Spontaneous rates exhibit high intra-individual stability across movements involving different biomechanical systems and cognitive demands

Ben Engler*, Anna Zamm, Cecilie Møller

*Corresponding author for this work

Research output: Working paper/PreprintPreprint

Abstract

Spontaneous rhythmic movements are part of everyday life, e.g., in walking, clapping or music making. Humans perform such spontaneous motor actions at different rates that reflect specific biomechanical constraints of the effector system in use. However, there is some evidence for intra-individual consistency of specific spontaneous rates arguably resulting from common underlying processes. Additionally, individual and contextual factors such as musicianship and circadian rhythms have been suggested to influence spontaneous rates. This study investigated the relative contributions of these factors and provides a comprehensive picture of rates among different spontaneous motor behaviors, i.e., melody production, walking clapping, tapping with and without sound production, the latter measured online before and in the lab. Participants (n = 60) exhibited high intra-individual stability across tasks. Task-related influences included faster tempi for spontaneous production rates of music and wider ranges of spontaneous motor tempi (SMT) and clapping rates compared to walking and music making rates. Moreover, musicians exhibited slower spontaneous rates across tasks, yet we found no influence of time of day on SMT as measured online in pre-lab sessions. Tapping behavior was similar in pre-lab and in-lab sessions, validating the use of online SMT assessments. Together, contextual factors played a weaker role than individual factors and the high intra-individual stability of the spontaneous rates provides evidence that different motor behaviors are influenced by common underlying processes.
Original languageEnglish
PublisherPsyArXiv
Number of pages24
DOIs
Publication statusPublished - 21 Mar 2024

Keywords

  • spontaneous rates
  • SMT
  • SPR
  • natural frequencies
  • musicianship
  • internal tempo

Fields of Science and Technology Classification 2012

  • 501 Psychology
  • 106 Biology

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