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BRIEF REPORT

Anxious mood narrows attention in feature space

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Pages 668-677 | Received 22 Jul 2013, Accepted 06 May 2014, Published online: 05 Jun 2014
 

Abstract

Spatial attention can operate like a spotlight whose scope can vary depending on task demands. Emotional states contribute to the spatial extent of attentional selection, with the spotlight focused more narrowly during anxious moods and more broadly during happy moods. In addition to visual space, attention can also operate over features, and we show here that mood states may also influence attentional scope in feature space. After anxious or happy mood inductions, participants focused their attention to identify a central target while ignoring flanking items. Flankers were sometimes coloured differently than targets, so focusing attention on target colour should lead to relatively less interference. Compared to happy and neutral moods, when anxious, participants showed reduced interference when colour isolated targets from flankers, but showed more interference when flankers and targets were the same colour. This pattern reveals that the anxious mood caused these individuals to attend to the irrelevant feature in both cases, regardless of its benefit or detriment. In contrast, participants showed no effect of colour on interference when happy, suggesting that positive mood did not influence attention in feature space. These mood effects on feature-based attention provide a theoretical bridge between previous findings concerning spatial and conceptual attention.

The authors thank Satoru Suzuki and Marcia Grabowecky for valuable advice and Mark Schurgin for collecting data in Experiment 2. Data from Experiment 1 were included as part of a doctoral dissertation received by the first author. This work was supported by National Science Foundation Faculty Early Career Development (CAREER) Program award [grant number BCS-1056730 to S.F.]

The authors thank Satoru Suzuki and Marcia Grabowecky for valuable advice and Mark Schurgin for collecting data in Experiment 2. Data from Experiment 1 were included as part of a doctoral dissertation received by the first author. This work was supported by National Science Foundation Faculty Early Career Development (CAREER) Program award [grant number BCS-1056730 to S.F.]

Supplemental data

Supplementary Tables and Figure are available via the “Supplementary” tab on the article's online page (http://dx.doi.org/10.1080/02699931.2014.922933).

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