Faculty of Sport Sciences, Laboratory U902 INSERM, Genopole, University of Evry-Val, d'Essonne, Evry, France.
Eur J Appl Physiol. 2010 Apr;108(6):1209-16. doi: 10.1007/s00421-009-1334-9. Epub 2009 Dec 24.
The purpose of this study was to test the hypothesis that mountaineering experience decreases the net oxygen cost of uphill walking (OCw) on steep mountain trails and in ice and snow conditions. OCw was measured during an ascent of Mont Blanc in eight experienced alpinists and eight non-alpinists who were matched for sex (4 + 4) and low-altitude aerobic power (V(O)(2)(max) 50-55 ml kg(-1) min(-1)). Subjects carried a breath-by-breath gas exchange analyzer and a GPS. V(O)(2)(max) at altitude was estimated from measured low-altitude V(O)(2)(max) using Bassett's equation to calculate fractional use of V(O)(2)(max) during the ascent (FV(O)(2)(max)). OCw was calculated as the difference between V(O)(2) while climbing minus resting V(O)(2). At all elevations, Alpinists exhibited a lower OCw (P < 0.01). In all subjects, OCw increased when encountering ice and snow conditions. FV(O)(2)(max) remained stable around 75% at all elevations independent of experience or sex. In conclusion, the OCw is lower in experienced mountaineers compared to non-experienced subjects, and increases when going from steep rocky mountain terrain to ice and snow conditions, independent of mountaineering experience or sex.
登山经验可降低在陡峭山路、冰雪环境中上坡行走的净耗氧量(OCw)。通过让 8 名有经验的登山者和 8 名无经验的登山者(4 名男性和 4 名女性)在勃朗峰上坡时携带逐口气的气体交换分析仪和 GPS 来测量 OCw。使用 Bassett 方程,根据在低海拔处测量的最大摄氧量(V(O)(2)(max))来估算海拔处的 V(O)(2)(max),以计算上升过程中 V(O)(2)(max)的利用率(FV(O)(2)(max))。OCw 计算为攀爬时的 V(O)(2)减去休息时的 V(O)(2)。在所有海拔高度,登山者的 OCw 均较低(P < 0.01)。在所有受试者中,遇到冰雪条件时 OCw 增加。FV(O)(2)(max)在所有海拔高度均保持稳定,约为 75%,与经验或性别无关。总之,与无经验者相比,经验丰富的登山者的 OCw 较低,并且当从陡峭的岩石地形过渡到冰雪条件时,OCw 会增加,与登山经验或性别无关。
