3D models of Kalakocetus, the earliest Cetacea
The specimens of Speothos pacivorus
3D models related to the publication: Hidden diversity of Palaeogene metatherians: a new family of polydolopimorphian marsupials from Peruvian Amazonia
3D GM dataset of bird skeletal variation
Skeletal embryonic development in the catshark
Bony connexions of the petrosal bone of extant hippos
bony labyrinth (14) , inner ear (11) , Eocene (11) , geometric morphometrics (10) , CT-scan (10) , Oligocene (9) , Micro-CT (9)
Maëva Judith Orliac (24) , Lionel Hautier (24) , Laurent Marivaux (18) , Renaud Lebrun (15) , Rodolphe Tabuce (14) , Pierre-Olivier Antoine (13) , Bastien Mennecart (13)
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3D models related to the publication: Infrasonic and ultrasonic hearing evolved after the emergence of modern whalesMaëva J. Orliac
Published online: 08/06/2017 |
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M3#149bony labyrinth of ? Carolinacetus sp. from Kpogamé, Togo Type: "3D_surfaces"doi: 10.18563/m3.sf.149 state:published |
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indet. indet. UM KPG-M 73 View specimen
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M3#150bony labyrinth of Protocetidae indet. from Kpogamé, Togo Type: "3D_surfaces"doi: 10.18563/m3.sf.150 state:published |
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The present 3D Dataset contains the 3D models analyzed in: Toyoda S et al., 2015, Morphogenesis of the inner ear at different stages of normal human development. The Anatomical Record. doi : 10.1002/ar.23268
Homo sapiens KC-CS17IER29248 View specimen
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M3#36Computationally reconstructed membranous labyrinth of a human embryo (KC-CS17IER29248) at Carnegie Stage 17 (Crown Rump Length= 7mm). Type: "3D_surfaces"doi: 10.18563/m3.sf36 state:published |
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Homo sapiens KC-CS18IER17746 View specimen
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M3#37Computationally reconstructed membranous labyrinth of a human embryo (KC-CS18IER17746) at Carnegie Stage 18 (Crown Rump Length= 12mm). Type: "3D_surfaces"doi: 10.18563/m3.sf37 state:published |
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Homo sapiens KC-CS19IER16127 View specimen
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M3#38Computationally reconstructed membranous labyrinth of a human embryo (KC-CS19IER16127) at Carnegie Stage 19 (Crown Rump Length= 13mm). Type: "3D_surfaces"doi: 10.18563/m3.sf38 state:published |
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Homo sapiens KC-CS20IER20268 View specimen
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M3#39Computationally reconstructed membranous labyrinth of a human embryo (KC-CS20IER20268) at Carnegie Stage 20 (Crown Rump Length= 13.7mm). Type: "3D_surfaces"doi: 10.18563/m3.sf39 state:published |
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Homo sapiens KC-CS21IER28066 View specimen
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M3#40Computationally reconstructed membranous labyrinth of a human embryo (KC-CS21IER28066) at Carnegie Stage 21 (Crown Rump Length= 16.7mm). Type: "3D_surfaces"doi: 10.18563/m3.sf40 state:published |
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Homo sapiens KC-CS22IER35233 View specimen
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M3#41Computationally reconstructed membranous labyrinth of a human embryo (KC-CS22IER35233) at Carnegie Stage 22 (Crown Rump Length= 22mm). Type: "3D_surfaces"doi: 10.18563/m3.sf41 state:published |
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Homo sapiens KC-CS23IER15919 View specimen
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M3#42Computationally reconstructed membranous labyrinth of a human embryo (KC-CS23IER15919) at Carnegie Stage 23 (Crown Rump Length= 32.3mm). Type: "3D_surfaces"doi: 10.18563/m3.sf42 state:published |
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Homo sapiens KC-FIER52730 View specimen
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M3#43Computationally reconstructed human membranous labyrinth in post embryonic phase (KC-FIER52730). Crown Rump Length: 43.5mm. Type: "3D_surfaces"doi: 10.18563/m3.sf43 state:published |
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This contribution contains the 3D models described and figured in the following publication: Orliac M.J., Karadenizli L., Antoine P.-O., Sen S. 2015. Small suids (Mammalia, Artiodactyla) from the late Early Miocene of Turkey and a short overview of Early Miocene small suoids in the Old World. Paleontologia electronica 18(2): 18.2.30A: 1-48. https://doi.org/10.26879/547
?Nguruwe galaticum SMT-1 View specimen
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M3#16fragment of palate with left broken M1-M3 Type: "3D_surfaces"doi: 10.18563/m3.sf16 state:published |
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This contribution contains the 3D model described and figured in the following publication: Ramdarshan A., Orliac M.J., 2015. Endocranial morphology of Microchoerus erinaceus (Euprimates, Tarsiiformes) and early evolution of the Euprimates brain. American Journal of Physical Anthropology. doi: 10.1002/ajpa.22868
Microchoerus erinaceus UM-PRR1771 View specimen
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M3#15Labelled 3D model of the endocranial cast and sinuse of Microchoerus erinaceus. Type: "3D_surfaces"doi: 10.18563/m3.sf15 state:published |
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M3#130350µm voxel size µCT scan of the cranium of UM PRR1771 Type: "3D_CT"doi: 10.18563/m3.sf.1303 state:published |
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This contribution contains the three-dimensional models of the most complete and/or informative fossil materials attributed to Peradectes crocheti Gernelle, 2024, the earliest peradectid metatherian species of Europe, from its type locality (Palette, Provence, ~55 Ma). These specimens were analyzed and discussed in: Gernelle et al. (2024), Taxonomy and evolutionary history of peradectids (Metatheria): new data from the early Eocene of France. https://doi.org/10.1007/s10914-024-09724-5
Peradectes crocheti MHN.AIX.PV.2018.26.14 View specimen
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M3#14993D surface model of MHN.AIX.PV.2018.26.14, fragmentary left maxilla with C-P1, anterior root of P2, and M1-M3 Type: "3D_surfaces"doi: 10.18563/m3.sf.1499 state:published |
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Peradectes crocheti MHN.AIX.PV.2017.6.6 View specimen
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M3#15003D surface model of MHN.AIX.PV.2017.6.6, left P2 Type: "3D_surfaces"doi: 10.18563/m3.sf.1500 state:published |
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Peradectes crocheti MHN.AIX.PV.2017.6.7 View specimen
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M3#15013D surface model of MHN.AIX.PV.2017.6.7, left M3 Type: "3D_surfaces"doi: 10.18563/m3.sf.1501 state:published |
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Peradectes crocheti MHN.AIX.PV.2017.6.8 View specimen
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M3#15023D surface model of MHN.AIX.PV.2017.6.8, right hemi-mandible fragment with canine alveolus, posterior root of p1, partial p2, p3, partial m1, and m2-m3 Type: "3D_surfaces"doi: 10.18563/m3.sf.1502 state:published |
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Peradectes crocheti MHN.AIX.PV.2017.6.9 View specimen
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M3#15033D surface model of MHN.AIX.PV.2017.6.9, leftm1-m4 row with fragments of dentary Type: "3D_surfaces"doi: 10.18563/m3.sf.1503 state:published |
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Peradectes crocheti MHN.AIX.PV.2017.6.14 View specimen
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M3#15043D surface model of MHN.AIX.PV.2017.6.14, right astragalus Type: "3D_surfaces"doi: 10.18563/m3.sf.1504 state:published |
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This contribution contains the three-dimensional digital models of a part of the dental fossil material (the large specimens) of caviomorph rodents, discovered in late middle Miocene detrital deposits of the TAR-31 locality in Peruvian Amazonia (San Martín, Peru). These fossils were described, figured and discussed in the following publication: Boivin, Marivaux et al. (2021), Late middle Miocene caviomorph rodents from Tarapoto, Peruvian Amazonia. PLoS ONE 16(11): e0258455. https://doi.org/10.1371/journal.pone.0258455
Microscleromys paradoxalis MUSM 4643 View specimen
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M3#1115Fragment of left mandibule preserving dp4, m1 and a portion of incisor Type: "3D_surfaces"doi: 10.18563/m3.sf.1115 state:published |
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Ricardomys longidens MUSM 4375 View specimen
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M3#1116Fragment of left maxillary preserving DP4 and M1 (or M1 and M2) Type: "3D_surfaces"doi: 10.18563/m3.sf.1116 state:published |
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"Scleromys" sp. MUSM 4272 View specimen
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M3#1117Isolated left upper molar Type: "3D_surfaces"doi: 10.18563/m3.sf.1117 state:published |
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"Scleromys" sp. MUSM 4275 View specimen
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M3#1118Isolated right upper molar Type: "3D_surfaces"doi: 10.18563/m3.sf.1118 state:published |
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"Scleromys" sp. MUSM 4273 View specimen
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M3#1119Isolated left upper molar Type: "3D_surfaces"doi: 10.18563/m3.sf.1119 state:published |
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"Scleromys" sp. MUSM 4276 View specimen
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M3#1120Isolated right upper molar Type: "3D_surfaces"doi: 10.18563/m3.sf.1120 state:published |
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"Scleromys" sp. MUSM 4282 View specimen
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M3#1121Isolated right lower molar Type: "3D_surfaces"doi: 10.18563/m3.sf.1121 state:published |
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"Scleromys" sp. MUSM 4281 View specimen
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M3#1122Isolated right lower molar Type: "3D_surfaces"doi: 10.18563/m3.sf.1122 state:published |
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"Scleromys" sp. MUSM 4280 View specimen
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M3#1123Isolated left p4 Type: "3D_surfaces"doi: 10.18563/m3.sf.1123 state:published |
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"Scleromys" sp. MUSM 4277 View specimen
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M3#1124Isolated left lower dp4 Type: "3D_surfaces"doi: 10.18563/m3.sf.1124 state:published |
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"Scleromys" sp. MUSM 4279 View specimen
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M3#1125Isolated right lower dp4 (mesial fragment) Type: "3D_surfaces"doi: 10.18563/m3.sf.1125 state:published |
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gen.indet sp. indet MUSM 4283 View specimen
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M3#1126Isolated right lower p4 Type: "3D_surfaces"doi: 10.18563/m3.sf.1126 state:published |
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Microscleromys sp. MUSM 4658 View specimen
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M3#1127Isolated left tarsal bone (astragalus) Type: "3D_surfaces"doi: 10.18563/m3.sf.1127 state:published |
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The present 3D Dataset contains the 3D models illustrated and described in the chapter “Paleoneurology of Artiodactyla, an overview of the evolution of the artiodactyl brain” (Orliac et al. 2022) published in "Paleoneurology of amniotes: new directions in the study of fossil endocasts", edited by Dozo, Paulina-Carabajal, Macrini and Walsh.
Homacodon vagans AMNH 12695 View specimen
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M3#1063Endocranial cast Type: "3D_surfaces"doi: 10.18563/m3.sf.1063 state:published |
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Helohyus sp. AMNH 13079 View specimen
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M3#1064Endocranial cast Type: "3D_surfaces"doi: 10.18563/m3.sf.1064 state:published |
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Leptauchenia sp. AMNH 45508 View specimen
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M3#1065endocranial cast Type: "3D_surfaces"doi: 10.18563/m3.sf.1065 state:published |
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Agriochoerus sp. AMNH 95330 View specimen
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M3#1067endocranial cast Type: "3D_surfaces"doi: 10.18563/m3.sf.1067 state:published |
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Mouillacitherium elegans UM ACQ 6625 View specimen
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M3#1068endocranial cast Type: "3D_surfaces"doi: 10.18563/m3.sf.1068 state:published |
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Caenomeryx filholi UM PDS 2570 View specimen
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M3#1069endocranial cast Type: "3D_surfaces"doi: 10.18563/m3.sf.1069 state:published |
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Dichobune leporina MNHN.F.QU16586 View specimen
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M3#1070endocranial cast Type: "3D_surfaces"doi: 10.18563/m3.sf.1070 state:published |
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Anoplotherium sp. not numbered View specimen
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M3#1071endocranial cast Type: "3D_surfaces"doi: 10.18563/m3.sf.1071 state:published |
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The present 3D Dataset contains the 3D models analyzed in: Abel P., Pommery Y., Ford D. P., Koyabu D., Werneburg I. 2022. Skull sutures and cranial mechanics in the Permian reptile Captorhinus aguti and the evolution of the temporal region in early amniotes. Frontiers in Ecology and Evolution. https://doi.org/10.3389/fevo.2022.841784
Captorhinus aguti OMNH 44816 View specimen
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M3#965Segmented cranial bone surfaces of OMNH 44816 Type: "3D_surfaces"doi: 10.18563/m3.sf.965 state:published |
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The present 3D Dataset contains the 3D model analyzed in Gaetano, L. C., Abdala, F., Seoane, F. D., Tartaglione, A., Schulz, M., Otero, A., Leardi, J. M., Apaldetti, C., Krapovickas, V., and Steinbach, E. 2021. A new cynodont from the Upper Triassic Los Colorados Formation (Argentina, South America) reveals a novel paleobiogeographic context for mammalian ancestors. Scientific Reports.
Tessellatia bonapartei PULR-V121 View specimen
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M3#9603D surface model of PULR-V121 Type: "3D_surfaces"doi: 10.18563/m3.sf.960 state:published |
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This contribution provides the raw files for the μCT-scan data and renderings of the three-dimensional digital models of two fossil teeth of a geomyin geomorph rodent (Caribeomys merzeraudi), discovered from lower Oligocene deposits of Puerto Rico, San Sebastian Formation (locality LACM Loc. 8060). These fossils were described, figured and discussed in the following publication: Marivaux et al. (2021), An unpredicted ancient colonization of the West Indies by North American rodents: dental evidence of a geomorph from the early Oligocene of Puerto Rico. Papers in Palaeontology. https://doi.org/10.1002/spp2.1388
Caribeomys merzeraudi LACM 162478 View specimen
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M3#712Right lower dp4: isolated deciduous premolar. The specimen was scanned with a resolution of 5 µm using a μ-CT-scanning station EasyTom 150 / Rx Solutions (Montpellier RIO Imaging, ISE-M, Montpellier, France). AVIZO 7.1 (Visualization Sciences Group) software was used for visualization, segmentation, and 3D rendering. This isolated tooth was prepared within a “labelfield” module of AVIZO, using the segmentation threshold selection tool. Type: "3D_surfaces"doi: 10.18563/m3.sf.712 state:published |
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M3#7145µm µCT data set . Right lower dp4: isolated deciduous premolar. The specimen was scanned with a resolution of 5 µm using a μ-CT-scanning station EasyTom 150 / Rx Solutions (Montpellier RIO Imaging, ISE-M, Montpellier, France). Type: "3D_CT"doi: 10.18563/m3.sf.714 state:published |
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Caribeomys merzeraudi LACM 162449 View specimen
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M3#713Right lower molar (m1 or m2). The specimen was scanned with a resolution of 4.5 µm using a μ-CT-scanning station EasyTom 150 / Rx Solutions (Montpellier RIO Imaging, ISE-M, Montpellier, France). AVIZO 7.1 (Visualization Sciences Group) software was used for visualization, segmentation, and 3D rendering. This isolated tooth was prepared within a “labelfield” module of AVIZO, using the segmentation threshold selection tool. Type: "3D_surfaces"doi: 10.18563/m3.sf.713 state:published |
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M3#715µCT data at 4.5µm Type: "3D_CT"doi: 10.18563/m3.sf.715 state:published |
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The present Dataset contains the 3D model of the male genital organs of greater horseshoe bat, Rhinolophus ferrumequinum. This is the first detailed 3D structure of the soft-tissue genital organs of bats. The 3D model was generated using microCT and techniques of virtual reconstruction.
Rhinolophus ferrumequinum JP18-006 View specimen
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M3#521The genital organs of male greater horseshoe bat. Type: "3D_surfaces"doi: 10.18563/m3.sf.521 state:published |
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The present 3D Dataset contains the 3D models of the skull, brain and inner ear endocast analyzed in “Gnathovorax cabreirai: a new early dinosaur and the origin and initial radiation of predatory dinosaurs”.
Gnathovorax cabrerai CAPA/UFSM 0009 View specimen
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M3#4423D model of skull Type: "3D_surfaces"doi: 10.18563/m3.sf.442 state:published |
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M3#4433D model of the braincase Type: "3D_surfaces"doi: 10.18563/m3.sf.443 state:published |
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M3#444Endocast of brain, inner ear, and cranial nerves Type: "3D_surfaces"doi: 10.18563/m3.sf.444 state:published |
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The present 3D Dataset contains the 3D model analyzed in the following publication: Paulina-Carabajal, A., Sterli, J., Werneburg, I., 2019. The endocranial anatomy of the stem turtle Naomichelys speciosa from the Early Cretaceous of North America. Acta Palaeontologica Polonica, https://doi.org/10.4202/app.00606.2019
Naomichelys speciosa FMNH PR273 View specimen
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M3#428FMNH_PR273_1 - Naomichlys speciosa - skull Type: "3D_surfaces"doi: 10.18563/m3.sf.428 state:published |
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The present 3D Dataset contains the 3D models analyzed in: "a giant dapediid from the Late Triassic of Switzerland and insights into neopterygian phylogeny", Royal Society Open Science, https://doi.org/10.1098/rsos.180497
Scopulipiscis saxciput PIMUZ A/I 3026 View specimen
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M3#1773D surfaces of the skull and endocranial spaces inside neurocranium, including the aortic canal, braincase, fossa bridgei, lateral cranial canal, nerves and other passageways, notochord, posterior myodome, and right semicircular canals. Type: "3D_surfaces"doi: 10.18563/m3.sf.177 state:published |
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M3#178Scan of the neurocranium of PIMUZ A/I 3026 Type: "3D_CT"doi: 10.18563/m3.sf.178 state:published |
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The presented dataset contains the 3D surface scan of the holotype of Birgeria americana, a partial skull described and depicted in: Romano, C., Jenks, J.F., Jattiot, R., Scheyer, T.M., Bylund, K.G. & Bucher, H. 2017. Marine Early Triassic Actinopterygii from Elko County (Nevada, USA): implications for the Smithian equatorial vertebrate eclipse. Journal of Paleontology. https://doi.org/10.1017/jpa.2017.36 .
Birgeria americana NMMNH P-66225 View specimen
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M3#175NMMNH P-66225 is from upper lower Smithian to lower upper Smithian beds (Thaynes Group). The collecting site is located about 2.75 km south-southeast of the Winecup Ranch, east-central Elko County, Nevada, USA. P-66225 is a partial skull preserved within a large limestone nodule, with its right side exposed. It preserves the portion between the cleithrum posteriorly, and the level of the hind margin of the orbital opening anteriorly. The fossil has a length of 26 cm. Type: "3D_surfaces"doi: 10.18563/m3.sf.175 state:published |
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This contribution contains the 3D models described and figured in the publication entitled "The petrosal and bony labyrinth of Diplobune minor, an enigmatic Artiodactyla from the Oligocene of Western Europe" by Orliac, Araújo, and Lihoreau published in Journal of Morphology (Orliac et al. 2017) https://doi.org/10.1002/jmor.20702.
Diplobune minor UM ITD 1079 View specimen
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M3#138right bony labyrinth of Diplobune minor from Itardies, France Type: "3D_surfaces"doi: 10.18563/m3.sf.138 state:published |
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M3#139right isolated petrosal of Diplobune minor from Itardies, France Type: "3D_surfaces"doi: 10.18563/m3.sf.139 state:published |
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Diplobune minor UM ITD 1080 View specimen
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M3#140left bony labyrinth of Diplobune minor from Itardies, France Type: "3D_surfaces"doi: 10.18563/m3.sf.140 state:published |
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M3#141left isolated petrosal of Diplobune minor from Itardies, France Type: "3D_surfaces"doi: 10.18563/m3.sf.141 state:published |
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Diplobune minor UM ITD 1081 View specimen
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M3#142right bony labyrinth and associated nerves and veins of Diplobune minor from Itardies, France Type: "3D_surfaces"doi: 10.18563/m3.sf.142 state:published |
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M3#143right isolated petrosal of Diplobune minor from Itardies, France Type: "3D_surfaces"doi: 10.18563/m3.sf.143 state:published |
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Diplobune minor UM ITD 1083 View specimen
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M3#144left bony labyrinth of Diplobune minor from Itardies, France Type: "3D_surfaces"doi: 10.18563/m3.sf.144 state:published |
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M3#145left petrosal of Diplobune minor from Itardies, France Type: "3D_surfaces"doi: 10.18563/m3.sf.145 state:published |
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Using X-ray microtomography, we describe the ossification events during the larval development of a non-teleost actinopterygian species: the Cuban gar Atractosteus tristoechus from the order Lepisosteiformes. We provide a detailed developmental series for each anatomical structure, covering a large sequence of mineralization events going from an early stage (13 days post-hatching, 21mm total length) to an almost fully ossified larval stage (118dph or 87mm in standard length). With this work, we expect to bring new developmental data to be used in further comparative studies with other lineages of bony vertebrates. We also hope that the on-line publication of these twelve successive 3D reconstructions, fully labelled and flagged, will be an educational tool for all students in comparative anatomy.
Atractosteus tristoechus At1-13dph View specimen
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M3#94At1-13dph : 13 dph larvae, 21 mm TL Type: "3D_surfaces"doi: 10.18563/m3.sf.94 state:published |
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Atractosteus tristoechus At2-16dph View specimen
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M3#95Atractosteus tristoechus larva, 16 dph, 26mm SL. Type: "3D_surfaces"doi: 10.18563/m3.sf.95 state:published |
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Atractosteus tristoechus At3-19dph View specimen
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M3#96Atractosteus tristoechus larva, 19 dph, 27mm SL. Type: "3D_surfaces"doi: 10.18563/m3.sf.96 state:published |
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Atractosteus tristoechus At4-22dph View specimen
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M3#97Atractosteus tristoechus larva, 22dph, 30mm SL. Type: "3D_surfaces"doi: 10.18563/m3.sf.97 state:published |
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Atractosteus tristoechus At5-26dph View specimen
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M3#98Atractosteus tristoechus larva, 26 dph, 32mm SL. Type: "3D_surfaces"doi: 10.18563/m3.sf.98 state:published |
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Atractosteus tristoechus At6-31dph View specimen
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M3#99Atractosteus tristoechus larva, 31 dph, 39mm SL. Type: "3D_surfaces"doi: 10.18563/m3.sf.99 state:published |
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Atractosteus tristoechus At7-37dph View specimen
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M3#100Atractosteus tristoechus larva, 37 dph, 43mm SL. Type: "3D_surfaces"doi: 10.18563/m3.sf.100 state:published |
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Atractosteus tristoechus At8-52dph View specimen
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M3#101Atractosteus tristoechus larva, 52 dph, 46mm SL. Type: "3D_surfaces"doi: 10.18563/m3.sf.101 state:published |
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Atractosteus tristoechus At9-74dph View specimen
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M3#102Atractosteus tristoechus larva, 74 dph, 61mm SL. Not all structures are colored, only newly ossified ones. Type: "3D_surfaces"doi: 10.18563/m3.sf.102 state:published |
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Atractosteus tristoechus At10-89dph View specimen
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M3#103Atractosteus tristoechus larva, 89 dph, 63mm SL. Not all structures are colored, only newly ossified ones. You may find the tag file in the At1-13dph reconstruction data. Type: "3D_surfaces"doi: 10.18563/m3.sf.103 state:published |
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Atractosteus tristoechus At11-104dph View specimen
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M3#104Atractosteus tristoechus larva, 104 dph, 70mm SL. Not all structures are colored, only newly ossified ones. Type: "3D_surfaces"doi: 10.18563/m3.sf.104 state:published |
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Atractosteus tristoechus At12-118dph View specimen
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M3#105Atractosteus tristoechus larva, 118 dph, 87mm SL. Type: "3D_surfaces"doi: 10.18563/m3.sf.105 state:published |
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This contribution contains the 3D models described and figured in the following publication: Kassegne K. E., Mourlam M. J., Guinot G., Amoudji Y. Z., Martin J. E., Togbe K. A., Johnson A. K., Hautier L. 2021. First partial cranium of Togocetus from Kpogamé (Togo) and the protocetid diversity in the Togolese phosphate basin. Annales de Paléontologie, Issue 2, April–June 2021, 102488. https://doi.org/10.1016/j.annpal.2021.102488
Togocetus cf. traversei ULDG-KPO1 View specimen
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M3#768The specimen consists of a partial cranium prepared out of a calcareous phosphate matrix. The partial cranium lacks the anterior part of the rostrum, the cranial roof, and most of the basicranium apart from the left zygomatic process of the squamosal. The maxilla, nasal, palatine, pterygoid, alisphenoid, and squamosal bones are preserved, as well as two incomplete dental rows described hereafter. Type: "3D_surfaces"doi: 10.18563/m3.sf.768 state:published |
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M3#770µCT . Resolution: 0.3156mm. This scan can easily be opened with Fiji, MorphoDig, 3DSlicer, or any software that reads .MHD file format. Also, the .RAW file can be opened easily with other software such as Avizo/Amira when providing the correct dimensions (which are enclosed within the file name) Type: "3D_CT"doi: 10.18563/m3.sf.770 state:published |
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The present 3D Dataset contains the 3D models of the sacral vertebrae analyzed in “Sacral co-ossification in dinosaurs: The oldest record of fused sacral vertebrae in Dinosauria and the diversity of sacral co-ossification patterns in the group”.
Buriolestes schultzi CAPPA/UFSM 0035 View specimen
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M3#705Sacral vertebrae of Buriolestes schultzi Type: "3D_surfaces"doi: 10.18563/m3.sf.705 state:published |
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indet indet CAPPA/UFSM 0228 View specimen
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M3#706Sacral vertebrae of a saurischian dinosaur indet. Type: "3D_surfaces"doi: 10.18563/m3.sf.706 state:published |
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The present 3D Dataset contains the 3D models described in “Comparative masticatory myology in anteaters and its implications for interpreting morphological convergence in myrmecophagous placentals”.
Cyclopes didactylus M1571_JAG View specimen
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M3#522Skull, mandible, and muscles of Cyclopes didactylus Type: "3D_surfaces"doi: 10.18563/m3.sf.522 state:published |
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Tamandua tetradactyla M3075_JAG View specimen
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M3#524Skull, left mandibles, and muscles of Tamandua tetradactyla. Type: "3D_surfaces"doi: 10.18563/m3.sf.524 state:published |
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Myrmecophaga tridactyla M3023_JAG View specimen
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M3#523Skull, left mandible and muscles of Myrmecophaga tridactyla. Type: "3D_surfaces"doi: 10.18563/m3.sf.523 state:published |
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