Abstract

The characteristics of acquiring new sequence information under dual-task situations have been extensively studied. A concurrent task has often been found to affect performance. In real life, however, we mostly perform a secondary task when the primary task is already well acquired. The effect of a secondary task on the ability to retrieve well-established sequence representations remains elusive. The present study investigates whether accessing well-acquired probabilistic sequence knowledge is affected by a concurrent task. Participants acquired non-adjacent regularities in an implicit probabilistic sequence learning task. After a 24-hour offline period, participants were tested on the same probabilistic sequence learning task under dual-task or single-task conditions. Here, we show that although the secondary task significantly prolonged the overall reaction times in the primary (sequence learning) task, access to the previously learned probabilistic representations remained intact. Our results highlight the importance of studying the dual-task effect not only in the learning phase but also during memory access to reveal the robustness of the acquired skill.

Highlights

  • Sequence learning is a fundamental function of the brain that underlies the acquisition of motor, cognitive, and social skills [1,2,3,4]

  • We aimed to investigate the effects of a concurrent secondary task on retrieving implicit probabilistic sequence knowledge with non-adjacent dependencies

  • We focused on the analysis of reaction times (RTs), as previous similar Alternating Serial Reaction Time (ASRT) studies have observed ceiling effects in accuracy [28]

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Summary

Introduction

Sequence learning is a fundamental function of the brain that underlies the acquisition of motor, cognitive, and social skills [1,2,3,4]. These skilled actions, such as driving a car or playing sports, usually become automatic with extensive practice. Evidence for impaired [5,6,7,8,9,10,11], intact [4, 7, 9, 12, 13], or even improved performance [6] was found during the acquisition of implicit sequence knowledge.

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