A deterministic model based on evidence for the associations between kinematic variables and sprint kayak performance |
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| Authors: | Lisa K McDonnell Patria A Hume Volker Nolte |
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| Institution: | 1. School of Sport and Recreation, Sports Performance Research Institute New Zealand, Auckland University of Technology , Auckland , New Zealand lisa.mcdonnell@aut.ac.nz;3. School of Sport and Recreation, Sports Performance Research Institute New Zealand, Auckland University of Technology , Auckland , New Zealand;4. University of Western Ontario , London , Ontario , Canada |
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| Abstract: | The aim of this narrative review was to propose a deterministic model based on a review of previous research documenting the evidence for the associations between average kayak velocity and kinematic variables in sprint kayaking. Literature was reviewed after searching electronic databases using key words ‘kayak,’ ‘biomechanics,’ ‘velocity,’ ‘kinematics,’ and ‘performance.’ Our kinematic deterministic model for sprint kayaking performance shows that the average kayak velocity is determined by kayak stroke displacement and stroke time. Stroke time had the strongest correlation with 200-m race time (r = 0.86, p < 0.001), and stroke rate (inversely proportional to stroke time) was strongly correlated with average horizontal velocity over two consecutive strokes at race pace (r = ? 0.83, p < 0.05). Increased stroke rate via decreased absolute water phase time and increased relative water phase time were indicative of more elite performance. There was no significant relationship between stroke displacement and velocity; however, a large decrease in stroke displacement may be detrimental to performance. Individual characteristics may be responsible for a paddlers’ ability to achieve and sustain a given stroke rate. Coaches should theoretically focus interventions on increasing stroke rate while maintaining stroke displacement; however this hypothesis should be confirmed with prospective studies. |
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| Keywords: | Quantitative velocity stroke rate biomechanics |
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