Globally, songs and instrumental melodies are slower and higher and use more stable pitches than speech : A Registered Report
Abstract
Both music and language are found in all known human societies, yet no studies have compared similarities and differences between song, speech, and instrumental music on a global scale. In this Registered Report, we analyzed two global datasets: (i) 300 annotated audio recordings representing matched sets of traditional songs, recited lyrics, conversational speech, and instrumental melodies from our 75 coauthors speaking 55 languages; and (ii) 418 previously published adult-directed song and speech recordings from 209 individuals speaking 16 languages. Of our six preregistered predictions, five were strongly supported: Relative to speech, songs use (i) higher pitch, (ii) slower temporal rate, and (iii) more stable pitches, while both songs and speech used similar (iv) pitch interval size and (v) timbral brightness. Exploratory analyses suggest that features vary along a “musi-linguistic” continuum when including instrumental melodies and recited lyrics. Our study provides strong empirical evidence of cross-cultural regularities in music and speech.
Main Authors
Format
Articles
Research article
Published
2024
Series
Subjects
Publication in research information system
Publisher
American Association for the Advancement of Science (AAAS)
The permanent address of the publication
https://urn.fi/URN:NBN:fi:jyu-202405203746Use this for linking
Review status
Peer reviewed
ISSN
2375-2548
DOI
https://doi.org/10.1126/sciadv.adm9797
Language
English
Published in
Science Advances
Citation
- Ozaki, Y., Tierney, A., Pfordresher, P. Q., McBride, J. M., Benetos, E., Proutskova, P., Chiba, G., Liu, F., Jacoby, N., Purdy, S. C., Opondo, P., Fitch, W. T., Hegde, S., Rocamora, M., Thorne, R., Nweke, F., Sadaphal, D. P., Sadaphal, P. M., Hadavi, S., . . . Savage, P. E. (2024). Globally, songs and instrumental melodies are slower and higher and use more stable pitches than speech : A Registered Report. Science Advances, 10(20), Article eadm9797. https://doi.org/10.1126/sciadv.adm9797
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Funder(s)
European Commission
Funding program(s)
ERC Consolidator Grant, HE
ERC Consolidator Grant, HE
Additional information about funding
This work is supported by funding from the new Zealand and Japanese governments, the european Research council, the Yamaha corporation, and Keio University as follows: Marsden Fast-Start Grant from the Royal Society te Apārangi (MFP-UOA2236 to P.e.S., S.c.P., P.O., n.J., e.B., and W.t.F.), Rutherford discovery Fellowship from the Royal Society te Apārangi (RdF- UOA2202 to P.e.S.), KAKenhiGrant-in-Aid from the Japan Society for the Promotion of Science (#19KK0064 to P.e.S., S.F., and n.J.), Support for Pioneering Research initiated by the next Generation from the Japan Science and technology Agency (JPMJSP2123 to Y.O. and G.c.), collaborative Research Grant from the Yamaha corporation (to P.e.S. and S.h.), horizon 2020 Framework Programme (grant number 754513) and horizon europe european Research council (grant number 101045747) to hansen, european Research council Starting Grant (eRc- StG- 2015, cAASd, and 678733) to liu, and Keio University international Journal Article Publication Fee Grant (type A) to P.e.S. for article processing charges.
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Association for the Advancement of Science. No claim to original U.S.