fossile

Nature du spécimen

223 image(s) · 128 Actualités

Galerie d'images

Fossil of Mei long (holotype), on temporary display at the Shanghai Natural History Museum as part of the exhibition "China's Dinosaur World". Shot on July 22, 2025.
Taxons Mei

Fossil of Mei long (holotype), on temporary display at the Shanghai Natural History Museum as part of the exhibition "China's Dinosaur World". Shot on July 22, 2025.

musée Chine fossile holotype +1
Sidersaura is a rebbachisaurid sauropod dinosaur from the Late Cretaceous of Argentina. Rebbachisaurids are the last known dipldocoids, and lived alongside the titanosaurs until fairly late in the Cretaceous before disappearing from the fossil record, presumably going extinct. They have long tails and relatively short necks, by sauropod standards. Sidersaura one of the most recent rebbachisaurids yet found, living in the Cenomanian–Turonian ages of the Late Cretaceous. It was large for a rebbachisaurid, growing to about 20 m in length.
Taxons Sidersaura

Sidersaura is a rebbachisaurid sauropod dinosaur from the Late Cretaceous of Argentina. Rebbachisaurids are the last known dipldocoids, and lived alongside the titanosaurs until fairly late in the Cretaceous before disappearing from the fossil record, presumably going extinct. They have long tails and relatively short necks, by sauropod standards. Sidersaura one of the most recent rebbachisaurids yet found, living in the Cenomanian–Turonian ages of the Late Cretaceous. It was large for a rebbachisaurid, growing to about 20 m in length.

Argentine Cénomanien Crétacé Crétacé supérieur +6
Fossil of Coloborhynchus, an extinct pterosaur- Took the photo at Naturalis museum, Leiden
Taxons Maaradactylus

Fossil of Coloborhynchus, an extinct pterosaur- Took the photo at Naturalis museum, Leiden

musée fossile Coloborhynchus Maaradactylus +1
Life restoration of the mosasaurine mosasaurid Eremiasaurus, with unknown portions and soft tissues based primarily on Prognathodon and supplemented with Mosasaurus where needed.
References
Leblanc, A.R.H.; Caldwell, M.W.; Bardet, N. (2012). "A new mosasaurine from the Maastrichtian (Upper Cretaceous) phosphates of Morocco and its implications for mosasaurine systematics". Journal of Vertebrate Paleontology 32 (1): 82–104.
Lindgren, J.; Kaddumi, H.; Polcyn, M. (2013). "Soft tissue preservation in a fossil marine lizard with a bilobed tail fin". Nature Communications 4: 2423. DOI:10.1038/ncomms3423.
Konishi, T.; Brinkman, D.; Massare, J.A.; Caldwell, M.W. (2011). "New exceptional specimens of Prognathodon overtoni (Squamata, Mosasauridae) from the upper Campanian of Alberta, Canada, and the systematics and ecology of the genus". Journal of Vertebrate Paleontology 31 (5): 1026–1046.
Russell, D.A. (1967). "Systematics and morphology of American mosasaurs". Bulletin of the Peabody Museum of Natural History 23: 1–241.
Taxons Eremiasaurus

Life restoration of the mosasaurine mosasaurid Eremiasaurus, with unknown portions and soft tissues based primarily on Prognathodon and supplemented with Mosasaurus where needed. References Leblanc, A.R.H.; Caldwell, M.W.; Bardet, N. (2012). "A new mosasaurine from the Maastrichtian (Upper Cretaceous) phosphates of Morocco and its implications for mosasaurine systematics". Journal of Vertebrate Paleontology 32 (1): 82–104. Lindgren, J.; Kaddumi, H.; Polcyn, M. (2013). "Soft tissue preservation in a fossil marine lizard with a bilobed tail fin". Nature Communications 4: 2423. DOI:10.1038/ncomms3423. Konishi, T.; Brinkman, D.; Massare, J.A.; Caldwell, M.W. (2011). "New exceptional specimens of Prognathodon overtoni (Squamata, Mosasauridae) from the upper Campanian of Alberta, Canada, and the systematics and ecology of the genus". Journal of Vertebrate Paleontology 31 (5): 1026–1046. Russell, D.A. (1967). "Systematics and morphology of American mosasaurs". Bulletin of the Peabody Museum of Natural History 23: 1–241.

tissus écologie musée Canada +11
Fossil samples – e.g. ‘primitive’ bony fish (1, 2), a skull of a temnospondyl ‘amphibian’ (probably a metoposauroid) in dorsal view (3), a skull of an archosaur of the crocodile lineage (probably a phytosaur) in palatal view (4), holotype of the “gliding reptile” Icarosaurus siefkeri [1] (5) and Atreipus-Grallator-type dinosaur tracks (bottom right) – from the Newark Supergroup, i.e. a series of mainly Late Triassic to Early Jurassic sedimentary rocks of eastern North America


↑ Edwin H. Colbert: A gliding reptile from the Triassic of New Jersey. American Museum Novitates, 2230. American Museum of Natural History, New York 1966, digitallibrary.amnh.org, cf. fig. 3 therein.
Taxons Atreipus

Fossil samples – e.g. ‘primitive’ bony fish (1, 2), a skull of a temnospondyl ‘amphibian’ (probably a metoposauroid) in dorsal view (3), a skull of an archosaur of the crocodile lineage (probably a phytosaur) in palatal view (4), holotype of the “gliding reptile” Icarosaurus siefkeri [1] (5) and Atreipus-Grallator-type dinosaur tracks (bottom right) – from the Newark Supergroup, i.e. a series of mainly Late Triassic to Early Jurassic sedimentary rocks of eastern North America ↑ Edwin H. Colbert: A gliding reptile from the Triassic of New Jersey. American Museum Novitates, 2230. American Museum of Natural History, New York 1966, digitallibrary.amnh.org, cf. fig. 3 therein.

musée Jurassique inférieur Jurassique Trias supérieur +8
Title: A descriptive catalogue of the marine reptiles of the Oxford clay. Based on the Leeds Collection in the British Museum (Natural History), London ..
Identifier: descriptivecatal02brit (find matches)
Year: 1910 (1910s)
Authors: British Museum (Natural History). Dept. of Geology; Andrews, Charles William, 1866-1924
Subjects: Reptiles, Fossil
Publisher: London, Printed by order of the Trustees
Contributing Library: Smithsonian Libraries
Digitizing Sponsor: Biodiversity Heritage Library

View Book Page: Book Viewer
About This Book: Catalog Entry
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Text Appearing Before Image: 
CATAL.MARINE KEPT. OXFORD CLAY. PART II. PLATE I. pmcc.
Text Appearing After Image: 
>p77ia:. G.M.Woodward del. etlibh. West, Newman imp. PLIOSAURUS FEROX.

Note About Images

Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.
Taxons Liopleurodon

Title: A descriptive catalogue of the marine reptiles of the Oxford clay. Based on the Leeds Collection in the British Museum (Natural History), London .. Identifier: descriptivecatal02brit (find matches) Year: 1910 (1910s) Authors: British Museum (Natural History). Dept. of Geology; Andrews, Charles William, 1866-1924 Subjects: Reptiles, Fossil Publisher: London, Printed by order of the Trustees Contributing Library: Smithsonian Libraries Digitizing Sponsor: Biodiversity Heritage Library View Book Page: Book Viewer About This Book: Catalog Entry View All Images: All Images From Book Click here to view book online to see this illustration in context in a browseable online version of this book. Text Appearing Before Image: CATAL.MARINE KEPT. OXFORD CLAY. PART II. PLATE I. pmcc. Text Appearing After Image: >p77ia:. G.M.Woodward del. etlibh. West, Newman imp. PLIOSAURUS FEROX. Note About Images Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.

musée Oxford Clay fossile Liopleurodon +2
Rhomaleosaurus cramptoni fossil, Natural History Museum, London
Taxons Rhomaleosaurus

Rhomaleosaurus cramptoni fossil, Natural History Museum, London

musée fossile Rhomaleosaurus
Figure 1. Evolution of macroecological traits in Dinosauria. Large scale event in dinosaur evolution (a); the origin of dinosaurs (star), hyperthermals (volcano), the earliest fossil Avialae (bird), the earliest fossil angiosperm (flower), the Cretaceous/Palaeogene mass extinction (asteroid). Phylogeny of dinosaurs (b) redrawn from Sereno and adapted to the current consensus and upon which an ancestral state reconstruction of temperature niche (mean annual temperature) after Chiarenza et al. is plotted; Mesozoic palaeogeographies (c) for Triassic (T), Jurassic (J) and Cretaceous (K). Silhouette colours symbolize body mass for each of the taxa represented; information on dietary habits are plotted after Barrett and Zanno & Makovicky; numbers represent clades discussed through this study: 1, Ornithischia; 2, Thyreophora; 3, Ornithopoda; 4, Hadrosauroidea; 5, Marginocephalia; 6, Ceratopsia; 7, Saurischia; 8, Sauropodomorpha; 9, Sauropoda; 10, Theropoda; 11, Ceratosauria; 12, Tetanurae; 13, Coelurosauria; 14, Maniraptoriformes; 15, Maniraptora; 16, Deinonychosauria; 17, Avialae; 18, Ornithothoraces. Palaeogeographies modified from original plots via R package ‘mapast’ using plate models by Scotese.

Figure 1. Evolution of macroecological traits in Dinosauria. Large scale event in dinosaur evolution (a); the origin of dinosaurs (star), hyperthermals (volcano), the earliest fossil Avialae (bird), the earliest fossil angiosperm (flower), the Cretaceous/Palaeogene mass extinction (asteroid). Phylogeny of dinosaurs (b) redrawn from Sereno and adapted to the current consensus and upon which an ancestral state reconstruction of temperature niche (mean annual temperature) after Chiarenza et al. is plotted; Mesozoic palaeogeographies (c) for Triassic (T), Jurassic (J) and Cretaceous (K). Silhouette colours symbolize body mass for each of the taxa represented; information on dietary habits are plotted after Barrett and Zanno & Makovicky; numbers represent clades discussed through this study: 1, Ornithischia; 2, Thyreophora; 3, Ornithopoda; 4, Hadrosauroidea; 5, Marginocephalia; 6, Ceratopsia; 7, Saurischia; 8, Sauropodomorpha; 9, Sauropoda; 10, Theropoda; 11, Ceratosauria; 12, Tetanurae; 13, Coelurosauria; 14, Maniraptoriformes; 15, Maniraptora; 16, Deinonychosauria; 17, Avialae; 18, Ornithothoraces. Palaeogeographies modified from original plots via R package ‘mapast’ using plate models by Scotese.

écaille Crétacé Jurassique Mésozoïque +23
Simplified cladogram of Dinosauria with the distribution of feathers according to the fossil record. Despite its more ancient origin, it
was only in maniraptoriformes that modern-type feathers (pennaceous feathers) have arisen (Based in Xu & Guo, 2009; Clarke,

2013; Godefroit et al., 2013; Han et al., 2014; Koshchowitz et al., 2014).

Simplified cladogram of Dinosauria with the distribution of feathers according to the fossil record. Despite its more ancient origin, it was only in maniraptoriformes that modern-type feathers (pennaceous feathers) have arisen (Based in Xu & Guo, 2009; Clarke, 2013; Godefroit et al., 2013; Han et al., 2014; Koshchowitz et al., 2014).

plume fossile Dinosauria Maniraptoriformes +1
Photographer: User:Ballista

Edited in Adobe PhotoShop: User:Firsfron
Photographed object is in fact a cast of a real fossil. It's part of a hands-on exhibit of the NHM in London.

Photographer: User:Ballista Edited in Adobe PhotoShop: User:Firsfron Photographed object is in fact a cast of a real fossil. It's part of a hands-on exhibit of the NHM in London.

moulage fossile Neotheropoda
The Chicago specimen of Archaeopteryx (PA 830), a well-preserved fossil highlighting the transitional features between non-avian dinosaurs and birds, housed at the Field Museum of Natural History.

The Chicago specimen of Archaeopteryx (PA 830), a well-preserved fossil highlighting the transitional features between non-avian dinosaurs and birds, housed at the Field Museum of Natural History.

musée fossile spécimen Archaeopteryx +2
Fossil of Anhanguera, an extinct reptile-- Took the photo at Natural History Museum, London

Fossil of Anhanguera, an extinct reptile-- Took the photo at Natural History Museum, London

musée fossile Anhanguera
Fossil of Balaur, an extinct theropod- Took the photo at Fossil Show, Munich
Taxons Balaur

Fossil of Balaur, an extinct theropod- Took the photo at Fossil Show, Munich

fossile Balaur
The Canadian Fossil Discovery Centre in Morden boasts the largest collection of marine invertebrate fossils in Canada. Visitors to the museum not only get to see this collection, but can join a dig in search for more fossils at a 109-acre escarpment property.

Photo credit: Robyn Hanson
Taxons Tylosaurus

The Canadian Fossil Discovery Centre in Morden boasts the largest collection of marine invertebrate fossils in Canada. Visitors to the museum not only get to see this collection, but can join a dig in search for more fossils at a 109-acre escarpment property. Photo credit: Robyn Hanson

musée Canada fossile Tylosaurus +1
Fossil of Pinacosaurus, an ankylosaurian  dinosaur
Took the photo at Musee d'Histoire Naturelle, Brussels
Taxons Eopinacosaurus

Fossil of Pinacosaurus, an ankylosaurian dinosaur Took the photo at Musee d'Histoire Naturelle, Brussels

fossile Ankylosauria Dinosauria Eopinacosaurus +1
Duria Antiquior, célèbre aquarelle du géologue Henry de la Beche représentant la vie dans l'ancien Dorset d'après des fossiles trouvés par Mary Anning.

Duria Antiquior, célèbre aquarelle du géologue Henry de la Beche représentant la vie dans l'ancien Dorset d'après des fossiles trouvés par Mary Anning.

old school fossile Ichthyosaurus Plesiosaurus +1
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Actualités

Un fossile d'ambre vieux de 16 millions d'années vient de révéler la plus petite fourmi prédatrice jamais trouvée
prédateur fossile évolution extinction
Une fourmi fossilisée des Caraïbes, Basiceros enana, conservée dans de l'ambre dominicain, révèle l'ancienne aire de répartition de l'espèce et renverse les hypothèses sur l'évolution de sa taille. L’imagerie avancée montre qu’il possédait déjà les adaptations de camouflage de ses parents modernes, offrant de nouvelles perspectives sur les stratégies d’extinction et de survie.
09/08/2025 sciencedaily-human-evo ⚙ Traduction automatique
Un poisson vieux de 400 millions d'années révèle une grave erreur dans notre compréhension de l'évolution
fossile découverte évolution
Un poisson considéré comme la capsule temporelle de l’évolution vient de surprendre les scientifiques. Une dissection détaillée du cœlacanthe – une espèce vieille de 400 millions d’années souvent appelée « fossile vivant » – a révélé que les muscles clés censés faire partie de l’évolution précoce des vertébrés étaient en réalité des ligaments mal identifiés. Cela signifie que les hypothèses fondamentales sur la façon dont les vertébrés, y compris les humains, ont évolué pour manger et respirer, devront peut-être être réécrites. La découverte corrige des décennies d'erreurs anatomiques et remodèle l'histoire de s
29/07/2025 sciencedaily-human-evo ⚙ Traduction automatique
Un fossile vieux de 500 millions d’années vient de réécrire l’histoire de l’araignée
fossile
Il y a un demi-milliard d’années, une étrange créature marine appelée Mollisonia symetrica aurait ouvert la voie aux araignées modernes. Grâce à une analyse détaillée du cerveau des fossiles, les chercheurs ont découvert des schémas neuronaux étonnamment similaires à ceux des arachnides d'aujourd'hui, ce qui suggère que les araignées ont évolué dans l'océan et non sur terre comme on le pensait auparavant. Cette structure cérébrale fait même allusion à un saut évolutif critique qui a permis aux araignées d’acquérir leur fameuse vitesse, leur dextérité et leurs prouesses à tisser des toiles. Les résultats constituent un défi de longue date
24/07/2025 sciencedaily-human-evo ⚙ Traduction automatique
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