fossile

Nature du spécimen

223 image(s) · 128 Actualités

Galerie d'images

The ankle of Camposaurus arizonensis (UCMP 34998, reversed). The fossils is shown anterior, medial, posterior, lateral, and ventral views, from left to right. The arrow indicates anterior direction.
Taxons Camposaurus

The ankle of Camposaurus arizonensis (UCMP 34998, reversed). The fossils is shown anterior, medial, posterior, lateral, and ventral views, from left to right. The arrow indicates anterior direction.

fossile Camposaurus
Holotype fossil specimen SMNS 12591 of Procompsognathus
Taxons Procompsognathus

Holotype fossil specimen SMNS 12591 of Procompsognathus

fossile holotype spécimen Procompsognathinae +1
Holotype fossil specimen SMNS 12591 of Procompsognathus
Taxons Procompsognathinae

Holotype fossil specimen SMNS 12591 of Procompsognathus

fossile holotype spécimen Procompsognathinae +1
An overview of the known fossil material of Tyrannomimus fukuiensis. Fossil specimens shown in are not in the same scale. The bar is scaled for the paratype (FPDM-V-10295). The holotype (FPDM-V-11333) and paratype in are colored in red and blue, respectively. The right femur in is mirrored from the left one (FPDM-V-11338).
Taxons Tyrannomimus

An overview of the known fossil material of Tyrannomimus fukuiensis. Fossil specimens shown in are not in the same scale. The bar is scaled for the paratype (FPDM-V-10295). The holotype (FPDM-V-11333) and paratype in are colored in red and blue, respectively. The right femur in is mirrored from the left one (FPDM-V-11338).

écaille fossile holotype spécimen +1
Artistic reconstruction of the head of an early ceratopsian Xuanhuaceratops niei based on the currently known fossil material and the cranial remains of other chaoyangsaurids.
Taxons Xuanhuaceratops

Artistic reconstruction of the head of an early ceratopsian Xuanhuaceratops niei based on the currently known fossil material and the cranial remains of other chaoyangsaurids.

fossile Ceratopsia Chaoyangsauridae Xuanhuaceratops +1
Artistic reconstruction of the head of an early ceratopsian Xuanhuaceratops niei based on the currently known fossil material and the cranial remains of other chaoyangsaurids.
Taxons Xuanhuasaurus

Artistic reconstruction of the head of an early ceratopsian Xuanhuaceratops niei based on the currently known fossil material and the cranial remains of other chaoyangsaurids.

fossile Ceratopsia Chaoyangsauridae Xuanhuaceratops +1
Fossil of Koreaceratops found at Hwaseong-si Gyeonggi-do, Korea.
Taxons Koreaceratops

Fossil of Koreaceratops found at Hwaseong-si Gyeonggi-do, Korea.

fossile Koreaceratops
Helioceratops brachygnathus restoration based on fossil images.
Taxons Helioceratops

Helioceratops brachygnathus restoration based on fossil images.

fossile Helioceratops
fossil Craspedodon
Taxons Craspedodon

fossil Craspedodon

fossile Craspedodon
Fossil of Lurdusaurus, an ornithopod dinosaur
Took the photo at Musee d'Histoire Naturelle, Brussels
Taxons Lurdusaurus

Fossil of Lurdusaurus, an ornithopod dinosaur Took the photo at Musee d'Histoire Naturelle, Brussels

fossile Dinosauria Lurdusaurus
Life restoration of Morrosaurus antarcticus based on fossil images. Integument based on small, bipedal ornithischians like Kulindadromeus.
Taxons Morrosaurus

Life restoration of Morrosaurus antarcticus based on fossil images. Integument based on small, bipedal ornithischians like Kulindadromeus.

fossile Kulindadromeus Morrosaurus Ornithischia
Jinzhousaurus yangi fossil displayed in Hong Kong Science Museum
Taxons Jinzhousaurus

Jinzhousaurus yangi fossil displayed in Hong Kong Science Museum

musée fossile Jinzhousaurus
Theiophytalia kerri Brill & Carpenter, 2006 - ornithopod dinosaur skull from the Cretaceous of Colorado, USA. (YPM 1887, public display, Garden of the Gods visitor center, Colorado Springs, Colorado, USA)
This skull is the holotype and only known specimen of an entire genus of ornithopod dinosaurs, Theiophytalia.  Ornithopods were herbivorous dinosaurs.


From exhibit signage:
A Brand New Dinosaur Species Theiophytalia kerri
What we know about the dinosaur fossil - so far:
It is the only Theiophytalia kerri fossil known to exist in the world.
It is a brand new genus and species of dinosaur.
Theiophytalia kerri means "belonging to the Garden of the Gods".  "Theios" is a Greek word that means "belonging to the gods" and "phytalia" means "garden".  "kerri" honors James Hutchinson Kerr (pronounced "Care"), who discovered the dinosaur fossil.
Theiophytalia was a medium-sized dinosaur, measuring about 30 feet from head to tail.
It was found in 1878 in the Garden of the Gods in the lower Lytle Member of the Purgatoire Rock Formation of the Dakota Group.
The dinosaur fossil skull is from the Aptian-Albian Age of the Cretaceous Ear, 125 - 100 million years old.
Look closely at the fossil skull.  Where are the teeth located?  You can see the teeth in the back of the jaw.  There are no teeth in the front of the dinosaur's beak-like mouth.  This is evidence that the Theiophytalia was a plant eater.  It could nip and tear plants, then grind them between its tightly-packed back teeth, similar to plant-eaters of today.
Timeline:
Dinosaur Fossil Discovered, then Forgotten
1878 - James Kerr, geology professor at Colorado College, finds a fossil skull "in one of the ridges east of the red rocks of the Garden of the Gods."
1886 - O.C. Marsh, famous 1800s dinosaur collector from Yale University, obtains the fossil skull from James Kerr, identifies it as a Camptosaurus dinosaur, and sends the fossil to the Yale Peabody Museum in New Haven, Connecticut.
1886 - 1995 - While the dinosaur fossil skull safely rests in the Yale Museum for many decades, knowledge of its existence is forgotten in Colorado Springs.
Rediscovery - 117 years later
1994 - Colorado Springs City park staff research new exhibits for the Garden of the Gods Visitor and Nature Center, set to open in 1995.  They meet with Doctor Kirk Johnson, curator of paleontology at the Denver Museum of Nature & Science.
1995 - Kirk Johnson refers the park staff to his museum colleague Doctor Ken Carpenter, expert dinosaur scientist.  Doctor Carpenter remembers seeing in his files "something about a dinosaur fossil found in Garden of the Gods" and mails the following article to park staff.
Camptosaurus amplus No. 1887, Yale Museum, consisting of portions of the skull and lower jaw.  It was collected from deposits in the Garden of the Gods, Colorado Springs, Colorado.  With this specimen was found the following note in Professor O.C. Marsh's handwriting, "Part of this animal and various Sauropoda bones were taken out by Professor Kerr in 1878."
A Case of Mistaken Identity Reveals a Brand New Dinosaur!
1996 - Kirk Johnson (a Yale alumnus) secures permission to hand-carry the Camptosaurus fossil from the Yale Peabody Museum to Denver so that Ken Carpenter can make a cast (a precise replica) of the fossil.
Doctor Carpenter notices irregularities in the Camptosaurus fossil and decides to re-examine the fossil when his schedule permits.
1997 - The Camptosaurus fossil replica is given to the City of Colorado Springs and is exhibited at the Garden of the Gods Visitor and Nature Center.
2006 - Doctor Carpenter and his associate Kathleen Brill reassess the fossil skull and note that it differs from other Camptosaurus skulls in several significant ways, such as the narrower mouth and snout, and the position of the nasal openings, and the bony structures over the eyes.
Also, microscopic identification of the rock matrix clinging to the fossil, and research of archival maps, reveal that the fossil skull was actually found in the lower Dakota Rock Formation, not the Morrison Formation as originally reported in the 1800s.  The skull is from a dinosaur that lived in the Cretaceous Ear and can't be a Jurassic Era Camptosaurus.
Doctor Carpenter's exacting research reveals that the dinosaur skull is a brand new genus and species of dinosaur!  He names it Theiophytalia kerri.
2008 - The Theiophytalia kerri is proudly re-exhibited at the Garden of the Gods Visitor and Nature Center.


Classification: Animalia, Chordata, Vertebrata, Dinosauria, Ornithischia, Ornithopoda
Stratigraphy: lower Lytle Member, Purgatoire Formation, Dakota Group, Aptian to Albian Stages, upper Lower Cretaceous
Locality: Garden of the Gods, Colorado Springs, Colorado, USA


See info. at:
en.wikipedia.org/wiki/Theiophytalia
and

en.wikipedia.org/wiki/Ornithopoda
Taxons Theiophytalia

Theiophytalia kerri Brill & Carpenter, 2006 - ornithopod dinosaur skull from the Cretaceous of Colorado, USA. (YPM 1887, public display, Garden of the Gods visitor center, Colorado Springs, Colorado, USA) This skull is the holotype and only known specimen of an entire genus of ornithopod dinosaurs, Theiophytalia. Ornithopods were herbivorous dinosaurs. From exhibit signage: A Brand New Dinosaur Species Theiophytalia kerri What we know about the dinosaur fossil - so far: It is the only Theiophytalia kerri fossil known to exist in the world. It is a brand new genus and species of dinosaur. Theiophytalia kerri means "belonging to the Garden of the Gods". "Theios" is a Greek word that means "belonging to the gods" and "phytalia" means "garden". "kerri" honors James Hutchinson Kerr (pronounced "Care"), who discovered the dinosaur fossil. Theiophytalia was a medium-sized dinosaur, measuring about 30 feet from head to tail. It was found in 1878 in the Garden of the Gods in the lower Lytle Member of the Purgatoire Rock Formation of the Dakota Group. The dinosaur fossil skull is from the Aptian-Albian Age of the Cretaceous Ear, 125 - 100 million years old. Look closely at the fossil skull. Where are the teeth located? You can see the teeth in the back of the jaw. There are no teeth in the front of the dinosaur's beak-like mouth. This is evidence that the Theiophytalia was a plant eater. It could nip and tear plants, then grind them between its tightly-packed back teeth, similar to plant-eaters of today. Timeline: Dinosaur Fossil Discovered, then Forgotten 1878 - James Kerr, geology professor at Colorado College, finds a fossil skull "in one of the ridges east of the red rocks of the Garden of the Gods." 1886 - O.C. Marsh, famous 1800s dinosaur collector from Yale University, obtains the fossil skull from James Kerr, identifies it as a Camptosaurus dinosaur, and sends the fossil to the Yale Peabody Museum in New Haven, Connecticut. 1886 - 1995 - While the dinosaur fossil skull safely rests in the Yale Museum for many decades, knowledge of its existence is forgotten in Colorado Springs. Rediscovery - 117 years later 1994 - Colorado Springs City park staff research new exhibits for the Garden of the Gods Visitor and Nature Center, set to open in 1995. They meet with Doctor Kirk Johnson, curator of paleontology at the Denver Museum of Nature & Science. 1995 - Kirk Johnson refers the park staff to his museum colleague Doctor Ken Carpenter, expert dinosaur scientist. Doctor Carpenter remembers seeing in his files "something about a dinosaur fossil found in Garden of the Gods" and mails the following article to park staff. Camptosaurus amplus No. 1887, Yale Museum, consisting of portions of the skull and lower jaw. It was collected from deposits in the Garden of the Gods, Colorado Springs, Colorado. With this specimen was found the following note in Professor O.C. Marsh's handwriting, "Part of this animal and various Sauropoda bones were taken out by Professor Kerr in 1878." A Case of Mistaken Identity Reveals a Brand New Dinosaur! 1996 - Kirk Johnson (a Yale alumnus) secures permission to hand-carry the Camptosaurus fossil from the Yale Peabody Museum to Denver so that Ken Carpenter can make a cast (a precise replica) of the fossil. Doctor Carpenter notices irregularities in the Camptosaurus fossil and decides to re-examine the fossil when his schedule permits. 1997 - The Camptosaurus fossil replica is given to the City of Colorado Springs and is exhibited at the Garden of the Gods Visitor and Nature Center. 2006 - Doctor Carpenter and his associate Kathleen Brill reassess the fossil skull and note that it differs from other Camptosaurus skulls in several significant ways, such as the narrower mouth and snout, and the position of the nasal openings, and the bony structures over the eyes. Also, microscopic identification of the rock matrix clinging to the fossil, and research of archival maps, reveal that the fossil skull was actually found in the lower Dakota Rock Formation, not the Morrison Formation as originally reported in the 1800s. The skull is from a dinosaur that lived in the Cretaceous Ear and can't be a Jurassic Era Camptosaurus. Doctor Carpenter's exacting research reveals that the dinosaur skull is a brand new genus and species of dinosaur! He names it Theiophytalia kerri. 2008 - The Theiophytalia kerri is proudly re-exhibited at the Garden of the Gods Visitor and Nature Center. Classification: Animalia, Chordata, Vertebrata, Dinosauria, Ornithischia, Ornithopoda Stratigraphy: lower Lytle Member, Purgatoire Formation, Dakota Group, Aptian to Albian Stages, upper Lower Cretaceous Locality: Garden of the Gods, Colorado Springs, Colorado, USA See info. at: en.wikipedia.org/wiki/Theiophytalia and en.wikipedia.org/wiki/Ornithopoda

États-Unis Crétacé fossile holotype +4
Fossil specimen of Liaoningosaurus paradoxus on display at the Beijing Museum of Natural History.
Taxons Liaoningosaurus

Fossil specimen of Liaoningosaurus paradoxus on display at the Beijing Museum of Natural History.

musée fossile spécimen Liaoningosaurus
Fossil skeleton of Gargoyleosaurus parkpinorum taken in 2007 at the Denver Museum of Nature and Science.
Taxons Gargoyleosaurus

Fossil skeleton of Gargoyleosaurus parkpinorum taken in 2007 at the Denver Museum of Nature and Science.

musée Denver fossile Gargoyleosaurus +1
fossil of Isanosaurus attavipachi, an extinct sauropod
Taxons Isanosaurus

fossil of Isanosaurus attavipachi, an extinct sauropod

fossile Isanosaurus
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Actualités

De nouveaux fossiles révèlent une branche cachée de l’évolution humaine
dent Éthiopie fossile spécimen découverte évolution
Les fossiles découverts en Éthiopie remodèlent notre vision de l’évolution humaine. Au lieu d’une marche directe depuis des ancêtres ressemblant à des singes jusqu’aux humains modernes, les chercheurs voient désormais un arbre enchevêtré et ramifié avec plusieurs espèces coexistant. Des dents récemment découvertes révèlent une espèce d'australopithèque jusqu'alors inconnue qui vivait aux côtés de certains des premiers spécimens d'Homo il y a près de 2,8 millions d'années. Cela suggère que la nature a testé plusieurs versions de « l’être humain » avant que notre lignée ne perdure.
28/08/2025 sciencedaily-human-evo ⚙ Traduction automatique
Langebaanweg Partie 3 – Une archive animale
musée fossile
Bien que nous ayons discuté de l'importance du Langebaanweg en termes de sa position géologique et de son histoire, ce qui le rend vraiment célèbre est l'incroyable taille et la diversité de son assemblage de fossiles. Au cours des 60 dernières années, les collections du musée Iziko du Cap ont été remplies d'un [&hellip
22/08/2025 palaeocast ⚙ Traduction automatique
La découverte d’un fossile ancien en Ethiopie réécrit les origines humaines
membre Éthiopie fossile découverte origine humaine
Dans les déserts d’Éthiopie, des scientifiques ont découvert des fossiles montrant que les premiers membres de notre genre Homo vivaient côte à côte avec une espèce d’australopithèque nouvellement identifiée il y a près de trois millions d’années. Ces découvertes remettent en question la vieille idée d’une échelle évolutive droite, révélant à la place un réseau enchevêtré d’anciens parents.
22/08/2025 sciencedaily-human-evo ⚙ Traduction automatique
Un squelette vieux de 140 000 ans montre les premiers croisements entre humains et Néandertaliens
Israël fossile datation découverte Homo sapiens squelette
Les scientifiques ont découvert le premier fossile au monde présentant à la fois des caractéristiques de Néandertal et d'Homo sapiens : un enfant de cinq ans de la grotte de Skhul en Israël, datant de 140 000 ans. Cette découverte repousse la chronologie du métissage humain, prouvant que les Néandertaliens et les humains modernes se mélangeaient déjà bien avant les rencontres ultérieures de l'Europe.
21/08/2025 sciencedaily-human-evo ⚙ Traduction automatique
Un mystérieux métissage dénisovien a façonné les humains que nous sommes aujourd'hui
fossile empreintes évolution génétique
Les Dénisoviens, un mystérieux parent humain, ont laissé derrière eux bien plus qu'une poignée de fossiles : ils ont laissé des empreintes génétiques sur les humains modernes du monde entier. De multiples événements de croisement avec des populations dénisovanes distinctes ont contribué à façonner des caractéristiques telles que la survie à haute altitude chez les Tibétains, l'adaptation au froid chez les Inuits et une immunité renforcée. Leur influence s'est étendue de la Sibérie à l'Amérique du Sud, et les scientifiques découvrent maintenant comment ces dons génétiques ont transformé l'évolution humaine, même avec de telles limites.
14/08/2025 sciencedaily-human-evo ⚙ Traduction automatique
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