Thermal Ergonomics Laboratory, School of Human Kinetics, University of Ottawa, 200 Lees Avenue, Ottawa, ON, K1N 6N5, Canada.
Eur J Appl Physiol. 2011 Jun;111(6):1197-205. doi: 10.1007/s00421-010-1743-9. Epub 2010 Dec 3.
Many thermal physiologists follow the conventional wisdom that physiological heat adaptations occur in the summer for people living in a humid continental climate (e.g. Central Canada, North-eastern and Mid-western United States and Eastern Europe); therefore experimentation across seasons is often avoided. However, since modern behavioral adaptations, such as air conditioning, are accessible and commonplace, it is not clear whether such physiological adjustments actually do occur. It was hypothesized that despite warm weather, residing in a humid continental climate throughout a summer will not elicit any significant physiological heat adaptations since the environmental stimulus for such adjustments will be mitigated by behavioral adaptations. Eight young healthy male volunteers cycled at 60% VO(2max) for 90-min in a temperate environment before (mid-May) and at the end of (start of September) summer. Core temperature [measured in the esophagus (T (es)), rectum (T (re)) and aural canal (T (au))], mean skin temperature (T (sk)), forearm skin blood flow (SkBf), upper back sweat rate (LSR) and heart rate (HR) were measured throughout exercise. Weekly activity logs and a lifestyle questionnaire were also administered throughout the summer months. No significant differences between pre- and end-summer were observed throughout exercise for T (es) (p = 0.565), T (re) (p = 0.350), T (au) (p = 0.261), T (sk) (p = 0.955), SkBf (p = 0.112), LSR (p = 0.394) or HR (p = 0.343). Likewise, the thermosensitivity and T (es) at the onset threshold for LSR (p = 0.177, p = 0.512) and SkBf (p = 0.805, p = 0.556) were also not significantly different. The apparent lack of heat acclimatization could be due to frequent air-conditioning use and an avoidance of outdoor activity during the hottest times of day but may also be due to a lack of environmental stimulus.
许多热生理学家遵循传统观点,认为生活在湿润大陆性气候(例如加拿大中部、美国东北部和中西部以及东欧)的人在夏季会发生生理热适应;因此,他们通常避免在不同季节进行实验。然而,由于现代行为适应(如空调)是可获得且常见的,因此不清楚是否确实会发生这种生理调整。假设尽管天气炎热,但由于行为适应会减轻环境刺激,居住在湿润大陆性气候中整个夏季不会引起任何明显的生理热适应。八名年轻健康的男性志愿者在温带环境中以 60% VO(2max) 骑行 90 分钟,分别在夏季中期(5 月中旬)和末期(9 月初)进行。核心温度[食管(T (es))、直肠(T (re))和耳道(T (au))]、平均皮肤温度(T (sk))、前臂皮肤血流量(SkBf)、上背部出汗率(LSR)和心率(HR)在整个运动过程中进行测量。每周活动日志和生活方式调查问卷也在整个夏季进行。在整个运动过程中,夏季中期和末期的 T (es)(p = 0.565)、T (re)(p = 0.350)、T (au)(p = 0.261)、T (sk)(p = 0.955)、SkBf(p = 0.112)、LSR(p = 0.394)和 HR(p = 0.343)均无显著差异。同样,LSR 和 SkBf 起始阈值时的热敏性和 T (es)(p = 0.177,p = 0.512)和 SkBf(p = 0.805,p = 0.556)也没有显著差异。缺乏热适应的原因可能是由于频繁使用空调以及避免在一天中最热的时候进行户外活动,但也可能是由于环境刺激不足。
