Abstract
Visual working memory can be modulated according to changes in the cued task relevance of maintained items. Here, we investigated the mechanisms underlying this modulation. In particular, we studied the consequences of attentional selection for selected and unselected items, and the role of individual differences in the efficiency with which attention is deployed. To this end, performance in a visual working memory task as well as the CDA/SPCN and the N2pc, ERP components associated with visual working memory and attentional processes, were analysed. Selection during the maintenance stage was manipulated by means of two successively presented retrocues providing spatial information as to which items were most likely to be tested. Results show that attentional selection serves to robustly protect relevant representations in the focus of attention while unselected representations which may become relevant again still remain available. Individuals with larger retrocueing benefits showed higher efficiency of attentional selection, as indicated by the N2pc, and showed stronger maintenance-associated activity (CDA/SPCN). The findings add to converging evidence that focused representations are protected, and highlight the flexibility of visual working memory, in which information can be weighted according its relevance.
Highlights
Attention and working memory have for a long time been studied as distinct domains
The results replicated the benefits observed in the present experiment: Performance was best in the Hold condition (81.18 ± 1.9), followed by Add1 (78.97 ± 1.6), the Add2 (75.13 ± 1.2) and the neutral condition (74.61 ± 1.8)
These findings indicate that the retrocueing benefits observed in the present experiment were not driven by the lateralized aspects of the retrocues, but were the result of the voluntary focusing of attention onto representations maintained in visual working memory (VWM)
Summary
Attention and working memory have for a long time been studied as distinct domains. Systematic investigations of their interrelations have revealed substantial overlap [1,2,3,4,5] with bidirectional influences [3,6]. The attentional modulation of maintenance in visual working memory (VWM) is investigated. VWM is the system that allows us to maintain and manipulate visual information, thereby enabling us to interact with our immediate environment. As our environment and our goals are constantly changing, information permanently gains or loses relevance. A mechanism for dynamically modulating the information that is maintained in PLOS ONE | DOI:10.1371/journal.pone.0154228. A mechanism for dynamically modulating the information that is maintained in PLOS ONE | DOI:10.1371/journal.pone.0154228 April 21, 2016
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