, 7, 272–276.
Martin, S. (1978). Le langage musical. Sémiotique des systèmes. Paris: Klincksieck.
Masataka, N. (1999). Preference for infant-directed singing in 2-day-old hearing infants of deaf parents. Developmental Psychology, 35(4), 1001–1005.
McDermott, J., & Hauser, H. M. (2005). The origins of music: Innateness, uniqueness and evolution. Music Perception, 23, 29–60.
Menon, V., & Levitin, D. J. (2005). The rewards of music listening: response and physiological connectivity of the mesolimbic system. NeuroImage, 28, 175–184.
Merker, B. (2002). Music: the missing Humboldt system. Musicae Scientiae, V1(1), 3–21.
Merriam, A. P. (1964). The Anthropologu of Music. Evanston, Ill: Northwestern University Press.
Miereanu, C., & Hascher, X. (Eds.). (1998). Les Universaux en musique, Actes du 4e Congrès international sur la signification musicale. Paris: Publications de la Sorbonne.
Miller, G. (2000). Evolution of human music through sexual selection. In N. L. Wallin, B. Merker, & S. Brown (Eds.), The Origins of Music (pp. 329–360). Cambridge, MA: MIT Press.
Mithen, S. (2005). The singing Neanderthal: The origins of music, language, mind and body. London: Weidenfeld and Nicolson.
Molino, J. (2000). Toward an Evolutionary Theory of Music and Language. In N. Wallin, B. Merker, & S. Brown (Eds.), The Origins of Music (pp. 165–176). Cambridge, MA - London: The MIT Press.
Nettl, B. (2000). An Ethnomusicologist Contemplates Universals in Musical Sound and Musical Cultures. In N. Wallin, B. Merker, & S. Brown (Eds.), The Origins of Music (pp. 463–479). Cambridge, MA - London: The MIT Press.
Nettl, B., & Bohlman, P. V. (1991). Comparative Musicology and the Anthropology of Music. Chicago: University of Chicago Press.
Newman, J. D. (Ed.). (1988). The physiological control of mammalian vocalizations. New York: Plenum.
Newman, J. D. (2007). Neural circuits underlying crying and cry responding in mammals. Behavioral Brain Research, 182, 155–165.
Oatley, K. (1992). Best Laid Schemes. The psychology of the Emotions. Cambridge: Cambridge University Press.
Panksepp, J. (1995). The emotional sources of ‘chills’ induced by music. Music Perception, 13, 171–207.
Panksepp, J. (2005). Affective consciousness: core emotional feelings in animals and humans. Consciousness and Cognition, 14, 30–80.
Panksepp, J. (2009–2010). The emotional antecedents to the evolution of music and language. In I. Deliège (Ed), Music and Evolution (pp. 229–259). Musicae Scientiae, Special issue 2009–2010.
Panksepp, J., & Bernatzky, G. (2002). Emotional sounds and the brain: the neuro-affective foundations of musical appreciation. Behavioural Processes, 60, 133–155.
Parncutt, R. (2009–2010). Prenatal and infant conditioning, the mother schema, and the origins of music and religion. In I. Deliège (Ed.) Music and Evolution (pp. 119–250). Musicae Scientiae, Special Issue 2009–2010.
Patel, A. (2006). Musical rhythm, linguistic rhythm, and human evolution. Music Perception, 24, 99–104.
Pattee, H. (1995). Artificial life needs a real epistemology. In F. Moran, A. Moreno, J. Merelo, & P. Chacon (Eds.), Advances in Artificial Life. Lecture notes in artificial intelligence (pp. 23–38). Berlin: Springer.
Peretz, I. (2001). Listen to the brain: a biological perspective on musical emotions. In P. N. Juslin & J. Sloboda (Eds.), Music and Emotion: Theory and Research (pp. 105–134). Oxford: Oxford University Press.
Peretz, I. (2006). The nature of music from a biological perspective. Cognition, 100, 1–32.
Peretz, I., & Morais, J. (1989). Music and modularity. Contemporary Music Review, 4, 277–291.
Piaget, J. (1967). Biologie et connaissance. Essai sur les relations entre les régulations organiques et les processus cognitifs. Paris: Gallimard.
Pinker, S. (1997). How the Mind Works. New York: Norton.
Reybrouck, M. (1999). The musical sign between sound and meaning. In I. Zannos (Ed.), Music and Signs, Semiotic and Cognitive Studies in Music (pp. 39–58). Bratislava: ASCO Art & Science.
Reybrouck, M. (2001a). Biological roots of musical epistemology: functional cycles, umwelt, and enactive listening. Semiotica, 134(1–4), 599–633.
Reybrouck, M. (2001b). Musical Imagery between Sensory Processing and Ideomotor Simulation. In R. I. Godøy & H. Jörgensen (Eds.), Musical Imagery (pp. 117–136). Lisse: Swets & Zeitlinger.
Reybrouck, M. (2004). Music cognition, semiotics and the experience of time. Ontosemantical and epistemological claims. Journal of New Music Research, 33(4), 411–428.
Reybrouck, M. (2005a). A biosemiotic and ecological approach to music cognition: event perception between auditory listening and cognitive economy. Axiomathes. An International Journal in Ontology and Cognitive Systems, 15(2), 229–266.
Reybrouck, M. (2005b). Body, mind and music: musical semantics between experiential cognition and cognitive economy. Trans. Transcultural Music Review, 9. Retrieved from: http://www.sibetrans.com/trans/trans9/reybrouck.htm.
Reybrouck, M. (2006). Musical creativity between symbolic modelling and perceptual constraints: The role of adaptive behaviour and epistemic autonomy. In I. Deliège & G.Wiggins (Eds.), Musical creativity: Multidisciplinary research in theory and practice (pp. 42–59). Oxford: Psychology Press.
Reybrouck, M. (2008). The musical code between nature and nurture. In M. Barbieri (Ed.), The codes of life: The rules of macroevolution (pp. 395–434). Dordrecht: Springer.
Reybrouck, M. (2009). Similarity perception as a cognitive tool for musical sense-making: deictic and ecological claims. Musicae Scientiae. Discussion Forum, 4B, 99–118.
Reybrouck, M. (2010). Music cognition and real-time listening: denotation, cue abstraction, route description and cognitive maps. Musicae scientiae; special issue, 1009–2010, 187–202.
Rouget, G. (1985). Music and trance: A theory of the music and relations between music and possession. Chicago: University of Chicage Press.
Scherer, K. R., & Zentner, K. R. (2001). Emotional effects of music: production rules. In P. N. Juslin & J. A. Sloboda (Eds.), Music and emotion: Theory and research (pp. 361–392). Oxford: Oxford University Press.
Serra, M.-H. (1997). Introducing the phase vocoder. In C. Roads, S. Pope, A. Piccialli, & G. de Poli (Eds.), Musical signal processing (pp. 31–90). Lisse: Swets & Zeitlinger.
Sloboda, J. (1991). Music structure and emotional response: some empirical findings. Psychology of Music, 19, 110–120.
Trainor, L. J., & Schmidt, L. A. (2003). Processing emotions induced by music. In I. Peretz & R. Zatorre (Eds.), The cognitive neuroscience of music (pp. 310–324). Oxford - New York: Oxford University Press.
Trainor, L. J., & Trehub, S. E. (1992). A comparison of infants’ and adults’ sensitivity to Western musical structure. Journal of Experimental Psychology: Human Perception and Performance, 18, 394–402.
Trainor, L. J., Clark, E. D., Huntley, A., & Adams, B. (1997). The acoustic basis of preferences for infant-directed singing. Infant Behavior & Development, 20, 383–396.
Trehub, S. (2000). Human processing predispositions and musical univerals. In N. Wallin, B. Merker, & S. Brown (Eds.), The origins of music (pp. 427–448). Cambridge, MA - London: The MIT Press.
Trehub, S. (2003a). Musical predispositions in infancy: an update. In I. Peretz & R. Zatorre (Eds.), The cognitive neuroscience of music (pp. 3–20). Oxford: Oxford University Press.
Trehub, S. (2003b). The developmental origins of musicality. Nature Neuroscience, 6, 669–673.
Trehub, S., & Hannon, E. (2006). Infant music perception: domaingeneral or domain-specific mechanisms? Cognition, 100, 73–99.
Uttal, W. (1978). The psychobiology of mind. Hillsdale, NJ: Lawrence Erlbaum.
Uttal, W. (1998). Toward a new behaviorism. The case against perceptual reductionism. Mahwah (NJ) - London: Lawrence Erlbaum Publishers.
Vygotsky, L. (1962). Thought and Language. Cambridge (MA): MIT Press.
Vygotsky, L. (1978). Mind in Society. The Development of Higher Psychological Processes (Eds. Cole, J. & Souberman, E). Cambridge (MA) - London, Harvard University Press.
Wallin, N. (1991). Biomusicology. Neurophysiological and Evolutionary Perspectives on the origins and Purposes of Music. New York: Pendragon Press.
Wallin, N. L., Merker, B. M., & Brown, S. B. (2000). The origins of music (pp. 389–410). Cambridge, Mass: MIT Press.
Watkins, A. J., & Dyson, M. C. (1985). On the Perceptual Organisation of Tone Sequences and Melodies. In P. Howell, I. Cross, & R. West (Eds.), Musical Structure and Cognition (pp. 71–119). London: Academic.
Whitehead, A. N. (1927). Symbolism. Its Meaning and Effect. New York: Capricorn Books.
Whitehead, A. N. (1968). Modes of Thought. New York: The Free Press.
Winkler, I., Háden, G. P., Ladinig, O., Sziller, I., & Honing, H. (2009). Newborn infants detect the beat in music. Proceedings of the National Academy of Science of the USA, 106, 2468–2471.
Winkler, I., Kushnerenko, E., Horváth, J., Čeponiene R., Fellman, V., Huotilainen, M., et al. (2003) Newborn infants can organize the auditory world. Proceedings of the National Academy of Science of the USA, 100, 1182–1185
Zatorre, R. J., & Peretz, I. (Eds.) (2001). The biological foundations of music. Annals of the New York Academy Sciences, 930, 1–456.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Reybrouck, M. From Sound to Music: An Evolutionary Approach to Musical Semantics. Biosemiotics 6, 585–606 (2013). https://doi.org/10.1007/s12304-013-9192-6
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12304-013-9192-6