Prolonged self-paced exercise in the heat – environmental factors affecting performance

Nicklas Junge, Rasmus Jørgensen, A. Flouris, L. Nybo
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引用次数: 51

Abstract

ABSTRACT In this review we examine how self-paced performance is affected by environmental heat stress factors during cycling time trial performance as well as considering the effects of exercise mode and heat acclimatization. Mean power output during prolonged cycling time trials in the heat (≥30°C) was on average reduced by 15% in the 14 studies that fulfilled the inclusion criteria. Ambient temperature per se was a poor predictor of the integrated environmental heat stress and 2 of the prevailing heat stress indices (WBGT and UTCI) failed to predict the environmental influence on performance. The weighing of wind speed appears to be too low for predicting the effect for cycling in trained acclimatized subjects, where performance may be maintained in outdoor time trials at ambient temperatures as high as 36°C (36°C UTCI; 28°C WBGT). Power output during indoor trials may also be maintained with temperatures up to at least 27°C when humidity is modest and wind speed matches the movement speed generated during outdoor cycling, whereas marked reductions are observed when air movement is minimal. For running, representing an exercise mode with lower movement speed and higher heat production for a given metabolic rate, it appears that endurance is affected even at much lower ambient temperatures. On this basis we conclude that environmental heat stress impacts self-paced endurance performance. However, the effect is markedly modified by acclimatization status and exercise mode, as the wind generated by the exercise (movement speed) or the environment (natural or fan air movement) exerts a strong influence.
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长时间自定节奏的高温运动——影响运动表现的环境因素
在这篇综述中,我们研究了在自行车计时赛中,环境热应激因素如何影响自定节奏的表现,并考虑了运动方式和热适应的影响。在符合纳入标准的14项研究中,在高温(≥30°C)长时间循环试验期间的平均功率输出平均降低了15%。环境温度本身不能很好地预测综合环境热应力,2个流行的热应力指数(WBGT和UTCI)不能预测环境对性能的影响。风速的权重似乎太低,无法预测训练有素的适应环境的受试者骑自行车的影响,在室外计时赛中,环境温度高达36°C(36°C UTCI;28°C WBGT)。当湿度适中且风速与室外循环时产生的运动速度相匹配时,室内试验期间的功率输出也可以保持在至少27°C的温度下,而当空气运动最小时,则观察到明显的减少。对于跑步来说,它代表了一种运动模式,在给定的代谢率下,运动速度较低,热量产生较高,即使在较低的环境温度下,耐力也会受到影响。在此基础上,我们得出了环境热应激对自定节奏耐力性能的影响。但由于运动产生的风(运动速度)或环境(自然或风扇气流)的影响较大,因此驯化状态和运动方式会明显改变这种效果。
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