fossile

Nature du spécimen

223 image(s) · 128 Actualités

Galerie d'images

Geographic and geologic map showing the location and involved strata of the studied fossil sites in the Xinhe Formation. (A, B) location of the fossiliferous localities in the Gansu Province. (C) Geological map of the involved strata of the studied fossil site (from State Bureau of Surveying and Mapping, GS (2016)2884). White star=Jinchuanloong niedu. Black star=plesiosaur fossils. (D) Stratigraphic chart of the Jurassic at the localities.

Geographic and geologic map showing the location and involved strata of the studied fossil sites in the Xinhe Formation. (A, B) location of the fossiliferous localities in the Gansu Province. (C) Geological map of the involved strata of the studied fossil site (from State Bureau of Surveying and Mapping, GS (2016)2884). White star=Jinchuanloong niedu. Black star=plesiosaur fossils. (D) Stratigraphic chart of the Jurassic at the localities.

Jurassique fossile Jinchuanloong Plesiosauria +1
Jinchuanloong is a relatively basal sauropod that measured an estimated 10 m in length. Sauropod skulls typically don't preserve well in the fossil record, but Jinchuanloong is known mainly from the skull, and parts of the neck and tail. Like all sauropods, Jinchuanloong was a quadrupedal herbivore that used its long neck to reach the vegetation that it fed on.

Jinchuanloong is a relatively basal sauropod that measured an estimated 10 m in length. Sauropod skulls typically don't preserve well in the fossil record, but Jinchuanloong is known mainly from the skull, and parts of the neck and tail. Like all sauropods, Jinchuanloong was a quadrupedal herbivore that used its long neck to reach the vegetation that it fed on.

fossile Jinchuanloong crâne
Fossil of Quetzalcoatlus, an extinct pterosaur- Took the photo at Senckenberg Museum of Frankfurt
Taxons Quetzalcoatlus

Fossil of Quetzalcoatlus, an extinct pterosaur- Took the photo at Senckenberg Museum of Frankfurt

musée fossile Pterosauria Quetzalcoatlus
Artists’ reconstruction of the living Sarabosaurus dahli swimming with ammonites and fish in southern Utah, 94 million years ago. Artwork by Andrey Atuchin. On June 23, 2023, the following link will go live for more information, www.blm.gov/press-release/94-million-year-old-fossil-prov...

Artists’ reconstruction of the living Sarabosaurus dahli swimming with ammonites and fish in southern Utah, 94 million years ago. Artwork by Andrey Atuchin. On June 23, 2023, the following link will go live for more information, www.blm.gov/press-release/94-million-year-old-fossil-prov...

fossile Sarabosaurus Selmasaurini
Various fossils pertaining to the holotype of the Triassic ichthyosaur Toretocnemus (originally Leptocheirus, also Merriamia) zitteli. This image is derived from plate 23 in Merriam (1903), done by an uncredited artist. The arrangement of the individual figures has been modified from the original (most notably, figures 3 and 4 were swapped to minimize confusion).
Original description:
Leptocheirus zitteli n. gen. and sp.
Figures reproduced natural size from the type specimen.

Fig. 1.— Right side of skull.
Fig. 2. — Cross-section of posterior portion of the lower jaw, taken above the point marked A on the lateral view of the skull.
Fig. 3. — Cross-section of the upper and lower jaws, taken at the break immediately behind the point marked Sp on the lateral view of the skull.
Fig. 4. — Lateral view of an anterior caudal centrum.
Legend (modified from original):

Ar - articular
A - angular
D - dentary
J - jugal
L - lacrimal
Mx - maxilla
Po - postorbital
Sa - surangular
Se - sclerotic ring
Sp - spenial
T - cross-section of tooth
X - doubtful element

Various fossils pertaining to the holotype of the Triassic ichthyosaur Toretocnemus (originally Leptocheirus, also Merriamia) zitteli. This image is derived from plate 23 in Merriam (1903), done by an uncredited artist. The arrangement of the individual figures has been modified from the original (most notably, figures 3 and 4 were swapped to minimize confusion). Original description: Leptocheirus zitteli n. gen. and sp. Figures reproduced natural size from the type specimen. Fig. 1.— Right side of skull. Fig. 2. — Cross-section of posterior portion of the lower jaw, taken above the point marked A on the lateral view of the skull. Fig. 3. — Cross-section of the upper and lower jaws, taken at the break immediately behind the point marked Sp on the lateral view of the skull. Fig. 4. — Lateral view of an anterior caudal centrum. Legend (modified from original): Ar - articular A - angular D - dentary J - jugal L - lacrimal Mx - maxilla Po - postorbital Sa - surangular Se - sclerotic ring Sp - spenial T - cross-section of tooth X - doubtful element

description Trias fossile holotype +7
Various fossils pertaining to the holotype of the Triassic ichthyosaur Toretocnemus californicus. This image is derived from plate 24 in Merriam (1903), done by an uncredited artist. The arrangement of the individual figures has been modified from the original.
Original description:
Toretocnemus californicus n. gen. and sp.
Figures reproduced natural size from the type specimen.

Fig. 1. — Inferior side of right posterior limb. t, tibia.
Fig. 2. — Right anterior limb. r, radius.
Fig. 3.— Pelvic arch.
Fig. 4. — Middle dorsal vertebrae and a rib from the same region.

Various fossils pertaining to the holotype of the Triassic ichthyosaur Toretocnemus californicus. This image is derived from plate 24 in Merriam (1903), done by an uncredited artist. The arrangement of the individual figures has been modified from the original. Original description: Toretocnemus californicus n. gen. and sp. Figures reproduced natural size from the type specimen. Fig. 1. — Inferior side of right posterior limb. t, tibia. Fig. 2. — Right anterior limb. r, radius. Fig. 3.— Pelvic arch. Fig. 4. — Middle dorsal vertebrae and a rib from the same region.

membre description Trias fossile +6
Photograph of a fossil cast of a Tanycolagreus topwilsoni skeleton taken at the North American Museum of Ancient Life.

Photograph of a fossil cast of a Tanycolagreus topwilsoni skeleton taken at the North American Museum of Ancient Life.

musée moulage fossile Coeluridae +2
Tanycolagreus fossil holotype TPII 2000-09-29, North American Museum of Ancient Life.

Tanycolagreus fossil holotype TPII 2000-09-29, North American Museum of Ancient Life.

musée États-Unis fossile holotype +2
Diagram of the skull of Taniwhasaurus antarcticus, the areas in black being the known fossil material.
Reference source:

Álvarez–Herrera, Agnolin & Novas (2020) "A rostral neurovascular system in the mosasaur Taniwhasaurus antarcticus"

Diagram of the skull of Taniwhasaurus antarcticus, the areas in black being the known fossil material. Reference source: Álvarez–Herrera, Agnolin & Novas (2020) "A rostral neurovascular system in the mosasaur Taniwhasaurus antarcticus"

fossile Plioplatecarpinae Taniwhasaurus crâne
Fossil skeleton of Guaibasaurus, a basal Saurischian dinosaur genus
Taxons Guaibasauridae

Fossil skeleton of Guaibasaurus, a basal Saurischian dinosaur genus

fossile Dinosauria Guaibasauridae Guaibasaurus +2
Ctenochasma elegans (syn. Pterodactylus elegans) fossil from Solnhofen, Germany

American Museum of Natural History, New York, FR-5147
Received in exchange from the Paläontologisches Museum München, 1909
Taxons Ctenochasmatidae

Ctenochasma elegans (syn. Pterodactylus elegans) fossil from Solnhofen, Germany American Museum of Natural History, New York, FR-5147 Received in exchange from the Paläontologisches Museum München, 1909

musée Allemagne fossile Ctenochasma +5
Ctenochasma elegans (syn. Pterodactylus elegans) fossil from Solnhofen, Germany

American Museum of Natural History, New York, FR-5147
Received in exchange from the Paläontologisches Museum München, 1909
Taxons Gnathosaurinae

Ctenochasma elegans (syn. Pterodactylus elegans) fossil from Solnhofen, Germany American Museum of Natural History, New York, FR-5147 Received in exchange from the Paläontologisches Museum München, 1909

musée Allemagne fossile Ctenochasma +5
Ctenochasma elegans (syn. Pterodactylus elegans) fossil from Solnhofen, Germany

American Museum of Natural History, New York, FR-5147
Received in exchange from the Paläontologisches Museum München, 1909
Taxons Moganopterinae

Ctenochasma elegans (syn. Pterodactylus elegans) fossil from Solnhofen, Germany American Museum of Natural History, New York, FR-5147 Received in exchange from the Paläontologisches Museum München, 1909

musée Allemagne fossile Ctenochasma +5
Ctenochasma elegans (syn. Pterodactylus elegans) fossil from Solnhofen, Germany

American Museum of Natural History, New York, FR-5147
Received in exchange from the Paläontologisches Museum München, 1909
Taxons Ctenochasmatinae

Ctenochasma elegans (syn. Pterodactylus elegans) fossil from Solnhofen, Germany American Museum of Natural History, New York, FR-5147 Received in exchange from the Paläontologisches Museum München, 1909

musée Allemagne fossile Ctenochasma +5
fossil of henodus
Taxons Cyamodontoidea

fossil of henodus

fossile Cyamodontoidea Henodontidae Henodus
fossil of henodus
Taxons Henodontidae

fossil of henodus

fossile Cyamodontoidea Henodontidae Henodus
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Actualités

Plus petites qu’un ongle, ces dents fossiles pourraient réécrire l’histoire de nos origines
Plus petites qu’un ongle, ces dents fossiles pourraient réécrire l’histoire de nos origines
dent fossile découverte
Des dents fossiles pas plus grandes qu'un ongle de bébé viennent de réécrire les premières pages de notre histoire évolutive. En mars 2026, des paléontologues ont annoncé la découverte la plus méridionale jamais réalisée de Purgatorius, considéré comme l'ancêtre commun de tous les primates. Où...
19/05/2026 futura-terre
Il construisait un mur dans son jardin… quand une silhouette vieille de 240 millions d’années apparaît
Il construisait un mur dans son jardin… quand une silhouette vieille de 240 millions d’années apparaît
musée fossile
Destiné à devenir un simple bloc de construction, un morceau de grès récupéré dans une carrière australienne cache en réalité un secret vieux de 240 millions d’années. Oublié pendant des décennies dans les réserves d’un musée, ce fossile exceptionnel vient seulement de révéler l’existence d’une...
18/05/2026 futura-terre
Un superbe crâne de stégosaure vieux de 150 millions d'années réécrit l'évolution des dinosaures
fossile Dacentrurus Dinosauria Stegosauria découverte évolution crâne
Une découverte spectaculaire de dinosaures en Espagne donne aux scientifiques un nouveau regard rare sur le monde des stégosaures. Les paléontologues ont découvert le crâne de stégosaure le mieux conservé jamais découvert en Europe, appartenant à l'emblématique dinosaure plaqué Dacentrurus armatus, qui parcourait la Terre il y a environ 150 millions d'années. Parce que les crânes de stégosaures sont extrêmement fragiles et ne survivent presque jamais intacts, le fossile aide les chercheurs à découvrir des détails jusqu'alors inconnus sur l'évolution de ces géants blindés.
17/05/2026 sciencedaily ⚙ Traduction automatique
Une nouvelle découverte de dinosaures – Le dernier titan de Thaïlande
Thaïlande fossile Dinosauria découverte nouvelle espèce
Des chercheurs ont annoncé la découverte d'une nouvelle espèce de dinosaure sauropode.  C'est le plus grand décrit à ce jour en Asie du Sud-Est. De plus, le sauropode nouvellement décrit nommé Nagatitan chaiyaphumensis pourrait être l'un des sauropodes géologiquement les plus jeunes connus d'Asie du Sud-Est. Le matériau fossile a été découvert dans le nord-est de la Thaïlande vers dix
16/05/2026 everythingdinosaur ⚙ Traduction automatique
Une étonnante découverte de fossiles en Éthiopie réécrit les origines de l’humanité
Éthiopie fossile découverte évolution origine humaine
Une étonnante découverte de fossiles en Éthiopie montre que les premiers Homo et une espèce d'australopithèque jusqu'alors inconnue vivaient ensemble il y a environ 2,6 à 2,8 millions d'années. La découverte renverse la progression classique du « singe vers l’humain » et dépeint l’évolution humaine comme un arbre bondé et ramifié avec de multiples espèces coexistant. Les scientifiques ont daté les fossiles à l’aide de dépôts de cendres volcaniques et étudient actuellement ce que mangeaient ces anciens parents et s’ils se disputaient les ressources.
16/05/2026 sciencedaily ⚙ Traduction automatique
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