Abstract
We examine the relations of verbal and spatial working memory (WM) ability to the neural bases of arithmetic in school-age children. We independently localize brain regions subserving verbal versus spatial representations. For multiplication, higher verbal WM ability is associated with greater recruitment of the left temporal cortex, identified by the verbal localizer. For multiplication and subtraction, higher spatial WM ability is associated with greater recruitment of right parietal cortex, identified by the spatial localizer. Depending on their WM ability, children engage different neural systems that manipulate different representations to solve arithmetic problems.
ACKNOWLEDGMENTS
We thank Ilaria Berteletti for her comments on an earlier version of the article, and John V. Binzak and Rachna Mutreja for their assistance in data collection. We thank all participating children and their parents.