Many biological structures that interact in development and/or function tend to
evolve in a concertedly fashion and thus become integrated forming modules. The two
most prominent modules of the mammalian cranium are the cerebral capsule (i.e., the
neurocranium) and the face (i.e., the splanchnocranium), as inferred from both
developmental processes and functional reasons. The relative importance of both cranial
complexes was estimated here by means of their relative sizes, which were measured in
the five extant hominoid species and also in a huge sample of extinct hominins using six
standard cranial measurements as proxies of the length, width, and height of each cranial
module. Several two-block partial least-squares analyses (2B-PLS) were performed for
adults of the extant and extinct species using size standardized and non-standardized
variables, as well as pooled and non-pooled within-species correlation matrices. When no
size standardization was performed, pooled and non pooled within-species analyses
showed a common pattern of developmental integration for all living hominoid species,
on the one hand, and very different patterns of evolutionary integration, on the other, in
which each species exhibited a distinct relationship between the relative sizes of their
modules. On the contrary, when cranial size was removed, ontogenetic and evolutionary
integration run in the same direction, which indicates that the relative sizes of the
splanchnocranium and the neurocranium relate inversely both within and between
species. Australopiths, the extinct representatives of the genus Homo and the anatomical
modern humans (AMH) seem to lie in a different trend than the great apes, although the
pattern of covariation between their cranial modules is basically the same. This difference
suggests that a great ape cannot reach the morphology of an AMH simply by increasing
the size of its neurocranium. Similarly, an AMH cannot be transformed to the
face/neurocranium proportions of an ape simply by reducing its neurocranium. We thank
the Universidad de Malaga. Campus de Excelencia Internacional Andalucia Tech and the
Ministerio de Ciencia e Innovacion (Ref. CGL2011-30334).