Glenn Björklund scite author profile

To improve current understanding of energy contributions and determinants of sprint-skiing performance, 11 well-trained male cross-country skiers were tested in the laboratory for VO , submaximal gross efficiency (GE), maximal roller skiing velocity, and sprint time-trial (STT) performance. The STT was repeated four times on a 1300-m simulated sprint course including three flat (1°) double poling (DP) sections interspersed with two uphill (7°) diagonal stride (DS) sections. Treadmill velocity and VO were monitored continuously during the four STTs and data were averaged. Supramaximal GE during the STT was predicted from the submaximal relationships for GE against velocity and incline, allowing computation of metabolic rate and O deficit. The skiers completed the STT in 232 ± 10 s (distributed as 55 ± 3% DP and 45 ± 3% DS) with a mean power output of 324 ± 26 W. The anaerobic energy contribution was 18 ± 5%, with an accumulated O deficit of 45 ± 13 mL/kg. Block-wise multiple regression revealed that VO , O deficit, and GE explained 30%, 15%, and 53% of the variance in STT time, respectively (all P < 0.05). This novel GE-based method of estimating the O deficit in simulated sprint-skiing has demonstrated an anaerobic energy contribution of 18%, with GE being the strongest predictor of performance.

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Metabolic Responses and Pacing Strategies during Successive Sprint Skiing Time Trials

Andersson

Holmberg

Ørtenblad

et al. 2016

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Glenn Björklund

Contribution of the Legs to Double-Poling Performance in Elite Cross-Country Skiers

Energy system contributions and determinants of performance in sprint cross‐country skiing

Metabolic Responses and Pacing Strategies during Successive Sprint Skiing Time Trials

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