The significance of chimpanzee occipital asymmetry to hominin evolution

Little is known about how occipital lobe asymmetry, width, and height interact to contrib-ute to the operculation of the posterior parietal lobe, despite the utility of knowing this for understanding the relative reduction in the size of the occipital lobe and the increase in the size of the posterior parietal lobe during human brain evolution. Here, we use linear measurements taken on 3D virtual brain surfaces obtained from 83 chimpanzees to study these traits as they apply to oper-culation of the posterior occipital parietal arcus or bridging gyrus. Asymmetry in this bridging gy-rus visibility provides a unique opportunity to study both the human ancestral and human equiva-lently normal condition in the same individual. Our results show that all three traits (occipital lobe asymmetry, width, and height) are related to this operculation and bridging gyrus visibility but width and not height is the best predictor, against expectations, suggesting that relative reduction of the occipital lobe and exposure of the posterior parietal is a complex phenomenon.