Combined attention controls complex behavior by suppressing unlikely events

• Published in: Brain and cognition Vol. 120; pp. 17 - 25
• Main Authors: Blair, Christopher D., Ristic, Jelena
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 01.02.2018; Elsevier Science
• Subjects: Alpha frequency; Attention; Behavior; EEG; Enterprise resource planning; Event-related potentials; Information processing; Sensory integration; Sensory processing; Studies; Behavior; Alpha frequency; Sensory processing; EEG; Attention
• ISSN: 0278-2626; 1090-2147
• DOI: 10.1016/j.bandc.2017.12.001

•Combined attention leads to interactive effects in early sensory processing.•Combined attention facilitates behavior by suppression of unexpected events.•Combined attention effects are better represented by alpha frequency than P1 activity. Attention enables behavior by modulating both sensory inputs and task goals. Combining attentional resources from both of those sources exerts qualitatively large effects on manual performance. Here we tested how combined attention was represented in sensory processing, as reflected by the P1 component and associated activity in the alpha band. We measured performance and recorded EEG while participants’ attention was engaged in an automated, endogenous, and combined (i.e., automated and endogenous) manner. Behavioral results replicated past reports with reliable effects of isolated automated and endogenous attention, as well as their qualitatively unique combined effect. ERP analyses indicated expected increases in P1 amplitude for validly relative to invalidly cued targets in automated and endogenous conditions. However, in the combined case, the P1 difference between validly relative to invalidly cued targets decreased. Analyses of target-locked alpha-band further revealed that this condition was associated with an increased synchrony in the alpha frequency for invalidly cued targets. This suggests that the large performance benefit observed when attentional systems combine is partly driven by suppressed processing of unexpected targets, dovetailing with the notion that in addition to increasing sensory gain of attended targets, attention may also modulate complex behavior by increasing suppression of unattended ones.