New insights into the first cervical vertebrae of Otavipithecus and Nacholapithecus
Abstract Fossil hominoids are crucial to understand the selection pressures that played a role in the emergence of modern hominoid positional behaviors. Here we investigate the morphology of the atlas of Otavipithecus namibiensis (GSN BA 104’91, Namibia) and Nacholapithecus kerioi (KNM-BG 35250BE, K...
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2025-07-01
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| author | Amélie Beaudet Yasuhiro Kikuchi Fredrick Kyalo Manthi Emmanuel Ndiema Dominic Stratford Bernhard Zipfel |
| author_facet | Amélie Beaudet Yasuhiro Kikuchi Fredrick Kyalo Manthi Emmanuel Ndiema Dominic Stratford Bernhard Zipfel |
| author_sort | Amélie Beaudet |
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| description | Abstract Fossil hominoids are crucial to understand the selection pressures that played a role in the emergence of modern hominoid positional behaviors. Here we investigate the morphology of the atlas of Otavipithecus namibiensis (GSN BA 104’91, Namibia) and Nacholapithecus kerioi (KNM-BG 35250BE, Kenya) for identifying potential positional-related signals and discussing functional and evolutionary implications. Published data from GSN BA 13’21, a second Otavipithecus atlas from Namibia, were integrated. For comparative material, 105 atlases of extant catarrhines and platyrrhines were included. In addition to standard linear measurements, the morphology of GSN BA 104’91 and KNM-BG 35250BE was investigated by landmark-based geometric morphometric (GM) method and statistical analyses. The dimensions of the Miocene specimens fall within, or closely approximate to, the range of variation of Pan and Hylobates. Our GM analyses indicate that GSN BA 104’91 is more similar to Pan. When the right lateral mass only is considered, GSN BA 104’91 and KNM-BG 35250BE show similarities with hominoids and cercopithecoids. Our results possibly support a positional repertoire in Otavipithecus that would have been partly similar with extant hominoids, and in particular with Pan (e.g., terrestrial quadrupedalism, climbing), and the presence of a mix of hominoid-like and cercopithecoid-like traits in the axial skeleton of Nacholapithecus. |
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| institution | Kabale University |
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| spelling | doaj-art-de4be949057c4e42abe6c2ef85e8fa322025-08-20T04:03:07ZengNature PortfolioScientific Reports2045-23222025-07-0115111510.1038/s41598-025-09006-xNew insights into the first cervical vertebrae of Otavipithecus and NacholapithecusAmélie Beaudet0Yasuhiro Kikuchi1Fredrick Kyalo Manthi2Emmanuel Ndiema3Dominic Stratford4Bernhard Zipfel5Laboratoire de Paléontologie, Évolution, Paléoécosystèmes et Paléoprimatologie (PALEVOPRIM), UMR 7262 CNRS & Université de PoitiersDivision of Human Anatomy and Biological Anthropology, Department of Anatomy and Physiology, Faculty of Medicine, Saga UniversityNational Museums of KenyaNational Museums of KenyaSchool of Geography, Archaeology and Environmental Studies, University of the WitwatersrandEvolutionary Studies Institute, University of the WitwatersrandAbstract Fossil hominoids are crucial to understand the selection pressures that played a role in the emergence of modern hominoid positional behaviors. Here we investigate the morphology of the atlas of Otavipithecus namibiensis (GSN BA 104’91, Namibia) and Nacholapithecus kerioi (KNM-BG 35250BE, Kenya) for identifying potential positional-related signals and discussing functional and evolutionary implications. Published data from GSN BA 13’21, a second Otavipithecus atlas from Namibia, were integrated. For comparative material, 105 atlases of extant catarrhines and platyrrhines were included. In addition to standard linear measurements, the morphology of GSN BA 104’91 and KNM-BG 35250BE was investigated by landmark-based geometric morphometric (GM) method and statistical analyses. The dimensions of the Miocene specimens fall within, or closely approximate to, the range of variation of Pan and Hylobates. Our GM analyses indicate that GSN BA 104’91 is more similar to Pan. When the right lateral mass only is considered, GSN BA 104’91 and KNM-BG 35250BE show similarities with hominoids and cercopithecoids. Our results possibly support a positional repertoire in Otavipithecus that would have been partly similar with extant hominoids, and in particular with Pan (e.g., terrestrial quadrupedalism, climbing), and the presence of a mix of hominoid-like and cercopithecoid-like traits in the axial skeleton of Nacholapithecus.https://doi.org/10.1038/s41598-025-09006-xAtlasAfropithecidaeLocomotionPostureGeometric morphometrics |
| spellingShingle | Amélie Beaudet Yasuhiro Kikuchi Fredrick Kyalo Manthi Emmanuel Ndiema Dominic Stratford Bernhard Zipfel New insights into the first cervical vertebrae of Otavipithecus and Nacholapithecus Scientific Reports Atlas Afropithecidae Locomotion Posture Geometric morphometrics |
| title | New insights into the first cervical vertebrae of Otavipithecus and Nacholapithecus |
| title_full | New insights into the first cervical vertebrae of Otavipithecus and Nacholapithecus |
| title_fullStr | New insights into the first cervical vertebrae of Otavipithecus and Nacholapithecus |
| title_full_unstemmed | New insights into the first cervical vertebrae of Otavipithecus and Nacholapithecus |
| title_short | New insights into the first cervical vertebrae of Otavipithecus and Nacholapithecus |
| title_sort | new insights into the first cervical vertebrae of otavipithecus and nacholapithecus |
| topic | Atlas Afropithecidae Locomotion Posture Geometric morphometrics |
| url | https://doi.org/10.1038/s41598-025-09006-x |
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