Tuning‐in to the beat: Aesthetic appreciation of musical rhythms correlates with a premotor activity boost

Kornysheva, Katja; Cramon, D. Yves von; Jacobsen, Thomas; Schubotz, Ricarda Ines

doi:10.1002/hbm.20844

Cited by 105 publications

(105 citation statements)

References 84 publications

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“…Interestingly, such oscillations are also associated with motor tasks (Fujioka, Trainor, Large, & Ross, 2009;Salenius & Hari, 2003). Consistently, the premotor activation in the brain is enhanced by listening to rhythms at one's preferred tempo (Kornysheva, von Cramon, Jacobsen, & Schubotz, 2010), and human listeners' preferred tempo in music (Moelants, 2002) corresponds to the preferred frequency (*2 Hz) in locomotion (Macdougall & Moore, 2005). These findings seem to suggest that the percept of regular pulse, which also defines the tempo, could entail a motor component: forming a pulse by means of entrainment may require a motor process, at least internally (Grahn & Rowe, 2009).…”

Section: Introductionmentioning

confidence: 87%

Body movement enhances the extraction of temporal structures in auditory sequences

Pöppel²

2011

Psychological Research

117

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Auditory and motor systems interact in processing auditory rhythms. This study investigated the effect of intuitive body movement, such as head nodding or foot tapping, on listeners' ability to entrain to the pulse of an auditory sequence. A pulse-finding task was employed using an isochronous sequence of tones in which tones were omitted at pseudorandom positions. Musicians and non-musicians identified their subjectively fitting pulse either using periodic body movement or through listening only. The identified pulse was measured subsequently by finger tapping. Movement appeared to assist pulse extraction especially for non-musicians. The chosen pulse tempi tended to be faster with movement. Additionally, movement led to higher synchronization stabilities of the produced pulse along the sequence, regardless of musical training. These findings demonstrated the facilitatory role of body movement in entraining to auditory rhythms and its interaction with musical training.

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Section: Introductionmentioning

confidence: 87%

Body movement enhances the extraction of temporal structures in auditory sequences

Pöppel²

2011

Psychological Research

117

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“…In support of this notion, individual trials have identified preferred characteristics in music that have an impact physical response. Kornysheva et al (2010) found that premotor activity is heightened when beat is preferred. Further, tempo preferences slow as we age, and capacity to entrain with non-preferred tempo is more challenging for older adults (McAuley et al, 2006).…”

Section: Meta-theorymentioning

confidence: 97%

“…Motion-capture studies illustrate this phenomenon, explaining spontaneous relaxation and contraction of muscles in response to tension, resolution and rhythm in music as an embodied form of music cognition (Burger, Thompson, Luck, Saarikallio & Toiviainen, 2013). Other research has focused on the influence of rhythm in music, demonstrating that patterns in bodily movements influence how rhythm is perceived (Phillips-Silver & Trainor, 2007) and that tempo and beat preferences have an impact on the magnitude of response (Kornysheva, von Cramon, Jacobsen & Schubotz, 2010;MacDougall & Moore, 2005;McAuley, Jones, Holub, Johnston & Miller, 2006). Further, neuroimaging research examining music listening demonstrates stimulation of the limbic and para-limbic structures in the brain corresponding with subjective feelings of motivation and reward (Koelsch, 2010), suggesting that music listening might have a positive influence on emotions during exercise.…”

Section: Introductionmentioning

confidence: 96%

The modulating effects of music listening on health-related exercise and physical activity in adults: a systematic review and narrative synthesis

Clark

Baker

Taylor

2015

Nordic Journal of Music Therapy

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A systematic review and narrative synthesis of theories was conducted to examine the modulating effects of music listening on health-related exercise and physical activity. Searches were conducted on multiple bibliographic databases from the earliest available date until April 2013 using the key terms of music, physical activity and theory and related synonyms. Two reviewers independently screened retrieved texts using the inclusion and exclusion criteria. The quality of included texts was appraised using a checklist, and key concepts were recorded and synthesised using inductive thematic analysis. The narrative synthesis comprised 23 theoretical texts representing three contexts: therapeutic outcomes, sports and exercise performance, and auditory-motor processing. The quality appraisal demonstrated some limitations in the reporting of evidence informing theories. Analysis across all texts identified a main theme, cortical and subcortical stimulation and response, and two sub-themes, physiological arousal and subjective experience. These themes contributed to a common hypothesis that music could promote behavioural change with increased exercise adherence and participation. A meta-theory is presented, offering a framework for clinical practice and research. Music therapists might use the meta-theory to inform music listening interventions in programmes that aim to increase levels of physical activity.

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“…Experimental work using fMRI scanners has given considerable insight into the parts of the brain that might facilitate entrainment. For example, Kornysheva, von Cramon, Jacobsen, and Schubotz (2010) highlighted the involvement of premotor and cerebellar brain sectors during preferred vs.…”

Section: Mechanisms Underlying the Effects Of Music During High-intenmentioning

confidence: 99%

Psychological, psychophysical, and ergogenic effects of music in swimming

Karageorghis

Hutchinson

Jones

et al. 2013

Psychology of Sport and Exercise

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Highlights We assess the effects of asynchronous music in a swimming time trial. We had two contrasting music conditions and a no-music control. Participants swam significantly faster when exposed to either music condition. Both music conditions led to significantly higher state motivation. Use of asynchronous music had an ergogenic effect in the order of 2%. Music and Swimming 3 AbstractObjectives: Existing work using dry land exercise-related activities has shown that the careful application of music can lead to a range of benefits that include enhanced affect, lower perceived exertion, greater energy efficiency, and faster time trial performances. The purpose of this study was to assess the psychological, psychophysical, and ergogenic effects of asynchronous music in swimming using a mixed-methods approach.Design: A mixed-model design was employed wherein there was a within-subjects factor (two experimental conditions and a control) and a between-subjects factor (gender). The experimental component of the study was supplemented by qualitative data that were analysed using inductive content analysis.Methods: Twenty six participants (M age = 20.0 years, age range: 18-23 years) underwent a period of habituation with Speedo Aquabeat MP3 players prior to the experimental phase.They were then administered two experimental trials (motivational and oudeterous music at 130 bpm) and a no-music control, during which they engaged in a 200-m freestyle swimming time trial.Results: Participants swam significantly faster when exposed to either music condition relative to control (p = .022,  p 2 = .18). Moreover, the music conditions were associated with higher state motivation (p = .016,  p 2 = .16) and more dissociative thoughts (p = .014,  p 2 = .16). Conclusions:Findings supported the hypothesis that the use of asynchronous music during a high-intensity task can have an ergogenic effect; this was in the order of 2% when averaged out across the two experimental conditions. The use of music, regardless of its motivational qualities, resulted in higher self-reported motivation as well as more dissociative thoughts. behavior. Psychophysical effects concern the reduction of perceptions of physical effort, which, in the music-related literature, are most often assessed using ratings of perceived exertion (RPE). Ergogenic effects relate to the use of music to improve physical performance by either delaying fatigue or increasing work capacity; this results in higher-than-expected levels of endurance, power, productivity, or strength (see Terry & Karageorghis, 2011).Extant work has shown that music use is not effective for some people under certain circumstances (e.g., while learning new skills) and might even be contraindicated in some instances (e.g., when it might distract users from safety-relevant information, such as on public roads; see Karageorghis & Priest, 2012a, 2012b for a review). Also, a "vitamin model" wherein a particular piece of music can be prescribed to engender certain perceptual, cognitive, or emotion...

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Tuning‐in to the beat: Aesthetic appreciation of musical rhythms correlates with a premotor activity boost

Cited by 105 publications

References 84 publications

Body movement enhances the extraction of temporal structures in auditory sequences

Body movement enhances the extraction of temporal structures in auditory sequences

The modulating effects of music listening on health-related exercise and physical activity in adults: a systematic review and narrative synthesis

Psychological, psychophysical, and ergogenic effects of music in swimming

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