RT Journal Article SR Electronic T1 Unattended but actively stored: EEG dynamics reveal a dissociation between selective attention and storage in working memory JF bioRxiv FD Cold Spring Harbor Laboratory SP 320952 DO 10.1101/320952 A1 E. Gunseli A1 J. Fahrenfort A1 D. van Moorselaar A1 K. Daoultzis A1 M. Meeter A1 C. N. L. Olivers YR 2018 UL http://biorxiv.org/content/early/2018/11/19/320952.abstract AB Selective attention plays a prominent role in prioritizing information in working memory (WM), improving performance for attended representations. However, it remains unclear what the consequences of selection are for the maintenance of unattended WM representations, and whether this results in information loss. Here we tested the hypothesis that within WM, selectively attending to an item and the decision to stop storing other items involve independent mechanisms. We recorded EEG while participants performed a WM recall task in which the item most likely to be tested was cued retrospectively. By manipulating retro-cue reliability (i.e. the ratio of valid to invalid cue trials) we varied the incentive to retain uncued items. Contralateral alpha power suppression, a proxy for attention, indicated that, initially, the cued item was attended equally following high and low reliability cues, but attention was sustained throughout the delay period only after high reliability cues. Furthermore, contralateral delay activity (CDA), a proxy for storage, indicated that non-cued items were dropped sooner from WM after highly reliability cues than after cues with low reliability. These results show that attention and storage in WM are distinct processes that can behave differently depending on the relative importance of WM representations, as expressed in dissociable EEG signals.