2 research outputs found
Delayed onsets are not necessary for generating distractor quitting thresholds effects in visual search
Acknowledgments This research is supported by a National Sciences and Engineering Research Council of Canada grant awarded to J.P (2016-06359). Open Access funding enabled and organized by CAUL and its Member InstitutionsPeer reviewedPublisher PD
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Exploring the physiological, neurophysiological and cognitive performance effects of elevated carbon dioxide concentrations indoors
Rationale: An accumulation of CO2 in occupied indoor spaces is correlated to negative impacts on
concentration, sleepiness and aspects of cognitive performance. However factors such as: (a) the
relative effect of CO2 itself compared to other pollutants; (b) the minimum necessary exposure time
for cognitive performance to be affected; and (c) the physiological drivers of cognitive performance
reductions due to increased indoor CO2 concentrations are not yet clear. Method: A within-subjects
counterbalanced study design was used to test cognitive performance, subjective and physiological
parameters of 31 volunteers during short (< 40 minutes) exposures to normal CO2 (830 ppm) and high
CO2 (2,700 ppm, raised by introducing pure CO2 alongside the occupant generated CO2). The study
was conducted in a small naturally ventilated office and EEG was used as an objective indicator of
sleepiness. Results: The addition of pure CO2 to the room resulted in the absence of an expected
learning effect in two cognitive performance test battery components without measurably affecting
any of the physiological, psychological, or reported comfort, sick building syndrome and health
variables measured. However participants who had slept less the previous night appeared more
susceptible to becoming sleepier as a result of the increased CO2. Contributions: The results suggest
(1) the addition of pure CO2 may influence aspects of cognitive performance after only short
exposures (2) these changes occur in the absence of clear physiological drivers, (3) lack of sleep may mediate people鈥檚 response to higher CO2 concentration