Hemispheric asymmetries in the activation and monitoring of memory errors

Abstract

Previous research on the lateralization of memory errors suggests that the right hemisphere’s tendency to produce more memory errors than the left hemisphere reflects hemispheric differences in semantic activation. However, all prior research that has examined the lateralization of memory errors has used self-paced recognition judgments. Because activation occurs early in memory retrieval, with more time to make a decision, other memory processes, like strategic monitoring processes, may affect memory errors. By manipulating the time subjects were given to make memory decisions, this study separated the influence of automatic memory processes (activation) from strategic memory processes (monitoring) on the production of false memories. The results indicated that when retrieval was fast, the right hemisphere produced more memory errors than the left hemisphere. However, when retrieval was slow, the left hemisphere’s error-proneness increased compared to the fast retrieval condition, while the right hemisphere’s error-proneness remained the same. These results suggest that the right hemisphere’s errors are largely due to activation, while the left hemisphere’s errors are influenced by both activation and monitoring.