%0 Generic %A I., Ilieş %A M.L., Muscedere %A J.F.A., Traniello %D 2015 %T Supplementary Material for: Neuroanatomical and Morphological Trait Clusters in the Ant Genus Pheidole: Evidence for Modularity and Integration in Brain Structure %U https://karger.figshare.com/articles/dataset/Supplementary_Material_for_Neuroanatomical_and_Morphological_Trait_Clusters_in_the_Ant_Genus_b_i_Pheidole_i_b_Evidence_for_Modularity_and_Integration_in_Brain_Structure/5127427 %R 10.6084/m9.figshare.5127427.v1 %2 https://ndownloader.figshare.com/files/8715172 %K Morphology %K Trait clusters %K Pheidole %K Modularity %K Integration %K Social brain %K Neuroecology %K Caste evolution %K Principal components %K Conditional independence %X A central question in brain evolution concerns how selection has structured neuromorphological variation to generate adaptive behavior. In social insects, brain structures differ between reproductive and sterile castes, and worker behavioral specializations related to morphology, age, and ecology are associated with intra- and interspecific variation in investment in functionally different brain compartments. Workers in the hyperdiverse ant genus Pheidole are morphologically and behaviorally differentiated into minor and major subcastes that exhibit distinct species-typical patterns of brain compartment size variation. We examined integration and modularity in brain organization and its developmental patterning in three ecotypical Pheidole species by analyzing intra- and interspecific morphological and neuroanatomical covariation. Our results identified two trait clusters, the first involving olfaction and social information processing and the second composed of brain regions regulating nonolfactory sensorimotor functions. Patterns of size covariation between brain compartments within subcastes were consistent with levels of behavioral differentiation between minor and major workers. Globally, brains of mature workers were more heterogeneous than brains of newly eclosed workers, suggesting diversified developmental trajectories underscore species- and subcaste-typical brain organization. Variation in brain structure associated with the striking worker polyphenism in our sample of Pheidole appears to originate from initially differentiated brain templates that further diverge through species- and subcaste-specific processes of maturation and behavioral development. %I Karger Publishers