Erschienen in:
26.06.2020 | Original Article
5 km front crawl in pool and open water swimming: breath-by-breath energy expenditure and kinematic analysis
verfasst von:
Rodrigo Zacca, Vânia Neves, Tiago da Silva Oliveira, Susana Soares, Luís Manuel Pinto Lopes Rama, Flávio Antônio de Souza Castro, João Paulo Vilas-Boas, David B. Pyne, Ricardo J. Fernandes
Erschienen in:
European Journal of Applied Physiology
|
Ausgabe 9/2020
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Abstract
Purpose
Breath-by-breath energy expenditure during open water swimming has not yet been explored in an ecological environment. This study aimed to investigate and compare energetics and kinematics of 5 km swimming, in both swimming pool and open water conditions.
Methods
Through four independent studies, oxygen uptake (\(\dot{V}\text{O}\)2) kinetics, heart rate (HR), blood lactate concentration ([La−]) and glucose level (BGL), metabolic power (\(\dot{E}\)), energy cost (C) and kinematics were assessed during 5 km front crawl trials in a swimming pool and open water conditions. A total of 38 competitive open water swimmers aged 16–27 years volunteered for this four part investigation: Study A (pool, ten females, 11 males), Study B (pool, four females, six males), Study C (pool case study, one female) and Study D (open water, three females, four males).
Results
In the swimming pool, swimmers started with an above average swimming speed (v), losing efficiency along the 5 km, despite apparent homeostasis for [La−], BGL, \(\dot{V}\text{O}\)2, \(\dot{E}\) and C. In open water, swimmers started the 5 km with a below average v, increasing the stroke rate (SR) in the last 1000 m. In open water, \(\dot{V}\text{O}\)2 kinetics parameters, HR, [La−], BGL, respiratory exchange ratio and C were affected by the v and SR fluctuations along the 5 km.
Conclusions
Small fluctuations were observed for energetic variables in both conditions, but changes in C were lower in swimming pool than in open water. Coaches should adjust the training plan accordingly to the specificity of open water swimming.