fossile

Nature du spécimen

223 image(s) · 128 Actualités

Galerie d'images

Chuanjiesaurus fossil in China Science and Technology Museum. The other two smaller suites of fossils are Lufengosaurus and Dilophosaurus.
Taxons Chuanjiesaurus

Chuanjiesaurus fossil in China Science and Technology Museum. The other two smaller suites of fossils are Lufengosaurus and Dilophosaurus.

musée Chine fossile Chuanjiesaurus +2
A restoration of Rinconsaurus compared to a human ,

•  Based proportionally on fossil elements and skeletal reconstruction featured in the Rinconsaurus description,[1] with missing parts based on other titanosaur reconstructions. The remains of Rinconsaurus represent two adults and a juvenile all of which are incomplete; some of the proportions shown here, such as the neck, limb lengths, and skull shape are not certain.
•  Osteroderms are not yet known in Rinconsaurus.  The osteoderms shown here are based loosely on Mendozasaurus.[2] Osteoderms are known from at least 10 titanosaur genera spread across the family tree but it's not clear if all titanosaurs had them.[3] Titanosaur osteoderms are rare and their layout and position on the body are not certain. [4]
•  The colours and patterns, as with the majority of reconstructions of prehistoric creatures, are speculative.
•  Human silhouette approximately 180 cm tall.

NOTE: I often update my images. If you want to have any of my images on a website, please (if possible) don’t host/save it to the website server. I’d prefer it if the image's Wikimedia URL is used. This means that if I update an image, it will be updated on the site as well.  Thanks.   


References


↑ Coria, Jorge; B.J.G. Riga (2003). "Rinconsaurus caudamirus gen. et sp nov., a new titanosaurid (Dinosauria, Sauropoda) from the Late Cretaceous of Patagonia, Argentina". Revista Geologica de Chile 30 (2): 333–353. ISSN 0716-0208. Retrieved on 2007-05-21.

↑   González Riga B (2003) A new titanosaur (Dinosauria, Sauropoda) from the Upper Cretaceous of Mendoza, Argentina. Ameghiniana 40 (2) 

↑  Carrano, M.T. and D’Emic, M.D.  2015 'Osteoderms of the titanosaur sauropod dinosaur Alamosaurus sanjuanensis Gilmore, 1922'. Journal of Vertebrate Paleontology.

↑    Vidal D, Ortega F, Sanz JL (2014) Titanosaur Osteoderms from the Upper Cretaceous of Lo Hueco (Spain) and Their Implications on the Armor of Laurasian Titanosaurs. PLoS ONE 9(8): e102488. doi:10.1371/journal.pone.0102488
Taxons Rinconsaurus

A restoration of Rinconsaurus compared to a human , • Based proportionally on fossil elements and skeletal reconstruction featured in the Rinconsaurus description,[1] with missing parts based on other titanosaur reconstructions. The remains of Rinconsaurus represent two adults and a juvenile all of which are incomplete; some of the proportions shown here, such as the neck, limb lengths, and skull shape are not certain. • Osteroderms are not yet known in Rinconsaurus. The osteoderms shown here are based loosely on Mendozasaurus.[2] Osteoderms are known from at least 10 titanosaur genera spread across the family tree but it's not clear if all titanosaurs had them.[3] Titanosaur osteoderms are rare and their layout and position on the body are not certain. [4] • The colours and patterns, as with the majority of reconstructions of prehistoric creatures, are speculative. • Human silhouette approximately 180 cm tall. NOTE: I often update my images. If you want to have any of my images on a website, please (if possible) don’t host/save it to the website server. I’d prefer it if the image's Wikimedia URL is used. This means that if I update an image, it will be updated on the site as well. Thanks. References ↑ Coria, Jorge; B.J.G. Riga (2003). "Rinconsaurus caudamirus gen. et sp nov., a new titanosaurid (Dinosauria, Sauropoda) from the Late Cretaceous of Patagonia, Argentina". Revista Geologica de Chile 30 (2): 333–353. ISSN 0716-0208. Retrieved on 2007-05-21. ↑ González Riga B (2003) A new titanosaur (Dinosauria, Sauropoda) from the Upper Cretaceous of Mendoza, Argentina. Ameghiniana 40 (2) ↑ Carrano, M.T. and D’Emic, M.D. 2015 'Osteoderms of the titanosaur sauropod dinosaur Alamosaurus sanjuanensis Gilmore, 1922'. Journal of Vertebrate Paleontology. ↑ Vidal D, Ortega F, Sanz JL (2014) Titanosaur Osteoderms from the Upper Cretaceous of Lo Hueco (Spain) and Their Implications on the Armor of Laurasian Titanosaurs. PLoS ONE 9(8): e102488. doi:10.1371/journal.pone.0102488

membre description fossile juvénile +4
A restoration of Rinconsaurus compared to a human ,

•  Based proportionally on fossil elements and skeletal reconstruction featured in the Rinconsaurus description,[1] with missing parts based on other titanosaur reconstructions. The remains of Rinconsaurus represent two adults and a juvenile all of which are incomplete; some of the proportions shown here, such as the neck, limb lengths, and skull shape are not certain.
•  Osteroderms are not yet known in Rinconsaurus.  The osteoderms shown here are based loosely on Mendozasaurus.[2] Osteoderms are known from at least 10 titanosaur genera spread across the family tree but it's not clear if all titanosaurs had them.[3] Titanosaur osteoderms are rare and their layout and position on the body are not certain. [4]
•  The colours and patterns, as with the majority of reconstructions of prehistoric creatures, are speculative.
•  Human silhouette approximately 180 cm tall.

NOTE: I often update my images. If you want to have any of my images on a website, please (if possible) don’t host/save it to the website server. I’d prefer it if the image's Wikimedia URL is used. This means that if I update an image, it will be updated on the site as well.  Thanks.   


References


↑ Coria, Jorge; B.J.G. Riga (2003). "Rinconsaurus caudamirus gen. et sp nov., a new titanosaurid (Dinosauria, Sauropoda) from the Late Cretaceous of Patagonia, Argentina". Revista Geologica de Chile 30 (2): 333–353. ISSN 0716-0208. Retrieved on 2007-05-21.

↑   González Riga B (2003) A new titanosaur (Dinosauria, Sauropoda) from the Upper Cretaceous of Mendoza, Argentina. Ameghiniana 40 (2) 

↑  Carrano, M.T. and D’Emic, M.D.  2015 'Osteoderms of the titanosaur sauropod dinosaur Alamosaurus sanjuanensis Gilmore, 1922'. Journal of Vertebrate Paleontology.

↑    Vidal D, Ortega F, Sanz JL (2014) Titanosaur Osteoderms from the Upper Cretaceous of Lo Hueco (Spain) and Their Implications on the Armor of Laurasian Titanosaurs. PLoS ONE 9(8): e102488. doi:10.1371/journal.pone.0102488
Taxons Rinconsauria

A restoration of Rinconsaurus compared to a human , • Based proportionally on fossil elements and skeletal reconstruction featured in the Rinconsaurus description,[1] with missing parts based on other titanosaur reconstructions. The remains of Rinconsaurus represent two adults and a juvenile all of which are incomplete; some of the proportions shown here, such as the neck, limb lengths, and skull shape are not certain. • Osteroderms are not yet known in Rinconsaurus. The osteoderms shown here are based loosely on Mendozasaurus.[2] Osteoderms are known from at least 10 titanosaur genera spread across the family tree but it's not clear if all titanosaurs had them.[3] Titanosaur osteoderms are rare and their layout and position on the body are not certain. [4] • The colours and patterns, as with the majority of reconstructions of prehistoric creatures, are speculative. • Human silhouette approximately 180 cm tall. NOTE: I often update my images. If you want to have any of my images on a website, please (if possible) don’t host/save it to the website server. I’d prefer it if the image's Wikimedia URL is used. This means that if I update an image, it will be updated on the site as well. Thanks. References ↑ Coria, Jorge; B.J.G. Riga (2003). "Rinconsaurus caudamirus gen. et sp nov., a new titanosaurid (Dinosauria, Sauropoda) from the Late Cretaceous of Patagonia, Argentina". Revista Geologica de Chile 30 (2): 333–353. ISSN 0716-0208. Retrieved on 2007-05-21. ↑ González Riga B (2003) A new titanosaur (Dinosauria, Sauropoda) from the Upper Cretaceous of Mendoza, Argentina. Ameghiniana 40 (2) ↑ Carrano, M.T. and D’Emic, M.D. 2015 'Osteoderms of the titanosaur sauropod dinosaur Alamosaurus sanjuanensis Gilmore, 1922'. Journal of Vertebrate Paleontology. ↑ Vidal D, Ortega F, Sanz JL (2014) Titanosaur Osteoderms from the Upper Cretaceous of Lo Hueco (Spain) and Their Implications on the Armor of Laurasian Titanosaurs. PLoS ONE 9(8): e102488. doi:10.1371/journal.pone.0102488

membre description fossile juvénile +4
Illustration of a fossil of Mongolosaurus
Taxons Mongolosaurus

Illustration of a fossil of Mongolosaurus

fossile Mongolosaurus
Fossil of Mosasaurus, an extinct mosasaur, reconstruction of the Mosasaurus of Bemelen. Took the photo at Natural History Museum of Maastricht

Fossil of Mosasaurus, an extinct mosasaur, reconstruction of the Mosasaurus of Bemelen. Took the photo at Natural History Museum of Maastricht

musée fossile Moanasaurus Mosasaurus
Palaeogeography of the Earth in Aptian, with location of Acrocanthosaurus fossils as green dots
Intervalles Aptian

Palaeogeography of the Earth in Aptian, with location of Acrocanthosaurus fossils as green dots

Aptien fossile Acrocanthosaurus
1865.. 
WHITAKEE BXrCKlNGHAM CHALK, 
399 
I cannot give the thickness with accuraC3\ I will now give a short 
account of each, beginning with the lowest. 
(g). Chalk-marl. — A 
rather brownish-white, 
slightly sandy, clayey 
chalk, fissile, with stony 
layers here and there, and 
often with fossils (notably 
fish-scales). This is per- 
haps 80 feet thick, and 
mostly causes a rise of the 
ground above the sloping 
plain of the Upper Green- 
sand. 
(/). Totfernlioe Stone.- 
At the top of the Chalk- 
marl in this district there 
are generally two layers 
of rathersandy limestone, 
separated by a little marl, 
and which are more dis- 
tinct further north-east- 
ward (in Bedfordshire), 
where they are each about 
3 feet thick. One bed is 
always here present, but 
I did not always see the 
two. This stone mostly 
yields fossils, amongst 
which Ammonites vai'ians 
and an Inoceramus are 
abundant, and small, 
hard,dark-brown nodules, 
most likely coprolitic : it 
is harder and darker than 
common chalk, and con- 
tains many small dark 
grains ; and was once 
largely quarried, for build- 
ing, at Totternhoe, where 
there are plentiful traces 
of the workings. Most 
of the old churches of the 
neighbourhood were built 
in great part of this pe- 
rishable stone, but I be- 
lieve that its use has been 
long discontinued. 
Details of the occur- 
rence of this bed will be 
given in the ' Gcolo- 

2 E 2

1865.. WHITAKEE BXrCKlNGHAM CHALK, 399 I cannot give the thickness with accuraC3\ I will now give a short account of each, beginning with the lowest. (g). Chalk-marl. — A rather brownish-white, slightly sandy, clayey chalk, fissile, with stony layers here and there, and often with fossils (notably fish-scales). This is per- haps 80 feet thick, and mostly causes a rise of the ground above the sloping plain of the Upper Green- sand. (/). Totfernlioe Stone.- At the top of the Chalk- marl in this district there are generally two layers of rathersandy limestone, separated by a little marl, and which are more dis- tinct further north-east- ward (in Bedfordshire), where they are each about 3 feet thick. One bed is always here present, but I did not always see the two. This stone mostly yields fossils, amongst which Ammonites vai'ians and an Inoceramus are abundant, and small, hard,dark-brown nodules, most likely coprolitic : it is harder and darker than common chalk, and con- tains many small dark grains ; and was once largely quarried, for build- ing, at Totternhoe, where there are plentiful traces of the workings. Most of the old churches of the neighbourhood were built in great part of this pe- rishable stone, but I be- lieve that its use has been long discontinued. Details of the occur- rence of this bed will be given in the ' Gcolo- 2 E 2

écaille fossile
Locality map for Australian eurypodan thyreophoran fossils.

1, Stegosaurian? footprint (QM F5701), Walloon Coal Measures, Balgowan Colliery, Balgowan (Bajocian–Bathonian); 2, Minmi paravertebra holotype (QM F10329) (Molnar, 1980), Minmi Member, Bungil Formation (Valanginian–Barremian); 3, Thyreophoran trackways, Broome Sandstone, Dampier Peninsula, Western Australia (Valanginian–Barremian); 4, Ankylosauria indet. (see Barrett et al., 2010) ‘Flat Rocks’ Wonthaggi Formation (upper Hauterivian–Albian); 5, NMV P216739, ‘Lake Copco–Dinosaur Cove’ Eumeralla Formation (middle upper Aptian to lower middle Albian) (Barrett et al., 2010); 6, QM F33286; 7, AM F119849 and AM F35259; 8, Kunbarrasaurus ieversi gen. et sp. nov. (formerly Minmi sp.) (QM F18101); 9, QM F33565 and QM F33566; 10, QM F44324-28. Legend: Dark Green, Toolebuc Formation (late middle–early late Albian); Green, Allaru Formation (upper Albian–(?)lower Cenomanian); Light green, Mackunda Formation (upper Albian–lower Cenomanian); Lightest green, Winton Formation (late Albian–early Turonian).
Formations Toolebuc

Locality map for Australian eurypodan thyreophoran fossils. 1, Stegosaurian? footprint (QM F5701), Walloon Coal Measures, Balgowan Colliery, Balgowan (Bajocian–Bathonian); 2, Minmi paravertebra holotype (QM F10329) (Molnar, 1980), Minmi Member, Bungil Formation (Valanginian–Barremian); 3, Thyreophoran trackways, Broome Sandstone, Dampier Peninsula, Western Australia (Valanginian–Barremian); 4, Ankylosauria indet. (see Barrett et al., 2010) ‘Flat Rocks’ Wonthaggi Formation (upper Hauterivian–Albian); 5, NMV P216739, ‘Lake Copco–Dinosaur Cove’ Eumeralla Formation (middle upper Aptian to lower middle Albian) (Barrett et al., 2010); 6, QM F33286; 7, AM F119849 and AM F35259; 8, Kunbarrasaurus ieversi gen. et sp. nov. (formerly Minmi sp.) (QM F18101); 9, QM F33565 and QM F33566; 10, QM F44324-28. Legend: Dark Green, Toolebuc Formation (late middle–early late Albian); Green, Allaru Formation (upper Albian–(?)lower Cenomanian); Light green, Mackunda Formation (upper Albian–lower Cenomanian); Lightest green, Winton Formation (late Albian–early Turonian).

Australie Broome Sandstone Eumeralla Toolebuc +18
Original figure caption: .mw-parser-output .smallcaps{font-variant:small-caps}The Middletown Slab covered with the Footprints of Carnivorous Dinosaurs. The tracks are in high relief. Additional notes: Most if not all of these tridactylous (i.e. three-toed) footprints/tracks (but not the actual trackmaker!) are referred to as Grallator or as Grallator-type trace fossils. “High relief” means that these are actually casts of footprints forming a positive relief on the lower surface of the sandstone slab (so-called positive hyporelief). The material that originally formed the mud over which the dinosaurs walked was too friable to be recovered from the quarry in one piece. The slab consists of so called ‘brownstone’ which is the trading name of the sandstone quarried at Middletown, Connecticut. This sandstone belongs to the Lower Jurassic Portland Formation of the Hartford Basin (“Connecticut Valley”) and thus to the upper part of the Newark Supergroup. The trackmakers probably were relatively small ‘primitive’ theropod dinosaurs (coelophysoids) such as Podokesaurus the remains of which were recovered from Lower Jurassic deposits of the Hartford Basin.
Formations Portland

Original figure caption: .mw-parser-output .smallcaps{font-variant:small-caps}The Middletown Slab covered with the Footprints of Carnivorous Dinosaurs. The tracks are in high relief. Additional notes: Most if not all of these tridactylous (i.e. three-toed) footprints/tracks (but not the actual trackmaker!) are referred to as Grallator or as Grallator-type trace fossils. “High relief” means that these are actually casts of footprints forming a positive relief on the lower surface of the sandstone slab (so-called positive hyporelief). The material that originally formed the mud over which the dinosaurs walked was too friable to be recovered from the quarry in one piece. The slab consists of so called ‘brownstone’ which is the trading name of the sandstone quarried at Middletown, Connecticut. This sandstone belongs to the Lower Jurassic Portland Formation of the Hartford Basin (“Connecticut Valley”) and thus to the upper part of the Newark Supergroup. The trackmakers probably were relatively small ‘primitive’ theropod dinosaurs (coelophysoids) such as Podokesaurus the remains of which were recovered from Lower Jurassic deposits of the Hartford Basin.

Portland Jurassique moulage fossile +4
Locality map: Grand Staircase-Escalante National Monument, southern Utah.
Map showing the Nipple Butte area (indicated by yellow star) of Grand Staircase-Escalante National Monument (GSENM). GSENM is bounded by the red rectangle and silhouetted in dark gray on the inset of Utah and surrounding states (modified from [1]).

The original map has been modified to show the Nipple Butte area instead of the Machairoceratops fossil locality as in the original source. New location based on map in A New Macrovertebrate Assemblage from the Late Cretaceous (Campanian) of Southern Utah, page 601.

Locality map: Grand Staircase-Escalante National Monument, southern Utah. Map showing the Nipple Butte area (indicated by yellow star) of Grand Staircase-Escalante National Monument (GSENM). GSENM is bounded by the red rectangle and silhouetted in dark gray on the inset of Utah and surrounding states (modified from [1]). The original map has been modified to show the Nipple Butte area instead of the Machairoceratops fossil locality as in the original source. New location based on map in A New Macrovertebrate Assemblage from the Late Cretaceous (Campanian) of Southern Utah, page 601.

Campanien Crétacé Crétacé supérieur fossile +1
(A) Map of Queensland showing the extent of Cretaceous outcrop. (B) Map of the location of Dig Site Three (type locality of Haliskia), and numerous other sites in the area from which pterosaur fossils have been collected.
Formations Griman Creek

(A) Map of Queensland showing the extent of Cretaceous outcrop. (B) Map of the location of Dig Site Three (type locality of Haliskia), and numerous other sites in the area from which pterosaur fossils have been collected.

Crétacé fossile Haliskia Pterosauria
Eubrontes dinosaur track from the Jurassic of Connecticut, USA.
Trace fossils are any indirect evidence of ancient life.  They refer to features in rocks that do not represent parts of the body of a once-living organism.  Traces include footprints, tracks, trails, burrows, borings, and bitemarks.  Body fossils provide information about the morphology of ancient organisms, while trace fossils provide information about the behavior of ancient life forms.  Interpreting trace fossils and determination of the identity of a trace maker can be straightforward (for example, a dinosaur footprint represents walking behavior) or not.  Sediments that have trace fossils are said to be bioturbated.  Burrowed textures in sedimentary rocks are referred to as bioturbation.  Trace fossils have scientific names assigned to them, in the same style & manner as living organisms or body fossils.
This track was made by a theropod, a group of small to large, carnivorous, bipedal dinosaurs.  The specimen comes from a Triassic to Jurassic terrestrial sedimentary succession that filled up a half graben, many of which occur along America's eastern seaboard.  Such half-graben basins formed during the Triassic as the Pangaea supercontinent tried to rift apart, but failed.  Pangaea successfully broke apart during the Jurassic.
Stratigraphy: East Berlin Formation, Newark Supergroup, Lower Jurassic
Locality: unrecorded / undisclosed site at or near the town of Rocky Hill, central Connecticut, USA


Info. at:
mrdata.usgs.gov/geology/state/sgmc-unit.php?unit=CTJeb%3B0
and

en.wikipedia.org/wiki/Eubrontes

Eubrontes dinosaur track from the Jurassic of Connecticut, USA. Trace fossils are any indirect evidence of ancient life. They refer to features in rocks that do not represent parts of the body of a once-living organism. Traces include footprints, tracks, trails, burrows, borings, and bitemarks. Body fossils provide information about the morphology of ancient organisms, while trace fossils provide information about the behavior of ancient life forms. Interpreting trace fossils and determination of the identity of a trace maker can be straightforward (for example, a dinosaur footprint represents walking behavior) or not. Sediments that have trace fossils are said to be bioturbated. Burrowed textures in sedimentary rocks are referred to as bioturbation. Trace fossils have scientific names assigned to them, in the same style & manner as living organisms or body fossils. This track was made by a theropod, a group of small to large, carnivorous, bipedal dinosaurs. The specimen comes from a Triassic to Jurassic terrestrial sedimentary succession that filled up a half graben, many of which occur along America's eastern seaboard. Such half-graben basins formed during the Triassic as the Pangaea supercontinent tried to rift apart, but failed. Pangaea successfully broke apart during the Jurassic. Stratigraphy: East Berlin Formation, Newark Supergroup, Lower Jurassic Locality: unrecorded / undisclosed site at or near the town of Rocky Hill, central Connecticut, USA Info. at: mrdata.usgs.gov/geology/state/sgmc-unit.php?unit=CTJeb%3B0 and en.wikipedia.org/wiki/Eubrontes

États-Unis Jurassique Trias fossile +5
A trackway of the trace fossil Bifurculapes laqueatus (positive hyporelief, i.e. casts on the bottom surface of the bed) from the Early Jurassic East Berlin Formation (Hartford Basin) of Holyoke, Massachusetts (not the same specimen as this one). Scale is in cm.
Formations East Berlin

A trackway of the trace fossil Bifurculapes laqueatus (positive hyporelief, i.e. casts on the bottom surface of the bed) from the Early Jurassic East Berlin Formation (Hartford Basin) of Holyoke, Massachusetts (not the same specimen as this one). Scale is in cm.

écaille East Berlin Jurassique inférieur Jurassique +4
Fossil eggs of the oospecies Macroelongatoolithus carlylei (believed to be the eggs of giant oviraptorosaurs) from the Cedar Mountain Formation of North America. At the SECU Dinolab of the North Carolina Museum of Natural Sciences

Fossil eggs of the oospecies Macroelongatoolithus carlylei (believed to be the eggs of giant oviraptorosaurs) from the Cedar Mountain Formation of North America. At the SECU Dinolab of the North Carolina Museum of Natural Sciences

musée Cedar Mountain fossile Macroelongatoolithus +2
Paleogeography and paleoclimate of the Late Jurassic - 150 Ma with dinosaur fossil localities:
A = Tendaguru Formation, Tanzania
C1 =  Shishugou & Kalazha Formations, China
C2 =  Shangshaximiao (Upper Shaximiao) Formation, China
E1 =  Sables de Glos, Argiles d’Octeville, Marnes de Bléville, Kimmeridge Clay, Calcareous Grit, Corallian Oolite, Oxford Clay, Portland Stone, England & France
E2 = Villar del Arzobispo, Alcobaça, Guimarota, Sobral, Amoreira-Porto Novo, Bombarral, Freixial, Lourinhã Formations, Spain & Portugal
M1-6 = Morrison Formation, United States
S1 =  Toquí & Cañadón Calcáreo Formations, Chile & Argentina

Paleogeography and paleoclimate of the Late Jurassic - 150 Ma with dinosaur fossil localities: A = Tendaguru Formation, Tanzania C1 = Shishugou & Kalazha Formations, China C2 = Shangshaximiao (Upper Shaximiao) Formation, China E1 = Sables de Glos, Argiles d’Octeville, Marnes de Bléville, Kimmeridge Clay, Calcareous Grit, Corallian Oolite, Oxford Clay, Portland Stone, England & France E2 = Villar del Arzobispo, Alcobaça, Guimarota, Sobral, Amoreira-Porto Novo, Bombarral, Freixial, Lourinhã Formations, Spain & Portugal M1-6 = Morrison Formation, United States S1 = Toquí & Cañadón Calcáreo Formations, Chile & Argentina

Argentine Chili Chine France +19
A broken concretion with fossils inside; Late Cretaceous Pierre shale, near Ekalaka, Montana.
Formations Pierre Shale

A broken concretion with fossils inside; Late Cretaceous Pierre shale, near Ekalaka, Montana.

Pierre Shale Crétacé Crétacé supérieur fossile
1 2 3 4 5 6 7 8 9 10 11 12 13 14

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
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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
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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
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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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