Frontal sinus variation in large samples of extant species of the genera Pan, Gorilla and Homo

Frontal pneumatisation is not present in all primates, and among extant species, ethmoidally-derived frontal sinuses are present only in the genera Pan, Gorilla and Homo. A simple and repeatable method is described here to quantify variation in the shape, size and bilateral variation of the frontal sinuses. This has allowed the first large study of these variables, including analyses of large samples of P. paniscus, P. troglodytes, G. gorilla and of several geographically diverse populations of H. sapiens. Frontal sinus shape and size are potential phylogenetic markers in primate systematics. We suggest that, in contrast to an allometric relationship between endocranial and frontal sinus form in Pan and Gorilla, H. sapiens is autapomorphic in having highly variable, supero-inferiorly large frontal sinuses, whose size is unrestricted by variation in cranial form. However, we also describe differences in frontal pneumatisation between those taxa. H. sapiens differs from the other taxa in having relatively smaller frontal sinuses that are more variable in shape and size. In P. troglodytes, P. paniscus and G. gorilla, the shape and size of frontal pneumatisation correlates positively with the overall size of the braincase. This suggests that the large space available in the bone structures of the non-human primates analysed allows the sinuses to develop under only slight constraint (if any) from surrounding structures. In H. sapiens, a significant correlation is observed between the asymmetry in the anterior extension of the frontal lobes of the brain and the shape and extension of the frontal sinuses. We suggest that the more vertical orientation of the H. sapiens frontal bone, its reduced thickness, the reduction of the supraorbital tori and the increased influence of the frontal lobes appear to have modified the integration between the skull, brain and sinuses in the frontal region in our species compared to our nearest extant relatives. Our results reduce the possibility of a strong functional origin for the variation in size and shape of the frontal sinuses in the primates analysed

Frontal sinuses and human evolution

The frontal sinuses are cavities inside the frontal bone located at the junction between the face and the cranial vault and close to the brain. Despite a long history of study, understanding of their origin and variation through evolution is limited. This work compares most hominin species? holotypes and other key individuals with extant hominids. It provides a unique and valuable perspective of the variation in sinuses position, shape, and dimensions based on a simple and reproducible methodology. We also observed a covariation between the size and shape of the sinuses and the underlying frontal lobes in hominin species from at least the appearance of Homo erectus. Our results additionally undermine hypotheses stating that hominin frontal sinuses were directly affected by biomechanical constraints resulting from either chewing or adaptation to climate. Last, we demonstrate their substantial potential for discussions of the evolutionary relationships between hominin species. Variation in frontal sinus shape and dimensions has high potential for phylogenetic discussion when studying human evolution

Frontal sinuses and human evolution.

The frontal sinuses are cavities inside the frontal bone located at the junction between the face and the cranial vault and close to the brain. Despite a long history of study, understanding of their origin and variation through evolution is limited. This work compares most hominin species' holotypes and other key individuals with extant hominids. It provides a unique and valuable perspective of the variation in sinuses position, shape, and dimensions based on a simple and reproducible methodology. We also observed a covariation between the size and shape of the sinuses and the underlying frontal lobes in hominin species from at least the appearance of 'Homo erectus'. Our results additionally undermine hypotheses stating that hominin frontal sinuses were directly affected by biomechanical constraints resulting from either chewing or adaptation to climate. Last, we demonstrate their substantial potential for discussions of the evolutionary relationships between hominin species

Frontal sinus variation in extant species of the genera Pan, Gorilla and Homo

Frontal pneumatisation is not present in all primates, and among extant species, ethmoidally-derived frontal sinuses are present only in the genera Pan, Gorilla and Homo. A simple and repeatable method is described here to quantify variation in the shape, size and bilateral variation of the frontal sinuses. This has allowed the first large study of these variables, including analyses of large samples of P. paniscus, P. troglodytes, G. gorilla and of several geographically diverse populations of H. sapiens. Frontal sinus shape and size are potential phylogenetic markers in primate systematics. We suggest that, in contrast to an allometric relationship between endocranial and frontal sinus form in Pan and Gorilla, H. sapiens is autapomorphic in having highly variable, supero-inferiorly large frontal sinuses, whose size is unrestricted by variation in cranial form. However, we also describe differences in frontal pneumatisation between those taxa. H. sapiens differs from the other taxa in having relatively smaller frontal sinuses that are more variable in shape and size. In P. troglodytes, P. paniscus and G. gorilla, the shape and size of frontal pneumatisation correlates positively with the overall size of the braincase. This suggests that the large space available in the bone structures of the non-human primates analysed allows the sinuses to develop under only slight constraint (if any) from surrounding structures. In H. sapiens, a significant correlation is observed between the asymmetry in the anterior extension of the frontal lobes of the brain and the shape and extension of the frontal sinuses. We suggest that the more vertical orientation of the H. sapiens frontal bone, its reduced thickness, the reduction of the supraorbital tori and the increased influence of the frontal lobes appear to have modified the integration between the skull, brain and sinuses in the frontal region in our species compared to our nearest extant relatives. Our results reduce the possibility of a strong functional origin for the variation in size and shape of the frontal sinuses in the primates analysed