Human Brain Evolution Writ Large and Small
Progress in Brain Research
pyramidal neuron, cortical area, chimpanzee, great ape
Biological and Physical Anthropology | Neuroscience and Neurobiology
Human evolution was marked by an extraordinary increase in total brain size relative to body size. While it is certain that increased encephalization is an important factor contributing to the origin of our species-specific cognitive abilities, it is difficult to disentangle which aspects of human neural structure and function are correlated by-products of brain size expansion from those that are specifically related to particular psychological specializations, such as language and enhanced "mentalizing" abilities. In this chapter, we review evidence from allometric scaling studies demonstrating that much of human neocortical organization can be understood as a product of brain enlargement. Defining extra-allometric specializations in humans is often hampered by a severe lack of comparative data from the same neuroanatomical variables across a broad range of primates. When possible, we highlight evidence for features of human neocortical architecture and function that cannot be easily explained as correlates of brain size and, hence, might be more directly associated with the evolution of uniquely human cognitive capacities.
Sherwood, Chet C.; Bauernfeind, Amy L.; Bianchi, Serena; Raghanti, Mary Ann; and Hof, Patrick R. (2012). Human Brain Evolution Writ Large and Small. Progress in Brain Research 195, 237-254. doi: 10.1016/B978-0-444-53860-4.00011-8 Retrieved from https://digitalcommons.kent.edu/anthpubs/80