Abstract
ABSTRACT In the present study, we investigated whether differences in spatial working memory (SWM) abilities – assessed through the Corsi block task (CBT) – impact the processes of mental rotation (MR) engaged during a classic letter rotation task. Based on the median split of their scores in the CBT, participants were divided into a higher and a lower SWM group. Behavioral and electrophysiological data were recorded while participants completed the MR task and were compared across groups. Higher error rates were observed in individuals with lower than higher SWM scores, while no RT differences emerged. Systematic group differences were observed before and during the MR process of canonical letters. A delayed onset of the event-related potential (ERP) rotation-related negativity (RRN), a reliable psychophysiological marker for MR processes, was observed in the lower SWM group for all rotation angles, suggesting that a longer time is needed to generate a mental representation of familiar stimuli in individuals with lower SWM scores. Furthermore, a delayed RRN offset indicating the end of the MR process and longer RRN durations suggesting longer MR processes were found for letters with larger rotation angles (i.e. 120°, 150°) in individuals with lower SWM scores on canonical character trials. These observed group differences provided evidence for the debated issue of the interaction between SWM and MR, suggesting that SWM plays a role in both the initial phase to generate the mental representation of familiar objects and during the MR process, especially for larger angles.
Published Version
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