3D models of inner ears of dogs, wolves and dingoes
3D models of the enamel-dentine junctions of upper third molars and of the bony labyrinths in extant cercopithecoids.
The middle ear of eulipotyphlans
3D models of a protocetid middle ear
Internal tooth structure of Neolithic humans
bony labyrinth (6) , inner ear (6) , South America (5) , Switzerland (4) , human embryo (4)
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3D models related to the publication: Size Variation under Domestication: Conservatism in the inner ear shape of wolves, dogs and dingoesAnita . Schweizer, Renaud Lebrun, Laura A. B. Wilson, Loïc Costeur, Thomas Schmelzle and Marcelo Sánchez-VillagraKeywords: cochlea; feralisation; petrosal; semicircular canal; zooarchaeologydoi: 10.18563/m3.3.4.e1 Abstract The present 3D Dataset contains the 3D models analyzed in the following publication: Size variation under domestication: Conservatism in the inner ear shape of wolves, dogs and dingoes. Scientific Reports 7, Article number: 13330, https://doi.org/10.1038/s41598-017-13523-9. Canis lupus familiaris NMBE 16 View specimen
Canis lupus familiaris NMBE-LAT-1136 View specimen
Canis lupus familiaris NMBE-LAT-1119 View specimen
Canis lupus familiaris NMBE-BUR-1057 View specimen
Canis lupus familiaris NMBE-LUS-1102 View specimen
Canis lupus familiaris NMBE-LUS-1095 View specimen
Canis lupus familiaris NMBE-DUR-1124 View specimen
Canis lupus chanco ZMUZH 17603 View specimen
Canis lupus chanco ZMUZH 20201 View specimen
Canis lupus chanco ZMUZH 17602 View specimen
Canis lupus ZMUZH 13854 View specimen
Canis lupus chanco ZMUZH 20202 View specimen
Canis lupus chanco ZMUZH 17612 View specimen
Canis lupus chanco ZMUZH 18082 View specimen
Canis lupus ZMUZH 17118 View specimen
Canis lupus ZMUZH 15858 View specimen
Canis lupus familiaris ZMUZH 17712 View specimen
Canis lupus familiaris ZMUZH 17713 View specimen
Canis lupus familiaris ZMUZH 10166 View specimen
Canis lupus familiaris ZMUZH 10175 View specimen
Canis lupus familiaris ZMUZH 14842 View specimen
Canis lupus familiaris ZMUZH 10342 View specimen
Canis lupus familiaris ZMUZH 10343 View specimen
Canis lupus familiaris ZMUZH 13766 View specimen
Canis lupus familiaris ZMUZH 17717 View specimen
Canis lupus familiaris ZMUZH 17711 View specimen
Canis lupus familiaris ZMUZH 17714 View specimen
Canis lupus familiaris ZMUZH 17715 View specimen
Canis lupus familiaris PIMUZ A/V 2835 View specimen
Canis lupus familiaris PIMUZ A/V 2834 View specimen
Canis lupus familiaris PIMUZ A/V 2837 View specimen
Canis lupus familiaris PIMUZ A/V 2831 View specimen
Canis lupus familiaris PIMUZ A/V 2845 View specimen
Canis lupus familiaris PIMUZ A/V 3001 View specimen
Canis lupus familiaris PIMUZ A/V 2832 View specimen
Canis lupus familiaris PIMUZ A/V 3000 View specimen
Canis lupus familiaris PIMUZ A/V 2847 View specimen
Canis lupus familiaris PIMUZ A/V 2846 View specimen
Canis lupus familiaris PIMUZ A/V 2836 View specimen
Canis lupus familiaris NMB 12080 View specimen
Canis lupus familiaris NMB 12081 View specimen
Canis lupus familiaris NMB 12079 View specimen
Canis lupus familiaris NMB 12078 View specimen
Canis lupus familiaris NMBE 1051209 View specimen
Canis lupus familiaris NMBE 1051226 View specimen
Canis lupus familiaris NMBE 1051381 View specimen
Canis lupus familiaris NMBE 1051418 View specimen
Canis lupus familiaris ZMUZH A.II. View specimen
Canis lupus familiaris ZMUZH A.VII. View specimen
Canis lupus familiaris ZMUZH We.6. View specimen
Canis lupus familiaris ZMUZH Ez.2. View specimen
Canis lupus familiaris ZMUZH Ez.E. View specimen
Canis lupus familiaris ZMUZH A.6. View specimen
Canis lupus familiaris ZMUZH Wyn.9. View specimen
Canis lupus familiaris ZMUZH F.48. View specimen
Canis lupus familiaris ZMUZH Terp.1. View specimen
Canis lupus familiaris ZMUZH A.VIII. View specimen
Canis lupus familiaris ZMUZH A.VI. View specimen
Canis lupus familiaris ZMUZH A.IV. View specimen
Canis lupus familiaris NMBE A.403. View specimen
Canis lupus familiaris NMBE A.5.a. View specimen
Canis lupus NMB 8381 View specimen
Canis lupus lycaon NMB C.1362 View specimen
Canis lupus NMB Z309 View specimen
Canis lupus NMB 2761 View specimen
Canis lupus occidentalis NMB No Nb View specimen
Canis lupus NMB 5258 View specimen
Canis lupus NMB SCM320 View specimen
Canis lupus arabs NMB 11019 View specimen
Canis lupus UMZC K.3141 View specimen
Canis lupus UMZC K.3150.1 View specimen
Canis lupus UMZC K.3152 View specimen
Canis lupus UMZC K.3149 View specimen
Canis lupus familiaris UMZC K.3016 View specimen
Canis lupus familiaris TMM M-150 View specimen
Canis lupus occidentalis ZMUZH 17210 View specimen
Canis lupus familiaris SZ 7961 View specimen
Canis lupus familiaris SZ 7959 View specimen
Canis lupus familiaris SZ 7958 View specimen
Canis lupus familiaris SZ 7930 View specimen
Canis lupus familiaris SZ 7926 View specimen
Canis lupus familiaris SZ 7929 View specimen
Canis lupus dingo M6297 View specimen
Canis lupus dingo M24153 View specimen
Canis lupus M39960 View specimen
Canis lupus dingo M33608 View specimen
Canis lupus dingo M38587 View specimen
Canis lupus dingo Blumenbach UMZC K.3221 View specimen
Canis lupus dingo Blumenbach UMZC K.3223 View specimen
Canis lupus dingo UniSyd FVS 45 View specimen
Canis lupus dingo UNSW Z354 View specimen
Canis lupus NMB 8635 View specimen
See original publication M3 article infos Published in Volume 03, Issue 04 (2017) |
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3D models related to the publication: Upper third molar internal structural organization and semicircular canal morphology in Plio-Pleistocene South African cercopithecoids.Amélie Beaudet, Guillaume Fleury, Emmanuel Gilissen, Jean Dumoncel, John F. Thackeray, Laurent Bruxelles, Benjamin Duployer, Christophe Tenailleau, Lunga Bam, Jakobus Hoffman, Frikke De Beer and José BragaKeywords: bony labyrinth; cercopithecoids; enamel-dentine junction; upper third molarsdoi: 10.18563/journal.m3.86 Abstract The present 3D Dataset contains the 3D models of the enamel-dentine junctions of upper third molars and of the bony labyrinths of the extant cercopithecoid specimens analyzed in the following publication: Beaudet, A., Dumoncel, J., Thackeray, J.F., Bruxelles, L., Duployer, B., Tenailleau, C., Bam, L., Hoffman, J., de Beer, F., Braga, J.: Upper third molar internal structural organization and semicircular canal morphology in Plio-Pleistocene South African cercopithecoids. Journal of Human Evolution 95, 104-120. https://doi.org/10.1016/j.jhevol.2016.04.004 Cercocebus atys 81.007-M-0041 View specimen
Cercocebus torquatus 73.018-M-0359 View specimen
Mandrillus leucophaeus 73.029-M-0106 View specimen
Lophocebus albigena 73.029-M-0109 View specimen
Piliocolobus foai 91.060-M-0071 View specimen
Colobus guereza 1215 View specimen
Colobus guereza 2800 View specimen
Papio cynocephalus kindae 3503 View specimen
Erythrocebus patas 8452 View specimen
Papio cynocephalus kindae 17979 View specimen
Colobus angolensis 25456 View specimen
Chlorocebus pygerythrus 37477 View specimen
Chlorocebus pygerythrus 37478 View specimen
Lophocebus albigena 37572 View specimen
Lophocebus albigena 37579 View specimen
Erythrocebus patas OST.2002-26 View specimen
Mandrillus sphinx OST.AC.488 View specimen
Macaca mulatta OST.AC.492 View specimen
Chlorocebus aethiops OST.AC.523 View specimen
Cercopithecus cephus OST.AC.533 View specimen
Chlorocebus aethiops OST.AC.540 View specimen
Mandrillus sphinx OST.AC.543 View specimen
Cercocebus torquatus 73.018-M-389 View specimen
Mandrillus leucophaeus 73.029-M-0105 View specimen
Mandrillus leucophaeus 28425 View specimen
Cercocebus atys 28998 View specimen
Macaca sylvanus OST.AC.493 View specimen
Chlorocebus aethiops OST.AC.508 View specimen
Cercopithecus cephus OST.AC.515 View specimen
Colobus guereza OST.AC.519 View specimen
Macaca sp. OST.AC.532 View specimen
M3 article infos in press |
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3D atlas and comparative osteology of the middle ear ossicles among Eulipotyphla (Mammalia, Placentalia).Daisuke KoyabuKeywords: aquatic adaptation; convergence; Eulipotyphla; fossorial adaptation; hearingdoi: 10.18563/m3.3.2.e3 Abstract Considerable morphological variations are found in the middle ear among mammals. Here I present a three-dimensional atlas of the middle ear ossicles of eulipotyphlan mammals. This group has radiated into various environments as terrestrial, aquatic, and subterranean habitats independently in multiple lineages. Therefore, eulipotyphlans are an ideal group to explore the form-function relationship of the middle ear ossicles. This comparative atlas of hedgehogs, true shrews, water shrews, mole shrews, true moles, and shrew moles encourages future studies of the middle ear morphology of this diverse group. Erinaceus europaeus DK2331 View specimen
Anourosorex yamashinai SIK_yamashinai View specimen
Blarina brevicauda M8003 View specimen
Chimarrogale platycephala DK5481 View specimen
Suncus murinus DK1227 View specimen
Condylura cristata SIK0050 View specimen
Euroscaptor klossi SIK0673 View specimen
Euroscaptor malayana SIK_malayana View specimen
Mogera wogura DK2551 View specimen
Talpa altaica SIK_altaica View specimen
Urotrichus talpoides DK0887 View specimen
Oreoscaptor mizura DK6545 View specimen
Scalopus aquaticus SIK_aquaticus View specimen
Scapanus orarius SIK_orarius View specimen
Neurotrichus gibbsii SIK_gibbsii View specimen
M3 article infos Published in Volume 03, Issue 02 (2017) |
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3D models related to the publication: Early Evolution of the Ossicular Chain in Cetacea: Into the Middle Ear Gears of a Semi-Aquatic Protocetid WhaleMickaël Mourlam and Maëva OrliacKeywords: archaeocete; incus; malleus; stapesdoi: 10.18563/journal.m3.94 Abstract This contribution contains the 3D models of the ossicles of a protocetid archaeocete from the locality of Kpogamé, Togo, described and figured in the publication of Mourlam and Orliac (2019). indet. indet. UM KPG M 73 View specimen
M3 article infos Published in Volume 05, issue 04 (2019) |
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3D models related to the publication: Internal tooth structure and burial practices: insights into the Neolithic necropolis of Gurgy (France, 5100-4000 cal. BC).Mona Le Luyer, Michael Coquerelle, Stéphane Rottier and Priscilla BayleKeywords: modern humans; Neolithic; upper permanent second molarsdoi: 10.18563/m3.2.1.e1 Abstract The present 3D Dataset contains the 3D models of external and internal aspects of human upper permanent second molars from the Neolithic necropolis analyzed in the following publication: Le Luyer M., Coquerelle M., Rottier S., Bayle P. (2016): Internal tooth structure and burial practices: insights into the Neolithic necropolis of Gurgy (France, 5100-4000 cal. BC). Plos One 11(7): e0159688. doi: 10.1371/journal.pone.0159688. Homo sapiens GLN04-201-ULM2 View specimen
Homo sapiens GLN04-206-ULM2 View specimen
Homo sapiens GLN05-213-URM2 View specimen
Homo sapiens GLN05-215A-URM2 View specimen
Homo sapiens GLN06-215B-URM2 View specimen
Homo sapiens GLN06-223-URM2 View specimen
Homo sapiens GLN04-229-URM2 View specimen
Homo sapiens GLN05-243B-ULM2 View specimen
Homo sapiens GLN04-248-ULM2 View specimen
Homo sapiens GLN04-252-ULM2 View specimen
Homo sapiens GLN04-253-ULM2 View specimen
Homo sapiens GLN05-257-URM2 View specimen
Homo sapiens GLN04-264-ULM2 View specimen
Homo sapiens GLN04-277-URM2 View specimen
Homo sapiens GLN04-289B-URM2 View specimen
Homo sapiens GLN06-291-URM2 View specimen
Homo sapiens GLN05-292-URM2 View specimen
Homo sapiens GLN05-294-ULM2 View specimen
Homo sapiens GLN05-301-ULM2 View specimen
Homo sapiens GLN05-308-URM2 View specimen
M3 article infos Published in Volume 02, Issue 01 (2016) |
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3D model related to the publication: Filling a gap in the proboscidean fossil record: a new genus from the Lutetian of SenegalRodolphe Tabuce, Raphaël Sarr and Lionel HautierKeywords: Africa; Eocene; Proboscidea; Senegaldoi: 10.18563/journal.m3.104 Abstract The present 3D Dataset contains the 3D surface model and the µCT scan analyzed in the following publication: R. Tabuce, R. Sarr, S. Adnet, R. Lebrun, F. Lihoreau, J. E. Martin, B. Sambou, M. Thiam, and L. Hautier: Filling a gap in the proboscidean fossil record: a new genus from the Lutetian of Senegal. Journal of Paleontology, in press, doi: 10.1017/jpa.2019.98 Saloumia gorodiskii MNHN.F.MCA 1 View specimen
M3 article infos in press |
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MicroCT survey of larval skeletal mineralization in the Cuban gar Atractosteus tristoechus (Actinopterygii; Lepisosteiformes)Raphaël Scherrer, Andrés Hurtado, Erik Garcia Machado and Mélanie Debiais-ThibaudKeywords: Actinopterygii; development; Lepisosteiformes; mineralization; skeletondoi: 10.18563/m3.3.3.e3 Abstract 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
Atractosteus tristoechus At2-16dph View specimen
Atractosteus tristoechus At3-19dph View specimen
Atractosteus tristoechus At4-22dph View specimen
Atractosteus tristoechus At5-26dph View specimen
Atractosteus tristoechus At6-31dph View specimen
Atractosteus tristoechus At7-37dph View specimen
Atractosteus tristoechus At8-52dph View specimen
Atractosteus tristoechus At9-74dph View specimen
Atractosteus tristoechus At10-89dph View specimen
Atractosteus tristoechus At11-104dph View specimen
Atractosteus tristoechus At12-118dph View specimen
M3 article infos Published in Volume 03, Issue 03 (2017) |
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3D model related to the publication: The endocranial anatomy of the stem turtle Naomichelys speciosa from the Early Cretaceous of North AmericaAriana Paulina-Carabajal, Juliana Sterli and Ingmar WerneburgKeywords: brain endocast; inner ear; micro computed tomography; morphology; Testudinatadoi: 10.18563/journal.m3.99 Abstract 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
See original publication M3 article infos Published in Volume 05, issue 04 (2019) |
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3D models related to the publication: Protocetid (Cetacea, Artiodactyla) bullae and petrosals from the Middle Eocene locality of Kpogamé, Togo: new insights into the early history of cetacean hearingMickaël Mourlam and Maëva OrliacKeywords: archaeocete; auditory region; Lutetian; petrotympanic complexdoi: 10.18563/m3.3.1.e2 Abstract This contribution contains the 3D models described and figured in the following publication: Mourlam, M., Orliac, M. J. (2017), Protocetid (Cetacea, Artiodactyla) bullae and petrosals from the Middle Eocene locality of Kpogamé, Togo: new insights into the early history of cetacean hearing. Journal of Systematic Palaeontology https://doi.org/10.1080/14772019.2017.1328378 ?Carolinacetus indet. UM KPG-M 164 View specimen
indet. indet. UM KPG-M 73 View specimen
?Carolinacetus indet. UM KPG-M 33 View specimen
Togocetus traversei UM KPG-M 80 View specimen
See original publication M3 article infos Published in Volume 03, Issue 01 (2017) |
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Osteological connexions of the petrosal bone of the extant Hippopotamidae Hippopotamus amphibius and Choeropsis liberiensisMaëva Orliac, Franck Guy and Renaud LebrunKeywords: Artiodactyla; bulla; ear region; pygmy hippo; sinusdoi: 10.18563/m3.1.1.e1 Abstract This project presents the osteological connexions of the petrosal bone of the extant Hippopotamidae Hippopotamus amphibius and Choeropsis liberiensis by a virtual osteological dissection of the ear region. The petrosal, the bulla, the sinuses and the major morphological features surrounding the petrosal bone are labelled, both in situ and in an exploded model presenting disassembly views. The directional underwater hearing mode of Hippopotamidae is discussed based on the new observations. Choeropsis liberiensis UPPal-M09-5-005a View specimen
Hippopotamus amphibius UM N179 View specimen
M3 article infos Published in Vol. 01, Issue 01 (2015) |
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Skeletogenesis during the late embryonic development of the catshark Scyliorhinus canicula (Chondrichthyes; Neoselachii)Sébastien Enault, Sylvain Adnet and Mélanie Debiais-ThibaudKeywords: Chondrichthyes; development; mineralization; Scyliorhinus canicula; skeletondoi: 10.18563/m3.1.4.e2 Abstract Current knowledge on the skeletogenesis of Chondrichthyes is scarce compared with their extant sister group, the bony fishes. Most of the previously described developmental tables in Chondrichthyes have focused on embryonic external morphology only. Due to its small body size and relative simplicity to raise eggs in laboratory conditions, the small-spotted catshark Scyliorhinus canicula has emerged as a reference species to describe developmental mechanisms in the Chondrichthyes lineage. Here we investigate the dynamic of mineralization in a set of six embryonic specimens using X-ray microtomography and describe the developing units of both the dermal skeleton (teeth and dermal scales) and endoskeleton (vertebral axis). This preliminary data on skeletogenesis in the catshark sets the first bases to a more complete investigation of the skeletal developmental in Chondrichthyes. It should provide comparison points with data known in osteichthyans and could thus be used in the broader context of gnathostome skeletal evolution. Scyliorhinus canicula SC6_2_2015_03_20 View specimen
Scyliorhinus canicula SC6_7_2015_03_20 View specimen
Scyliorhinus canicula SC7_1_2015_04_03 View specimen
Scyliorhinus canicula SC7_5_2015_03_13 View specimen
Scyliorhinus canicula SC8_2015_03_20 View specimen
Scyliorhinus canicula SC10_2015_02_27 View specimen
M3 article infos Published in Volume 01, Issue 04 (2016) |
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3D reconstructions of dental epithelium during Oryctolagus cuniculus embryonic development related to the publication ”Morphological features of tooth development and replacement in the rabbit Oryctolagus cuniculus”Ludivine Bertonnier-Brouty, Laurent Viriot, Thierry Joly and Cyril CharlesKeywords: dental development; Oryctolagus cuniculus; rabbit teeth; tooth replacementdoi: 10.18563/journal.m3.90 Abstract The present 3D Dataset contains the 3D models analyzed in ”Morphological features of tooth development and replacement in the rabbit Oryctolagus cuniculus”, Archives of Oral Biology, https://doi.org/10.1016/j.archoralbio.2019.104576 Oryctogalus cuniculus E14 View specimen
Oryctogalus cuniculus E16 View specimen
Oryctogalus cuniculus E18 View specimen
Oryctogalus cuniculus E20 View specimen
Oryctogalus cuniculus E22 View specimen
Oryctogalus cuniculus E24 View specimen
Oryctogalus cuniculus E26 View specimen
Oryctogalus cuniculus E28 View specimen
M3 article infos Published in Volume 05, issue 04 (2019) |
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A mandible of Diacodexis cf. gigasei (Artiodactyla, Diacodexeidae) from the Early Eocene locality of Palette (Bouches-du-Rhône, France)Maëva Orliac, Myriam Boivin and Rodolphe TabuceKeywords: artiodactyl; Dentary; diacodexeid; MP7; Ypresiandoi: 10.18563/journal.m3.60 Abstract This note presents the 3D model of the hemi-mandible UM-PAT 159 of the MP7 Diacodexis species D. cf. gigasei and 3D models corresponding to the restoration of the ascending ramus, broken on the original specimen, and to a restoration of a complete mandible based on the preserved left hemi-mandible. Diacodexis cf. gigasei UMPAT159 View specimen
M3 article infos Published in Volume 04, issue 01 (2018) |
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3D models related to the publication: Morphogenesis of the liver during the human embryonic periodAyumi Hirose, Takashi Nakashima, Naoto Shiraki, Shigehito Yamada, Chigako Uwabe, Katsumi Kose and Tetsuya TakakuwaKeywords: human embryo; human liver; magnetic resonance imaging; three-dimensional reconstructiondoi: 10.18563/m3.1.4.e1 Abstract The present 3D Dataset contains the 3D models analyzed in: Hirose, A., Nakashima, T., Yamada, S., Uwabe, C., Kose, K., Takakuwa, T. 2012. Embryonic liver morphology and morphometry by magnetic resonance microscopic imaging. Anat Rec (Hoboken) 295, 51-59. doi: 10.1002/ar.21496 Homo sapiens KC-CS14LIV1387 View specimen
Homo sapiens KC-CS15LIV5074 View specimen
Homo sapiens KC-CS16LIV2578 View specimen
Homo sapiens KC-CS17LIV17832 View specimen
Homo sapiens KC-CS18LIV21124 View specimen
Homo sapiens KC-CS19LIV14353 View specimen
Homo sapiens KC-CS20LIV20701 View specimen
Homo sapiens KC-CS21LIV25858 View specimen
Homo sapiens KC-CS22LIV22226 View specimen
Homo sapiens KC-CS23LIV25704 View specimen
See original publication M3 article infos Published in Volume 01, Issue 04 (2016) |
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3D models related to the publication: Ontogenetic development of the otic region in the new model organism, Leucoraja erinacea (Chondrichthyes; Rajidae).
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M3#367_2018.9.26.13D model of the right skeletal labyrinth of the adult specimen of Leucoraja erincea. T Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.367 |
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Leucoraja erinacea 2018.9.25.2 View specimen
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M3#368_2018.9.25.23D model of the right skeletal labyrinth of the stage 34 specimen of Leucoraja erincea. Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.368 |
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Leucoraja erinacea 2018.9.25.3 View specimen
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M3#369_2018.9.25.33D model of the right skeletal labyrinth of the stage 32 specimen of Leucoraja erinacea. Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.369 |
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M3#372_2018.9.25.33D model of the right membranous system of stage 32 of Leucoraja erincea. Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.372 |
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Leucoraja erinacea 2018.9.25.4 View specimen
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M3#370_2018.9.25.43D model of the right skeletal labyrinth of the stage 31 specimen of Leucoraja erinacea. Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.370 |
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Leucoraja erinacea 2018.9.26.5 View specimen
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M3#376_2018.9.26.53D model of the right skeletal labyrinth of the stage 29 specimen of Leucoraja erinacea. Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.376 |
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This project presents the 3D models of two isolated petrosals from the Oligocene locality of Pech de Fraysse (Quercy, France) here attributed to the genus Prodremotherium Filhol, 1877. Our aim is to describe the petrosal morphology of this Oligocene “early ruminant” as only few data are available in the literature for Oligocene taxa.
Prodremotherium sp. UM PFY 4053 View specimen
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M3#7_UM PFY 4053Labelled 3D model of right isolated petrosal of Prodremotherium sp. from Pech de Fraysse (Quercy, MP 28) Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf7 |
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Prodremotherium sp. UM PFY 4054 View specimen
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M3#8_UM PFY 4054Labelled 3D model of right isolated petrosal of Prodremotherium sp. from Pech de Fraysse (Quercy, MP 28) Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf8 |
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This contribution provides for the first time the 3D model of the type specimen of Molassitherium delemontense (Mammalia, Rhinocerotidae) described in the following publication: Becker et al. (2013), Journal of Systematic Palaeontology, Vol. 11, Issue 8, 947–972, https://doi.org/10.1080/14772019.2012.699007. Conservation issues of the specimen and solutions using 3D model and 3D prints are detailed.
Molassitherium delemontense MJSN POI007–245 View specimen
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M3#384_MJSN POI007–245Skull of Molassitherium delemontense Becker and Antoine, 2013 (in Becker et al. 2013): holotype Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.384 |
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The present 3D Dataset contains the 3D models analyzed in the publication “Systematic and locomotor diversification of the Adapis group (Primates, Adapiformes) in the late Eocene of the Quercy (Southwest France), revealed by humeral remains”. In this paper, twenty humeral specimens from the old and new Quercy collections attributed to the fossil primates Adapis and Palaeolemur are described and analysed together. In this dataset only the scans of the fossils belonging to the collections of Université de Montpellier are provided.
In our paper (Marigó et al., 2019) we provide a qualitative and quantitative analysis of the different humeri, revealing that high variability is present within the “Adapis group” sample. Six different morphotypes are identified, confirming that what has often been called “Adapis parisiensis” is a mix of different species that present different locomotor adaptations.
Adapis sp. UM ROS 2-534 View specimen
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M3#358_UM ROS 2-534Distal end of the left humerus ROS 2-534 attributed to the Adapis group Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.358 |
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Adapis sp. UM ROS 2-536 View specimen
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M3#357_UM ROS 2-536Proximal end of the right humerus ROS 2-536 attributed to the Adapis group Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.357 |
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Adapis sp. UM ROS 2-95 View specimen
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M3#356_UM ROS 2-95Complete right humerus ROS 2-95 attributed to the Adapis group Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.356 |
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Adapis sp. UM ROS 2-535 View specimen
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M3#359_UM ROS 2-535Distal end of the left humerus ROS 2-535 attributed to the Adapis group Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.359 |
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Adapis sp. UM ROS 2-80 View specimen
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M3#360_ROS 2-80Proximal end of the right humerus ROS 2-80 attributed to the Adapis group Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.360 |
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Adapis sp. UM ROS 2-79 View specimen
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M3#361_UM ROS 2-79Distal end of the right humerus ROS 2-79 attributed to the Adapis group Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.361 |
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Adapis sp. UM ECA 1364 View specimen
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M3#362_UM ECA 1364Distal end of the left humerus ECA 1364 attributed to the Adapis group Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.362 |
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Adapis sp. UM ACQ-262 View specimen
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M3#373_UM ACQ-2623D model of ACQ 262. Humerus Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf373 |
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The present 3D Dataset contains the 3D models analyzed in "Neenan, J. M., Reich, T., Evers, S., Druckenmiller, P. S., Voeten, D. F. A. E., Choiniere, J. N., Barrett, P. M., Pierce, S. E. and Benson, R. B. J. Evolution of the sauropterygian labyrinth with increasingly pelagic lifestyles. Current Biology, 27." https://doi.org/10.1016/j.cub.2017.10.069
Amblyrhynchus cristatus OUMNH 11616 View specimen
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M3#322_OUMNH 11616Right labyrinth of Amblyrhynchus cristatus (OUMNH 11616). Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.322 |
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Augustasaurus hagdorni FMNH PR 1974 View specimen
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M3#333_FMNH PR 1974Right labyrinth model of Augustasaurus FMNH PR 1974 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.333 |
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Callawayasaurus colombiensis UCMP V-38349 / UCMP V-125328 View specimen
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M3#331_UCMP V-38349 / UCMP V-125328Composite left labyrinth of Callawayasaurus. The majority of the model is from the holotype (UCMP V-38349), but the anterior portion is formed from the right labyrinth (reflected) from the paratype (UCMP V-125328). Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.331 |
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Lepidochelys olivacea SMNS 11070 View specimen
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M3#330_SMNS 11070Left labyrinth model of Lepidochelys SMNS 11070 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.330 |
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Macrochelys temminckii FMNH 22111 View specimen
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M3#334_FMNH 22111Left labyrinth model of Macrochelys FMNH 22111 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.334 |
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Macroplata tenuiceps NHMUK R 5488 View specimen
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M3#328_NHMUK R 5488Left labyrinth of Macroplata NHMUK R 5488 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.328 |
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Microcleidus homalospondylus NHMUK 36184 View specimen
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M3#327_NHMUK 36184Right labyrinth model of Microcleidus NHMUK 36184 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.327 |
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Nothosaurus sp. NME 16/4 View specimen
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M3#326_NME 16/4Right labyrinth model of Nothosaurus sp. NME 16/4 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.326 |
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Peloneustes philarchus NHMUK R 3803 View specimen
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M3#325_NHMUK R 3803Left labyrinth model of Peloneustes philarchus NHMUK R 3803 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.325 |
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Placodus gigas UMO BT 13 View specimen
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M3#324_UMO BT 13Right labyrinth model of Placodus gigas UMO BT 13 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.324 |
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Puppigerus camperi NHMUK R 38955 View specimen
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M3#323_NHMUK R 38955Left labyrinth model of Puppigerus NHMUK R 38955 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.323 |
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Simosaurus gaillardoti GPIT RE/09313 View specimen
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M3#332_GPIT RE/09313Right labyrinth model of Simosaurus GPIT RE/09313 Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.332 |
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Libonectes morgani SMUSMP 69120 View specimen
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M3#335_SMUSMP 69120Right labyrinth model of Libonected morgani (SMUSMP 69120) Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.335 |
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The present 3D Dataset contains the 3D models of brain endocast of traversodontid cynodonts studied in: Pavanatto et al. 2019. Virtual reconstruction of cranial endocasts of traversodontid cynodonts (Eucynodontia: Gomphodontia) from the upper Triassic of Southern Brazil. Journal of Morphology. https://doi.org/10.1002/jmor.21029
Siriusgnathus niemeyerorum CAPPA/UFSM 0032 View specimen
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M3#425_CAPPA/UFSM 00323D model of the brain endocast Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.425 |
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Exaeretodon riograndensis CAPPA/UFSM 0030 View specimen
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M3#426_CAPPA/UFSM 00303D model of the brain endocast Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.426 |
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Exaeretodon riograndensis CAPPA/UFSM 0227 View specimen
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M3#427_CAPPA/UFSM 02273D model of the brain endocast Type: "3D_surfaces"3D view: doi: 10.18563/m3.sf.427 |
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