extinction

Thématique

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Calvarius is a genus of styracosternan ornithopod from the Late Cretaceous of Spain. The name alludes to its chronostratigraphic proximity to the extinction event that wiped out the non-avian dinosaurs at the end of the Cretaceous. The highly modified metatarsal that is known from shows an example of convergent evolution, as it is more similar to non-iguanodontian ornithopods than to other styracosternans. It is thought that this is due to fulfilling a niche in its island habitat, resulting in Calvarius becoming a small-bodied animal, capable of rapid locomotion.
Taxons Calvarius

Calvarius is a genus of styracosternan ornithopod from the Late Cretaceous of Spain. The name alludes to its chronostratigraphic proximity to the extinction event that wiped out the non-avian dinosaurs at the end of the Cretaceous. The highly modified metatarsal that is known from shows an example of convergent evolution, as it is more similar to non-iguanodontian ornithopods than to other styracosternans. It is thought that this is due to fulfilling a niche in its island habitat, resulting in Calvarius becoming a small-bodied animal, capable of rapid locomotion.

locomotion Espagne Crétacé Crétacé supérieur +6
Holotype of Alcione elainus.
Fig. 6 of:
Longrich, N. R., Martill, D. M., & Andres, B. (2018). Late Maastrichtian pterosaurs from North Africa and mass extinction of Pterosauria at the Cretaceous-Paleogene boundary. PLoS biology, 16(3), e2001663.
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Original figure legend:
A. elainus FSAC-OB 2, holotype partial skeleton and FSAC-OB 217, metacarpal IV.

(A) Holotype right humerus in anterior view, (B) holotype right ulna and radius in anterior view, respectively, (C) holotype sternum in left lateral view, (D) referred metacarpal IV, (E) holotype, distal end of left metacarpal IV and left scapulocoracoid, and (F) holotype right femur in posterior view. Abbreviations: co, coracoid; cr, cristospine; dc, distal condyle; dpc, deltopectoral crest; ect, ectepicondyle; fh, femoral head; gl, glenoid; gt, greater trochanter; hh, humeral head; hum, humerus; mcIV, metacarpal IV, pc, proximal cotyle; pf, pneumatic foramen; rad, radius; scpr, supracondylar process; ste, sternum; uln, ulna.
Taxons Alcione

Holotype of Alcione elainus. Fig. 6 of: Longrich, N. R., Martill, D. M., & Andres, B. (2018). Late Maastrichtian pterosaurs from North Africa and mass extinction of Pterosauria at the Cretaceous-Paleogene boundary. PLoS biology, 16(3), e2001663. --- Original figure legend: A. elainus FSAC-OB 2, holotype partial skeleton and FSAC-OB 217, metacarpal IV. (A) Holotype right humerus in anterior view, (B) holotype right ulna and radius in anterior view, respectively, (C) holotype sternum in left lateral view, (D) referred metacarpal IV, (E) holotype, distal end of left metacarpal IV and left scapulocoracoid, and (F) holotype right femur in posterior view. Abbreviations: co, coracoid; cr, cristospine; dc, distal condyle; dpc, deltopectoral crest; ect, ectepicondyle; fh, femoral head; gl, glenoid; gt, greater trochanter; hh, humeral head; hum, humerus; mcIV, metacarpal IV, pc, proximal cotyle; pf, pneumatic foramen; rad, radius; scpr, supracondylar process; ste, sternum; uln, ulna.

crête humérus Crétacé Maastrichtien +7
Interpretation of the Hirnantian extinction and replacement of the Diplograptina (black) by the Neograptina (gray) (adapted from Bapst & others, 2012, fig. 1).
Intervalles Hirnantian

Interpretation of the Hirnantian extinction and replacement of the Diplograptina (black) by the Neograptina (gray) (adapted from Bapst & others, 2012, fig. 1).

Hirnantien extinction
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
Holotype of Alcione elainus.
Fig. 6 of:
Longrich, N. R., Martill, D. M., & Andres, B. (2018). Late Maastrichtian pterosaurs from North Africa and mass extinction of Pterosauria at the Cretaceous-Paleogene boundary. PLoS biology, 16(3), e2001663.
---
Original figure legend:
A. elainus FSAC-OB 2, holotype partial skeleton and FSAC-OB 217, metacarpal IV.

(A) Holotype right humerus in anterior view, (B) holotype right ulna and radius in anterior view, respectively, (C) holotype sternum in left lateral view, (D) referred metacarpal IV, (E) holotype, distal end of left metacarpal IV and left scapulocoracoid, and (F) holotype right femur in posterior view. Abbreviations: co, coracoid; cr, cristospine; dc, distal condyle; dpc, deltopectoral crest; ect, ectepicondyle; fh, femoral head; gl, glenoid; gt, greater trochanter; hh, humeral head; hum, humerus; mcIV, metacarpal IV, pc, proximal cotyle; pf, pneumatic foramen; rad, radius; scpr, supracondylar process; ste, sternum; uln, ulna.

Holotype of Alcione elainus. Fig. 6 of: Longrich, N. R., Martill, D. M., & Andres, B. (2018). Late Maastrichtian pterosaurs from North Africa and mass extinction of Pterosauria at the Cretaceous-Paleogene boundary. PLoS biology, 16(3), e2001663. --- Original figure legend: A. elainus FSAC-OB 2, holotype partial skeleton and FSAC-OB 217, metacarpal IV. (A) Holotype right humerus in anterior view, (B) holotype right ulna and radius in anterior view, respectively, (C) holotype sternum in left lateral view, (D) referred metacarpal IV, (E) holotype, distal end of left metacarpal IV and left scapulocoracoid, and (F) holotype right femur in posterior view. Abbreviations: co, coracoid; cr, cristospine; dc, distal condyle; dpc, deltopectoral crest; ect, ectepicondyle; fh, femoral head; gl, glenoid; gt, greater trochanter; hh, humeral head; hum, humerus; mcIV, metacarpal IV, pc, proximal cotyle; pf, pneumatic foramen; rad, radius; scpr, supracondylar process; ste, sternum; uln, ulna.

crête humérus Crétacé Maastrichtien +7
Holotype of Alcione elainus.
Fig. 6 of:
Longrich, N. R., Martill, D. M., & Andres, B. (2018). Late Maastrichtian pterosaurs from North Africa and mass extinction of Pterosauria at the Cretaceous-Paleogene boundary. PLoS biology, 16(3), e2001663.
---
Original figure legend:
A. elainus FSAC-OB 2, holotype partial skeleton and FSAC-OB 217, metacarpal IV.

(A) Holotype right humerus in anterior view, (B) holotype right ulna and radius in anterior view, respectively, (C) holotype sternum in left lateral view, (D) referred metacarpal IV, (E) holotype, distal end of left metacarpal IV and left scapulocoracoid, and (F) holotype right femur in posterior view. Abbreviations: co, coracoid; cr, cristospine; dc, distal condyle; dpc, deltopectoral crest; ect, ectepicondyle; fh, femoral head; gl, glenoid; gt, greater trochanter; hh, humeral head; hum, humerus; mcIV, metacarpal IV, pc, proximal cotyle; pf, pneumatic foramen; rad, radius; scpr, supracondylar process; ste, sternum; uln, ulna.

Holotype of Alcione elainus. Fig. 6 of: Longrich, N. R., Martill, D. M., & Andres, B. (2018). Late Maastrichtian pterosaurs from North Africa and mass extinction of Pterosauria at the Cretaceous-Paleogene boundary. PLoS biology, 16(3), e2001663. --- Original figure legend: A. elainus FSAC-OB 2, holotype partial skeleton and FSAC-OB 217, metacarpal IV. (A) Holotype right humerus in anterior view, (B) holotype right ulna and radius in anterior view, respectively, (C) holotype sternum in left lateral view, (D) referred metacarpal IV, (E) holotype, distal end of left metacarpal IV and left scapulocoracoid, and (F) holotype right femur in posterior view. Abbreviations: co, coracoid; cr, cristospine; dc, distal condyle; dpc, deltopectoral crest; ect, ectepicondyle; fh, femoral head; gl, glenoid; gt, greater trochanter; hh, humeral head; hum, humerus; mcIV, metacarpal IV, pc, proximal cotyle; pf, pneumatic foramen; rad, radius; scpr, supracondylar process; ste, sternum; uln, ulna.

crête humérus Crétacé Maastrichtien +7
Life restoration of the Triassic ichthyosaur Qianichthyosaurus xingyiensis.
References
Motani, Ryosuke; Jiang, Da-yong; Tintori, Andrea; Ji, Cheng; Huang, Jian-dong (2017). "Pre- versus post-mass extinction divergence of Mesozoic marine reptiles dictated by time-scale dependence of evolutionary rates". Proceedings of the Royal Society B 284 (1854): 20170241. DOI:10.1098/rspb.2017.0241.

Life restoration of the Triassic ichthyosaur Qianichthyosaurus xingyiensis. References Motani, Ryosuke; Jiang, Da-yong; Tintori, Andrea; Ji, Cheng; Huang, Jian-dong (2017). "Pre- versus post-mass extinction divergence of Mesozoic marine reptiles dictated by time-scale dependence of evolutionary rates". Proceedings of the Royal Society B 284 (1854): 20170241. DOI:10.1098/rspb.2017.0241.

écaille Mésozoïque Trias Ichthyosauria +3

Actualités

Flowering Plants Were Already Thriving before Dinosaur-Killing Asteroid Hit
Les plantes à fleurs prospéraient déjà avant l’impact de l’astéroïde tueur de dinosaures
Mexique Crétacé fossile Dinosauria extinction formation
Les fossiles de la formation Jose Creek au Nouveau-Mexique révèlent que les angiospermes (plantes à fleurs) avaient construit des forêts denses et fruitières il y a près de 75 millions d'années - près de 9 millions d'années avant l'extinction massive de la fin du Crétacé qui a tué les dinosaures - remettant en question un récit évolutif de longue date sur la façon dont ils sont parvenus à dominer la planète. L'article Les plantes à fleurs prospéraient déjà avant l'attaque d'un astéroïde tueur de dinosaures apparaît en premier sur Sci.News : Breaking Science News.
29/06/2026 sci-news ⚙ Traduction automatique
Et si les dinosaures n'avaient jamais disparu
Et si les dinosaures n'avaient jamais disparu
Dinosauria extinction
Sans l'impact de l'astéroïde géant qui a frappé la Terre il y a 66 millions d'années et provoqué l'extinction de 75 % des espèces, une autre biodiversité aurait vu le jour… probablement sans nous.
27/06/2026 sciencesetavenir
Fossil Discovery in Patagonia Reveals New Species of Horned Turtle
La découverte de fossiles en Patagonie révèle de nouvelles espèces de tortues à cornes
Argentine Maastrichtien fossile Dinosauria découverte extinction nouvelle espèce autres reptiles
Les paléontologues ont identifié une nouvelle espèce de tortue méiolaniforme du nord de la Patagonie, en Argentine, qui vivait à l'époque maastrichtienne, juste avant l'extinction massive déclenchée par un astéroïde qui a anéanti tous les dinosaures non aviaires. L'article La découverte de fossiles en Patagonie révèle de nouvelles espèces de tortues à cornes apparaît en premier sur Sci.News : Breaking Science News.
09/06/2026 sci-news ⚙ Traduction automatique
Fish Fossils from Early Paleocene Fill 10-Million-Year Gap after Dinosaur Extinction
Des fossiles de poissons du début du Paléocène comblent un écart de 10 millions d'années après l'extinction des dinosaures
Égypte Paléocène fossile Dinosauria extinction
Les paléontologues ont décrit un assemblage de fossiles de poissons marins provenant du site de Qreiya 3, vieux de 62,2 millions d'années, dans le désert oriental d'Égypte, ouvrant ainsi une fenêtre sur cette transition. L'article Les fossiles de poissons du début du Paléocène comblent un écart de 10 millions d'années après l'extinction des dinosaures est apparu en premier sur Sci.News : Breaking Science News.
05/06/2026 sci-news ⚙ Traduction automatique
Ancient Oceans Began Losing Oxygen Millions of Years before End-Triassic Mass Extinction
Les océans anciens ont commencé à perdre de l'oxygène des millions d'années avant l'extinction massive de la fin du Trias
Trias extinction
Des traces chimiques conservées dans des roches anciennes indiquent que les environnements marins se détérioraient bien avant la catastrophe qui a anéanti de nombreuses espèces à la fin du Trias, il y a environ 201 millions d'années. L'article Les océans anciens ont commencé à perdre de l'oxygène des millions d'années avant l'extinction massive de la fin du Trias est apparu en premier sur Sci.News : Breaking Science News.
02/06/2026 sci-news ⚙ Traduction automatique
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