From spatial construction to mathematics: exploring the mediating role of visuospatial working memory

This study examined the longitudinal pathways from early spatial skills at 5 and 7 years to their mathematics reasoning abilities at 17 years in a large cohort sample (N = 16,338) from the Millennium Cohort Study. Children were assessed at four time points: Sweep 3 (M_age = 5.29), Sweep 4 (M_age = 7.23), Sweep 5 (M_age = 11.17), and Sweep 7 (M_age = 17.18), with measures including spatial construction skills, visuospatial working memory, mathematics achievement, and mathematics reasoning skills. Path analyses revealed that spatial construction at age 5 directly predicted mathematics achievement at age 7 after accounting for sex, age, socioeconomic status, vocabulary, and nonverbal reasoning ability. Furthermore, spatial construction at 5 and 7 years was directly associated with mathematics reasoning skills at 17, and spatial working memory at age 11 partially mediated this relationship. Notably, the direct effects of spatial construction on mathematics reasoning at age 17 remained significant and robust after accounting for the mediator and covariates. These findings highlight the potential value of early spatial construction skills as predictors of subsequent mathematical development over the long term.