Reconstructing cranial evolution in an extinct hominin

Homo erectus is the first hominin species with a truly cosmopolitan distribution and resembles recent humans in its broad spatial distribution. The microevolutionary events associated with dispersal and local adaptation may have produced similar population structure in both species. Understanding the evolutionary population dynamics of H. erectus has larger implications for the emergence of later Homo lineages in the Middle Pleistocene. Quantitative genetics models provide a means of interrogating aspects of long-standing H. erectus population history narratives. For the current study, cranial fossils were sorted into six major palaeodemes from sites across Africa and Asia spanning 1.8-0.1 Ma. Three-dimensional shape data from the occipital and frontal bones were used to compare intraspecific variation and test evolutionary hypotheses. Results indicate that H. erectus had higher individual and group variation than Homo sapiens, probably reflecting different levels of genetic diversity and population history in these spatially disperse species. This study also revealed distinct evolutionary histories for frontal and occipital bone shape in H. erectus, with a larger role for natural selection in the former. One scenario consistent with these findings is climate-driven facial adaptation in H. erectus, which is reflected in the frontal bone through integration with the orbits.

Automated summary

Homo erectus, the first hominin species with a truly global distribution resembling recent humans, may have similar population structures to Homo sapiens due to microevolutionary events associated with dispersal and local adaptation. Homo erectus exhibits higher individual and group variation compared to Homo sapiens, likely reflecting different levels of genetic diversity and population history in these spatially disperse species. Additionally, distinct evolutionary histories for frontal and occipital bone shape in Homo erectus suggest a larger role for natural selection in the former, potentially driven by climate-induced facial adaptation.