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Publication
Neural mechanisms of learned suppression uncovered by probing the hidden attentional priority map
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Advisor(s)
Abstract(s)
Attentional capture by an irrelevant salient distractor is attenuated when the distractor
appears more frequently in one location, suggesting learned suppression of that location. However,
it remains unclear whether suppression is proactive (before attention is directed) or reactive (after
attention is allocated). Here, we investigated this using a ‘pinging’ technique to probe the attentional distribution before search onset. In an EEG experiment, participants searched for a shape
singleton while ignoring a color singleton distractor at a high-probability location. To reveal the
hidden attentional priority map, participants also performed a continuous recall spatial memory task,
with a neutral placeholder display presented before search onset. Behaviorally, search was more
efficient when the distractor appeared at the high-probability location. Inverted encoding analysis
of EEG data showed tuning profiles that decayed during memory maintenance but were revived by
the placeholder display. Notably, tuning was most pronounced at the to-be-suppressed location,
suggesting initial spatial selection followed by suppression. These findings suggest that learned
distractor suppression is a reactive process, providing new insights into learned spatial distractor
suppression mechanisms.
Description
Keywords
Citation
Huang, C., van Moorselaar, D., Donk, M., Theeuwes, J., & Foster, J. (2025). Neural mechanisms of learned suppression uncovered by probing the hidden attentional priority map. ELife, 13. https://doi.org/10.7554/eLife.98304
Publisher
eLife Sciences Publications