Abstract
The extent to which a nasal whiff of scent can exogenously orient visual spatial attention remains poorly understood in humans. In a series of seven studies, we investigated the existence of an exogenous capture of visual spatial attention by purely trigeminal (i.e., CO2) and both olfactory and trigeminal stimuli (i.e., eucalyptol). We chose these stimuli because they activate the trigeminal system which can be considered as an alert system and are thus supposedly relevant for the individual, and thus prone to capture attention. We used them as lateralized cues in a variant of a visual spatial cueing paradigm. In valid trials, trigeminal cues and visual targets were presented on the same side whereas in invalid trials they were presented on opposite sides. To characterize the dynamics of the cross-modal attentional capture, we manipulated the interval between the onset of the trigeminal cues and the visual targets (from 580 to 1870 ms). Reaction times in trigeminal valid trials were shorter than all other trials, but only when this interval was around 680 or 1170 ms for CO2 and around 610 ms for eucalyptol. This result reflects that both pure trigeminal and olfactory-trigeminal stimuli can exogenously capture humans' spatial visual attention. We discuss the importance of considering the dynamics of this cross-modal attentional capture.
Highlights
IntroductionThis has been demonstrated in insects [1], fishes [2], birds [3] and in mammals (e.g., mice [4]; rats [5]; or dogs [6])
Data Availability Statement: All the data upon which the statistical analyses were performed are available at: https://osf.io/6vpzh/?view_only= ef734433920c41bb84da239ed798f8db#show_login.Many species display odor-guided spatial navigation
A first piece of evidence suggests that this result could be found when using olfactorytrigeminal stimuli as cues and visual stimuli as targets. Using these cues and targets, Wudarczyk and colleagues [36] showed that, participants were not statistically faster for valid trials than for invalid ones, they were more accurate in the valid condition than in the invalid one. These results suggest that lateralized trigeminal cues can influence visual spatial attention
Summary
This has been demonstrated in insects [1], fishes [2], birds [3] and in mammals (e.g., mice [4]; rats [5]; or dogs [6]). After being disoriented, they can find their way back to a location based only on chemical stimuli [11]. Can this spatial information be exogenously extracted and used
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