Explodable 3D Dog Skull for Veterinary Education
3D models of a Sheep and Goat Skull and Inner ear
3D models of Miocene vertebrates from Tavers
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) , Eocene (8) , South America (8) , Paleobiogeography (7) , skull (7) , phylogeny (6)
Lionel Hautier (23) , Maëva Judith Orliac (21) , Laurent Marivaux (16) , Rodolphe Tabuce (14) , Bastien Mennecart (13) , Pierre-Olivier Antoine (12) , Renaud Lebrun (11)
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3D models related to the publication: Re-description of the braincase of the rebbachisaurid sauropod Limaysaurus tessonei and novel endocranial information based on CT scans
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M3#700Renderings of the virtually isolate braincase, brain, and right inner ear. Type: "3D_surfaces"doi: 10.18563/m3.sf.700 state:published |
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Our knowledge of the external brain morphology of the late Eocene artiodactyl ungulate Mixtotherium, relies on a plaster model realized on a specimen from the Victor Brun Museum in Montauban (France) and described by Dechaseaux (1973). Here, based on micro CT-scan data, we virtually reconstruct the 3D cast of the empty cavity of the partial cranium MA PHQ 716 from the Victor Brun Museum and compare it to the plaster model illustrated and described by Dechaseaux (1973). Indeed, the specimen from which the original plaster endocast originates was not identified by Dechaseaux by a specimen number. We confirm here that the studied specimen was indeed the one described and illustrated by Dechaseaux (1973). We also reconstruct a second, more detailed, model providing additional morphological and quantitative observations made available by micro CT scan investigation such as precisions on the neopallium folding and endocranial volumes.
Mixtotherium cuspidatum MA PHQ 716 View specimen
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M3#857endocast of the brain cavity Type: "3D_surfaces"doi: 10.18563/m3.sf.857 state:published |
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This contribution contains 3D models of the holotype of a new species of long-nosed armadillos, the Guianan long-nosed armadillo (Dasypus guianensis) described in the following publication: Barthe M., Rancilhac L., Arteaga M. C., Feijó A., Tilak M.-K., Justy F., Loughry W. J., McDonough C. M., de Thoisy B., Catzeflis F., Billet G., Hautier L., Nabholz B., and Delsuc F. 2024. Exon capture museomics deciphers the nine-banded armadillo species complex and identifies a new species endemic to the Guiana Shield. Systematic Biology, syae027. https://doi.org/10.1093/sysbio/syae027
Dasypus guianensis MNHN-ZM-MO-2001-1317 View specimen
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M3#1200Skeleton and carapace Type: "3D_surfaces"doi: 10.18563/m3.sf.1200 state:published |
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M3#1201Frontal sinuses Type: "3D_surfaces"doi: 10.18563/m3.sf.1201 state:published |
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This contribution contains the 3D models described and figured in the following publication: Bonis et al. 2023. A new large pantherine and a sabre-toothed cat (Mammalia, Carnivora, Felidae) from the late Miocene hominoid-bearing Khorat sand pits, Nakhon Ratchasima Province, northeastern Thailand. The Science of Nature 110(5):42. https://doi.org/10.1007/s00114-023-01867-4
Pachypanthera piriyai CUF-KR-1 View specimen
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M3#1209Holotype of Pachypanthera piriyai, a left hemi-mandible with alveoli for i1-i3 and canine, roots of p3, p4 and partially broken off m1 crown. Type: "3D_surfaces"doi: 10.18563/m3.sf.1209 state:published |
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Pachypanthera piriyai CUF-KR-2 View specimen
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M3#1210Paratype of Pachypanthera piriyai, a right hemi-maxilla with P3-P4, alveoli of C and M1, root of P2 Type: "3D_surfaces"doi: 10.18563/m3.sf.1210 state:published |
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This contribution contains the 3D models described and figured in the following publication: Pujos F., Hautier L., Antoine P-O., Boivin M., Moison B, Salas-Gismondi R, Tejada J.V. , Varas-Malca R.M., Yans J., Marivaux L. (2025). Unexpected pampatheriid from the early Oligocene of Peruvian Amazonia: insights into the tropical differentiation of cingulate xenarthrans. Historical Biology.
Bradypus tridactylus UM-ZOOL-V69 View specimen
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M3#1600Molariform and associated dentinal microstructure Type: "3D_surfaces"doi: 10.18563/m3.sf.1600 state:published |
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Choloepus didactylus UM-ZOOL-V12 View specimen
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M3#1601Molariform and associated dentinal microstructure Type: "3D_surfaces"doi: 10.18563/m3.sf.1601 state:published |
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Dasypus mexicanus UM-ZOOL-2787 View specimen
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M3#1602Molariform and associated dentinal microstructure Type: "3D_surfaces"doi: 10.18563/m3.sf.1602 state:published |
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Tolypeutes matacus UM-ZOOL-2789 View specimen
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M3#1603Molariform and associated dentinal microstructure Type: "3D_surfaces"doi: 10.18563/m3.sf.1603 state:published |
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Euphractus sexcinctus UM-ZOOL-2790 View specimen
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M3#1604Molariform and associated dentinal microstructure Type: "3D_surfaces"doi: 10.18563/m3.sf.1604 state:published |
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Holmesina septrionalis UM-FLD-1 View specimen
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M3#1605Molariform and associated dentinal microstructure Type: "3D_surfaces"doi: 10.18563/m3.sf.1605 state:published |
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Megatherium sp. UM-TAR-1 View specimen
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M3#1607Molariform and associated dentinal microstructure Type: "3D_surfaces"doi: 10.18563/m3.sf.1607 state:published |
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Indet indet MUSM-3965 View specimen
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M3#1606Molariform and associated dentinal microstructure Type: "3D_surfaces"doi: 10.18563/m3.sf.1606 state:published |
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The present 3D Dataset contains sixteen 3D models of unornamented Polygnathus illustrating allometric variation and bilateral asymmetry within four “Operational Taxonomic Units” analyzed in the publication: Convergent allometric trajectories in Devonian-Carboniferous unornamented Polygnathus conodonts.
Polygnathus sp. UM-PSQ-010 View specimen
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M3#1611Dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1611 state:published |
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Polygnathus sp. UM-PSQ-011 View specimen
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M3#1612Sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1612 state:published |
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Polygnathus sp. UM-PSQ-012 View specimen
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M3#1613Sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1613 state:published |
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Polygnathus sp. UM-PSQ-013 View specimen
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M3#1614Dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1614 state:published |
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Polygnathus sp. UM-PSQ-014 View specimen
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M3#1615Sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1615 state:published |
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Polygnathus sp. UM-PSQ-015 View specimen
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M3#1616Sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1616 state:published |
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Polygnathus sp. UM-PSQ-016 View specimen
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M3#1617Dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1617 state:published |
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Polygnathus sp. UM-PSQ-017 View specimen
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M3#1618Dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1618 state:published |
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Polygnathus sp. UM-PSQ-018 View specimen
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M3#1619Sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1619 state:published |
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Polygnathus sp. UM-PSQ-019 View specimen
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M3#1620Sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1620 state:published |
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Polygnathus sp. UM-PSQ-020 View specimen
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M3#1621Dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1621 state:published |
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Polygnathus sp. UM-PSQ-021 View specimen
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M3#1622Dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1622 state:published |
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Polygnathus sp. UM-PSQ-022 View specimen
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M3#1623Sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1623 state:published |
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Polygnathus sp. UM-PSQ-023 View specimen
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M3#1624Sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1624 state:published |
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Polygnathus sp. UM-PSQ-024 View specimen
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M3#1625Dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1625 state:published |
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Polygnathus sp. UM-PSQ-025 View specimen
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M3#1626Dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.1626 state:published |
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This contribution contains the 3D models described and figured in the following publication: Molnar, JL, Pierce, SE, Bhullar, B-A, Turner, AH, Hutchinson, JR (accepted). Morphological and functional changes in the crocodylomorph vertebral column with increasing aquatic adaptation. Royal Society Open Science.
Protosuchus richardsoni AMNH-VP 3024 View specimen
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M3#448th and 9th dorsal vertebrae, 1st and 2nd lumbar vertebrae, and 5th lumbar and sacral vertebrae. Type: "3D_surfaces"doi: 10.18563/m3.sf44 state:published |
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Terrestrisuchus gracilis NHM-PV R 7562 View specimen
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M3#451st and 2nd lumbar vertebrae, and 5th lumbar and sacral vertebrae Type: "3D_surfaces"doi: 10.18563/m3.sf45 state:published |
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Pelagosaurus typus NHM-PV OR 32598 View specimen
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M3#467th and 8th dorsal vertebrae, 11th and 12th dorsal vertebrae, 15th dorsal vertebra and sacral vertebra. Type: "3D_surfaces"doi: 10.18563/m3.sf46 state:published |
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Metriorhynchus superciliosus NHM-PV R 2054 View specimen
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M3#476th and 7th dorsal vertebrae, 10th and 11th dorsal vertebrae, 17th dorsal vertebra and sacral vertebra Type: "3D_surfaces"doi: 10.18563/m3.sf47 state:published |
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Crocodylus niloticus FNC0 View specimen
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M3#487th and 8th dorsal vertebrae, 1st and 2nd lumbar vertebrae, 5th lumbar vertebra and sacral vertebra. Type: "3D_surfaces"doi: 10.18563/m3.sf48 state:published |
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This contribution contains the 3D models described and figured in the following publication: Mennecart B., de Perthuis Ad., Rössner G.E., Guzmán J.A., de Perthuis Au., Costeur L. The first French tragulid skull (Mammalia, Ruminantia, Tragulidae) and associated tragulid remains from the Middle Miocene of Contres (Loir-et-Cher, France). Comptes Rendus Palévol. https://doi.org/10.1016/j.crpv.2017.08.004
Dorcatherium crassum NMB Fa.213.abg View specimen
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M3#181The 3D surface files of the specimen NMB Fa.213 are the reconstructions of the main skull fragments, the right petrosal bone, and the left bony labyrinth. Type: "3D_surfaces"doi: 10.18563/m3.sf.181 state:published |
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The present 3D Dataset contains the 3D model analyzed in the following publication: Solé et al. (2018), Niche partitioning of the European carnivorous mammals during the paleogene. Palaios. https://doi.org/10.2110/palo.2018.022
Hyaenodon leptorhynchus FSL848325 View specimen
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M3#336The specimen FSL848325 is separated in two fragments: the anterior part bears the incisors, the deciduous and permanent canines, while the posterior part bears the right P3, P4, M1 and M2. The P2 is isolated. When combined, the cranium length is approximatively 10.5 cm long. The anterior part is 6.9 cm long and 2.15 cm wide (taken at the level of the P1). The posterior part is 4.8 cm long. The anterior part of the cranium is very narrow. Type: "3D_surfaces"doi: 10.18563/m3.sf.336 state:published |
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The 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.
Bradypus tridactylus MNHN ZM-MO-1999-1065 View specimen
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M3#337Brain endocast Type: "3D_surfaces"doi: 10.18563/m3.sf.337 state:published |
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Choloepus didactylus MNHN-ZM-MO-1996-594 View specimen
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M3#338Brain endocast Type: "3D_surfaces"doi: 10.18563/m3.sf.338 state:published |
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Thalassocnus natans MNHN-F-SAS-734 View specimen
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M3#339Brain endocast Type: "3D_surfaces"doi: 10.18563/m3.sf.339 state:published |
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Thalassocnus littoralis MNHN-F-SAS-1610 View specimen
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M3#340Brain endocast Type: "3D_surfaces"doi: 10.18563/m3.sf.340 state:published |
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Thalassocnus littoralis MNHN-F-SAS-1615 View specimen
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M3#341Brain endocast Type: "3D_surfaces"doi: 10.18563/m3.sf.341 state:published |
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Thalassocnus carolomartini SMNK-3814 View specimen
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M3#342Brain endocast lacking right olfactory bulb Type: "3D_surfaces"doi: 10.18563/m3.sf.342 state:published |
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The present 3D Dataset contains the 3D models analyzed in the publication ‘Ontogenetic development of the otic region in the new model organism, Leucoraja erinacea (Chondrichthyes; Rajidae)’, https://doi.org/10.1017/S1755691018000993
Leucoraja erinacea 2018.9.26.1 View specimen
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M3#3673D model of the right skeletal labyrinth of the adult specimen of Leucoraja erincea. T Type: "3D_surfaces"doi: 10.18563/m3.sf.367 state:published |
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Leucoraja erinacea 2018.9.25.2 View specimen
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M3#3683D model of the right skeletal labyrinth of the stage 34 specimen of Leucoraja erincea. Type: "3D_surfaces"doi: 10.18563/m3.sf.368 state:published |
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Leucoraja erinacea 2018.9.25.3 View specimen
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M3#3693D model of the right skeletal labyrinth of the stage 32 specimen of Leucoraja erinacea. Type: "3D_surfaces"doi: 10.18563/m3.sf.369 state:published |
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M3#3723D model of the right membranous system of stage 32 of Leucoraja erincea. Type: "3D_surfaces"doi: 10.18563/m3.sf.372 state:published |
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Leucoraja erinacea 2018.9.25.4 View specimen
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M3#3703D model of the right skeletal labyrinth of the stage 31 specimen of Leucoraja erinacea. Type: "3D_surfaces"doi: 10.18563/m3.sf.370 state:published |
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Leucoraja erinacea 2018.9.26.5 View specimen
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M3#3763D model of the right skeletal labyrinth of the stage 29 specimen of Leucoraja erinacea. Type: "3D_surfaces"doi: 10.18563/m3.sf.376 state:published |
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This contribution contains the 3D models described and figured in the following publication: Paulina-Carabajal, A. and Nieto, M. N. In press. Brief comment on the brain and inner ear of Giganotosaurus carolinii (Dinosauria: Theropoda) based on CT scans. Ameghiniana. https://doi.org/10.5710/AMGH.25.10.2019.3237
Giganotosaurus carolinii MUCPv-CH-1 View specimen
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M3#504The current file contents 3D models of the braincase, brain, left and right inner ears Type: "3D_surfaces"doi: 10.18563/m3.sf.504 state:published |
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The present 3D Dataset contains the 3D models of the brain endocast analyzed in “Virtual brain endocast of Antifer (Mammalia: Cervidae), an extinct large cervid from South America”.
Antifer ensenadensis U-4922 View specimen
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M3#550Brain endocast Type: "3D_surfaces"doi: 10.18563/m3.sf.550 state:published |
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Antifer ensenadensis MCN-PV 943 View specimen
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M3#551Brain endocast Type: "3D_surfaces"doi: 10.18563/m3.sf.551 state:published |
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The present 3D Dataset contains the 3D models analyzed in Mennecart B., Métais G., Costeur L., Ginsburg L, and Rössner G. 2021, Reassessment of the enigmatic ruminant Miocene genus Amphimoschus Bourgeois, 1873 (Mammalia, Artiodactyla, Pecora). PlosOne. https://doi.org/10.1371/journal.pone.0244661
Amphimoschus ponteleviensis MNHN.F.AR3266 View specimen
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M3#701Surface scan of the cast of the skull of Amphimoschus ponteleviensis MNHN.F.AR3266 from Artenay (France) Type: "3D_surfaces"doi: 10.18563/m3.sf.701 state:published |
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M3#702Right petrosal bone and bony labyrinth of the skull MNHN.F.AR3266 from Artenay (France) Type: "3D_surfaces"doi: 10.18563/m3.sf.702 state:published |
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Amphimoschus ponteleviensis SMNS40693 View specimen
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M3#704Left petrosal bone and bony labyrinth of the skull SMNS40693 from Langenau 1 (Germany) Type: "3D_surfaces"doi: 10.18563/m3.sf.704 state:published |
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The present 3D Dataset contains the 3D models of the endocranial cast of two specimens of Indohyus indirae described in the article entitled “The endocranial cast of Indohyus (Artiodactyla, Raoellidae): the origin of the cetacean brain” (Orliac and Thewissen, 2021). They represent the cast of the main cavity of the braincase as well as associated intraosseous sinuses.
Indohyus indirae RR 207 View specimen
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M3#710cast of the main endocranial cavity and associated intraosseous sinuses Type: "3D_surfaces"doi: 10.18563/m3.sf.710 state:published |
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Indohyus indirae RR 601 View specimen
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M3#711casts of the main endocranial cavity Type: "3D_surfaces"doi: 10.18563/m3.sf.711 state:published |
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The present 3D Dataset contains the 3D models analyzed in Mennecart B., Wazir W.A., Sehgal R.K., Patnaik R., Singh N.P., Kumar N, and Nanda A.C. 2021. New remains of Nalamaeryx (Tragulidae, Mammalia) from the Ladakh Himalaya and their phylogenetical and palaeoenvironmental implications. Historical Biology. https://doi.org/10.1080/08912963.2021.2014479
Nalameryx savagei WIMF/A4801 View specimen
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M3#766Nalameryx savagei, Partial lower right jaw preserving m2 and m3. Type: "3D_surfaces"doi: 10.18563/m3.sf.766 state:published |
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Nalameryx savagei WIMF/A4802 View specimen
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M3#767Nalameryx savagei, partial lower right jaw preserving m2 and m3 Type: "3D_surfaces"doi: 10.18563/m3.sf.767 state:published |
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This contribution contains the 3D models described and figured in the following publication: Hautier L, Tabuce R, Kassegne KE, Amoudji YZ, Mourlam M, Orliac M, Quillévéré F, Charruault A-L, Johnson AKC, Guinot G. 2021. New middle Eocene proboscidean from Togo illuminates the early evolution of the elephantiform-like dental pattern.
Dagbatitherium tassyi ULDG-DAG1 View specimen
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M3#7693D model of a molar of Dagbatitherium tassyi. Type: "3D_surfaces"doi: 10.18563/m3.sf.769 state:published |
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M3#771µCT scan of a molar of Dagbatitherium tassyi. Type: "3D_CT"doi: 10.18563/m3.sf.771 state:published |
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The present 3D Dataset contains the 3D models analyzed in Pochat-Cottilloux Y., Martin J.E., Jouve S., Perrichon G., Adrien J., Salaviale C., de Muizon C., Cespedes R. & Amiot R. (2021). The neuroanatomy of Zulmasuchus querejazus (Crocodylomorpha, Sebecidae) and its implications for the paleoecology of sebecosuchians. The Anatomical Record, https://doi.org/10.1002/ar.24826
Zulmasuchus querejazus MHNC 6672 View specimen
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M3#798Left endosseous labyrinth of Z. querejazus (MHNC 6672). Type: "3D_surfaces"doi: 10.18563/m3.sf.798 state:published |
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M3#799Reconstruction of the endocranial cavities of Z. querejazus (MHNC 6672). Type: "3D_surfaces"doi: 10.18563/m3.sf.799 state:published |
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M3#800Three-dimensional reconstruction of the pneumatic cavities within the braincase of Z. querejazus (MHNC 6672) Type: "3D_surfaces"doi: 10.18563/m3.sf.800 state:published |
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The present 3D Dataset contains the 3D models of the holotype mandible and referred fragmented skull of the new species Amphimoschus xishuiensis analyzed in the article Li, Y.-K., Mennecart, B., Aiglstorfer, M., Ni, X.-J., Li, Q., Deng, T. 2021. The early evolution of cranial appendages in Bovoidea revealed by new species of Amphimoschus (Mammalia: Ruminantia) from China. Zoological Journal of the Linnean Society https://doi.org/10.1093/zoolinnean/zlab053
Amphimoschus xishuiensis IVPP V 25521.1 View specimen
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M3#803the holotype, a right hemimandible with tooth row p2 to m3 Type: "3D_surfaces"doi: 10.18563/m3.sf.803 state:published |
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Amphimoschus xishuiensis IVPP V 25521.2 View specimen
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M3#804referred material, anterior part of a skull with right P4-M3 and left P3-M2 Type: "3D_surfaces"doi: 10.18563/m3.sf.804 state:published |
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This contribution contains the 3D model of an endocranial cast analyzed in “A 10 ka intentionally deformed human skull from Northeast Asia”. There are many studies on the morphological characteristics of intentional cranial deformation (ICD), but few related 3D models were published. Here, we present the surface model of an intentionally deformed 10 ka human cranium for further research on ICD practice. The 3D model of the endocranial cast of this ICD cranium was discovered near Harbin City, Province Heilongjiang, Northeast China. The fossil preserved only the frontal, parietal, and occipital bones. To complete the endocast model of the specimen, we printed a 3D model and used modeling clay to reconstruct the missing part based on the general form of the modern human endocast morphology.
Homo sapiens IVPP-PA1616 View specimen
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M3#972The frontal region of the endocast is flattened, probably formed by the constant pressure on the frontal bone during growth. There is a well-developed frontal crest on the endocranial surface. The endocast widens posteriorly from the frontal lobe. The widest point of the endocast is at the lateral border of the parietal lobe. The lower parietal areas display a marked lateral expansion. The overall shape of the endocast is asymmetrical, with the left side of the parietal lobe being more laterally expanded than the right side. Like the frontal lobe, the occipital lobe is also anteroposteriorly flattened. Type: "3D_surfaces"doi: 10.18563/m3.sf.972 state:published |
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M3#976The original endocranial cast model (with texture) of IVPP-PA1616. It shows the original structures of the specimen, and was not altered in any way. Type: "3D_surfaces"doi: 10.18563/m3.sf.976 state:published |
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