Relationship between foramen magnum position and locomotion in extant and extinct hominoids

International audienceFrom the Miocene Sahelanthropus tchadensis to Pleistocene Homo sapiens, hominins are characterized by a derived anterior position of the foramen magnum relative to basicranial structures. It has been previously suggested that the anterior position of the foramen magnum in hominins is related to bipedal locomotor behavior. Yet, the functional relationship between foramen magnum position and bipedal locomotion remains unclear. Recent studies, using ratios based on cranial linear measurements, have found a link between the anterior position of the foramen magnum and bipedalism in several mammalian clades: marsupials, rodents, and primates. In the present study, we compute these ratios in a sample including a more comprehensive dataset of extant hominoids and fossil hominins. First, we verify if the values of ratios can distinguish extant humans from apes. Then, we test whether extinct hominins can be distinguished from non-bipedal extant hominoids. Finally, we assess if the studied ratios are effective predictors of bipedal behavior by testing if they mainly relate to variation in foramen magnum position rather than changes in other cranial structures. Our results confirm that the ratios discriminate between extant bipeds and non-bipeds. However, the only ratio clearly discriminating between fossil hominins and other extant apes is that which only includes basicranial structures. We show that a large proportion of the interspecific variation in the other ratios relates to changes in facial, rather than basicranial, structures. In this context, we advocate the use of measurements based only on basicranial structures when assessing the relationship between foramen magnum position and bipedalism in future studies

The mark of captivity: plastic responses in the ankle bone of a wild ungulate (Sus scrofa)

International audienceDeciphering the plastic (non-heritable) changes induced by human control over wild animals in the archaeological record is challenging. We hypothesized that changes in locomotor behaviour in a wild ungulate due to mobility control could be quantified in the bone anatomy. To test this, we experimented with the effect of mobility reduction on the skeleton of wild boar (Sus scrofa), using the calcaneus shape as a possible © 2020 The Authors. Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited. phenotypic marker. We first assessed differences in shape variation and covariation in captive-reared and wild-caught wild boars, taking into account differences in sex, body mass, available space for movement and muscle force. This plastic signal was then contrasted with the phenotypic changes induced by selective breeding in domestic pigs. We found that mobility reduction induces a plastic response beyond the shape variation of wild boars in their natural habitat, associated with a reduction in the range of locomotor behaviours and muscle loads. This plastic signal of captivity in the calcaneus shape differs from the main changes induced by selective breeding for larger muscle and earlier development that impacted the pigs' calcaneus shape in a much greater extent than the mobility reduction during the domestication process of their wild ancestors

Covariations of craniofacial structures in hominids

Ce travail de thèse porte sur l'intégration des structures craniofaciales au sein de la famille des hominidés. Au cours de l'évolution, une réduction du prognathisme et une diminution de la longueur de la face sont observées chez les taxons appartenant au rameau humaine. Cette réduction des structures faciales est associée à une base du crâne plus fléchie et à une mandibule plus gracile. L'objectif de ce travail est de définir le rôle joué par les changements basicrâniens et mandibulaires dans la mise en place de la face courte et droite des humains modernes. Dans ce contexte, les schémas d'intégration liant la face et les autres structures crâniennes (basicrâne et mandibule) ont été décrits et quantifiés dans ce mémoire. Ce travail a été effectué sur la base d'un échantillon de crânes incluant l'ensemble des genres d'hominidés actuels : les humains modernes, les chimpanzés, les gorilles et les orangs-outans. Les crânes ont été préalablement numérisés à l'aide d'un scanner médical. Les schémas d'intégration craniofaciaux ont alors été étudiés à l'aide d'outils statistiques et de méthodes d'analyses en morphométrie géométrique. Ce travail a permis de mettre en avant plusieurs mécanismes d'intégration craniofaciale, propres aux humains modernes. Ces schémas d'intégration spécifiques permettent d'expliquer en grande partie la mise en place de la face réduite des humains modernes. Ces résultats permettent donc d'éclairer les mécanismes d'évolution et de mise en place des structures faciales chez les hominidés et dans le rameau humain.This thesis dissertation is dedicated to the study of craniofacial structures within the hominid family. Throughout evolution, a reduction of facial prognathism and a diminution of the facial length are observed in the taxa which belong to the human lineage. This reduction of facial structures is associated to a more flexed cranial base and to a shorter mandible. The aim of this work is to define the role played by the basicranial and mandibular changes in the set up of the short and straight face of modern humans. In this context, the patterns of integration linking the face and the other cranial structures (basicranium and mandible) are decrypted and quantified in this thesis dissertation. This work has been done with a sample including all the extant hominid genera: modern humans, chimpanzees, gorillas, orang-utans. The skulls were first scanned using a medical scanner. Patterns of craniofacial integration were then studied using statistical tools and geometric morphometric analysis methods. This work underlined several mechanisms of craniofacial integration, unique to modern humans. These specific patterns of integration can explain an important part of the set up of modern humans reduced face. Thus, these results enlighten the evolution mechanisms and the set up of facial structures in hominids and in the human lineage

Biomechanical constraints associated with captivity alter craniomandibular shape and integration

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Implications of the Relationship Between Basicranial Flexion and Facial Orientation for the Evolution of Hominid Craniofacial Structures

The basicranium and face have been linked through genetic, developmental, and functional relationships throughout their evolution. As a result, basicranial morphology most likely plays a major role in the evolution of facial structures. We describe the relationships between basicranial flexion and the face in Homo, Pan, and Gorilla to determine the role of cranial base angle reduction in the setup of the short and orthognathic face of Homo. We test the hypotheses that cranial base flexion plays a significant part in variation in facial orientation, length, and projection at the intraspecific level. The sample comprised 125 crania of adult specimens including 66 Homo sapiens, 32 Pan troglodytes, and 27 Gorilla gorilla. We described the cranial base and face using landmarks placed on scans of the surfaces and computed correlations between the cranial base angle and facial orientation, length, and projection. Our results support the hypotheses that cranial base flexion plays a significant part in facial orientation for Homo and Pan and in facial length for Pan. The hypothesis that basicranial flexion is related to a reduction of facial projection is not supported. The findings suggest that basicranial flexion can explain several anatomical specificities of hominins, including the reduction of prognathism and the reduction of the length of the nasopharynx. We found different patterns in the different genera, highlighting the fact that changes in the relationship between craniofacial structures may have occurred during hominid evolution.SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Biomechanical constraints associated with captivity modify craniomandibular shape

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Covariation between midline cranial base, lateral basicranium and face in modern humans and chimpanzees: a 3D geometric morphometric analysis

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Captivity and cranial development in wild boar (Sus scrofa): exploration of new markers of the process of domestication

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Captivity and cranial development in wild boar (Sus scrofa): exploration of new markers of the process of domestication

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Identifying the Impact of Soil Ingestion on Dental Microwear Textures Using a Wild Boar Experimental Model

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