Explodable 3D Dog Skull for Veterinary Education
3D models of Ocnotherium skull
3D models of Kalakocetus, the earliest Cetacea
3D GM dataset of bird skeletal variation
Skeletal embryonic development in the catshark
Bony connexions of the petrosal bone of extant hippos
bony labyrinth (14) , inner ear (11) , geometric morphometrics (10) , CT-scan (10) , Eocene (10) , Micro-CT (9) , Miocene (8)
Lionel Hautier (24) , Maëva Judith Orliac (23) , Laurent Marivaux (18) , Renaud Lebrun (14) , Rodolphe Tabuce (14) , Pierre-Olivier Antoine (13) , Bastien Mennecart (13)
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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
Published online: 13/05/2019 |
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M3#385the left maxilla with four teeth ( DP4, P4, M1 and M2) Type: "3D_surfaces"doi: 10.18563/m3.sf.385 state:published |
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This contribution comprises the 3D models of three wolf pup skulls, which were used for the publication by Geiger et al. 2017 on Neomorphosis and heterochrony of skull shape in dog domestication.
Canis lupus CLL2 View specimen
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M3#3123d model of a wolf pup skull Type: "3D_surfaces"doi: 10.18563/m3.sf.312 state:published |
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Canis lupus CLL4 View specimen
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M3#3133d model of a wolf pup skull Type: "3D_surfaces"doi: 10.18563/m3.sf.313 state:published |
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Canis lupus CLL5 View specimen
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M3#3143d model of a wolf pup skull Type: "3D_surfaces"doi: 10.18563/m3.sf.314 state:published |
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The present 3D Dataset contains the 3D models analyzed in Velazco P. M., Grohé C. 2017. Comparative anatomy of the bony labyrinth of the bats Platalina genovensium (Phyllostomidae, Lonchophyllinae) and Tomopeas ravus (Molossidae, Tomopeatinae). Biotempo 14(2).
Platalina genovensium 278520 View specimen
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M3#276Right bony labyrinth surface positioned (.PLY) Labels associated (.FLG) Type: "3D_surfaces"doi: 10.18563/m3.sf.276 state:published |
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Tomopeas ravus 278525 View specimen
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M3#277Right bony labyrinth surface (.PLY) Labels associated (.FLG) Type: "3D_surfaces"doi: 10.18563/m3.sf.277 state:published |
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The present 3D Dataset contains the 3D models analyzed in: "a giant dapediid from the Late Triassic of Switzerland and insights into neopterygian phylogeny", Royal Society Open Science, https://doi.org/10.1098/rsos.180497
Scopulipiscis saxciput PIMUZ A/I 3026 View specimen
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M3#1773D surfaces of the skull and endocranial spaces inside neurocranium, including the aortic canal, braincase, fossa bridgei, lateral cranial canal, nerves and other passageways, notochord, posterior myodome, and right semicircular canals. Type: "3D_surfaces"doi: 10.18563/m3.sf.177 state:published |
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M3#178Scan of the neurocranium of PIMUZ A/I 3026 Type: "3D_CT"doi: 10.18563/m3.sf.178 state:published |
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This contribution contains the 3D models described and figured in the following publication: Hautier L., Gomes Rodrigues H., Billet G., Asher R.J., 2016. The hidden teeth of sloths: evolutionary vestiges and the development of a simplified dentition. Scientific Reports. doi: 10.1038/srep27763
Bradypus variegatus ZMB 33812 View specimen
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M3#110Three-dimensional reconstruction of the teeth, mandibles, maxillary and premaxillary bones Type: "3D_surfaces"doi: 10.18563/m3.sf.110 state:published |
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Bradypus variegatus ZMB 41122 View specimen
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M3#109Three-dimensional reconstruction of the teeth, mandibles, maxillary and premaxillary bones Type: "3D_surfaces"doi: 10.18563/m3.sf.109 state:published |
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Bradypus variegatus MNHN-ZM-MO-1995-326A View specimen
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M3#111Three-dimensional reconstruction of the teeth, mandibles, maxillary and premaxillary bones Type: "3D_surfaces"doi: 10.18563/m3.sf.111 state:published |
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Bradypus variegatus MNHN-ZM-MO-1995-326B View specimen
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M3#112Three-dimensional reconstruction of the teeth, mandibles, maxillary and premaxillary bones Type: "3D_surfaces"doi: 10.18563/m3.sf.112 state:published |
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Bradypus sp. MNHN-ZM-MO-1902-325 View specimen
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M3#113Three-dimensional reconstruction of the teeth, mandibles, maxillary, and premaxillary bones Type: "3D_surfaces"doi: 10.18563/m3.sf.113 state:published |
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Bradypus sp. MNHN-ZM-MO-1995-327 View specimen
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M3#114Three-dimensional reconstruction of the teeth, mandibles, maxillary and premaxillary bones Type: "3D_surfaces"doi: 10.18563/m3.sf.114 state:published |
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Choloepus didactylus MNHN-ZM-MO-1882-625 View specimen
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M3#115Three-dimensional reconstruction of the teeth, mandibles, maxillary and premaxillary bones Type: "3D_surfaces"doi: 10.18563/m3.sf.115 state:published |
Download 3D surface file |
The present 3D Dataset contains the 3D models analyzed in: Toyoda S et al., 2015, Morphogenesis of the inner ear at different stages of normal human development. The Anatomical Record. doi : 10.1002/ar.23268
Homo sapiens KC-CS17IER29248 View specimen
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M3#36Computationally reconstructed membranous labyrinth of a human embryo (KC-CS17IER29248) at Carnegie Stage 17 (Crown Rump Length= 7mm). Type: "3D_surfaces"doi: 10.18563/m3.sf36 state:published |
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Homo sapiens KC-CS18IER17746 View specimen
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M3#37Computationally reconstructed membranous labyrinth of a human embryo (KC-CS18IER17746) at Carnegie Stage 18 (Crown Rump Length= 12mm). Type: "3D_surfaces"doi: 10.18563/m3.sf37 state:published |
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Homo sapiens KC-CS19IER16127 View specimen
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M3#38Computationally reconstructed membranous labyrinth of a human embryo (KC-CS19IER16127) at Carnegie Stage 19 (Crown Rump Length= 13mm). Type: "3D_surfaces"doi: 10.18563/m3.sf38 state:published |
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Homo sapiens KC-CS20IER20268 View specimen
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M3#39Computationally reconstructed membranous labyrinth of a human embryo (KC-CS20IER20268) at Carnegie Stage 20 (Crown Rump Length= 13.7mm). Type: "3D_surfaces"doi: 10.18563/m3.sf39 state:published |
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Homo sapiens KC-CS21IER28066 View specimen
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M3#40Computationally reconstructed membranous labyrinth of a human embryo (KC-CS21IER28066) at Carnegie Stage 21 (Crown Rump Length= 16.7mm). Type: "3D_surfaces"doi: 10.18563/m3.sf40 state:published |
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Homo sapiens KC-CS22IER35233 View specimen
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M3#41Computationally reconstructed membranous labyrinth of a human embryo (KC-CS22IER35233) at Carnegie Stage 22 (Crown Rump Length= 22mm). Type: "3D_surfaces"doi: 10.18563/m3.sf41 state:published |
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Homo sapiens KC-CS23IER15919 View specimen
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M3#42Computationally reconstructed membranous labyrinth of a human embryo (KC-CS23IER15919) at Carnegie Stage 23 (Crown Rump Length= 32.3mm). Type: "3D_surfaces"doi: 10.18563/m3.sf42 state:published |
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Homo sapiens KC-FIER52730 View specimen
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M3#43Computationally reconstructed human membranous labyrinth in post embryonic phase (KC-FIER52730). Crown Rump Length: 43.5mm. Type: "3D_surfaces"doi: 10.18563/m3.sf43 state:published |
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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
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M3#213D surface model of the cranium of the Late Pleistocene Canis lupus "Goyet 2860" from the Royal Belgian Institute of Natural Sciences. Type: "3D_surfaces"doi: 10.18563/m3.sf21 state:published |
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Canis lupus Trou Balleux no-nr View specimen
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M3#223D surface model of the cranium of the Late Pleistocene Canis lupus "Trou Balleux no-nr" from the University of Liège, Belgium Type: "3D_surfaces"doi: 10.18563/m3.sf22 state:published |
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Canis lupus Trou des Nutons 2559-1 View specimen
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M3#233D surface model of the cranium of the Late Pleistocene Canis lupus "Trou des Nutons 2559-1" from the Royal Belgian Institute of Natural Sciences. Type: "3D_surfaces"doi: 10.18563/m3.sf23 state:published |
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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
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M3#14This model corresponds to a virtually reconstructed bony labyrinth of the right inner ear of the skull MNHN-F-PAM 276, attributed to the extinct giant ground sloth Megatherium americanum. The fossil comes from Pleistocene deposits at Rio Salado (Prov. Buenos Aires, Argentina). The bony labyrinth of Megatherium shows semicircular canals that are proportionally much larger than in the modern two-toed and three-toed sloths. The cochlea in Megatherium shows 2.5 turns, which is a rather high value within Xenarthra. Overall, the shape of the bony labyrinth of Megatherium resembles more that of extant armadillos than that of its extant sloth relatives. Type: "3D_surfaces"doi: 10.18563/m3.sf14 state:published |
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The present 3D Dataset contains the 3D model analyzed in The largest freshwater odontocete: a South Asian river dolphin relative from the Proto-Amazonia.
Pebanista yacuruna MUSM 4017 View specimen
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M3#1394Holotype skull of Pebanista yacuruna MUSM 4017 Type: "3D_surfaces"doi: 10.18563/m3.sf.1394 state:published |
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The present 3D Dataset contains 3D models of the cranium surface and of the bony labyrinth endocast of the stem bat Vielasia sigei. They are used by (Hand et al., 2023) to explore the phylogenetic position of this species, to infer its laryngeal echolocating capabilities, and to eventually discuss chiropteran evolution before the crown clade diversification.
Vielasia sigei UM VIE-250 View specimen
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M3#1269External surface of the cranium Type: "3D_surfaces"doi: 10.18563/m3.sf.1269 state:published |
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M3#1270Virtual endocast of the right bony labyrinth Type: "3D_surfaces"doi: 10.18563/m3.sf.1270 state:published |
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This contribution contains 3D models of upper molar rows of house mice (Mus musculus domesticus) belonging to Western European commensal and Sub-Antarctic feral populations. These two groups are characterized by different patterns of wear and alignment of the three molars along the row, related to contrasted masticatory demand in relation with their diet. These models are analyzed in the following publication: Renaud et al 2023, “Molar wear in house mice, insight into diet preferences at an ecological time scale?”, https://doi.org/10.1093/biolinnean/blad091
Mus musculus G09_06 View specimen
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M3#1166right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1166 state:published |
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Mus musculus G09_10 View specimen
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M3#1168right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1168 state:published |
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Mus musculus G09_15 View specimen
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M3#1169right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1169 state:published |
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Mus musculus G09_16 View specimen
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M3#1170right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1170 state:published |
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Mus musculus G09_17 View specimen
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M3#1171right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1171 state:published |
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Mus musculus G09_21 View specimen
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M3#1172right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1172 state:published |
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Mus musculus G09_26 View specimen
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M3#1173right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1173 state:published |
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Mus musculus G09_27 View specimen
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M3#1174right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1174 state:published |
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Mus musculus G09_29 View specimen
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M3#1175right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1175 state:published |
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Mus musculus G09_65 View specimen
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M3#1176right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1176 state:published |
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Mus musculus G09_66 View specimen
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M3#1177right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1177 state:published |
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Mus musculus G93_03 View specimen
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M3#1178right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1178 state:published |
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Mus musculus G93_04 View specimen
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M3#1179right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1179 state:published |
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Mus musculus G93_10 View specimen
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M3#1180right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1180 state:published |
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Mus musculus G93_11 View specimen
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M3#1181right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1181 state:published |
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Mus musculus G93_13 View specimen
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M3#1182right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1182 state:published |
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Mus musculus G93_14 View specimen
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M3#1183right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1183 state:published |
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Mus musculus G93_15 View specimen
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M3#1184right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1184 state:published |
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Mus musculus G93_24 View specimen
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M3#1185left molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1185 state:published |
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Mus musculus Tourch_7819 View specimen
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M3#1186right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1186 state:published |
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Mus musculus G93_25 View specimen
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M3#1187right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1187 state:published |
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Mus musculus Tourch_7821 View specimen
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M3#1188right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1188 state:published |
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Mus musculus Tourch_7839 View specimen
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M3#1189right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1189 state:published |
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Mus musculus Tourch_7873 View specimen
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M3#1190right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1190 state:published |
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Mus musculus Tourch_7877 View specimen
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M3#1196right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1196 state:published |
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Mus musculus Tourch_7922 View specimen
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M3#1191right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1191 state:published |
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Mus musculus Tourch_7923 View specimen
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M3#1192right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1192 state:published |
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Mus musculus Tourch_7925 View specimen
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M3#1193right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1193 state:published |
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Mus musculus Tourch_7927 View specimen
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M3#1194right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1194 state:published |
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Mus musculus Tourch_7932 View specimen
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M3#1195right upper molar row Type: "3D_surfaces"doi: 10.18563/m3.sf.1195 state:published |
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The present 3D Dataset contains the 3D models of extant Chiropteran endocranial casts, documenting 16 of the 19 extant bat families. They are used by Maugoust & Orliac (2023) to assess the correspondences between the brain and brain-surrounding tissues (i.e., neural tissues, blood vessels, meninges) and their imprint on the braincase, allowing for eventually proposing a Chiroptera-scale nomenclature of the endocast.
Balantiopteryx plicata UMMZ 102659 View specimen
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M3#1132Endocranial cast of the corresponding cranium of Balantiopteryx plicata Type: "3D_surfaces"doi: 10.18563/m3.sf.1132 state:published |
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Idiurus macrotis AMNH M-187705 View specimen
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M3#1133Endocranial cast of the corresponding cranium of Nycteris macrotis Type: "3D_surfaces"doi: 10.18563/m3.sf.1133 state:published |
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Thyroptera tricolor UMMZ 53240 View specimen
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M3#1134Endocranial cast of the corresponding cranium of Thyroptera tricolor Type: "3D_surfaces"doi: 10.18563/m3.sf.1134 state:published |
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Noctilio albiventris UMMZ 105827 View specimen
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M3#1135Endocranial cast of the corresponding cranium of Noctilio albiventris Type: "3D_surfaces"doi: 10.18563/m3.sf.1135 state:published |
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Mormoops blainvillii AMNH M-271513 View specimen
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M3#1136Endocranial cast of the corresponding cranium of Mormoops blainvillii Type: "3D_surfaces"doi: 10.18563/m3.sf.1136 state:published |
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Macrotus waterhousii UMMZ 95718 View specimen
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M3#1137Endocranial cast of the corresponding cranium of Macrotus waterhousii Type: "3D_surfaces"doi: 10.18563/m3.sf.1137 state:published |
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Nyctiellus lepidus UMMZ 105767 View specimen
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M3#1138Endocranial cast of the corresponding cranium of Nyctiellus lepidus Type: "3D_surfaces"doi: 10.18563/m3.sf.1138 state:published |
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Cheiromeles torquatus AMNH M-247585 View specimen
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M3#1139Endocranial cast of the corresponding cranium of Cheiromeles torquatus Type: "3D_surfaces"doi: 10.18563/m3.sf.1139 state:published |
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Miniopterus schreibersii UMMZ 156998 View specimen
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M3#1140Endocranial cast of the corresponding cranium of Miniopterus schreibersii Type: "3D_surfaces"doi: 10.18563/m3.sf.1140 state:published |
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Kerivoula pellucida UMMZ 161396 View specimen
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M3#1141Endocranial cast of the corresponding cranium of Kerivoula pellucida Type: "3D_surfaces"doi: 10.18563/m3.sf.1141 state:published |
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Scotophilus kuhlii UMMZ 157013 View specimen
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M3#1142Endocranial cast of the corresponding cranium of Scotophilus kuhlii Type: "3D_surfaces"doi: 10.18563/m3.sf.1142 state:published |
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Rhinolophus luctus MNHN CG-2006-87 View specimen
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M3#1143Endocranial cast of the corresponding cranium of Rhinolophus luctus Type: "3D_surfaces"doi: 10.18563/m3.sf.1143 state:published |
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Triaenops persicus AM RG-38552 View specimen
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M3#1144Endocranial cast of the corresponding cranium of Triaenops persicus Type: "3D_surfaces"doi: 10.18563/m3.sf.1144 state:published |
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Hipposideros armiger UM ZOOL-762-V View specimen
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M3#1145Endocranial cast of the corresponding cranium of Hipposideros armiger Type: "3D_surfaces"doi: 10.18563/m3.sf.1145 state:published |
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Lavia frons AM RG-12268 View specimen
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M3#1146Endocranial cast of the corresponding cranium of Lavia frons Type: "3D_surfaces"doi: 10.18563/m3.sf.1146 state:published |
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Rhinopoma hardwickii AM RG-M31166 View specimen
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M3#1147Endocranial cast of the corresponding cranium of Rhinopoma hardwickii Type: "3D_surfaces"doi: 10.18563/m3.sf.1147 state:published |
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Sphaerias blanfordi AMNH M-274330 View specimen
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M3#1148Endocranial cast of the corresponding cranium of Sphaerias blanfordi Type: "3D_surfaces"doi: 10.18563/m3.sf.1148 state:published |
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Rousettus aegyptiacus UMMZ 161026 View specimen
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M3#1149Endocranial cast of the corresponding cranium of Rousettus aegyptiacus Type: "3D_surfaces"doi: 10.18563/m3.sf.1149 state:published |
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Pteropus pumilus UMMZ 162253 View specimen
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M3#1150Endocranial cast of the corresponding cranium of Pteropus pumilus Type: "3D_surfaces"doi: 10.18563/m3.sf.1150 state:published |
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This contribution contains the 3D model(s) described and figured in the following publication: Carolina A. Hoffmann, P. G. Rodrigues, M. B. Soares & M. B. Andrade. 2021. Brain endocast of two non-mammaliaform cynodonts from southern Brazil: an ontogenetic and evolutionary approach, Historical Biology, 33:8, 1196-1207, https://doi.org/10.1080/08912963.2019.1685512
Probelesodon kitchingi MCP 1600 PV View specimen
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M3#9783D model of the brain endocast of Probelesodon kitchingi. Type: "3D_surfaces"doi: 10.18563/m3.sf.978 state:published |
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Massetognathus ochagaviae MCP 3871 PV View specimen
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M3#9793D model of the brain endocast of Massetognathus ochagaviae. Type: "3D_surfaces"doi: 10.18563/m3.sf.979 state:published |
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The present 3D Dataset contains the 3D model of a skull analyzed in “A Puma concolor (Carnivora: Felidae) in the Middle-Late Holocene landscapes of the Brazilian Northeast (Bahia): submerged cave deposits and stable isotopes”. The 3D model was generated by photogrammetry.
Puma concolor MN 57461 View specimen
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M3#843Cranium Type: "3D_surfaces"doi: 10.18563/m3.sf.843 state:published |
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This contribution contains 3D models of upper molar rows of house mice (Mus musculus domesticus). The erupted part of the right row is presented for specimens belonging to four groups: wild-trapped mice, wild-derived lab offspring, a typical laboratory strain (Swiss) and hybrids between wild-derived and Swiss mice. These models are analyzed in the following publication: Savriama et al 2021: Wild versus lab house mice: Effects of age, diet, and genetics on molar geometry and topography. https://doi.org/10.1111/joa.13529
Mus musculus BW_03 View specimen
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M3#736BW_03 Type: "3D_surfaces"doi: 10.18563/m3.sf.736 state:published |
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Mus musculus BW_04 View specimen
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M3#752BW_04 Type: "3D_surfaces"doi: 10.18563/m3.sf.752 state:published |
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Mus musculus BW_06 View specimen
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M3#753BW_06 Type: "3D_surfaces"doi: 10.18563/m3.sf.753 state:published |
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Mus musculus BW_07 View specimen
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M3#754BW_07 Type: "3D_surfaces"doi: 10.18563/m3.sf.754 state:published |
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Mus musculus BW_08 View specimen
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M3#755BW_08 Type: "3D_surfaces"doi: 10.18563/m3.sf.755 state:published |
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Mus musculus BW_11 View specimen
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M3#756BW_11 Type: "3D_surfaces"doi: 10.18563/m3.sf.756 state:published |
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Mus musculus BW_12 View specimen
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M3#757BW_12 Type: "3D_surfaces"doi: 10.18563/m3.sf.757 state:published |
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Mus musculus Blab_035 View specimen
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M3#758Blab_035 Type: "3D_surfaces"doi: 10.18563/m3.sf.758 state:published |
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Mus musculus Blab_046 View specimen
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M3#759Blab_046 Type: "3D_surfaces"doi: 10.18563/m3.sf.759 state:published |
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Mus musculus Blab_054 View specimen
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M3#760Blab_054 Type: "3D_surfaces"doi: 10.18563/m3.sf.760 state:published |
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Mus musculus Blab_056 View specimen
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M3#761Blab_056 Type: "3D_surfaces"doi: 10.18563/m3.sf.761 state:published |
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Mus musculus Blab_082 View specimen
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M3#762Blab_082 Type: "3D_surfaces"doi: 10.18563/m3.sf.762 state:published |
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Mus musculus Blab_086 View specimen
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M3#763Blab_086 Type: "3D_surfaces"doi: 10.18563/m3.sf.763 state:published |
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Mus musculus Blab_092 View specimen
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M3#764Blab_092 Type: "3D_surfaces"doi: 10.18563/m3.sf.764 state:published |
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Mus musculus Blab_319 View specimen
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M3#751Blab_319 Type: "3D_surfaces"doi: 10.18563/m3.sf.751 state:published |
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Mus musculus Blab_325 View specimen
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M3#750Blab_325 Type: "3D_surfaces"doi: 10.18563/m3.sf.750 state:published |
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Mus musculus Blab_329 View specimen
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M3#737Blab_329 Type: "3D_surfaces"doi: 10.18563/m3.sf.737 state:published |
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Mus musculus Blab_330 View specimen
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M3#738Blab_330 Type: "3D_surfaces"doi: 10.18563/m3.sf.738 state:published |
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Mus musculus Blab_F2a View specimen
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M3#739Blab_F2a Type: "3D_surfaces"doi: 10.18563/m3.sf.739 state:published |
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Mus musculus Blab_F2b View specimen
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M3#740Blab_F2b Type: "3D_surfaces"doi: 10.18563/m3.sf.740 state:published |
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Mus musculus Blab_BB3w View specimen
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M3#741Blab_BB3w Type: "3D_surfaces"doi: 10.18563/m3.sf.741 state:published |
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Mus musculus hyb_BS01 View specimen
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M3#742hyb_BS01 Type: "3D_surfaces"doi: 10.18563/m3.sf.742 state:published |
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Mus musculus hyb_BS02 View specimen
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M3#743hyb_BS02 Type: "3D_surfaces"doi: 10.18563/m3.sf.743 state:published |
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Mus musculus hyb_SB01 View specimen
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M3#744hyb_SB01 Type: "3D_surfaces"doi: 10.18563/m3.sf.744 state:published |
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Mus musculus hyb_SB02 View specimen
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M3#745hyb_SB02 Type: "3D_surfaces"doi: 10.18563/m3.sf.745 state:published |
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Mus musculus SW_001 View specimen
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M3#746SW_001 Type: "3D_surfaces"doi: 10.18563/m3.sf.746 state:published |
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Mus musculus SW_002 View specimen
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M3#747SW_002 Type: "3D_surfaces"doi: 10.18563/m3.sf.747 state:published |
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Mus musculus SW_005 View specimen
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M3#748SW_005 Type: "3D_surfaces"doi: 10.18563/m3.sf.748 state:published |
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Mus musculus SW_0ter View specimen
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M3#749SW_0ter Type: "3D_surfaces"doi: 10.18563/m3.sf.749 state:published |
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Mus musculus SW_343 View specimen
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M3#765SW_343 Type: "3D_surfaces"doi: 10.18563/m3.sf.765 state:published |
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The present 3D Dataset contains the 3D models of the holotype and the paratypes of the new species Siphonodella leiosa described and analyzed in the following publication: L. Souquet, C. Corradini, C. Girard: Siphonodella leiosa (Conodonta), a new unornamented species from the Tournaisian (lower Carboniferous) of Puech de la Suque (Montagne Noire, France). Geobios, https://doi.org/10.1016/j.geobios.2020.06.004.
Siphonodella leiosa UM PSQ 1 View specimen
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M3#525Siphonodella leiosa, paratype, dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.525 state:published |
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Siphonodella leiosa UM PSQ 2 View specimen
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M3#526Siphonodella leiosa, holotype, dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.526 state:published |
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Siphonodella leiosa UM PSQ 3 View specimen
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M3#527Siphonodella leiosa, paratype, dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.527 state:published |
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Siphonodella leiosa UM PSQ 4 View specimen
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M3#528Siphonodella leiosa, paratype, dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.528 state:published |
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Siphonodella leiosa UM PSQ 5 View specimen
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M3#529Siphonodella leiosa, paratype, sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.529 state:published |
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Siphonodella leiosa UM PSQ 6 View specimen
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M3#530Siphonodella leiosa, paratype, dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.530 state:published |
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Siphonodella leiosa UM PSQ 7 View specimen
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M3#531Siphonodella leiosa, paratype, dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.531 state:published |
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Siphonodella leiosa UM PSQ 8 View specimen
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M3#532Siphonodella leiosa, paratype, sinistral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.532 state:published |
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Siphonodella leiosa UM PSQ 9 View specimen
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M3#533Siphonodella leiosa, paratype, dextral P1 element Type: "3D_surfaces"doi: 10.18563/m3.sf.533 state:published |
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The present Dataset contains the 3D model of the male genital organs of greater horseshoe bat, Rhinolophus ferrumequinum. This is the first detailed 3D structure of the soft-tissue genital organs of bats. The 3D model was generated using microCT and techniques of virtual reconstruction.
Rhinolophus ferrumequinum JP18-006 View specimen
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M3#521The genital organs of male greater horseshoe bat. Type: "3D_surfaces"doi: 10.18563/m3.sf.521 state:published |
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The present 3D Dataset contains the 3D 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
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M3#500Tooth 3D model of Saloumia gorodiskii Type: "3D_surfaces"doi: 10.18563/m3.sf500 state:published |
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M3#501µCT scan of Saloumia gorodiskii Type: "3D_CT"doi: 10.18563/m3.sf501 state:published |
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The present 3D Dataset contains the 3D model analyzed in the following publication: Paulina-Carabajal, A., Sterli, J., Werneburg, I., 2019. The endocranial anatomy of the stem turtle Naomichelys speciosa from the Early Cretaceous of North America. Acta Palaeontologica Polonica, https://doi.org/10.4202/app.00606.2019
Naomichelys speciosa FMNH PR273 View specimen
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M3#428FMNH_PR273_1 - Naomichlys speciosa - skull Type: "3D_surfaces"doi: 10.18563/m3.sf.428 state:published |
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The present 3D Dataset contains the 3D models analyzed in 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
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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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