Виктория Уильямсон - Мы – это музыка. Как музыка влияет на наш мозг, здоровье и жизнь в целом
235
Camurri, A., et al. (2004), ‘Multimodal Analysis of Expressive Gesture in Music and Dance Performances’, Gesture-Based Communication in Human-Computer Interaction, 2915, 20–39. Marin, M.M., and Bhattacharya, J. (2010), ‘Music induced emotions: Some current issues and crossmodal comparisons’, in J. Hermida and M. Ferrero (eds.), Music Education (pp. 1–38). Hauppauge, NY: Nova Science Publishers.
236
Hagen, E.H., and Bryant, G.A. (2003), ‘Music and dance as a coalition signalling system’, Human Nature, 14 (1), 21–51.
237
Witek, M.A.G. (2009), ‘Groove Experience: Emotional and Physiological Responses to Groove-Based Music’, Proceedings of the 7th Triennial Conference of the European Society for the Cognitive Sciences of Music, ESCOM, University of Jyväskylä. Senn, O., and Kilchenmann, L. (2011), ‘The secret ingredient – State of affairs and future directions in groove studies’, in Antonio Baldassarre (ed.), Musik, Raum, Akkord, Bild – Festschrift for Dorothea Baumann’s 65th Birthday, Bern: pp. 799–810.
238
Winkler, I., et al. (2009), ‘Newborn infants detect the beat in music’, Proceedings of the National Academy of Sciences, 106, 2468–2471.
239
Honing, H., et al. (2012). ‘Rhesus monkeys (Macaca mulatta) detect rhythmic groups in music, but not the beat’, PLOS ONE, 7 (12), e51369.
240
Patel, A.D., Iversen, J.R., Bregman, M.R., and Schulz, I. (2009), ‘Experimental evidence for synchronization to a musical beat in a nonhuman animal’, Current Biology, 19, 827–830.
241
Fitch, W.T. (2013), ‘Rhythmic cognition in humans and animals: distinguishing meter and pulse perception’, Frontiers in Systems Neuroscience, 31, 7:68.
242
Schachner, A., Brady, T.F., Pepperberg, I.M., and Hauser, M.D. (2009), ‘Spontaneous motor entrainment to music in multiple vocal mimicking species’, Current Biology, 19 (10), 831–836.
243
Hattori, Y., Tomonaga, M., and Matsuzawa, T. (2013), ‘Spontaneous synchronized tapping to an auditory rhythm in a chimpanzee’, Scientific Reports 3, 1566. Cook, P., Rouse, A., Wilson, M., and Reichmuth, C. (2013), ‘A California Sea Lion (Zalophus californianus) Can Keep the Beat: Motor Entrainment to Rhythmic Auditory Stimuli in a Non Vocal Mimic’, Journal of Comparative Psychology..
244
Luck, G., Saarikallio, S., Thompson, M., Burger, B., and Toiviainen, P. (2012), ‘Hips don’t lie: Multi-dimensional ratings of opposite-sex dancers’ perceived attractiveness’, in E. Cambouropoulos, C. Tsougras, P. Mavromatis and K. Pastiadis (eds.), Proceedings of 12th International Conference on Music Perception and Cognition (Thessaloniki, Greece).
245
Zillmann, D., and Bhatia, A. (1989), ‘Effects of associating with musical genres on heterosexual attraction’, Communication Research, 16 (2), 263–288.
246
Guéguen, N., Jacob, C., and Lamy, L. (2010), ‘“Love is in the air”: Effects of songs with romantic lyrics on compliance with a courtship request’, Psychology of Music, 38 (3), 303–307.
247
Guéguen, N., Meineri, S., and Fischer-Lokou, J. (2013), ‘Men’s music ability and attractiveness to women in a real-life courtship context’, Psychology of Music, published online 1 May 2013.
248
North, A.C., Tarrant, M., and Hargreaves, D.J. (2004), ‘The effects of music on helping behaviour: a field study’, Environment and Behaviour, 36 (2), 266–275.
249
Lamy, L., Fischer-Lokou, J., and Guéguen, N. (2009), ‘Induced reminiscence of love and chivalrous helping’, Current Psychology, 28 (3), 202–209.
250
LeDoux, J.E. (2000), ‘Emotion circuits in the brain’, Annual Review of Neuroscience, 23, 155–184.
251
Koelsch, S., et al. (2006), ‘Investigating emotion with music: an fMRI study’, Human Brain Mapping, 27 (3), 239–250. Blood, A.J., and Zatorre, R.J. (2001), ‘Intensely pleasurable responses to music correlate with activity in brain regions implicated in reward and emotion’, Proceedings of the National Academy of Sciences, 98 (2), 11818–11823.
252
Griffiths, T.D., Warren, J.D., Dean, J.L., and Howard, D. (2004), ‘“When the feeling’s gone”: a selective loss of musical emotion’, Journal of Neurology, Neurosurgery & Psychiatry, 75, 344–345.
253
Gosselin, N., et al. (2005), ‘Impaired recognition of scary music following unilateral temporal lobe excision’, Brain, 128 (3), 628–640.
254
Eldar, E., et al. (2007), ‘Feeling the real world: limbic response to music depends on related content’, Cerebral Cortex, 17 (12), 2828–2840.
255
Boltz, M.G. (2001), ‘Musical soundtracks as a schematic influence on the cognitive processing of filmed events’, Music Perception, 18:427–454.
256
Phan, K.L., Wager, T.D., Taylor, S.F., and Liberzon, I. (2002), ‘Functional neuroanatomy of emotion: a meta-analysis of emotion activation studies in PET and fMRI’, Neuroimage, 16 (2), 331–348.
257
Cohen, A.J. (2001), ‘Music as a source of emotion in film’, in Juslin, P.N., Sloboda, J.A. (eds.), Music and emotion. New York: Oxford University Press, pp. 249–272.
258
Austin, A., Moore, E., Chordia, P., and Gupta, U. (2010), ‘Characterization of Movie Genre Based on Music Score’, in Proceedings of the 35th IEEE Conference of Acoustics, Speech, and Signal Processing, 421–424.
259
Baumgartner, T., Lutz, K., Schmidt, C.F., and Jäncke, L. (2006), ‘The emotional power of music: how music enhances the feeling of affective pictures’, Brain Research, 23, 1075 (1), 151–164.
260
Huron, D. (2011), ‘Why is sad music pleasurable? A possible role for prolactin’, Musicae Scientiae, 15 (2), 146–158.
261
Koelsch, S. (2012), Brain and music. Wiley.
262
http://filmsound.org/gustavo/leitmotif-revisted.htm.
263
Hargreaves, D.J., and North, A.C. (2008), The Social and Applied Psychology of Music. Oxford: Oxford University Press.
264
The British Association of Sport and Exercise Sciences statement on the use of music in exercise: http://www.bases.org.uk/write/Documents/SES_EXPERT_3.pdf.
265
Crust, L., and Clough, P.J. (2006), ‘The influence of rhythm and personality in the endurance response to motivational asynchronous music’, Journal of Sports Sciences, 24 (2), 187–195.
266
Karageorghis, C.I., Terry, P.C., and Lane, A.M. (1999), ‘Development and initial validation of an instrument to assess the motivational qualities of music in exercise and sport: The Brunei Music Rating Inventory’, Journal of Sports Sciences, 17 (9), 713–724.
267
Karageorghis, C.I., and Priest, D.L. (2012), ‘Music in the exercise domain: A review and synthesis (Part I)’, International Review of Sport and Exercise Psychology, 5 (1): 44–66.
268
Hall, K.G., and Erickson, B. H. (1995), ‘The effects of preparatory arousal on sixty-meter dash performance’, The Applied Research in Coaching and Athletics Annual, 10, 70–79.
269
Priest, D.L., and Karageorghis, C.I. (2008), ‘A qualitative investigation into the characteristics and effects of music accompanying exercise’, European Physical Education Review, 14 (3), 347–366.
270
Karageorghis, C.I., et al. (2009), ‘Psychophysical and ergogenic effects of synchronous music during treadmill walking’, Journal of Sport & Exercise Psychology, 31 (1), 18–36.
271
Karageorghis, C.I., and Priest, D.L. (2012), ‘Music in the exercise domain: a review and synthesis (Part I)’, International Review of Sport and Exercise Psychology, 5 (1), 44–66.
272
van der Vlist, B., Bartneck, C., and Mäueler, S. (2011), ‘moBeat: Using interactive music to guide and motivate users during aerobic exercising’, Applied Psychophysiology and Biofeedback, 36 (2), 135–145.
273
Karageorghis, C.I., and Priest, D.L. (2012), ‘Music in the exercise domain: A review and synthesis (Part II)’, International Review of Sport and Exercise Psychology, 5 (1), 67–84.
274
Dyrlund, A.K., and Wininger, S.R. (2008), ‘The effects of music preference and exercise intensity on psychological variables’, Journal of Music Therapy, 45 (2), 114–134.
275
Karageorghis, C.I., and Priest, D.L. (2012), ‘Music in the exercise domain: a review and synthesis (Part I)’, International Review of Sport and Exercise Psychology, 5 (1), 44–66.
276
The British Association of Sport and Exercise Sciences statement on the use of music in exercise: http://www.bases.org.uk/write/Documents/SES_EXPERT_3.pdf.
277
Karageorghis, C., Jones, L., and Stuart, D.P. (2008), ‘Psychological effects of music tempi during exercise’, International Journal of Sports Medicine, 29 (7), 613–619.
278
Crust, L., and Clough, P.J. (2006), ‘The influence of rhythm and personality in the endurance response to motivational asynchronous music’, Journal of Sports Sciences, 24 (2), 187–195.
279
Karageorghis, C.I., et al. (2011), ‘Ergogenic and psychological effects of synchronous music during circuit-type exercise’, Psychology of Sport and Exercise, 11 (6), 551–559.
280
http://www.theguardian.com/lifeandstyle/the-running-blog/2013/may/10/haile-gebrselassie-interview.
281
http://www.theaustralian.com.au/arts/music/music-the-fuel-for-performance-overdrive-by-olympic-athletes/story-fn9d2mxu-1226424849410.
282
Gluch, P.D. (1993), ‘The use of music in preparing for sport performance’, Contemporary Thought, 2, 33–53.
283
Jarraya, M., et al. (2012), ‘The effects of music on high-intensity short-term exercise in well trained athletes’, Asian Journal of Sports Medicine, 3 (4), 233–238.
284
http://www.guardian.co.uk/football/2013/feb/03/can-music-help-footballers-play-better?CMP=twt_fd.
285
Brownley, K.A., McMurray, R.G., and Hackney, A.C. (1995), ‘Effects of music on physiological and affective response to graded treadmill exercise in trained and untrained runners’, International Journal of Psychophysiology, 19 (3), 193–201. Mohammadzadeh, H., Tartibiyan, B., and Ahmadi, A. (2008), ‘The effects of music on the perceived exertion rate and performance of trained and untrained individuals during progressive exercise’, Facta Universitatis: Series Physical Education & Sport, 6, 67–74.