铁人三项世界杯自行车赛阶段的功率输出分布。

Distribution of power output during the cycling stage of a Triathlon World Cup.

机构信息

Handibio Laboratory, University of Sud Toulon-Var, La Garde, Cedex, France.

出版信息

Med Sci Sports Exerc. 2009 Jun;41(6):1296-302. doi: 10.1249/MSS.0b013e318195a233.

DOI:10.1249/MSS.0b013e318195a233

PMID:19461535

Abstract

PURPOSE

The aim of this study was to evaluate the power output (PO) during the cycle phase of the Beijing World Cup test event of the Olympic triathlon in China 2008.

METHODS

Ten elite triathletes (5 females, 5 males) performed two laboratory tests: an incremental cycling test during which PO, HR at ventilatory thresholds (VT1 and VT2), and maximal aerobic power (MAP) were assessed, and a brief all-out test to determine maximal anaerobic power output (MAnP). During the cycle part of competition, PO and HR were measured directly with portable device. The amount of time spent below PO at VT1 (zone 1), between PO at VT1 and VT2 (zone 2), between PO at VT2 and MAP (zone 3) and above MAP (zone 4) was analyzed.

RESULTS

A significant decrease in PO, speed, and HR values was observed during the race. The distribution of time was 51 +/- 9% for zone 1, 17 +/- 6% for zone 2, 15 +/- 3% for zone 3, and 17 +/- 6% was performed at workloads higher than MAP (zone 4). From HR values, the triathletes spent 27 +/- 12% in zone 1, 26 +/- 8% in zone 2, and 48 +/- 14% above VT2.

CONCLUSIONS

This study indicates a progressive reduction in speed, PO, and HR, coupled with an increase in variability during the event. The Olympic distance triathlon requires a higher aerobic and anaerobic involvement than constant-workload cycling exercises classically analyzed in laboratory settings (i.e., time trial) or Ironman triathlons. Furthermore, monitoring direct PO could be more suitable to quantify the intensity of a race with pacing strategies than classic HR measurements.

摘要

目的

本研究旨在评估 2008 年中国北京世界杯奥运铁人三项赛自行车赛段的输出功率（PO）。

方法

10 名精英铁人三项运动员（5 名女性，5 名男性）进行了两项实验室测试：递增式踏车测试，在此过程中评估了 PO、通气阈值时的 HR（VT1 和 VT2）和最大有氧能力（MAP），以及短暂的全力测试以确定最大无氧功率输出（MAnP）。在比赛的自行车赛段，使用便携式设备直接测量 PO 和 HR。分析了在 VT1 以下的 PO （区域 1）、在 VT1 和 VT2 之间的 PO （区域 2）、在 VT2 和 MAP 之间的 PO （区域 3）以及高于 MAP 的 PO （区域 4）的时间分配。

结果

比赛中 PO、速度和 HR 值均显著下降。时间分配为区域 1（51 +/- 9%）、区域 2（17 +/- 6%）、区域 3（15 +/- 3%）和区域 4（高于 MAP，17 +/- 6%）。根据 HR 值，运动员在区域 1 内花费 27 +/- 12%、区域 2 内花费 26 +/- 8%，高于 VT2 时花费 48 +/- 14%。

结论

本研究表明，速度、PO 和 HR 逐渐降低，同时运动过程中的变异性增加。奥林匹克距离铁人三项需要比传统实验室设置（即计时赛）或 Ironman 铁人三项中经典分析的恒定工作负荷骑行更高级的有氧和无氧参与。此外，与经典 HR 测量相比，监测直接 PO 可能更适合量化具有配速策略的比赛强度。

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铁人三项世界杯自行车赛阶段的功率输出分布。

Distribution of power output during the cycling stage of a Triathlon World Cup.

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METHODS

RESULTS

CONCLUSIONS

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结果

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