Abstract
The thermoregulatory theory of yawning posits that yawns function to cool the brain in part due to counter-current heat exchange with the deep inhalation of ambient air. Consequently, yawning should be constrained to an optimal thermal zone or range of temperature, i.e., a thermal window, in which we should expect a lower frequency at extreme temperatures. Previous research shows that yawn frequency diminishes as ambient temperatures rise and approach body temperature, but a lower bound to the thermal window has not been demonstrated. To test this, a total of 120 pedestrians were sampled for susceptibly to self-reported yawn contagion during distinct temperature ranges and seasons (winter: 1.4. °C, n. = 60; summer: 19.4. °C, n. = 60). As predicted, the proportion of pedestrians reporting yawning was significantly lower during winter than in summer (18.3% vs. 41.7%), with temperature being the only significant predictor of these differences across seasons. The underlying mechanism for yawning in humans, both spontaneous and contagious, appears to be involved in brain thermoregulation. © 2014.
| Original language | English |
|---|---|
| Pages (from-to) | 145-148 |
| Number of pages | 4 |
| Journal | Physiology and Behavior |
| Volume | 130 |
| DOIs | |
| Publication status | Published - 10 May 2014 |
| Externally published | Yes |
Keywords
- Ambient temperature
- Contagious yawning
- Thermoregulation
- Yawning
- adult
- article
- Austria
- body temperature
- environmental temperature
- female
- human
- humidity
- male
- pedestrian
- priority journal
- seasonal variation
- self report
- summer
- thermoregulation
- winter
- yawning