The Flexibility of Working Memory in Drawing on Episodic Long-Term Memory Representations in Serial Recall

The Flexibility of Working Memory in Drawing on Episodic Long-Term Memory Representations in Serial Recall

Prior episodic long-term memory (LTM) can enhance working memory (WM) by improving recall of WM representations that match pre-learnt information and by freeing up capacity for new information. In this study, we investigated the flexibility of WM in doing so. Specifically, we tested whether WM can m...

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Bibliographic Details
Main Authors: Ana Rodriguez, Philipp Musfeld, Lea M. Bartsch
Format: Article
Language:English
Published: Ubiquity Press 2025-07-01
Series:Journal of Cognition
Subjects:
long-term memory
working memory
serial recall
encoding structure
Online Access:https://account.journalofcognition.org/index.php/up-j-jc/article/view/451
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Summary:Prior episodic long-term memory (LTM) can enhance working memory (WM) by improving recall of WM representations that match pre-learnt information and by freeing up capacity for new information. In this study, we investigated the flexibility of WM in doing so. Specifically, we tested whether WM can make use of pre-learnt item-item associations in a serial recall task, which typically requires the formation of item-positional bindings. We examined whether any benefits arise from accessing full episodic representations or from item activation, and assess whether the observed benefits are best explained by compression accounts during encoding (e.g., chunking, offloading) or by redintegration at test. Furthermore, we tested whether the benefits for pre-learnt and novel words depended on the position within the lists. Across three experiments, we consistently found that incorporating pre-learnt word pairs into a serial recall task facilitated immediate memory for words that matched pre-learnt representations – speaking against an item activation account. However, the benefit on new words within lists that included pre-learnt pairs depended on whether the words could be easily submitted to encoding strategies, such as chunking or offloading, which was facilitated by providing matching grouping structures during encoding. Overall, our results expand our understanding of how prior experiences can benefit WM processes, demonstrating that such benefits mainly result from the retrieval of prior episodes, rather than enhanced item activation in episodic memory.
ISSN:2514-4820

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