fbpx
Wikipedia

Cedarpelta

March 20, 2024

Cedarpelta is an extinct genus of basal ankylosaurid dinosaur from Utah that lived during the Late Cretaceous period (Cenomanian to lower Turonian stage, 98.2 to 93 Ma) in what is now the Mussentuchit Member of the Cedar Mountain Formation. The type and only species, Cedarpelta bilbeyhallorum, is known from multiple specimens including partial skulls and postcranial material. It was named in 2001 by Kenneth Carpenter, James Kirkland, Don Burge, and John Bird. Cedarpelta has an estimated length of 7 metres (23 feet) and weight of 5 tonnes (11,023 lbs). The skull of Cedarpelta lacks extensive cranial ornamentation and is one of the only known ankylosaurs with individual skull bones that are not completely fused together.

Cedarpelta
Temporal range: Late Cretaceous, 98.2–93 Ma
Skull of Cedarpelta bilbeyhallorum, on display at the USU Eastern Prehistoric Museum, Price, Utah.
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Ornithischia
Clade: Thyreophora
Clade: Ankylosauria
Family: Ankylosauridae
Genus: Cedarpelta
Carpenter et al., 2001
Species:
C. bilbeyhallorum
Binomial name
Cedarpelta bilbeyhallorum
Carpenter et al., 2001

Discovery and naming edit

 
Cedar Mountain Formation in Utah.

The partial remains of an ankylosaur were discovered by Evan Hall and Sue Ann Bilbey at the CEM site near the Price River in Carbon County, Utah while they were visiting an excavation in the surrounding area.[1] The site was originally interpreted as being from the top of the Ruby Ranch Member of the Cedar Mountain Formation,[1] but was later interpreted as being from the bottom of the Mussentuchit Member.[2] The age of the layer was originally thought to have been 104.46 ± 0.95 Ma,[3] but more recent estimates date it to 98.2 ± 0.6 to 93 Ma.[4] In 1998, the discovery was reported by Kenneth Carpenter and James Kirkland.[5] In 2001, it was subsequently described, along with other material, by Kenneth Carpenter, James Kirkland, Don Burge, and John Bird. The holotype specimen, CEUM 12360, consists of a partial skull that is missing the snout and lower jaws. Numerous osteoderms, postcranial material and a disarticulated skull were designated as paratype specimens. Both holotype and paratype specimens represent at least three individuals and are currently housed at the College of Eastern Utah, Prehistoric Museum, Utah.[5][1]

The generic name, Cedarpelta, is derived from the Cedar Mountain Formation and the Greek word "pelte" (small shield). The specific name, bilbeyhallorum, honours Sue Ann Bilbey and Evan Hall, who discovered the remains of Cedarpelta.[1]

In 2008, additional specimens were referred to Cedarpelta from the Price River II Quarry, which is about 24.5 km southeast of Price River, Utah and at the base of the Mussentuchit Member. The quarry also produced specimens pertaining to four individuals of a brachiosaurid, an iguanodontian, a turtle, a pterosaur, and specimens of the nodosaurid Peloroplites. The referred material includes: CEUM 10396, a cervical vertebra; CEUM 10412, CEUM 10404, caudal vertebrae; CEUM 10371, a coracoid; CEUM 10256, CEUM 11629, humeri; CEUM 10266, an ischium; CEUM 11334, a femur; and CEUM 11640, a tibia.[2]

Description edit

 
Reconstructed skull containing 70% of original fossil bone.

Carepnter et al. (2001) originally gave Cedarpelta an estimated length of 7.5-8.5 metres (24.6-27.9 feet). However, Gregory S. Paul gave a lower estimate of 7 metres (23 feet) and a weight of 5 tonnes (11,023 lbs), while Thomas Holtz gave a higher estimation at 9 meters suggesting that it was rivalling Ankylosaurus.[6][7][8]

Carpenter et al. (2001) established several distinguishing traits of Cedarpelta. The body of the praemaxilla, the front snout bone, is short in front of its nasal branch. The outer sides of the two praemaxillae run more parallel compared to the snouts of later forms which are strongly diverging to behind. The cutting edge of the bone core of the upper beak is limited to the front of the praemaxilla. Each praemaxilla has six (conical) teeth. The quadrate, and with it the entire back of the skull, is inclined to the front. The head of the quadrate is not fused with the paroccipital process, contrary to the situation in Shamosaurus. The neck of the occipital condyle is long and sticking out to behind, like with nodosaurids, not obliquely to below as in typical ankylosaurids. The tubera basilaria, appending processes of the rear lower braincase, form a large wedge directed to below. The pterygoid is elongated from the front to the rear and has a saddle-shaped process on its outer edge oriented to behind and sideways. The coronoid process of the rear lower jaw has an oval process at the inside. The straight ischium has a knob-shaped boss at the inside near the pubic pedicle.[1]

 
Top view of skull.

Cedarpelta shows a mix of basal and derived traits. The presence of premaxillary teeth is a plesiomorphic character because it is inherited from earlier Ornithischia. In contrast, closure of the opening on the side of the skull behind the orbit, the lateral temporal fenestra, is an advanced, derived (apomorphic) character only known in ankylosaurid ankylosaurians.[1]

Two skulls are known, and the skull length for Cedarpelta is estimated to have been roughly 60 centimetres (24 in). One of the Cedarpelta skulls was found disarticulated, a first for an ankylosaur skull, allowing paleontologists a unique opportunity to examine the individual bones instead of being limited to an ossified unit. The skull is relatively elongated and does not show a strongly appending beak. Of the conical premaxillary teeth, the first is the largest. The maxilla bears eighteen teeth. The eye socket is surrounded by the lacrimal, a single supraorbital and a large postorbital, excluding the prefrontal and the jugal from the orbital rim. The postcranial skeleton was in 2001 not described in any detail.[1]

The skulls, though of large and thus not juvenile individuals, do not show a distinctive pattern of fused caputegulae, head tiles. This inspired Carpenter to propose an alternative hypothesis of ankylosaur skull osteoderm formation. Formerly, it had been assumed that such armour plates were either formed by direct skin ossification into distinct scutes which later fused to the skull (the more popular theory), or by a reaction of the skull bones to the pattern of overlying scales. The lack of a clear pattern in Cedarpelta suggested to Carpenter that the ossification took place in an intermediate layer between the scales and the skull roof itself, which he surmised to have been the periosteum.[1]

Classification edit

Carpenter (2001) placed Cedarpelta within the family Ankylosauridae and offered two interpretations of its position. The first was that it could be the basalmost known ankylosaurid, i.e. the first discovered branch to split off from the ankylosaurid stem line. This would be in line with its plesiomorphic traits and the fact that the in 2001 supposed Barremian age made it one of the oldest known ankylosaurids. The second was that it formed an early ankylosaurid branch, or clade, Shamosaurinae together with Gobisaurus of north-central China and the eponymous Shamosaurus of Mongolia.[9] Thompson et al. (2012),[10] Chen et al. (2013),[11] Yang et al. (2013),[12] Han et al. (2014),[13] Arbour & Currie (2015),[14] Arbour et al. (2016),[15] Arbour & Evans (2017),[16] Yang et al. (2017),[17] Zheng et al. (2018),[18] Rivera-Sylva et al. (2018),[19] Park et al. (2019)[20] and Frauenfelder et al. (2022)[21] have all found Cedarpelta to be within Ankylosauridae, as either within a polytomy with Liaoningosaurus, Aletopelta, Chuanqilong, Gobisaurus and Shamosaurus or as sister taxon to Chuanqilong. The results of Arbour & Currie (2015) are reproduced below.

Vickaryous et al. (2004) interpreted Cedarpelta as the basalmost member of the family Nodosauridae, positioned even below the nodosaurids Pawpawsaurus, Silvisaurus, and Sauropelta.[22] Wiersma & Irmis (2018) also interpreted Cedarpelta as a nodosaurid.[23] The results of Vickaryous et al. (2004) are reproduced below.

See also edit

References edit

  1. ^ a b c d e f g h Carpenter, K., Kirkland, J. I., Burge, D., and Bird, J. 2001. Disarticulated skull of a new primitive ankylosaurid from the Lower Cretaceous of Utah. in Carpenter, K. (editor) 2001. The Armored Dinosaurs. Indiana University Press
  2. ^ a b Carpenter, Kenneth; Bartlett, Jeff; Bird, John; Barrick, Reese (2008). "Ankylosaurs from the Price River Quarries, Cedar Mountain Formation (Lower Cretaceous), east-central Utah". Journal of Vertebrate Paleontology. 28 (4): 1089–1101. doi:10.1671/0272-4634-28.4.1089. S2CID 129480044.
  3. ^ Chure, D.; Britt, B.; Whitlock, J.A.; Wilson, J.A. (2010). "First complete sauropod dinosaur skull from the Cretaceous of the Americas and the evolution of sauropod dentition". Naturwissenschaften. 97 (4): 379–391. doi:10.1007/s00114-010-0650-6. PMC 2841758. PMID 20179896.
  4. ^ Haviv M. Avrahami; Terry A. Gates; Andrew B. Heckert; Peter J. Makovicky; Lindsay E. Zanno (2018). "A new microvertebrate assemblage from the Mussentuchit Member, Cedar Mountain Formation: insights into the paleobiodiversity and paleobiogeography of early Late Cretaceous ecosystems in western North America". PeerJ. 6: e5883. doi:10.7717/peerj.5883. PMC 6241397. PMID 30479889.
  5. ^ a b Carpenter K., Kirkland J.I., 1998, "Review of Lower and middle Cretaceous ankylosaurs from North America", New Mexico Museum of Natural History and Science Bulletin 14: 249-270
  6. ^ Paul, G.S., 2010, The Princeton Field Guide to Dinosaurs, Princeton University Press p. 231
  7. ^ Paul, G.S., 2016, The Princeton Field Guide to Dinosaurs 2nd Edition, Princeton University Press
  8. ^ Holtz, Thomas R. (2012). "Dinosaurs: The Most Complete, Up-to-Date Encyclopedia for Dinosaur Lovers of All Ages" (PDF).
  9. ^ Carpenter, K. 2001. Phylogenetic analysis of the Ankylosauria. in Carpenter, K. (editor) 2001. The Armored Dinosaurs. Indiana University Press
  10. ^ Richard S. Thompson, Jolyon C. Parish, Susannah C. R. Maidment and Paul M. Barrett, 2012, "Phylogeny of the ankylosaurian dinosaurs (Ornithischia: Thyreophora)", Journal of Systematic Palaeontology 10(2): 301–312
  11. ^ Rongjun Chen; Wenjie Zheng; Yoichi Azuma; Masateru Shibata; Tianliang Lou; Qiang Jin; Xingsheng Jin (2013). "A New Nodosaurid Ankylosaur from the Chaochuan Formation of Dongyang, Zhejiang Province, China". Acta Geologica Sinica (English Edition). 87 (3): 658–671. doi:10.1111/1755-6724.12077.
  12. ^ Yang J.-T.; You H.-L.; Li D.-Q.; Kong D.-L. (2013). "First discovery of polacanthine ankylosaur dinosaur in Asia" (PDF). Vertebrata PalAsiatica (in Chinese and English). 51 (4): 265–277.
  13. ^ Han, F.; Zheng, W.; Hu, D.; Xu, X.; Barrett, P.M. (2014). "A New Basal Ankylosaurid (Dinosauria: Ornithischia) from the Lower Cretaceous Jiufotang Formation of Liaoning Province, China". PLOS ONE. 9 (8): e104551. Bibcode:2014PLoSO...9j4551H. doi:10.1371/journal.pone.0104551. PMC 4131922. PMID 25118986.
  14. ^ Arbour, V. M.; Currie, P. J. (2015). "Systematics, phylogeny and palaeobiogeography of the ankylosaurid dinosaurs". Journal of Systematic Palaeontology. 14 (5): 1–60. doi:10.1080/14772019.2015.1059985. S2CID 214625754.
  15. ^ Arbour, V.M.; Zanno, L.E.; Gates, T. (2016). "Ankylosaurian dinosaur palaeoenvironmental associations were influenced by extirpation, sea-level fluctuation, and geodispersal". Palaeogeography, Palaeoclimatology, Palaeoecology. 449: 289–299. doi:10.1016/j.palaeo.2016.02.033.
  16. ^ Arbour, Victoria M.; Evans, David C. (2017). "A new ankylosaurine dinosaur from the Judith River Formation of Montana, USA, based on an exceptional skeleton with soft tissue preservation". Royal Society Open Science. 4 (5): 161086. Bibcode:2017RSOS....461086A. doi:10.1098/rsos.161086. PMC 5451805. PMID 28573004.
  17. ^ YANG Jingtao, YOU Hailu, XIE Li & ZHOU Hongrui, 2017, "A New Specimen of Crichtonpelta benxiensis (Dinosauria: Ankylosaurinae) from the Mid-Cretaceous of Liaoning Province, China", Acta Geologica Sinica 91(3): 781-790
  18. ^ Wenjie Zheng; Xingsheng Jin; Yoichi Azuma; Qiongying Wang; Kazunori Miyata; Xing Xu (2018). "The most basal ankylosaurine dinosaur from the Albian–Cenomanian of China, with implications for the evolution of the tail club". Scientific Reports. 8 (1): Article number 3711. Bibcode:2018NatSR...8.3711Z. doi:10.1038/s41598-018-21924-7. PMC 5829254. PMID 29487376.
  19. ^ Rivera-Sylva, H.E.; Frey, E.; Stinnesbeck, W.; Carbot-Chanona, G.; Sanchez-Uribe, I.E.; Guzmán-Gutiérrez, J.R. (2018). "Paleodiversity of Late Cretaceous Ankylosauria from Mexico and their phylogenetic significance". Swiss Journal of Palaeontology. 137 (1): 83–93. doi:10.1007/s13358-018-0153-1. ISSN 1664-2376. S2CID 134924657.
  20. ^ Park, J. Y.; Lee, Y. N.; Currie, P. J.; Kobayashi, Y.; Koppelhus, E.; Barsbold, R.; Mateus, O.; Lee, S.; Kim, S. H. (2019). "Additional skulls of Talarurus plicatospineus (Dinosauria: Ankylosauridae) and implications for paleobiogeography and paleoecology of armored dinosaurs". Cretaceous Research. 108: 104340. doi:10.1016/j.cretres.2019.104340. S2CID 212423361.
  21. ^ G. Frauenfelder, Timothy; R. Bell, Phil; Brougham, Tom; J. Bevitt, Joseph; D. C. Bicknell, Russell; P. Kear, Benjamin; Wroe, Stephen; E. Campione, Nicolás (2022). "New Ankylosaurian Cranial Remains From the Lower Cretaceous (Upper Albian) Toolebuc Formation of Queensland, Australia". Frontiers in Earth Science. 10: 1–17. doi:10.3389/feart.2022.803505.
  22. ^ Vickaryous, M. K., Maryanska, T., and Weishampel, D. B. (2004). Chapter Seventeen: Ankylosauria. in The Dinosauria (2nd edition), Weishampel, D. B., Dodson, P., and Osmólska, H., editors. University of California Press.
  23. ^ Jelle P. Wiersma; Randall B. Irmis (2018). "A new southern Laramidian ankylosaurid, Akainacephalus johnsoni gen. et sp. nov., from the upper Campanian Kaiparowits Formation of southern Utah, USA". PeerJ. 6: e5016. doi:10.7717/peerj.5016. PMC 6063217. PMID 30065856.

March 20, 2024
cedarpelta, extinct, genus, basal, ankylosaurid, dinosaur, from, utah, that, lived, during, late, cretaceous, period, cenomanian, lower, turonian, stage, what, mussentuchit, member, cedar, mountain, formation, type, only, species, bilbeyhallorum, known, from, . Cedarpelta is an extinct genus of basal ankylosaurid dinosaur from Utah that lived during the Late Cretaceous period Cenomanian to lower Turonian stage 98 2 to 93 Ma in what is now the Mussentuchit Member of the Cedar Mountain Formation The type and only species Cedarpelta bilbeyhallorum is known from multiple specimens including partial skulls and postcranial material It was named in 2001 by Kenneth Carpenter James Kirkland Don Burge and John Bird Cedarpelta has an estimated length of 7 metres 23 feet and weight of 5 tonnes 11 023 lbs The skull of Cedarpelta lacks extensive cranial ornamentation and is one of the only known ankylosaurs with individual skull bones that are not completely fused together CedarpeltaTemporal range Late Cretaceous 98 2 93 Ma PreꞒ Ꞓ O S D C P T J K Pg NSkull of Cedarpelta bilbeyhallorum on display at the USU Eastern Prehistoric Museum Price Utah Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClade DinosauriaClade OrnithischiaClade ThyreophoraClade AnkylosauriaFamily AnkylosauridaeGenus CedarpeltaCarpenter et al 2001Species C bilbeyhallorumBinomial name Cedarpelta bilbeyhallorumCarpenter et al 2001 Contents 1 Discovery and naming 2 Description 3 Classification 4 See also 5 ReferencesDiscovery and naming edit nbsp Cedar Mountain Formation in Utah The partial remains of an ankylosaur were discovered by Evan Hall and Sue Ann Bilbey at the CEM site near the Price River in Carbon County Utah while they were visiting an excavation in the surrounding area 1 The site was originally interpreted as being from the top of the Ruby Ranch Member of the Cedar Mountain Formation 1 but was later interpreted as being from the bottom of the Mussentuchit Member 2 The age of the layer was originally thought to have been 104 46 0 95 Ma 3 but more recent estimates date it to 98 2 0 6 to 93 Ma 4 In 1998 the discovery was reported by Kenneth Carpenter and James Kirkland 5 In 2001 it was subsequently described along with other material by Kenneth Carpenter James Kirkland Don Burge and John Bird The holotype specimen CEUM 12360 consists of a partial skull that is missing the snout and lower jaws Numerous osteoderms postcranial material and a disarticulated skull were designated as paratype specimens Both holotype and paratype specimens represent at least three individuals and are currently housed at the College of Eastern Utah Prehistoric Museum Utah 5 1 The generic name Cedarpelta is derived from the Cedar Mountain Formation and the Greek word pelte small shield The specific name bilbeyhallorum honours Sue Ann Bilbey and Evan Hall who discovered the remains of Cedarpelta 1 In 2008 additional specimens were referred to Cedarpelta from the Price River II Quarry which is about 24 5 km southeast of Price River Utah and at the base of the Mussentuchit Member The quarry also produced specimens pertaining to four individuals of a brachiosaurid an iguanodontian a turtle a pterosaur and specimens of the nodosaurid Peloroplites The referred material includes CEUM 10396 a cervical vertebra CEUM 10412 CEUM 10404 caudal vertebrae CEUM 10371 a coracoid CEUM 10256 CEUM 11629 humeri CEUM 10266 an ischium CEUM 11334 a femur and CEUM 11640 a tibia 2 Description edit nbsp Reconstructed skull containing 70 of original fossil bone Carepnter et al 2001 originally gave Cedarpelta an estimated length of 7 5 8 5 metres 24 6 27 9 feet However Gregory S Paul gave a lower estimate of 7 metres 23 feet and a weight of 5 tonnes 11 023 lbs while Thomas Holtz gave a higher estimation at 9 meters suggesting that it was rivalling Ankylosaurus 6 7 8 Carpenter et al 2001 established several distinguishing traits of Cedarpelta The body of the praemaxilla the front snout bone is short in front of its nasal branch The outer sides of the two praemaxillae run more parallel compared to the snouts of later forms which are strongly diverging to behind The cutting edge of the bone core of the upper beak is limited to the front of the praemaxilla Each praemaxilla has six conical teeth The quadrate and with it the entire back of the skull is inclined to the front The head of the quadrate is not fused with the paroccipital process contrary to the situation in Shamosaurus The neck of the occipital condyle is long and sticking out to behind like with nodosaurids not obliquely to below as in typical ankylosaurids The tubera basilaria appending processes of the rear lower braincase form a large wedge directed to below The pterygoid is elongated from the front to the rear and has a saddle shaped process on its outer edge oriented to behind and sideways The coronoid process of the rear lower jaw has an oval process at the inside The straight ischium has a knob shaped boss at the inside near the pubic pedicle 1 nbsp Top view of skull Cedarpelta shows a mix of basal and derived traits The presence of premaxillary teeth is a plesiomorphic character because it is inherited from earlier Ornithischia In contrast closure of the opening on the side of the skull behind the orbit the lateral temporal fenestra is an advanced derived apomorphic character only known in ankylosaurid ankylosaurians 1 Two skulls are known and the skull length for Cedarpelta is estimated to have been roughly 60 centimetres 24 in One of the Cedarpelta skulls was found disarticulated a first for an ankylosaur skull allowing paleontologists a unique opportunity to examine the individual bones instead of being limited to an ossified unit The skull is relatively elongated and does not show a strongly appending beak Of the conical premaxillary teeth the first is the largest The maxilla bears eighteen teeth The eye socket is surrounded by the lacrimal a single supraorbital and a large postorbital excluding the prefrontal and the jugal from the orbital rim The postcranial skeleton was in 2001 not described in any detail 1 The skulls though of large and thus not juvenile individuals do not show a distinctive pattern of fused caputegulae head tiles This inspired Carpenter to propose an alternative hypothesis of ankylosaur skull osteoderm formation Formerly it had been assumed that such armour plates were either formed by direct skin ossification into distinct scutes which later fused to the skull the more popular theory or by a reaction of the skull bones to the pattern of overlying scales The lack of a clear pattern in Cedarpelta suggested to Carpenter that the ossification took place in an intermediate layer between the scales and the skull roof itself which he surmised to have been the periosteum 1 Classification editCarpenter 2001 placed Cedarpelta within the family Ankylosauridae and offered two interpretations of its position The first was that it could be the basalmost known ankylosaurid i e the first discovered branch to split off from the ankylosaurid stem line This would be in line with its plesiomorphic traits and the fact that the in 2001 supposed Barremian age made it one of the oldest known ankylosaurids The second was that it formed an early ankylosaurid branch or clade Shamosaurinae together with Gobisaurus of north central China and the eponymous Shamosaurus of Mongolia 9 Thompson et al 2012 10 Chen et al 2013 11 Yang et al 2013 12 Han et al 2014 13 Arbour amp Currie 2015 14 Arbour et al 2016 15 Arbour amp Evans 2017 16 Yang et al 2017 17 Zheng et al 2018 18 Rivera Sylva et al 2018 19 Park et al 2019 20 and Frauenfelder et al 2022 21 have all found Cedarpelta to be within Ankylosauridae as either within a polytomy with Liaoningosaurus Aletopelta Chuanqilong Gobisaurus and Shamosaurus or as sister taxon to Chuanqilong The results of Arbour amp Currie 2015 are reproduced below Ankylosauridae GastoniaAhshislepeltaAletopeltaLiaoningosaurusCedarpeltaChuanqilongGobisaurusShamosaurusCrichtonpeltaTsagantegia Zhejiangosaurus Pinacosaurus grangeriPinacosaurus mephistocephalusSaichaniaTarchiaZaraapeltaDyoplosaurusTalarurusNodocephalosaurusAnkylosaurusAnodontosaurusEuoplocephalusScolosaurusZiapeltaVickaryous et al 2004 interpreted Cedarpelta as the basalmost member of the family Nodosauridae positioned even below the nodosaurids Pawpawsaurus Silvisaurus and Sauropelta 22 Wiersma amp Irmis 2018 also interpreted Cedarpelta as a nodosaurid 23 The results of Vickaryous et al 2004 are reproduced below Lesothosaurus diagnosticusHuayangosaurus taibaiiCedarpelta bilbeyhallorumNodosauridaeGargoyleosaurus parkpinorumMinmi paravertebraGastonia burgeiGobisaurus domoculusShamosaurus scutatusTsagantegia longicranialisTarchia giganteaAnkylosaurus magniventrisEuoplocephalus tutusSaichania chulsanensisTalarurus plicatospineusPinacosaurus grangeriPinacosaurus mephistocephalusTianzhenosaurus youngiSee also edit nbsp Dinosaurs portalTimeline of ankylosaur researchReferences edit a b c d e f g h Carpenter K Kirkland J I Burge D and Bird J 2001 Disarticulated skull of a new primitive ankylosaurid from the Lower Cretaceous of Utah in Carpenter K editor 2001 The Armored Dinosaurs Indiana University Press a b Carpenter Kenneth Bartlett Jeff Bird John Barrick Reese 2008 Ankylosaurs from the Price River Quarries Cedar Mountain Formation Lower Cretaceous east central Utah Journal of Vertebrate Paleontology 28 4 1089 1101 doi 10 1671 0272 4634 28 4 1089 S2CID 129480044 Chure D Britt B Whitlock J A Wilson J A 2010 First complete sauropod dinosaur skull from the Cretaceous of the Americas and the evolution of sauropod dentition Naturwissenschaften 97 4 379 391 doi 10 1007 s00114 010 0650 6 PMC 2841758 PMID 20179896 Haviv M Avrahami Terry A Gates Andrew B Heckert Peter J Makovicky Lindsay E Zanno 2018 A new microvertebrate assemblage from the Mussentuchit Member Cedar Mountain Formation insights into the paleobiodiversity and paleobiogeography of early Late Cretaceous ecosystems in western North America PeerJ 6 e5883 doi 10 7717 peerj 5883 PMC 6241397 PMID 30479889 a b Carpenter K Kirkland J I 1998 Review of Lower and middle Cretaceous ankylosaurs from North America New Mexico Museum of Natural History and Science Bulletin 14 249 270 Paul G S 2010 The Princeton Field Guide to Dinosaurs Princeton University Press p 231 Paul G S 2016 The Princeton Field Guide to Dinosaurs 2nd Edition Princeton University Press Holtz Thomas R 2012 Dinosaurs The Most Complete Up to Date Encyclopedia for Dinosaur Lovers of All Ages PDF Carpenter K 2001 Phylogenetic analysis of the Ankylosauria in Carpenter K editor 2001 The Armored Dinosaurs Indiana University Press Richard S Thompson Jolyon C Parish Susannah C R Maidment and Paul M Barrett 2012 Phylogeny of the ankylosaurian dinosaurs Ornithischia Thyreophora Journal of Systematic Palaeontology 10 2 301 312 Rongjun Chen Wenjie Zheng Yoichi Azuma Masateru Shibata Tianliang Lou Qiang Jin Xingsheng Jin 2013 A New Nodosaurid Ankylosaur from the Chaochuan Formation of Dongyang Zhejiang Province China Acta Geologica Sinica English Edition 87 3 658 671 doi 10 1111 1755 6724 12077 Yang J T You H L Li D Q Kong D L 2013 First discovery of polacanthine ankylosaur dinosaur in Asia PDF Vertebrata PalAsiatica in Chinese and English 51 4 265 277 Han F Zheng W Hu D Xu X Barrett P M 2014 A New Basal Ankylosaurid Dinosauria Ornithischia from the Lower Cretaceous Jiufotang Formation of Liaoning Province China PLOS ONE 9 8 e104551 Bibcode 2014PLoSO 9j4551H doi 10 1371 journal pone 0104551 PMC 4131922 PMID 25118986 Arbour V M Currie P J 2015 Systematics phylogeny and palaeobiogeography of the ankylosaurid dinosaurs Journal of Systematic Palaeontology 14 5 1 60 doi 10 1080 14772019 2015 1059985 S2CID 214625754 Arbour V M Zanno L E Gates T 2016 Ankylosaurian dinosaur palaeoenvironmental associations were influenced by extirpation sea level fluctuation and geodispersal Palaeogeography Palaeoclimatology Palaeoecology 449 289 299 doi 10 1016 j palaeo 2016 02 033 Arbour Victoria M Evans David C 2017 A new ankylosaurine dinosaur from the Judith River Formation of Montana USA based on an exceptional skeleton with soft tissue preservation Royal Society Open Science 4 5 161086 Bibcode 2017RSOS 461086A doi 10 1098 rsos 161086 PMC 5451805 PMID 28573004 YANG Jingtao YOU Hailu XIE Li amp ZHOU Hongrui 2017 A New Specimen of Crichtonpelta benxiensis Dinosauria Ankylosaurinae from the Mid Cretaceous of Liaoning Province China Acta Geologica Sinica 91 3 781 790 Wenjie Zheng Xingsheng Jin Yoichi Azuma Qiongying Wang Kazunori Miyata Xing Xu 2018 The most basal ankylosaurine dinosaur from the Albian Cenomanian of China with implications for the evolution of the tail club Scientific Reports 8 1 Article number 3711 Bibcode 2018NatSR 8 3711Z doi 10 1038 s41598 018 21924 7 PMC 5829254 PMID 29487376 Rivera Sylva H E Frey E Stinnesbeck W Carbot Chanona G Sanchez Uribe I E Guzman Gutierrez J R 2018 Paleodiversity of Late Cretaceous Ankylosauria from Mexico and their phylogenetic significance Swiss Journal of Palaeontology 137 1 83 93 doi 10 1007 s13358 018 0153 1 ISSN 1664 2376 S2CID 134924657 Park J Y Lee Y N Currie P J Kobayashi Y Koppelhus E Barsbold R Mateus O Lee S Kim S H 2019 Additional skulls of Talarurus plicatospineus Dinosauria Ankylosauridae and implications for paleobiogeography and paleoecology of armored dinosaurs Cretaceous Research 108 104340 doi 10 1016 j cretres 2019 104340 S2CID 212423361 G Frauenfelder Timothy R Bell Phil Brougham Tom J Bevitt Joseph D C Bicknell Russell P Kear Benjamin Wroe Stephen E Campione Nicolas 2022 New Ankylosaurian Cranial Remains From the Lower Cretaceous Upper Albian Toolebuc Formation of Queensland Australia Frontiers in Earth Science 10 1 17 doi 10 3389 feart 2022 803505 Vickaryous M K Maryanska T and Weishampel D B 2004 Chapter Seventeen Ankylosauria in The Dinosauria 2nd edition Weishampel D B Dodson P and Osmolska H editors University of California Press Jelle P Wiersma Randall B Irmis 2018 A new southern Laramidian ankylosaurid Akainacephalus johnsoni gen et sp nov from the upper Campanian Kaiparowits Formation of southern Utah USA PeerJ 6 e5016 doi 10 7717 peerj 5016 PMC 6063217 PMID 30065856 Retrieved from https en wikipedia org w index php title Cedarpelta amp oldid 1213769450, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.