3D models of cetartiodactyl cervicothoracic vertebrae
3D models of early dinosaur sacral vertebrae
3D model of the turtle Solnhofia brachyrhyncha
A photorealistic collection of Homo sapiens crania for research and dissemination
Comparative anatomy of mice masticatory apparatus.
Bony labyrinth (8) , Inner ear (7) , South America (5) , Oligocene (4) , Switzerland (4)
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3D models related to the publication: Pushing the boundary? Testing the ‘functional elongation hypothesis’ of the giraffe’s neckMarilena A. Müller, Luisa Merten, Christine Böhmer and John A. NyakaturaKeywords: cetartiodactyla; comparative anatomy; neck; Vertebrae; vertebral columndoi: 10.18563/journal.m3.129 Abstract This contribution contains the 3D models analyzed in Müller et al. (2021) “Pushing the boundary? Testing the ‘functional elongation hypothesis’ of the giraffe’s neck”. Aepyceros melampus ZFMK 2001.278 View specimen
Giraffa camelopardalis ZMB 66393 View specimen
Giraffa camelopardalis ZSM 1967/17 View specimen
Giraffa camelopardalis ZSM 1981/19 View specimen
Giraffa camelopardalis KMDA M-10861 View specimen
Giraffa camelopardalis SMF 84214 View specimen
Giraffa camelopardalis SMF 78299 View specimen
Giraffa camelopardalis SMF o. N View specimen
Giraffa camelopardalis SMNS 19138 View specimen
Okapia johnstoni ZMB 62086 View specimen
Okapia johnstoni ZMB 70325 View specimen
Sivatherium giganteum NHMUK 15707 View specimen
Sivatherium giganteum NHMUK 15297 View specimen
Cervus elaphus ZMB 47502 View specimen
Axis axis SMF 1450 View specimen
Cervus nippon SMF 4368 View specimen
Capreolus capreolus SMF 79852 View specimen
Capreolus capreolus ZFMK 67.237 View specimen
Muntiacus reevesi SMF 92954 View specimen
Muntiacus reevesi SMF 92332 View specimen
Alces alces SMF 35549 View specimen
Dama dama ZFMK 86.125 View specimen
Antilope cervicapra ZMB 78829 View specimen
Bison bonasus SMNS 2998 View specimen
Nanger dama SMF 74435 View specimen
Litocranius walleri SMF 23747 View specimen
Litocranius walleri SMF 23749 View specimen
Tragelaphus eurycerus SMF 95875 View specimen
Bos javanicus SMF 64934 View specimen
Ovis aries musimon ZFMK 1982.338 View specimen
Rupicapra rupicapra ZFMK 72.367 View specimen
Kobus ellipsiprymnus SMNS 4443 View specimen
Sylvicapra grimmia SMNS 15292 View specimen
Syncerus caffer SMNS 7347 View specimen
Procapra gutturosa SMNS 5796 View specimen
Damaliscus pygargus SMNS 21617 View specimen
Madoqua kirkii SMNS 4432 View specimen
Bubalus mindorensis SMNS 2054 View specimen
Capra hircus dom. SMNS 51328 View specimen
Connochaetes taurinus SMNS 4442 View specimen
Antilocapra americana ZSM 1964/218 View specimen
Antilocapra americana ZMB 77281 View specimen
Moschus moschiferus ZMB 62080 View specimen
Moschus moschiferus ZMB 60367 View specimen
Moschus moschiferus ZMB 51830 View specimen
Tragulus javanicus SMF 82179 View specimen
Tragulus javanicus ZMB 86222 View specimen
Tragulus sp. ZMB o. N. View specimen
Hyemoschus aquaticus ZMB 71071 View specimen
Hyemoschus aquaticus ZMB 103235 View specimen
Vicugna vicugna SMF 94752 View specimen
Camelus dromedarius SMF 70473 View specimen
Camelus bactrianus SMF 25542 View specimen
Lama glama SMNS 31175 View specimen
Vicugna pacos SMNS 46255 View specimen
Vicugna pacos SMNS 7349 View specimen
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3D models related to the publication: Sacral co-ossification in dinosaurs: the oldest record of fused sacral vertebrae in Dinosauria and the diversity of sacral co-ossification patterns in the groupDébora Moro, Leonardo Kerber, Rodrigo T. Müller and Flávio A. PrettoKeywords:doi: 10.18563/journal.m3.132 Abstract 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
indet indet CAPPA/UFSM 0228 View specimen
M3 article infos Published in Volume 06, issue 05 (2020) |
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3D model related to the publication: A new species of the large-headed coastal marine turtle Solnhofia (Testudinata, Thalassochelydia) from the Late Jurassic of NW SwitzerlandJérémy Anquetin and Christian PüntenerKeywords: cranium; Late Jurassic; Solnhofia; Thalassochelydiadoi: 10.18563/journal.m3.118 Abstract 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
See original publication M3 article infos Published in Volume 06, issue 04 (2020) |
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A photorealistic collection of Homo sapiens crania for research and disseminationPaolo Lussu and Elisabetta MariniKeywords: distance learning; photogrammetry; teaching; validationdoi: 10.18563/journal.m3.112 Abstract This contribution contains the 3D models described and figured in the following publications: Homo sapiens MSAE 59 View specimen
Homo sapiens MSAE 62 View specimen
Homo sapiens MSAE 63 View specimen
Homo sapiens MSAE 78 View specimen
Homo sapiens MSAE 95 View specimen
Homo sapiens MSAE 1852 View specimen
Homo sapiens MSAE 6426 View specimen
Homo sapiens MSAE 6428 View specimen
Homo sapiens MSAE 6992 View specimen
Homo sapiens MSAE 7688 View specimen
M3 article infos Published in Volume 06, issue 02 (2020) |
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3D models related to the publication: One skull to rule them all? Descriptive and comparative anatomy of the masticatory apparatus in five mice species based on traditional and digital dissections.Samuel Ginot, Julien Claude and Lionel HautierKeywords: Dissection; iodine-enhanced CT-scan; Masticatory musculature; Murinae; skull myologydoi: 10.18563/journal.m3.65 Abstract The present 3D Dataset contains the 3D models analyzed in the article entitled "One skull to rule them all? Descriptive and comparative anatomy of the masticatory apparatus in five mice species based on traditional and digital dissections" (Ginot et al. 2018, Journal of Morphology, https://doi.org/10.1002/jmor.20845). Mus cervicolor R7314 View specimen
Mus caroli R7264 View specimen
Mus fragilicauda R7260 View specimen
Mus pahari R7226 View specimen
Mus minutoides minutoides-1 View specimen
M3 article infos Published in Volume 04, issue 02 (2018) |
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3D models related to the publication: “Comparative masticatory myology in anteaters and its implications for interpreting morphological convergence in myrmecophagous placentals”Sérgio Ferreira-Cardoso, Pierre-Henri Fabre, Benoît de Thoisy, Frédéric Delsuc and Lionel HautierKeywords: anteaters; comparative anatomy; convergence; masticatory apparatus; myology; myrmecophagydoi: 10.18563/journal.m3.114 Abstract 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
Tamandua tetradactyla M3075_JAG View specimen
Myrmecophaga tridactyla M3023_JAG View specimen
See original publication M3 article infos Published in Volume 06, issue 04 (2020) |
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3D fossil reconstruction related to the publication: Body shape and life style of the extinct rodent Canariomys bravoi from Tenerife, Canary Islands.Jacques Michaux, Lionel Hautier, Rainer Hutterer, Renaud Lebrun, Franck Guy and Francisco García-TalaveraKeywords: Canariomys; Canary Islands; Fossil reconstruction; Insularity; Rodentiadoi: 10.18563/m3.1.1.e3 Abstract This contribution contains the 3D reconstruction of Canariomys bravoi, described and figured in the following publication: Michaux J., Hautier L., Hutterer R., Lebrun R., Guy F., García-Talavera F., 2012 : Body shape and life style of the extinct rodent Canariomys bravoi (Mammalia, Murinae) from Tenerife, Canary Islands (Spain). Comptes Rendus Palevol 11 (7), 485-494. DOI: 10.1016/j.crpv.2012.06.004 Canariomys bravoi TFMCV872-873 View specimen
See original publication M3 article infos Published in Vol. 01, Issue 01 (2015) |
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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 models related to the publication: Evolution of the sauropterygian labyrinth with increasingly pelagic lifestylesJames, M. Neenan, Tobias Reich, Serjoscha Evers, Patrick Druckenmiller, Dennis Voeten, Jonah Choiniere, Paul Barrett, Stephanie Pierce and Roger BensonKeywords: ecomorphology; Endosseous Labyrinth; geometric morphometrics; palaeoecology; semicircular canalsdoi: 10.18563/journal.m3.62 Abstract 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
Augustasaurus hagdorni FMNH PR 1974 View specimen
Callawayasaurus colombiensis UCMP V-38349 / UCMP V-125328 View specimen
Lepidochelys olivacea SMNS 11070 View specimen
Macrochelys temminckii FMNH 22111 View specimen
Macroplata tenuiceps NHMUK R 5488 View specimen
Microcleidus homalospondylus NHMUK 36184 View specimen
Nothosaurus sp. NME 16/4 View specimen
Peloneustes philarchus NHMUK R 3803 View specimen
Placodus gigas UMO BT 13 View specimen
Puppigerus camperi NHMUK R 38955 View specimen
Simosaurus gaillardoti GPIT RE/09313 View specimen
Libonectes morgani SMUSMP 69120 View specimen
M3 article infos Published in Volume 04, issue 01 (2018) |
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3D models related to the publication: New data on Amynodontidae (Mammalia, Perissodactyla) from the Eocene of Eastern Europe: phylogenetic and palaeobiogeographic implicationsJérémy Tissier, Damien Becker, Vlad Codrea, Loïc Costeur, Cristina Fărcaş, Alexandru Solomon, Marton Venczel and Olivier MaridetKeywords: Amynodontidae; late Eocene; Oligocene; Rhinocerotoidea; Romaniadoi: 10.18563/m3.3.4.e5 Abstract This contribution contains the 3D models described and figured in the following publication: Tissier et al. (in prep.). Sellamynodon zimborensis UBB MPS 15795 View specimen
Sellamynodon zimborensis UBB MPS 15795 View specimen
Amynodontopsis aff. bodei UBB MPS V545 View specimen
Amynodontopsis aff. bodei UBB MPS V546 View specimen
M3 article infos Published in Volume 03, Issue 04 (2017) |
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3D models related to the publication: Micromeryx? eiselei - a new moschid species from Steinheim am Albuch, Germany, and the first comprehensive description of moschid cranial material from the Miocene of Central EuropeManuela Aiglstorfer, Loïc Costeur, Bastien Mennecart and Elmar P. HeizmannKeywords: Inner ear; Miocene; Moschidae; petrosal; Skulldoi: 10.18563/m3.3.4.e4 Abstract The present 3D Dataset contains the 3D models of the holotype (NMB Sth. 833) of the new species Micromeryx? eiselei analysed in the article Aiglstorfer, M., Costeur, L., Mennecart, B., Heizmann, E.P.J.. 2017. Micromeryx? eiselei - a new moschid species from Steinheim am Albuch, Germany, and the first comprehensive description of moschid cranial material from the Miocene of Central Europe. PlosOne https://doi.org/10.1371/journal.pone.0185679 Micromeryx? eiselei NMB Sth. 833 View specimen
M3 article infos Published in Volume 03, Issue 04 (2017) |
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3D model related to the publication: The inner ear of Megatherium and the evolution of the vestibular system in sloths.Guillaume Billet, Damien Germain, Irina Ruf, Christian de Muizon and Lionel HautierKeywords: Bony labyrinth; Inner ear; Megatherium; Slothdoi: 10.18563/m3.1.2.e3 Abstract This contribution contains the 3D model described and figured in the following publication: Billet G., Germain D., Ruf I., Muizon C. de, Hautier L. 2013. The inner ear of Megatherium and the evolution of the vestibular system in sloths. Journal of Anatomy 123:557-567, DOI: 10.1111/joa.12114. Megatherium americanum MNHN.F.PAM276 View specimen
See original publication M3 article infos Published in Vol. 01, Issue 02 (2015) |
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3D models related to the publication: The Neogene record of northern South American native ungulatesJuan D. Carrillo, Eli Amson, Carlos Jaramillo, Rodolfo Sánchez, Luis Quiroz, Carlos Cuartas, Aldo F. Rincón and Marcelo R. Sánchez-VillagraKeywords: Astrapotheria; Castilletes Formation; Neogene; Notoungulata; San Gregorio Formationdoi: 10.18563/journal.m3.61 Abstract This contribution contains the 3D models described and figured in: The Neogene record of northern South American native ungulates. Smithsonian Contributions to Paleobiology. Doi: 10.5479/si.1943-6688.101 Hilarcotherium miyou IGMp 881327 View specimen
Hilarcotherium miyou MUN-STRI 34216 View specimen
Falcontoxodon aguilerai AMU-CURS 585 View specimen
See original publication M3 article infos Published in Volume 04, issue 02 (2018) |
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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 R. Sánchez-VillagraKeywords: Bony labyrinth; cochlea; feralisation; Inner ear; 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: The petrosal and bony labyrinth of Diplobune minor, an enigmatic Artiodactyla from the Oligocene of Western EuropeMaëva Orliac, Ricardo Araújo and Fabrice LihoreauKeywords: Anoplotheriidae; Bony labyrinth; Quercy Phosphoritesdoi: 10.18563/m3.3.1.e3 Abstract 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
Diplobune minor UM ITD 1080 View specimen
Diplobune minor UM ITD 1081 View specimen
Diplobune minor UM ITD 1083 View specimen
See original publication M3 article infos Published in Volume 03, Issue 01 (2017) |
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Holotype specimen of Donrussellia magna, an adapiform primate from the early Eocene (MP7) of Southern FranceAnusha Ramdarshan, Marc Godinot, Samuel Bédécarrats and Rodolphe TabuceKeywords: Adapiformes; Early Eocene; Holotype; Primates; Southern Francedoi: 10.18563/m3.1.2.e2 Abstract This project presents a µCT dataset and an associated 3D surface model of the holotype of Donrussellia magna (UM PAT 17; Primates, Adapiformes). UM PAT17 is the only known specimen for the species and consists of a well-preserved left lower jaw with p4-m3. It documents one of the oldest European primates, eventually dated near the Paleocene Eocene Thermal Maximum. Donrussellia magna UM PAT 17 View specimen
M3 article infos Published in Vol. 01, Issue 02 (2015) |
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3D models related to the publication: New information on the braincase and endocranial morphology of the Late Triassic neotheropod Zupaysaurus rougieri using Computed Tomography dataAriana Paulina-Carabajal, Martín Ezcurra and Fernando NovasKeywords: Braincase; Paleoneurology; South America; Theropodadoi: 10.18563/journal.m3.96 Abstract 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
See original publication M3 article infos Published in Volume 05, issue 03 (2019) |
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3D models related to the publication: A Dorcatherium (Mammalia, Ruminantia, middle Miocene) petrosal bone and the tragulid ear region.Bastien Mennecart and Loïc CosteurKeywords: Inner ear; Miocene; phylogeny; Ruminantdoi: 10.18563/m3.2.1.e2 Abstract The present 3D Dataset contains the 3D models analyzed in the article Mennecart, B., and L. Costeur. 2016. A Dorcatherium (Mammalia, Ruminantia, Middle Miocene) petrosal bone and the tragulid ear region. Journal of Vertebrate Paleontology 36(6), 1211665(1)-1211665(7). DOI: 10.1080/02724634.2016.1211665. Tragulus javanicus 10028 View specimen
Moschiola meminna C.2453 View specimen
Hyemoschus aquaticus C.1930 View specimen
Dorcatherium crassum San.15053 View specimen
See original publication M3 article infos Published in Volume 02, Issue 01 (2016) |
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3D models related to the publication: Morphology of the human embryonic brain and ventriclesNaoki Shiraishi, Airi Katayama, Takashi Nakashima, Naoto Shiraki, Shigehito Yamada, Chigako Uwabe, Katsumi Kose and Tetsuya TakakuwaKeywords: human brain; human embryo; magnetic resonance imaging; three-dimensional reconstructiondoi: 10.18563/m3.1.3.e3 Abstract This contribution contains the 3D models described and figured in the following publication: Shiraishi N et al. Morphology and morphometry of the human embryonic brain: A three-dimensional analysis NeuroImage 115, 2015, 96-103, DOI: 10.1016/j.neuroimage.2015.04.044. Homo sapiens KC-CS13BRN50455 View specimen
Homo sapiens KC-CS14BRN18834 View specimen
Homo sapiens KC-CS15BRN19975 View specimen
Homo sapiens KC-CS16BRN7870 View specimen
Homo sapiens KC-CS17BRN26702 View specimen
Homo sapiens KC-CS18BRN25914 View specimen
Homo sapiens KC-CS19BRN16508 View specimen
Homo sapiens KC-CS20BRN26581 View specimen
Homo sapiens KC-CS21BRN33434 View specimen
Homo sapiens KC-CS22BRN27960 View specimen
Homo sapiens KC-CS23BRN28189 View specimen
See original publication M3 article infos Published in Volume 01, Issue 03 (2015) |
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3D cranium models of fossils of large canids (Canis lupus) from Goyet, Trou des Nutons and Trou Balleux, BelgiumAllowen Evin, Emmanuel Gilissen and Mietje GermonpréKeywords: Archaeozoology; Dog; Domestication; Pleistocene; Wolfdoi: 10.18563/m3.1.3.e2 Abstract Archaeozoological studies are increasingly using new methods and approaches to explore questions about domestication. Here, we provide 3D models of three archaeological Canis lupus skulls from Belgium originating from the sites of Goyet (31,680±250BP; 31,890+240/-220BP), Trou des Nutons (21,810±90BP) and Trou Balleux (postglacial). Since their identification as either wolves or early dogs is still debated, we present these models as additional tools for further investigating their evolutionary history and the history of dog domestication. Canis lupus Goyet 2860 View specimen
Canis lupus Trou Balleux no-nr View specimen
Canis lupus Trou des Nutons 2559-1 View specimen
M3 article infos Published in Volume 01, Issue 03 (2015) |
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