No large effects on cognitive performance in high versus low solar green-flag WBGT conditions
article
Excessive solar radiation negatively affects cognitive performance. Occupational guidelines typically combine environmental components into one value, such as wet-bulb globe temperature (WBGT). Here, we evaluated cognitive performance in two similar 28.6 °C WBGT-effective (WBGTeff) that were designed differently; using high or low levels of solar radiation. Eight soldiers were exposed to a virtual-reality environment in a climate chamber set to high (900 Wm−2) or low solar radiation conditions (300 Wm−2). Soldiers walked 3 x 30 min at 5 kmh−1. Cognitive performance was evaluated using a virtual-reality scenario and a computerised test battery. There was no statistically significant effect of condition on the cognitive tasks (p > 0.05). Associations were found between mean body temperature (Tb) and visual detection (P ≤ 0.01). Differences in solar radiation with similar WBGTeff (28.6 °C) do not cause large systematic differences in cognitive performance. Certain aspects of cognitive performance (i.e. response inhibition) seem to be partly associated with Tb rather than solar radiation. Practitioner summary: Cognitive performance was evaluated in two similar WBGT conditions that were designed differently; using high or low levels of solar radiation. Differences in solar radiation with similar WBGT do not cause systematic differences in cognitive performance. Certain aspects of cognition were partly associated with mean body temperature rather than solar radiation.
Topics
Cognitive performanceWBGTPhysiologyRadiation effectsVirtual realityBody temperatureClimate chambersCognitive performanceComputerized testsExposed toHeat strainsRadiation conditionTemperature conditionsVirtual-reality environmentWet-bulb globe temperaturesSolar radiationColdCold TemperatureHeat Stress DisordersHot TemperatureHumansSunlightTemperature
TNO Identifier
986865
Source
Ergonomics, 67(2), pp. 194-206.
Pages
194-206