Evolutionary musicology is a subfield of biomusicology that grounds the psychological mechanisms of music perception and production in evolutionary theory. It covers vocal communication in non-human animal species, theories of the evolution of human music, and cross-cultural human universals in musical ability and processing.
- "When we treat of sexual selection we shall see that primeval man, or rather some early progenitor of man, probably first used his voice in producing true musical cadences, that is in singing, as do some of the gibbon-apes at the present day; and we may conclude from a widely-spread analogy, that this power would have been especially exerted during the courtship of the sexes,—would have expressed various emotions, such as love, jealousy, triumph,—and would have served as a challenge to rivals. It is, therefore, probable that the imitation of musical cries by articulate sounds may have given rise to words expressive of various complex emotions."
The origins of music
Two major topics for any subfield of evolutionary psychology are the adaptive function (if any) and phylogenetic history of the mechanism or behavior of interest including when music arose in human ancestry and from what ancestral traits it developed. Current debate addresses each of these.
One part of the adaptive function question is whether music constitutes an evolutionary adaptation or exaptation (i.e. by-product of evolution). Steven Pinker, in his book How the Mind Works, for example, argues that music is merely "auditory cheesecake"—it was evolutionarily adaptive to have a preference for fat and sugar but cheesecake did not play a role in that selection process. This view has been directly countered by numerous music researchers.
Adaptation, on the other hand, is highlighted in hypotheses such as the one by Edward Hagen and Gregory Bryant which posits that human music evolved from animal territorial signals, eventually becoming a method of signaling a group's social cohesion to other groups for the purposes of making beneficial multi-group alliances.
The bipedalism hypothesis
The evolutionary switch to bipedalism may have influenced the origins of music. The background is that noise of locomotion and ventilation may mask critical auditory information. Human locomotion is likely to produce more predictable sounds than those of non-human primates. Predictable locomotion sounds may have improved our capacity of entrainment to external rhythms and to feel the beat in music. A sense of rhythm could aid the brain in distinguishing among sounds arising from discrete sources and also help individuals to synchronize their movements with one another. Synchronization of group movement may improve perception by providing periods of relative silence and by facilitating auditory processing. The adaptive value of such skills to early human ancestors may have been keener detection of prey or stalkers and enhanced communication. Thus, bipedal walking may have influenced the development of entrainment in humans and thereby the evolution of rhythmic abilities. Primitive hominids lived and moved around in small groups. The noise generated by the locomotion of two or more individuals can result in a complicated mix of footsteps, breathing, movements against vegetation, echoes, etc. The ability to perceive differences in pitch, rhythm, and harmonies, i.e. “musicality,” could help the brain to distinguish among sounds arising from discrete sources, and also help the individual to synchronize movements with the group. Endurance and an interest in listening might, for the same reasons, have been associated with survival advantages eventually resulting in adaptive selection for rhythmic and musical abilities and reinforcement of such abilities. Listening to music seems to stimulate release of dopamine. Rhythmic group locomotion combined with attentive listening in nature may have resulted in reinforcement through dopamine release. A primarily survival-based behavior may eventually have attained similarities to dance and music, due to such reinforcement mechanisms . Since music may facilitate social cohesion, improve group effort, reduce conflict, facilitate perceptual and motor skill development, and improve trans-generational communication, music-like behavior may at some stage have become incorporated into human culture.
Another proposed adaptive function is creating intra-group bonding. In this aspect it has been seen as complementary to language by creating strong positive emotions while not having a specific message people may disagree on. Music's ability to cause entrainment (synchronization of behavior of different organisms by a regular beat) has also been pointed out. A different explanation is that signaling fitness and creativity by the producer or performer in order to attract mates. Still another is that music may have developed from human mother-infant auditory interactions (motherese) since humans have a very long period of infant and child development, infants can perceive musical features, and some infant-mother auditory interaction have resemblances to music.
Part of the problem in the debate is that music, like any complex cognitive function, is not a holistic entity but rather modular—perception and production of rhythm, melodies, harmony and other musical parameters may thus involve multiple cognitive functions with possibly quite distinct evolutionary histories.
The Musilanguage hypothesis
"Musilanguage" is a term coined by Steven Brown to describe his hypothesis of the ancestral human traits that evolved into language and musical abilities. It is both a model of musical and linguistic evolution and a term coined to describe a certain stage in that evolution. Brown argues that both music and human language have origins in a "musilanguage" stage of evolution and that the structural features shared by music and language are not the results of mere chance parallelism, nor are they a function of one system emerging from the other. This model argues that "music emphasizes sound as emotive meaning and language emphasizes sound as referential meaning." The musilanguage model is a structural model of music evolution, meaning that it views music's acoustic properties as effects of homologous precursor functions. This can be contrasted with functional models of music evolution, which view music's innate physical properties to be determined by its adaptive roles.
The musilanguage evolutionary stage is argued to exhibit three properties found in both music and language: lexical tone, combinatorial phrase formation, and expressive phrasing mechanisms. Many of these ideas have their roots in existing phonological theory in linguistics, but Brown argues that phonological theory has largely neglected the strong mechanistic parallels between melody, phrasing, and rhythm in speech and music.
- Lexical tone refers to the pitch of speech as a vehicle for semantic meaning. The importance of pitch to conveying musical ideas is well-known, but the linguistic importance of pitch is less obvious. Tonal languages such as Thai and Cantonese, wherein the lexical meaning of a sound depends heavily on its pitch relative to other sounds, are seen as evolutionary artifacts of musilanguage. Non-tonal, or "intonation" languages, which do not depend heavily on pitch for lexical meaning, are seen as evolutionary late-comers which have discarded their dependence on tone. Intermediate states, known as pitch accent languages, which exhibit some lexical dependence on tone, but also depend heavily on intonation, are exemplified by Japanese, Swedish, Serbian and Croatian language.
- Combinatorial formation refers to the ability to form small phrases from different tonal elements. These phrases must be able to exhibit melodic, rhythmic, and semantic variation, and must be able to combine with other phrases to create global melodic formulas capable of conveying emotive meaning. Examples in modern speech would be the rules for arranging letters to form words and then words to form sentences. In music, the notes of different scales are combined according to their own unique rules to form larger musical ideas.
- Expressive phrasing is the device by which expressive emphasis can be added to the phrases, both at a local (in the sense of individual units) and global (in the sense of phrases) level. There are numerous ways this can occur in both speech and music that exhibit interesting parallels. For instance, the increase in the amplitude of a sound being played by an instrument accents that sound much the same way that an increase in amplitude can emphasize a particular point in speech. Similarly, speaking very rapidly often creates a frenzied effect that mirrors that of a fast and agitated musical passage.
AVID model of music evolution
Joseph Jordania has suggested that music (as well as several other universal elements of contemporary human culture, including dance and body painting) was part of a predator control system used by early hominids. He suggested that rhythmic loud singing and drumming, together with the threatening rhythmic body movements and body painting, was the core element of the ancient "Audio-Visual Intimidating Display" (AVID). AVID was also a key factor in putting the hominid group into a specific altered state of consciousness which he calls "battle trance" where they would not feel fear and pain, and would be religiously dedicated to group interests. Jordania suggested that listening and dancing to the sounds of loud rhythmic rock music, used in many contemporary combat units before the combat missions is directly related to this. Apart from the defense from predators, Jordania suggested that this system was the core strategy to obtain food via confrontational, or aggressive scavenging.
Apart from loud rhythmic singing-stomping-dancing, Jordania also suggested that soft humming could have played an important role in the early human (hominid) evolution as contact calls. Many social animals produce seemingly haphazard and indistinctive sounds (like chicken cluck) when they are going about their everyday business (foraging, feeding). These sounds have two functions: (1) to let group members know that they are among kin and there is no danger, and (2) in case of the appearance of any signs of danger (suspicious sounds, movements in a forest), the animal that notices danger first, stops moving, stops producing sounds, remains silent and looks in the direction of the danger sign. Other animals quickly follow suit and very soon all the group is silent and is scanning the environment for the possible danger. Charles Darwin was the first to notice this phenomenon on the example of the wild horses and the cattle. Jordania suggested that for humans, as for many social animals, silence can be a sign of danger, and that's why gentle humming and musical sounds relax humans (see the use of gentle music in music therapy, lullabies)
This article includes a list of references, but its sources remain unclear because it has insufficient inline citations. (February 2009) (Learn how and when to remove this template message)
- "The Descent of Man, and Selection in Relation to Sex". 1871.
- Nils L. Wallin, Björn Merker, and Steven Brown (Editors) (2000). The Origins of Music. Cambridge, Massachusetts: MIT Press. ISBN 0-262-23206-5.CS1 maint: Multiple names: authors list (link) CS1 maint: Extra text: authors list (link)
- Steven Mithen, The Singing Neanderthals: the Origins of Music, Language, Mind and Body, Harvard University Press, 2006.
- Perlovsky L. Music. Cognitive Function, Origin, And Evolution Of Musical Emotions. WebmedCentral PSYCHOLOGY 2011;2(2):WMC001494
- Alison Abbott. 2002. Neurobiology: Music, maestro, please! Nature 416, 12–14 (7 March 2002) | doi:10.1038/416012a
- Carroll, Joseph (1998). "Steven Pinker's Cheesecake For The Mind". Cogweb.ucla.edu. Retrieved 29 December 2012.
- Hagen, Edward H; Bryant, Gregory A (2003). "Music and dance as a coalition signaling system" (PDF). Human Nature. 14 (1): 21–51. doi:10.1007/s12110-003-1015-z. Archived from the original (PDF) on 12 June 2007. Retrieved 3 December 2007.
- Hagen, Edward H; Hammerstein P (2009). "Did Neanderthals and other early humans sing? Seeking the biological roots of music in the loud calls of primates, lions, hyenas, and wolves" (PDF). Musicae Scientiae.
- Larsson, Matz (August 2013). "Self-generated sounds of locomotion and ventilation and the evolution of human rhythmic abilities". Animal Cognition. 17: 1–14. doi:10.1007/s10071-013-0678-z. PMC 3889703.
- Larsson, Matz (2009). "Possible functions of the octavolateralis system in fish schooling". Fish and Fisheries. 10: 344–355. doi:10.1111/j.1467-2979.2009.00330.x.
- Larsson, Matz (2012). "Incidental sounds of locomotion in animal cognition". Animal Cognition. 15 (1): 1–13. doi:10.1007/s10071-011-0433-2. PMC 3249174.
- Huron, David (2001). "Is music an evolutionary adaptation?". Ann N Y Acad Sci. 930: 43–61. doi:10.1111/j.1749-6632.2001.tb05724.x.
- The Oxford Handbook of Evolutionary Psychology, Edited by Robin Dunbar and Louise Barret, Oxford University Press, 2007, Chapter 45 Music and cognitive evolution.
- Fodor, Jerry A. (1983). Modularity of Mind: An Essay on Faculty Psychology. Cambridge, Massachusetts: MIT Press. ISBN 0-262-56025-9
- Honing, H. (ed.) (2018). The Origins of Musicality. Cambridge, Massachusetts: MIT Press.
- Brown S (3 December 1999). "The "Musilanguage" Model of Music Evolution". In Wallin NL, Merker B, Brown S (eds.). The Origins of Music. The MIT Press. pp. 271–301. ISBN 0-262-23206-5.
- Jordania J. Who Asked the First Question? The Origins of Human Choral Singing, Intelligence, Language and Speech (2006) Logos
- Jordania, J. (2009) Times to fight and times to relax: Singing and humming at the beginning of Human evolutionary history 1: 272-277
- Darwin, C. Descent of Men, 2004:123
- Wayne Chase. "DID MUSIC AND LANGUAGE CO-EVOLVE? SIMILARITIES BETWEEN MUSIC AND LANGUAGE". How music REALLY works. Roedy Black Publishing Inc. ISBN 1-897311-55-9.
- Ball, Philip (9 July 2005). "Music: The international language?". New Scientist.
- Nechvatal, Tony (6 August 2005). "Musical talk". New Scientist.
- Philip Tagg. "A Short Prehistory of Western Music". Provisional course material, W310 degree course, IPM, University of Liverpool. Retrieved 21 December 2005.
- Bruno Tucunduva Ruviaro (3 June 2004). "The Spell of Speech, 'The Musilanguage model'". Archived from the original on 24 October 2008. Retrieved 29 August 2006.
- Fitch, W. Tecumseh (12 February 2009). "Musical protolanguage: Darwin's theory of language evolution revisited". Language Log. Retrieved 20 February 2009.