Alpha oscillations reflect suppression of distractors with increased perceptual load

Tjerk P. Gutteling, Lonieke Sillekens, Nilli Lavie, Ole Jensen

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Abstract

Attention serves an essential role in cognition and behavior allowing us to focus on behaviorally-relevant objects while ignoring distraction. Perceptual load theory states that attentional resources are allocated according to the requirements of the task, i.e., its ‘load’. The theory predicts that the resources left to process irrelevant, possibly distracting stimuli, are reduced when the perceptual load is high. However, it remains unclear how this allocation of attentional resources specifically relates to neural excitability and suppression mechanisms. In this magnetoencephalography (MEG) study, we show that brain oscillations in the alpha band (8–13 Hz) implemented the suppression of distracting objects when the perceptual load was high. In parallel, high load increased the neuronal excitability for target objects, as reflected by rapid invisible frequency tagging. We suggest that the allocation of resources in tasks with high perceptual load is implemented by a gain increase for targets, complemented by distractor suppression reflected by alpha-band oscillations closing the ‘gate’ for interference.
Original languageEnglish
Article number102285
JournalProgress in neurobiology
Volume214
Early online date6 May 2022
DOIs
Publication statusPublished - 1 Jul 2022

Keywords

  • Alpha oscillations
  • Attention
  • Inhibition
  • MEG
  • Perceptual load

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