TY - JOUR T1 - Neural and Behavioral Evidence for an Online Resetting Process in Visual Working Memory JF - The Journal of Neuroscience JO - J. Neurosci. DO - 10.1523/JNEUROSCI.2789-16.2016 SP - 2789-16 AU - Halely Balaban AU - Roy Luria Y1 - 2016/12/23 UR - http://www.jneurosci.org/content/early/2016/12/23/JNEUROSCI.2789-16.2016.abstract N2 - Visual working memory (VWM) guides behavior by holding a set of active representations and modifying them according to changes in the environment. This updating process relies on a unique mapping between each VWM representation and an actual object in the environment. Here, we destroyed this mapping, either by presenting a coherent object but then breaking it into independent parts, or by presenting an object but then abruptly replacing it with a different object. This allowed us to introduce the neural marker and behavioral consequence of an online resetting process in humans' VWM. Across 7 experiments, we demonstrate that this resetting process involves abandoning the old VWM contents, since they no longer correspond to the objects in the environment. Then, VWM encodes the novel information, and re-establishes the correspondence between the new representations and the objects. The resetting process was marked by a unique neural signature: a sharp drop in the amplitude of the electrophysiological index of VWM contents (the contralateral delay activity), presumably indicating the loss of the existent object-to-representation mappings. This marker was missing when an updating process occurred. Moreover, when tracking moving items VWM failed to detect salient changes in the object's shape when these changes occurred during the resetting process. This happened despite the object being fully visible, presumably because the mapping between the object and a VWM representation was lost. Importantly, we show that resetting, its neural marker, and the behavioral cost it entails, are specific to situations that involve a destruction of the objects-to-representations correspondence. [highlight]Significance statement[/highlight]Visual working memory (VWM) maintains task-relevant information in an online state. Previous studies showed that VWM representations are accessed and modified following changes in the environment. Here, we show that this updating process critically depends on an ongoing mapping between the representations and the objects in the environment. When this mapping breaks, VWM cannot access the old representations, and instead resets. The novel resetting process we introduce removes the existing representations, instead of modifying them, and this process is accompanied by a unique neural marker. During the resetting process VWM was blind to salient changes in the object's shape. The resetting process highlights the flexibility of our cognitive system in handling the dynamic environment, by abruptly abandoning irrelevant schemas. ER -