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Reward and Efficacy Modulate the Rate of Anticipatory Pupil Dilation
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  • Joshua Eayrs,
  • Haya Tobing,
  • Susanne Steendam,
  • Nicoleta Prutean,
  • Wim Notebaert,
  • Roeljan Wiersema,
  • Ruth Krebs,
  • Carsten Boehler
Joshua Eayrs
Liverpool John Moores University

Corresponding Author:[email protected]

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Haya Tobing
KU Leuven
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Susanne Steendam
Ghent University
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Nicoleta Prutean
Ghent University
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Wim Notebaert
Ghent University
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Roeljan Wiersema
Ghent University
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Ruth Krebs
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Carsten Boehler
Universiteit Gent
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Abstract

Pupil size is a well-established marker of the level of cognitive effort, with greater efforts leading to larger pupils. This is particularly true for pupil size during task performance itself, whereas findings on anticipatory effort triggered by a cue stimulus are less consistent. For example, a recent report by Frömer et al. (2021) found that in a cued Stroop task, behavioural performance and electrophysiological markers of preparatory effort allocation were modulated by cued reward and ‘efficacy’ (the degree to which rewards depended on good performance), but pupil size did not show a comparable pattern. Here, we conceptually replicated this study in a pupillometry study. In line with previous findings, we found no modulation of absolute pupil size in the cue-to-target interval. Instead, we observed a significant difference in the rate of pupil dilation in anticipation of the target: Pupils dilated more rapidly for high-reward trials in which rewards depended on good performance. This was followed by a significant difference in absolute pupil size within the first hundreds of milliseconds following Stroop stimulus onset, likely reflecting a lagging effect of anticipatory effort allocation. Finally, the slope of pupil dilation was significantly correlated with behavioural response times, and this association was strongest for the high-reward, high-efficacy trials, further supporting that the rate of anticipatory pupil dilation reflects anticipatory effort. We conclude that pupil size is modulated by anticipatory effort, but in a highly temporally-specific manner, which is best reflected by the rate of dilation in the moments just prior to stimulus onset.
16 Sep 2024Submitted to Psychophysiology
17 Sep 2024Submission Checks Completed
17 Sep 2024Assigned to Editor
17 Sep 2024Review(s) Completed, Editorial Evaluation Pending
29 Sep 2024Reviewer(s) Assigned
21 Oct 2024Editorial Decision: Revise Minor