Effects of metabolic rate on thermal responses at different air velocities in −10°C

The effects of exercise intensity on thermoregulatory responses in cold (−10°C) in a 0.2 (still air, NoWi), 1.0 (Wi1), and 5.0 (Wi5) m s −1 wind were studied. Eight young and healthy men, preconditioned in thermoneutral (+20°C) environment for 60 min, walked for 60 min on the treadmill at 2.8 km/h w...

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Published inComparative biochemistry and physiology. Part A, Molecular & integrative physiology Vol. 128; no. 4; pp. 759 - 768
Main Authors Mäkinen, Tero T, Gavhed, Désirée, Holmér, Ingvar, Rintamäki, Hannu
Format Journal Article
LanguageEnglish
Published Elsevier Inc 2001
Subjects
Body temperature
Cold
Convective heat loss
Exercise
Metabolic rate
Oxygen consumption
Skin temperature
Wind
Metabolic rate
Wind
Exercise
Cold
Convective heat loss
Body temperature
Skin temperature
Oxygen consumption
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Summary:The effects of exercise intensity on thermoregulatory responses in cold (−10°C) in a 0.2 (still air, NoWi), 1.0 (Wi1), and 5.0 (Wi5) m s −1 wind were studied. Eight young and healthy men, preconditioned in thermoneutral (+20°C) environment for 60 min, walked for 60 min on the treadmill at 2.8 km/h with different combinations of wind and exercise intensity. Exercise level was adjusted by changing the inclination of the treadmill between 0° (lower exercise intensity, metabolic rate 124 W m −2, LE) and 6° (higher exercise intensity, metabolic rate 195 W m −2, HE). Due to exercise increased heat production and circulatory adjustments, the rectal temperature ( T re), mean skin temperature ( T sk) and mean body temperature ( T b) were significantly higher at the end of HE in comparison to LE in NoWi and Wi1, and T re and T b also in Wi5. T sk and T b were significantly decreased by 5.0 m s −1 wind in comparison to NoWi and Wi1. The higher exercise intensity was intense enough to diminish peripheral vasoconstriction and consequently the finger skin temperature was significantly higher at the end of HE in comparison to LE in NoWi and Wi1. Mean heat flux from the skin was unaffected by the exercise intensity. At LE oxygen consumption ( V o 2) was significantly higher in Wi5 than NoWi and Wi1. Heart rate was unaffected by the wind speed. The results suggest that, with studied exercise intensities, produced without changes in walking speed, the metabolic rate is not so important that it should be taken into consideration in the calculation of wind chill index.
ISSN:1095-6433
1531-4332
DOI:10.1016/S1095-6433(01)00281-1