Inner ear morphology in wild vs laboratory mice
3D models of Eocene–Miocene anuran fossils from Peruvian Amazonia
3D models of the endocranial anatomy of Voay robustus and comparative specimens
3D GM dataset of bird skeletal variation
Skeletal embryonic development in the catshark
Bony connexions of the petrosal bone of extant hippos
bony labyrinth (11) , inner ear (10) , South America (8) , Eocene (8) , skull (7) , brain (6) , Oligocene (6)
Maëva Judith Orliac (17) , Lionel Hautier (17) , Bastien Mennecart (12) , Laurent Marivaux (11) , Pierre-Olivier Antoine (11) , Leonardo Kerber (10) , Renaud Lebrun (9)
MorphoMuseuM Volume 04, issue 01
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3D dataset3D models related to the publication: Evolutionary Adaptation to Aquatic Lifestyle in Extinct Sloths Can Lead to Systemic Alteration of Bone Structure.Eli Amson , Guillaume Billet and Christian de MuizonPublished online: 09/05/2018Keywords: aquatic lifestyle; brain endocast; evolutionary adaptation; olfactory bulbs; Thalassocnus https://doi.org/10.18563/journal.m3.64 References: 2 Cite this article: Eli Amson, Guillaume Billet and Christian de Muizon, 2018. 3D models related to the publication: Evolutionary Adaptation to Aquatic Lifestyle in Extinct Sloths Can Lead to Systemic Alteration of Bone Structure. MorphoMuseuM 4:e64. doi: 10.18563/journal.m3.64 Export citationAbstractThe present 3D Dataset contains the 3D models analyzed in: Amson et al., Under review. Evolutionary Adaptation to Aquatic Lifestyle in Extinct Sloths Can Lead to Systemic Alteration of Bone Structure doi:10.1098/rspb.2018.0270. Specimens and 3D DataBradypus tridactylus MNHN ZM-MO-1999-1065 View specimen
Choloepus didactylus MNHN-ZM-MO-1996-594 View specimen
Thalassocnus natans MNHN-F-SAS-734 View specimen
Thalassocnus littoralis MNHN-F-SAS-1610 View specimen
Thalassocnus littoralis MNHN-F-SAS-1615 View specimen
Thalassocnus carolomartini SMNK-3814 View specimen
See original publication Published in Volume 04, issue 01 (2018) ReferencesAmson, E., Billet, G., de Muizon, C., under review. Evolutionary Adaptation to Aquatic Lifestyle in Extinct Sloths Can Lead to Systemic Alteration of Bone Structure. Proceedings of the Royal Society B. doi:10.1098/rspb.2018.0270 |
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