TY - JOUR T1 - Neurocognitive reorganization between crystallized intelligence, fluid intelligence and white matter microstructure in two age-heterogeneous developmental cohorts JF - bioRxiv DO - 10.1101/593509 SP - 593509 AU - Ivan L. Simpson-Kent AU - Delia Fuhrmann AU - Joe Bathelt AU - Jascha Achterberg AU - Gesa Sophia Borgeest AU - the CALM Team AU - Rogier A. Kievit Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/03/31/593509.abstract N2 - Despite the reliability of intelligence measures in predicting important life outcomes such as educational achievement and mortality, the exact configuration and neural correlates of cognitive abilities remain poorly understood, especially in childhood and adolescence. Therefore, we sought to elucidate the factorial structure and neural substrates of child and adolescent intelligence using two cross-sectional, developmental samples (CALM: N=551, age range: 5-18 years, NKI: N=337, age range: 6-18 years). In a preregistered analysis, we used structural equation modelling (SEM) to examine the neurocognitive architecture of individual differences in childhood and adolescent cognitive ability. In both samples, we found that cognitive ability in lower and typical-ability cohorts is best understood as two separable constructs, crystallized and fluid intelligence, which became more distinct across development. Further analyses revealed that white matter microstructure, most prominently the superior longitudinal fasciculus, was strongly associated with crystallized (gc) and fluid (gf) abilities. Finally, we used SEM trees to demonstrate evidence for age differentiation-dedifferentiation of gc and gf and their white matter substrates such that the relationships among these factors dropped between 7-8 years before increasing around age 10. Together, our results suggest that shortly before puberty marks a pivotal phase of change in the neurocognitive architecture of intelligence. ER -