Beyond syncopation: The number of rhythmic layers shapes the pleasurable urge to move to music

Alberte B. Seeberg; Tomas E. Matthews; Andreas Højlund; Peter Vuust; Bjørn Petersen

doi:10.1016/j.cognition.2025.106178

Beyond syncopation: The number of rhythmic layers shapes the pleasurable urge to move to music

Alberte B. Seeberg^*, Tomas E. Matthews, Andreas Højlund, Peter Vuust, Bjørn Petersen

^*Corresponding author for this work

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

Abstract

People experience the strongest pleasurable urge to move to music (PLUMM) with rhythms of medium complexity, showing an inverted U-shaped relationship. Rhythmic complexity is typically defined by syncopation but likely interacts with the number and instrumentation of rhythmic layers (e.g., snare only vs snare and bass drum) in affecting PLUMM. This study investigated this interaction by comparing PLUMM ratings of rhythms with varying rhythmic layers and syncopation degrees. Two online studies (study 1, n = 108; study 2, n = 46) were conducted asking participants to rate how much they wanted to move and the pleasure they felt while listening to rhythms. Each study used 12 rhythms in four versions: 1) snare only (SN) in study I and bass drum only (BD) in study II; 2) snare and hi-hat (SN + HH) in study I and bass drum and hi-hat (BD + HH) in study II; 3) snare and bass drum (SN + BD) and 4) the original with snare, bass drum, and hi-hat (SN + BD + HH) in both studies, totaling 48 stimuli per study. We tested for linear and quadratic effects of syncopation and rhythmic layers on PLUMM ratings. Study I showed a significant interaction between syncopation and rhythmic layers. The SN + BD + HH versions exhibited the strongest inverted U as an effect of syncopation, followed by SN + BD and SN + HH, while SN showed a near-flat pattern of ratings as an effect of syncopation. Study II had similar findings, but differences between versions were smaller, and the interaction was mainly driven by differences between BD and BD + HH and between SN + BD and SN + BD + HH, especially at moderate syncopation levels. These findings suggest that the PLUMM response is shaped by the number of rhythmic layers, the roles that the different instruments play, and the way that they interact with each other and with syncopation, thus extending our understanding of the rhythmic features that drive the motor and hedonic responses to music.

Original language	English
Article number	106178
Journal	Cognition
Volume	262
ISSN	0010-0277
DOIs	https://doi.org/10.1016/j.cognition.2025.106178
Publication status	Published - Sept 2025

Keywords

Groove
PLUMM
Rhythm
Rhythmic layers
Syncopation

Access to Document

10.1016/j.cognition.2025.106178

Check availability with the Royal Danish Library

Cite this

@article{bd441305ec6344b8b0e444dc0da32266,

title = "Beyond syncopation: The number of rhythmic layers shapes the pleasurable urge to move to music",

abstract = "People experience the strongest pleasurable urge to move to music (PLUMM) with rhythms of medium complexity, showing an inverted U-shaped relationship. Rhythmic complexity is typically defined by syncopation but likely interacts with the number and instrumentation of rhythmic layers (e.g., snare only vs snare and bass drum) in affecting PLUMM. This study investigated this interaction by comparing PLUMM ratings of rhythms with varying rhythmic layers and syncopation degrees. Two online studies (study 1, n = 108; study 2, n = 46) were conducted asking participants to rate how much they wanted to move and the pleasure they felt while listening to rhythms. Each study used 12 rhythms in four versions: 1) snare only (SN) in study I and bass drum only (BD) in study II; 2) snare and hi-hat (SN + HH) in study I and bass drum and hi-hat (BD + HH) in study II; 3) snare and bass drum (SN + BD) and 4) the original with snare, bass drum, and hi-hat (SN + BD + HH) in both studies, totaling 48 stimuli per study. We tested for linear and quadratic effects of syncopation and rhythmic layers on PLUMM ratings. Study I showed a significant interaction between syncopation and rhythmic layers. The SN + BD + HH versions exhibited the strongest inverted U as an effect of syncopation, followed by SN + BD and SN + HH, while SN showed a near-flat pattern of ratings as an effect of syncopation. Study II had similar findings, but differences between versions were smaller, and the interaction was mainly driven by differences between BD and BD + HH and between SN + BD and SN + BD + HH, especially at moderate syncopation levels. These findings suggest that the PLUMM response is shaped by the number of rhythmic layers, the roles that the different instruments play, and the way that they interact with each other and with syncopation, thus extending our understanding of the rhythmic features that drive the motor and hedonic responses to music.",

keywords = "Groove, PLUMM, Rhythm, Rhythmic layers, Syncopation",

author = "Seeberg, {Alberte B.} and Matthews, {Tomas E.} and Andreas H{\o}jlund and Peter Vuust and Bj{\o}rn Petersen",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = sep,

doi = "10.1016/j.cognition.2025.106178",

language = "English",

volume = "262",

journal = "Cognition",

issn = "0010-0277",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Beyond syncopation

T2 - The number of rhythmic layers shapes the pleasurable urge to move to music

AU - Seeberg, Alberte B.

AU - Matthews, Tomas E.

AU - Højlund, Andreas

AU - Vuust, Peter

AU - Petersen, Bjørn

PY - 2025/9

Y1 - 2025/9

N2 - People experience the strongest pleasurable urge to move to music (PLUMM) with rhythms of medium complexity, showing an inverted U-shaped relationship. Rhythmic complexity is typically defined by syncopation but likely interacts with the number and instrumentation of rhythmic layers (e.g., snare only vs snare and bass drum) in affecting PLUMM. This study investigated this interaction by comparing PLUMM ratings of rhythms with varying rhythmic layers and syncopation degrees. Two online studies (study 1, n = 108; study 2, n = 46) were conducted asking participants to rate how much they wanted to move and the pleasure they felt while listening to rhythms. Each study used 12 rhythms in four versions: 1) snare only (SN) in study I and bass drum only (BD) in study II; 2) snare and hi-hat (SN + HH) in study I and bass drum and hi-hat (BD + HH) in study II; 3) snare and bass drum (SN + BD) and 4) the original with snare, bass drum, and hi-hat (SN + BD + HH) in both studies, totaling 48 stimuli per study. We tested for linear and quadratic effects of syncopation and rhythmic layers on PLUMM ratings. Study I showed a significant interaction between syncopation and rhythmic layers. The SN + BD + HH versions exhibited the strongest inverted U as an effect of syncopation, followed by SN + BD and SN + HH, while SN showed a near-flat pattern of ratings as an effect of syncopation. Study II had similar findings, but differences between versions were smaller, and the interaction was mainly driven by differences between BD and BD + HH and between SN + BD and SN + BD + HH, especially at moderate syncopation levels. These findings suggest that the PLUMM response is shaped by the number of rhythmic layers, the roles that the different instruments play, and the way that they interact with each other and with syncopation, thus extending our understanding of the rhythmic features that drive the motor and hedonic responses to music.

AB - People experience the strongest pleasurable urge to move to music (PLUMM) with rhythms of medium complexity, showing an inverted U-shaped relationship. Rhythmic complexity is typically defined by syncopation but likely interacts with the number and instrumentation of rhythmic layers (e.g., snare only vs snare and bass drum) in affecting PLUMM. This study investigated this interaction by comparing PLUMM ratings of rhythms with varying rhythmic layers and syncopation degrees. Two online studies (study 1, n = 108; study 2, n = 46) were conducted asking participants to rate how much they wanted to move and the pleasure they felt while listening to rhythms. Each study used 12 rhythms in four versions: 1) snare only (SN) in study I and bass drum only (BD) in study II; 2) snare and hi-hat (SN + HH) in study I and bass drum and hi-hat (BD + HH) in study II; 3) snare and bass drum (SN + BD) and 4) the original with snare, bass drum, and hi-hat (SN + BD + HH) in both studies, totaling 48 stimuli per study. We tested for linear and quadratic effects of syncopation and rhythmic layers on PLUMM ratings. Study I showed a significant interaction between syncopation and rhythmic layers. The SN + BD + HH versions exhibited the strongest inverted U as an effect of syncopation, followed by SN + BD and SN + HH, while SN showed a near-flat pattern of ratings as an effect of syncopation. Study II had similar findings, but differences between versions were smaller, and the interaction was mainly driven by differences between BD and BD + HH and between SN + BD and SN + BD + HH, especially at moderate syncopation levels. These findings suggest that the PLUMM response is shaped by the number of rhythmic layers, the roles that the different instruments play, and the way that they interact with each other and with syncopation, thus extending our understanding of the rhythmic features that drive the motor and hedonic responses to music.

KW - Groove

KW - PLUMM

KW - Rhythm

KW - Rhythmic layers

KW - Syncopation

UR - http://www.scopus.com/inward/record.url?scp=105004878316&partnerID=8YFLogxK

U2 - 10.1016/j.cognition.2025.106178

DO - 10.1016/j.cognition.2025.106178

M3 - Journal article

C2 - 40373735

AN - SCOPUS:105004878316

SN - 0010-0277

VL - 262

JO - Cognition

JF - Cognition

M1 - 106178

ER -

Beyond syncopation: The number of rhythmic layers shapes the pleasurable urge to move to music

Abstract

Keywords

Access to Document

Check availability with the Royal Danish Library

Other files and links

Fingerprint

Cite this