Horiuchi Masahiro, Handa Yoko, Fukuoka Yoshiyuki
Division of Human Environmental Science, Mt. Fuji Research Institute, Kamiyoshida, 5597-1 Fuji yoshida City, Yamanashi 4030005, Japan
Division of Human Environmental Science, Mt. Fuji Research Institute, Kamiyoshida, 5597-1 Fuji yoshida City, Yamanashi 4030005, Japan.
Biol Open. 2018 Jul 16;7(7):bio035121. doi: 10.1242/bio.035121.
We measured oxygen consumption and carbon dioxide output during walking [per unit distance () values] for 14 healthy young human males at seven speeds from 0.67 to 1.67 m s (4 min per stage) in thermoneutral (23°C), cool (13°C), and hot (33°C) environments. The at faster gait speeds in the 33°C trial was slightly higher compared to those in the 23°C and 13°C trials. We found the speed at which the young males walked had a significant effect on the values (<0.05), but the different environmental temperatures showed no significant effect (>0.05). Economical speed (ES) which can minimize the in each individual was calculated from a U-shaped relationship. We found a significantly slower ES at 33°C [1.265 (0.060) m s mean (s.d.)] compared to 23°C [1.349 (0.077) m s] and 13°C [1.356 (0.078) m s, <0.05, respectively] with no differences between 23°C and 13°C (>0.05). Heart rate and mean skin temperature responses in the 33°C condition increased throughout the walking trial compared to 23°C and 13°C (all <0.05). These results suggest that an acutely hot environment slowed the ES by ∼7%, but an acutely cool environment did not affect the and ES.
我们测量了14名健康年轻男性在热中性(23°C)、凉爽(13°C)和炎热(33°C)环境中,以0.67至1.67 m s的七种速度行走时的耗氧量和二氧化碳排出量[每单位距离()值,每个阶段4分钟]。与23°C和13°C试验相比,33°C试验中较快步态速度下的该值略高。我们发现年轻男性行走的速度对该值有显著影响(<0.05),但不同的环境温度没有显著影响(>0.05)。根据U形关系计算出每个个体能够使该值最小化的经济速度(ES)。我们发现,与23°C [1.349(0.077) m s]和13°C [1.356(0.078) m s,分别<0.05]相比,33°C时的ES显著较慢[1.265(0.060) m s,平均值(标准差)],23°C和13°C之间没有差异(>0.05)。与23°C和13°C相比,33°C条件下的心率和平均皮肤温度反应在整个步行试验过程中均增加(均<0.05)。这些结果表明,急性炎热环境使ES减慢了约7%,但急性凉爽环境并未影响该值和ES。