Frontiers in Psychology (Mar 2020)

An Electrophysiological Dissociation of Encoding vs. Maintenance Failures in Visual-Spatial Working Memory

  • Jutta S. Mayer,
  • Jutta S. Mayer,
  • Sebastian Korinth,
  • Benjamin Peters,
  • Benjamin Peters,
  • Christian J. Fiebach,
  • Christian J. Fiebach

DOI
https://doi.org/10.3389/fpsyg.2020.00522
Journal volume & issue
Vol. 11

Abstract

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Working memory (WM) performance varies substantially among individuals but the precise contribution of different WM component processes to these functional limits remains unclear. By analyzing different types of responses in a spatial WM task, we recently demonstrated a functional dissociation between confident and not-confident errors reflecting failures of WM encoding and maintenance, respectively. Here, we use event-related brain potentials to further explore this dissociation. Healthy participants performed a delayed orientation-discrimination task and rated their response confidence for each trial. The encoding-related N2pc component was significantly reduced for confident errors compared to confident correct responses, which is indicative of an encoding failure. In contrast, the maintenance-related contra-lateral delay activity was similar for these response types indicating that in confident error trials, WM representations – potentially the wrong ones – were maintained accurately and with stability throughout the delay interval. However, contra-lateral delay activity measured during the early part of the delay period was decreased for not-confident errors, potentially reflecting compromised maintenance processes. These electrophysiological findings contribute to a refined understanding of the encoding and maintenance processes that contribute to limitations in WM performance and capacity.

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