The discovery of slowness: Time to deconstruct Gretzky's and Messi's predictive brains

Jafari and Smith hypothesized that time during games may pass slower for the world's best football player, Lionel Messi, from Argentina. This hypothesis leads to two questions: How can we explain such temporal paradox and how could this explain his dominant performances? Remarkably, the Argenti...

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Bibliographic Details
Published in:Chronobiology international 2016-08, Vol.33 (7), p.789-790
Main Authors: Erren, Thomas C., Kuffer, Liz, Pinger, Andreas, Groß, J. Valérie
Format: Article
Language:English
Subjects:
Athletes
Brain - physiology
Brain - physiopathology
Circadian Rhythm - physiology
discovery of slowness
Football
Hockey
Humans
Lionel Messi
predictive brain
time perception
Time Perception - physiology
Wayne Gretzky
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Summary:Jafari and Smith hypothesized that time during games may pass slower for the world's best football player, Lionel Messi, from Argentina. This hypothesis leads to two questions: How can we explain such temporal paradox and how could this explain his dominant performances? Remarkably, the Argentinian's case was preceded by the equally astonishing case of Wayne Gretzky: The Canadian considered ice hockey as a rather slow game and was the best player in the sport's history. Whether Messi's and Gretzky's motor neurons fire faster, (inter)act differently or whether other mechanisms are at (inter)play warrants targeted research. A further explanation for such dominance of football and ice hockey, respectively, could be that both athletes "buy time": To this end, automized motor skills may allow their predictive brains to make better use of time than other players to read the games and plan ahead. Deconstructing predictive minds of outperforming individuals like Gretzky and Messi could provide unique options to elucidate how differential time perception may make performances in athletes, and beyond, more swift and more efficient.
ISSN:0742-0528
1525-6073
DOI:10.1080/07420528.2016.1178276