Decoding the Neural Impact of Radical Complexity in Chinese Characters
During Working Memory Task
- Hongli Li,
- Xin Zhao
Xin Zhao
Northwest Normal University
Corresponding Author:psyzhaoxin@nwnu.edu.cn
Author ProfileAbstract
Readers of Chinese characters need to recognize how they are formed in
order to identify them correctly. However, our understanding of the
cognitive processing of characters in working memory is limited. In
Experiment 1, using the character N-back task paradigm,
electrophysiological data were recorded from 26 participants to
investigate the effects of the visual feature of radicals on neural
activity during the character recognition, updating, and maintenance in
the N-back task. Results showed that compound characters required longer
response times than single-component characters. For the ERPs, the
compound character condition had more negative N2pc and lower P300
amplitudes than the single-component character condition. In Experiment
2, data from 26 participants were used to analyze the effect of the
phonological feature of radicals on neural activity during the character
recognition, updating, and maintenance in the N-back task. Results
showed that there was a larger P200 in the irregular character condition
than in the regular character condition, but there was no difference
between the regular and the irregular characters in the N2pc, P300, and
SW components. The visual feature and the phonological feature of the
radicals may have different effects on the character processing. This
study reveals the neural effects of Chinese character radicals on
cognitive processing in a working memory task and provides behavioral
and electrophysiological evidence for a theoretical model of verbal
working memory subprocesses.Submitted to European Journal of Neuroscience Submission Checks Completed
Assigned to Editor
Reviewer(s) Assigned
27 Jul 2024Review(s) Completed, Editorial Evaluation Pending
29 Jul 2024Editorial Decision: Accept