Holotype of Hamadasuchus rebouli
Inner ear morphology in wild vs laboratory mice
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)
3D model related to the publication: New data on the Miocene dormouse Simplomys García-Paredes, 2009 from the peri-alpin basins of Switzerland and Germany: palaeodiversity of a rare genus in Central EuropeXiaoyu Lu , Olivier Maridet and Jérôme PriétoPublished online: 13/05/2019Keywords: Early Miocene; Gliridae; Maxilla; Simplomys; Switzerland https://doi.org/10.18563/journal.m3.83 Abstract This contribution contains the 3D model of the holotype of Simplomys hugi, the new dormouse species from the locality of Glovelier described and figured in the following publication: New data on the Miocene dormouse Simplomys García-Paredes, 2009 from the peri-alpin basins of Switzerland and Germany: palaeodiversity of a rare genus in Central Europe. https://doi.org/10.1007/s12549-018-0339-y Simplomys hugi MJSN-GLM017-0001 View specimen
M3 article infos Published in Volume 05, issue 02 (2019) |
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M3#7083D models of the cranial skeleton and muscles of Callorhinchus milii, created using Mimics. Type: "3D_surfaces"doi: 10.18563/m3.sf.708 state:published |
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Scyliorhinus canicula 002 View specimen
M3#7093D models of the cranial skeleton and muscles of Scyliorhinus canicula, created using Mimics. Type: "3D_surfaces"doi: 10.18563/m3.sf.709 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
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
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 analyzed in Hendrickx, C., Gaetano, L. C., Choiniere, J., Mocke, H. and Abdala, F. in press. A new traversodontid cynodont with a peculiar postcanine dentition from the Middle/Late Triassic of Namibia and dental evolution in basal gomphodonts. Journal of Systematic Palaeontology.
Etjoia dentitransitus GSN F1591 View specimen
M3#557Surface model derived from µCT data of the holotype of Etjoia dentitransitus Type: "3D_surfaces"doi: 10.18563/m3.sf.557 state:published |
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M3#558Photogrammetric 3D surface model of the postcanines of the Holotype of Etjoia dentitransitus Type: "3D_surfaces"doi: 10.18563/m3.sf.558 state:published |
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M3#559Photogrammetric 3D surface model of the Holotype of Etjoia dentitransitus Type: "3D_surfaces"doi: 10.18563/m3.sf.559 state:published |
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The present 3D Dataset contains the 3D model analyzed in Vautrin et al. (2019), Palaeontology, From limb to fin: an Eocene protocetid forelimb from Senegal sheds new light on the early locomotor evolution of early cetaceans.
?Carolinacetus indet. SNTB 2011-01 View specimen
M3#3983D model of an articulated forelimb of a Carolinacetus-like protocetid from Senegal Type: "3D_surfaces"doi: 10.18563/m3.sf.398 state:published |
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The present 3D Dataset contains the 3D model analyzed in Hendrickx, C. and Bell, P. R. 2021. The scaly skin of the abelisaurid Carnotaurus sastrei (Theropoda: Ceratosauria) from the Upper Cretaceous of Patagonia. Cretaceous Research. https://doi.org/10.1016/j.cretres.2021.104994
Carnotaurus sastrei MACN 894 View specimen
M3#8023D reconstruction of the biggest patch of skin (~1200 cm2) from the anterior tail region of the holotype of Carnotaurus, which is the largest single patch of squamous integument available for any saurischian. The skin consists of medium to large (up to 65 mm in diameter) conical feature scales surrounded by a network of low and small (< 14 mm) irregular basement scales separated by narrow interstitial tissue. Type: "3D_surfaces"doi: 10.18563/m3.sf.802 state:published |
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The present 3D Dataset contains the 3D models analyzed in the following publication: Paulina-Carabajal, A., Ezcurra, M., Novas, F., 2019. New information on the braincase and endocranial morphology of the Late Triassic neotheropod Zupaysaurus rougieri using Computed Tomography data. Journal of Vertebrate Paleontology. https://doi.org/10.1080/02724634.2019.1630421
Zupaysaurus rougieri PULR 076 View specimen
M3#424The Zip contains 3 files, which correspond to: PULR_076-M1: Zupaysaurus rougieri skull, braincase and cranial endocast PULR_076-M2: Zupaysaurus rougieri braincase PULR_076-M1: Zupaysaurus rougieri brain and inner ear Type: "3D_surfaces"doi: 10.18563/m3.sf.424 state:published |
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This contribution contains the 3D model(s) described and figured in the following publication: The present 3D Dataset contains the 3D models and CT-Scan slices of the lower jaws and teeth analyzed in “A new prozostrodontian cynodont (Eucynodontia, Probainognathia) from the Upper Triassic of southern Brazil”. https://doi.org/10.1080/02724634.2020.1782415
Agudotherium gassenae CAPPA/UFSM 0262 View specimen
M3#546Left lower jaw and cheek teeth Type: "3D_surfaces"doi: 10.18563/m3.sf.546 state:published |
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M3#5471578 slices Type: "3D_CT"doi: 10.18563/m3.sf.547 state:published |
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Agudotherium gassenae CAPPA/UFSM 0208 View specimen
M3#548right lower jaw Type: "3D_surfaces"doi: 10.18563/m3.sf.548 state:published |
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M3#549CT data of CAPPA_UFSM_0208 Type: "3D_CT"doi: 10.18563/m3.sf.549 state:published |
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The present 3D Dataset contains the 3D model of the brain endocast of Neoepiblema acreensis analyzed in “Small within the largest: Brain size and anatomy of the extinct Neoepiblema acreensis, a giant rodent from the Neotropics”. The 3D model was generated using CT-Scanning and techniques of virtual reconstruction.
Neoepiblema acreensis UFAC 4515 View specimen
M3#502Brain endocast of Neoepiblema acreensis Type: "3D_surfaces"doi: 10.18563/m3.sf.502 state:published |
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This contribution contains the 3D surface model of the holotype cranium of the Late Jurassic thalassochelydian turtle Solnhofia brachyrhyncha described and figured in the publication of Anquetin and Püntener (2020).
Solnhofia brachyrhyncha MJSN BAN001-2.1 View specimen
M3#536Textured 3D surface model of the holotype cranium of the Late Jurassic turtle Solnhofia brachyrhyncha Type: "3D_surfaces"doi: 10.18563/m3.sf.536 state:published |
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This contribution contains the 3D models of a set of Famennian conodont elements belonging to the species Icriodus alternatus analyzed in the following publication: Girard et al. 2022: Deciphering the morphological variation and its ontogenetic dynamics in the Late Devonian conodont Icriodus alternatus.
Icriodus alternatus UM BUS 031 View specimen
M3#887conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.887 state:published |
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Icriodus alternatus UM BUS 032 View specimen
M3#888conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.888 state:published |
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Icriodus alternatus UM BUS 033 View specimen
M3#889conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.889 state:published |
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Icriodus alternatus UM BUS 034 View specimen
M3#890conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.890 state:published |
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Icriodus alternatus UM BUS 035 View specimen
M3#891conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.891 state:published |
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Icriodus alternatus UM BUS 036 View specimen
M3#892conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.892 state:published |
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Icriodus alternatus UM BUS 037 View specimen
M3#893conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.893 state:published |
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Icriodus alternatus UM BUS 038 View specimen
M3#894conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.894 state:published |
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Icriodus alternatus UM BUS 039 View specimen
M3#895conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.895 state:published |
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Icriodus alternatus UM BUS 040 View specimen
M3#896conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.896 state:published |
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Icriodus alternatus UM BUS 041 View specimen
M3#897conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.897 state:published |
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Icriodus alternatus UM BUS 042 View specimen
M3#898conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.898 state:published |
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Icriodus alternatus UM BUS 043 View specimen
M3#899conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.899 state:published |
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Icriodus alternatus UM BUS 044 View specimen
M3#900conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.900 state:published |
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Icriodus alternatus UM BUS 045 View specimen
M3#901conodont element Type: "3D_surfaces"doi: 10.18563/m3.sf.901 state:published |
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The present 3D Dataset contains the 3D model analyzed in the following publication: Carolina A. Hoffmann, A. G. Martinelli & M. B. Andrade. 2023. Anatomy of the holotype of “Probelesodon” kitchingi revisited, a chiniquodontid cynodont (Synapsida, Probainognathia) from the early Late Triassic of southern Brazil, Journal of Paleontology
Probelesodon kitchingi MCP 1600 PV View specimen
M3#11513D models of the skull with segmented bones and without the segmentation. colormap and orientation files also added. Type: "3D_surfaces"doi: 10.18563/m3.sf.1151 state:published |
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This contribution includes the 3D models of the reconstructed ossicular chain of the cainotheriid Caenomeryx filholi from the late Oligocene locality of Pech Desse (MP28, Quercy, France) described and figured in the publication of Assemat et al. (2020). It represents the oldest ossicular chain reconstruction for a Paleogene terrestrial artiodactyl species.
Caenomeryx filholi UM PDS 3353 View specimen
M3#508reconstruction of the middle ear with petrosal, bulla, stapes, incus, malleus Type: "3D_surfaces"doi: 10.18563/m3.sf.508 state:published |
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This contribution contains the 3D models of postcranial bones (humerus, ulna, innominate, femur, tibia, astragalus, navicular, and metatarsal III) described and figured in the following publication: “Postcranial morphology of the extinct rodent Neoepiblema (Rodentia: Chinchilloidea): insights into the paleobiology of neoepiblemids”.
Neoepiblema acreensis UFAC 3549 View specimen
M3#719UFAC 3549, left humerus missing the proximal region. Type: "3D_surfaces"doi: 10.18563/m3.sf.719 state:published |
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Neoepiblema acreensis UFAC 5076 View specimen
M3#720UFAC 5076, right humerus missing the proximal region. Type: "3D_surfaces"doi: 10.18563/m3.sf.720 state:published |
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Neoepiblema acreensis UFAC 1939 View specimen
M3#721UFAC 1939, right ulna missing the olecranon epiphysis and the distal region. Type: "3D_surfaces"doi: 10.18563/m3.sf.721 state:published |
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Neoepiblema acreensis UFAC 3697 View specimen
M3#722UFAC 3697, right innominate bone. Type: "3D_surfaces"doi: 10.18563/m3.sf.722 state:published |
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Neoepiblema acreensis UFAC 2574 View specimen
M3#723UFAC 2574, proximal region of a left femur. Type: "3D_surfaces"doi: 10.18563/m3.sf.723 state:published |
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Neoepiblema acreensis UFAC 2937 View specimen
M3#724UFAC 2937, right femur with damaged proximal region. Type: "3D_surfaces"doi: 10.18563/m3.sf.724 state:published |
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Neoepiblema acreensis UFAC 2210 View specimen
M3#725UFAC 2210, distal region of a right femur. Type: "3D_surfaces"doi: 10.18563/m3.sf.725 state:published |
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Neoepiblema acreensis UFAC 1887 View specimen
M3#726UFAC 1887, right tibia Type: "3D_surfaces"doi: 10.18563/m3.sf.726 state:published |
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Neoepiblema acreensis UFAC 1840 View specimen
M3#727UFAC 1840, left astragalus. Type: "3D_surfaces"doi: 10.18563/m3.sf.727 state:published |
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Neoepiblema acreensis UFAC 2549 View specimen
M3#728UFAC 2549, right astragalus. Type: "3D_surfaces"doi: 10.18563/m3.sf.728 state:published |
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Neoepiblema acreensis UFAC 3672 View specimen
M3#729UFAC 3672, right navicular. Type: "3D_surfaces"doi: 10.18563/m3.sf.729 state:published |
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Neoepiblema acreensis UFAC 2116 View specimen
M3#730UFAC 2116, left metatarsal III. Type: "3D_surfaces"doi: 10.18563/m3.sf.730 state:published |
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Neoepiblema horridula UFAC 3260 View specimen
M3#731UFAC 3260, fragmented left innominate. Type: "3D_surfaces"doi: 10.18563/m3.sf.731 state:published |
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Neoepiblema horridula UFAC 2620 View specimen
M3#732UFAC 2620, distal region of a right femur. Type: "3D_surfaces"doi: 10.18563/m3.sf.732 state:published |
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Neoepiblema horridula UFAC 2737 View specimen
M3#733UFAC 2737, proximal region of right femur. Type: "3D_surfaces"doi: 10.18563/m3.sf.733 state:published |
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Neoepiblema horridula UFAC 3202 View specimen
M3#734UFAC 3202, right tibia, missing the proximalmost and distal portions. Type: "3D_surfaces"doi: 10.18563/m3.sf.734 state:published |
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Neoepiblema horridula UFAC 3212 View specimen
M3#735UFAC 3212, left astragalus. Type: "3D_surfaces"doi: 10.18563/m3.sf.735 state:published |
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The present 3D Dataset contains the 3D model of a left dentary with m1-m3 analyzed in “A new fossil of Tayassuidae (Mammalia: Certartiodactyla) from the Pleistocene of northern Brazil”. The 3D model was generated using a laser scanning.
cf. Pecari tajacu UFSM 11606 View specimen
M3#498Left dentary with m1-m3 Type: "3D_surfaces"doi: 10.18563/m3.sf.498 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
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 model used in in the following publication: Interacting with the inaccessible: utilization of multimedia-based visual contents of Japan’s National Monument, the Taniwhasaurus mikasaensis (Mosasauridae) holotype for educational workshops at Mikasa City Museum.
Taniwhasaurus mikasaensis MCM.M0009 View specimen
M3#499Taniwhasaurus mikasaensis, Caldwell et al. 2008 Type: "3D_surfaces"doi: 10.18563/m3.sf.499 state:published |
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This contribution contains the 3D models described and figured in the following publication: Paulina-Carabajal A and Calvo JO 2021. Re-description of the braincase of the rebbachisaurid sauropod Limaysaurus tessonei and novel endocranial information based on CT scans. Anais da Academia Brasileira de Ciências 93(Suppl. 2): e20200762 https://doi.org/10.1590/0001-3765202120200762
Limaysaurus tessonei MUCPv-205 View specimen
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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The present 3D Dataset contains the 3D models analyzed in Pochat-Cottilloux Y., Rinder N., Perrichon G., Adrien J., Amiot R., Hua S. & Martin J. E. (2023). The neuroanatomy and pneumaticity of Hamadasuchus from the Cretaceous of Morocco and its significance for the paleoecology of Peirosauridae and other altirostral crocodylomorphs. Journal of Anatomy, https://doi.org/10.1111/joa.13887
Hamadasuchus sp. UCBL-FSL 532408 View specimen
M3#10943D volume reconstruction of the braincase osteology Type: "3D_surfaces"doi: 10.18563/m3.sf.1094 state:published |
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M3#10963D volume reconstruction of the endocast Type: "3D_surfaces"doi: 10.18563/m3.sf.1096 state:published |
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M3#10973D volume reconstruction of the labyrinths Type: "3D_surfaces"doi: 10.18563/m3.sf.1097 state:published |
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M3#10983D volume reconstruction of the pneumatic cavities Type: "3D_surfaces"doi: 10.18563/m3.sf.1098 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
M3#857endocast of the brain cavity Type: "3D_surfaces"doi: 10.18563/m3.sf.857 state:published |
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