Cycle and force characteristics were examined in 11 elite male cross-country skiers using the diagonal stride technique while skiing uphill (7.5°) on snow at moderate (3.5 ± 0.3 m/s), high (4.5 ± 0.4 m/s), and maximal (5.6 ± 0.6 m/s) velocities. Video analysis (50 Hz) was combined with plantar (leg) force (100 Hz), pole force (1,500 Hz), and photocell measurements. Both cycle rate and cycle length increased from moderate to high velocity, while cycle rate increased and cycle length decreased at maximal compared to high velocity. The kick time decreased 26% from moderate to maximal velocity, reaching 0.14 s at maximal. The relative kick and gliding times were only altered at maximal velocity, where these were longer and shorter, respectively. The rate of force development increased with higher velocity. At maximal velocity, sprint-specialists were 14% faster than distance-specialists due to greater cycle rate, peak leg force, and rate of leg force development. In conclusion, large peak leg forces were applied rapidly across all velocities and the shorter relative gliding and longer relative kick phases at maximal velocity allow maintenance of kick duration for force generation. These results emphasise the importance of rapid leg force generation in diagonal skiing.
展开▼
机译:使用斜跨步技术检查了11名精英男子越野滑雪者的周期和力量特性,同时在中度(3.5±0.3 m / s),高(4.5±0.4 m / s)和最大速度(5.6±0.6 m / s)。视频分析(50 Hz)与足底(腿)力(100 Hz),极力(1,500 Hz)和光电管测量相结合。与高速相比,循环速率和循环长度均从中速增加到高速,而循环速率增加且循环长度最大减小。突跳时间从中速到最大速度降低了26%,最大时达到0.14 s。相对踢球和滑行时间仅以最大速度更改,在最大速度下,它们分别变长和变短。力的发展速度随着速度的增加而增加。在最大速度下,短跑专家比距离专家快14%,这是因为周期率,峰值腿部力量和腿部力量发展速度更大。总之,在所有速度下都迅速施加了大的峰值腿力,并且在最大速度下较短的相对滑行和较长的相对踢球阶段可以维持产生力的踢球持续时间。这些结果强调了在对角滑雪中快速产生腿力的重要性。
展开▼
