The effect of seasonal acclimatization on whole body heat loss response during exercise in a hot humid environment with different air velocity
Autor: | Nicola Gerrett, Yoshimitsu Inoue, Takeshi Nishiyasu, Masashi Fujiwara, Tze Huan Lei, Dai Okushima, Toby Mündel, Narihiko Kondo, Tatsuro Amano |
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Přispěvatelé: | Physiology, AMS - Sports |
Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: |
Male
Air velocity Hot Temperature Physiology Acclimatization Heat losses Skin temperature Humidity Sweating Body Temperature SWEAT Animal science medicine.anatomical_structure Physiology (medical) medicine Humans Environmental science Seasons Eccrine sweat gland Whole body Cycling Body Temperature Regulation |
Zdroj: | Journal of Applied Physiology, 131(2), 520-531. American Physiological Society Lei, T H, Fujiwara, M, Gerrett, N, Amano, T, Mundel, T, Inoue, Y, Okushima, D, Nishiyasu, T & Kondo, N 2021, ' The effect of seasonal acclimatization on whole body heat loss response during exercise in a hot humid environment with different air velocity ', Journal of Applied Physiology, vol. 131, no. 2, pp. 520-531 . https://doi.org/10.1152/japplphysiol.00837.2020 |
ISSN: | 1522-1601 8750-7587 |
DOI: | 10.1152/japplphysiol.00837.2020 |
Popis: | Seasonal acclimatization from winter to summer is known to enhance thermoeffector responses in hot-dry environments during exercise whereas its impact on sweat evaporation and core temperature (Tcore) responses in hot-humid environments remains unknown. We, therefore, sought to determine whether seasonal acclimatization is able to modulate whole body sweat rate (WBSR), evaporated sweat rate, sweating efficiency, and thermoregulatory function during cycling exercise in a hot-humid environment (32 °C, 75% RH). We also determined whether the increase in air velocity could enhance evaporated sweat rate and sweating efficiency before and after seasonal acclimatization. Twelve males cycled for 1 h at 40% V-O2max in winter (preacclimatization) and repeated the trial again in summer (after acclimatization). For the last 20 min of cycling at a steady-state of Tcore, air velocity increased from 0.2 (0.04) m/s to 1.1 (0.02) m/s by using an electric fan located in front of the participant. Seasonal acclimatization enhanced WBSR, unevaporated sweat rate, local sweat rate and mean skin temperature compared with preacclimatization state (all P < 0.05) whereas sweating efficiency was lower (P < 0.01) until 55 min of exercise. Tcore and evaporated sweat rate were unaltered by acclimatization status (all P > 0.70). In conclusion, seasonal acclimatization enhances thermoeffector responses but does not attenuate Tcore during exercise in a hot-humid environment. Furthermore, increasing air velocity enhances evaporated sweat rate and sweating efficiency irrespective of acclimated state. NEW & NOTEWORTHY Seasonal acclimatization to humid heat enhances eccrine sweat gland function and thus results in a higher local and whole body sweat rate but does not attenuate Tcore during exercise in a hot-humid environment. Sweating efficiency is lower after seasonal acclimatization to humid heat compared with preacclimatization with and without the increase of air velocity. However, having a lower sweating efficiency does not mitigate the Tcore response during exercise in a hot-humid environment. |
Databáze: | OpenAIRE |
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