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Eotyrannus

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Extinct genus of dinosaurs

Eotyrannus
Temporal range: Barremian
~130 Ma PreꞒ O S D C P T J K Pg N
Known skeletal elements
Skeletal diagram
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Clade: Tyrannoraptora
Superfamily: Tyrannosauroidea
Clade: Pantyrannosauria
Genus: Eotyrannus
Hutt et al., 2001
Species: E. lengi
Binomial name
Eotyrannus lengi
Hutt et al., 2001
Synonyms

Eotyrannus (meaning "dawn tyrant") is a genus of tyrannosauroid theropod dinosaur hailing from the Early Cretaceous Wessex Formation beds, included in Wealden Group, located in the southwest coast of the Isle of Wight, United Kingdom. The remains (MIWG1997.550), consisting of assorted skull, axial skeleton and appendicular skeleton elements, from a juvenile or subadult, found in a plant debris clay bed, were described by Hutt et al. in early 2001. The etymology of the generic name refers to the animal's classification as an early tyrannosaur or "tyrant lizard", while the specific name honors the discoverer of the fossil.

Discovery and naming

Map of the Isle of Wight; Eotyrannus was discovered at Grange Chine

The exact location of the discovery of the holotype specimen has not been revealed due to its importance and the possibility of new material to be collected as the coastline recedes. From what is mentioned in the description, the specimen was found on the southwestern coast of the Isle of Wight, between Atherfield Point and Hanover Point. In 1995, local collector Gavin Leng brought a claw he had found along the coastline to Steve Hutt who worked at the old Museum of Isle of Wight Geology at Sandown. Gavin Leng revealed the location of where the claw was discovered, and over the next few weeks the site was carefully excavated, and the fossils removed in a hard matrix. Over the next few years the specimen was carefully researched with scientists from the University of Portsmouth, and with help from the Natural History Museum.

Eventually in 2001, Eotyrannus was given its name along with its specific epithet in honour of Mr. Leng. The material was described briefly in 2001 by Hutt et al. In July 2018 Darren Naish, a colleague of Hutt who helped produce the preliminary description, created a GoFundMe fundraiser in order to release a monograph of the specimen, which received well over its goal. The monograph was eventually published in the journal PeerJ in 2022.

Description

Size of the holotype compared to a human

A number of characters present in the holotypic specimen are unique to the genus. These include: The rostral end of dentary possessing a concave notch housing the most mesial alveolus and a dorsally-directed prong on the rostromesial margin of the notch, curving lateral furrows on the lateral surface of the dentary, a surangular with a hypertrophied gutter-like concavity near the rostrodorsal border, with the caudal end of the concavity containing foramina that perforate the body of the surangular, a low coronoid process on the surangular with a concave area located caudodorsally, and an ulna and radius with a tear-drop shaped cross-section at the mid-shaft.

The holotypic specimen was disarticulated prior to fossilisation, with many elements of its skeleton scattered throughout the assemblage: none of the vertebral column is preserved in articulation and those vertebrae that are preserved consist of separated neural arches and centra, signifying that the holotype was an immature individual.

Due to the relative low-quality preservation of many of the skeletal elements, numerous pieces discovered have been difficult to identify: these include unidentified cranial elements, as well as an “ulna” which has since been recognised as the distal part of the tibia. Before the proper identification of this fragment, Eotyrannus was reconstructed with much longer tibiae, which influenced the early reconstructions of the animal.

Many of the characters also presented as unique to the genus in the diagnosis of Hutt et al. (2001) are in fact widespread throughout Tyrannosauroidea, for example the presence of 'serrated carinae on D-shaped premaxillary teeth' is far from unique to E. lengi. Furthermore, neither the presence of a laterally flattened rostral region to the maxilla nor a pronounced rim to the antorbital fossa are unique to the genus.

Although the specimen itself measures up to 4.5 m (15 ft) in length, it doesn't represent the size of an adult; the specimen likely belongs to a subadult due to the lack of fusion regarding the neurocentral and sacral sutures.

Classification

Life restoration

The discovery of Eotyrannus corroborates the notion that early tyrannosauroids were gracile with long forelimbs and three-fingered grasping hands, although the somewhat large size of the animal either means that early evolution for this clade was carried out at a large size or Eotyrannus developed large size independently. The find of this animal in Europe puts in question to the purported Asian origin for these animals along with North American Stokesosaurus and European Aviatyrannis arguing for a more complex biogeography for tyrannosauroids.

Below is a cladogram by Loewen et al. in 2013 that includes most tyrannosauroid genera.

Tyrannosauroidea
Proceratosauridae

Proceratosaurus bradleyi

Kileskus aristotocus

Guanlong wucaii

Sinotyrannus kazuoensis

Juratyrant langhami

Stokesosaurus clevelandi

Dilong paradoxus

Eotyrannus lengi

Bagaraatan ostromi

Raptorex kriegsteini

Dryptosaurus aquilunguis

Alectrosaurus olseni

Xiongguanlong baimoensis

Appalachiosaurus montgomeriensis

Alioramus altai

Alioramus remotus

Tyrannosauridae

A 2014 analysis found Eotyrannus to be a megaraptoran closely related to taxa like Megaraptor.

Megaraptora

Fukuiraptor

Megaraptoridae

Australovenator

Aerosteon

unnamed

Orkoraptor

Eotyrannus

Megaraptor

The 2022 osteology by Naish and Cau by comparison, classifies Eotyrannus as an intermediate gracile tyrannosauroid more closely related to the true tyrannosaurids; more advanced than proceratosaurids, stokesosaurids and Yutyrannus, but without the characteristics of more advanced genera. Simultaneously, the description of Eotyrannus' placement in the family suggests that Megaraptora are tyrannosauroids as well, even though it was found that Eotyrannus is not a megaraptoran itself according to the authors' research, with Megaraptora representing a second wave of large-bodied tyrannosauroids that were important members of the world's ecosystem, one that may have originally slowed the evolutionary radiation of tyrannosaurids initially.

Tyrannosauroidea

Juratyrant

Stokesosaurus

Coeluridae
Proceratosauridae

Yutyrannus

Eotyrannus

Xiongguanlong

Megaraptora
Siats

Aniksosaurus

Chilantaisaurus

Fukuiraptor

Megaraptoridae
Aerosteon

Australovenator

Megaraptor

Orkoraptor

Dryptosaurus

Appalachiosaurus

Bistahieversor

Teratophoneus

Tyrannosauridae

In 2024, Andrea Cau recovered Eotyrannus as a sister taxon of Proceratosauridae, distant in relation from Megaraptora.

Palaeoenvironment

Restoration of Eotyrannus chasing Hypsilophodon, with other dinosaurs from the Wessex Formation in the background

The Wessex Formation, where Eotyrannus was found, was considered to have been warm and humid, similar to the present-day Mediterranean. However, there is evidence of a phase of increasing aridity during the late Barremian to early Aptian when Eotyrannus lived. In the Wessex Basin, sedimentological evidence, as well as fossils such as mud-cracks, suggests that the area experienced a warm, equable paleoclimate with a mean annual temperature of 20–25 °C with low seasonal rainfall. Watson and Alvin (1996) and Allen (1998) showed that the Wessex Formation flora was both fire and drought resistant and suggested that it was adapted to a seasonal climate with periods of marked aridity. Evidence for a wet season is provided by the frequent occurrence of fungal decay in plant material from the plant debris beds.

The Wessex Formation possessed a wide array of fauna, including many other dinosaurs such as the carcharodontosaurian Neovenator, the compsognathid Aristosuchus; the medium size spinosaurids Riparovenator and Ceratosuchops; the basal neornithischian Hypsilophodon; the ornithopods Iguanodon, Mantellisaurus, Brighstoneus, and Valdosaurus; the sauropods Ornithopsis, Eucamerotus, and Iuticosaurus; and the ankylosaur Polacanthus. There were many contemporary mammal species which Eotyrannus likely fed on, including the spalacotheriid Yaverlestes and the eobaatarid Eobaatar.

See also

References

  1. ^ Hutt, S.; Naish, D.; Martill, D.M.; Barker, M.J.; Newbery, P. (2001). "A preliminary account of a new tyrannosauroid theropod from the Wessex Formation (Cretaceous) of southern England" (PDF). Cretaceous Research. 22: 227–242. Bibcode:2001CrRes..22..227H. doi:10.1006/cres.2001.0252.
  2. Price, T. (2018, November 26). Eotyrannus lengi. Retrieved from http://www.dinosaurisle.com/eotyrannus.aspx
  3. ^ Naish, D.; Cau, A. (July 2022). "The osteology and affinities of Eotyrannus lengi, a tyrannosauroid theropod from the Wealden Supergroup of southern England". PeerJ. 10: e12727. doi:10.7717/peerj.12727. PMC 9271276. PMID 35821895.
  4. Naish, D., (2006). The Osteology and Affinities of Eotyrannus lengi and Other Lower Cretaceous Theropod Dinosaurs From England. Unpublished Ph.D. Thesis, University of Portsmouth.
  5. Holtz, T. R. Jr. (1994). "The phylogenetic position of the Tyrannosauridae: implications for theropod systematics". Journal of Paleontology. 68 (5): 1100–1117. Bibcode:1994JPal...68.1100H. doi:10.1017/S0022336000026706. S2CID 129684676.
  6. ^ Loewen, M.A.; Irmis, R.B.; Sertich, J.J.W.; Currie, P. J.; Sampson, S. D. (2013). Evans, David C (ed.). "Tyrant dinosaur evolution tracks the rise and fall of Late Cretaceous oceans". PLoS ONE. 8 (11): e79420. Bibcode:2013PLoSO...879420L. doi:10.1371/journal.pone.0079420. PMC 3819173. PMID 24223179.
  7. Juan D. Porfiri; Fernando E. Novas; Jorge O. Calvo; Federico L. Agnolín; Martín D. Ezcurra; Ignacio A. Cerda (2014). "Juvenile specimen of Megaraptor (Dinosauria, Theropoda) sheds light about tyrannosauroid radiation". Cretaceous Research. 51: 35–55. Bibcode:2014CrRes..51...35P. doi:10.1016/j.cretres.2014.04.007. hdl:11336/12129.
  8. Cau, A. (2024). "A Unified Framework for Predatory Dinosaur Macroevolution". Bollettino della Società Paleontologica Italiana. 63 (1). doi:10.4435/BSPI.2024.08 (inactive 2024-11-20).{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link) Supplementary Material
  9. Sweetman, Steven & N. Insole, Allan. (2010). The plant debris beds of the Early Cretaceous (Barremian) Wessex Formation of the Isle of Wight, southern England: Their genesis and palaeontological significance. Palaeogeography, Palaeoclimatology, Palaeoecology. 292. 409-424. 10.1016/j.palaeo.2010.03.055.
Theropoda
Avemetatarsalia
Theropoda
    • see below↓
Theropoda
Theropoda
Neotheropoda
Coelophysoidea
Coelophysidae
Averostra
    • see below↓
Dubious neotheropods
Coelophysis bauri Dilophosaurus wetherilli
Averostra
Averostra
Ceratosauria
Ceratosauridae
Abelisauroidea
Noasauridae
Elaphrosaurinae
Noasaurinae
Abelisauridae
Majungasaurinae
Carnotaurinae
Brachyrostra
Furileusauria
Tetanurae
    • see below↓
Ceratosaurus nasicornis Limusaurus inextricabilis Rajasaurus narmadensis Aucasaurus garridoi
Tetanurae
Tetanurae
Orionides
Megalosauroidea
Piatnitzkysauridae
Megalosauria
Megalosauridae
Megalosaurinae
Afrovenatorinae
Spinosauridae
Baryonychinae
Ceratosuchopsini
Spinosaurinae
Spinosaurini
Avetheropoda
    • see below↓
Piatnitzkysaurus floresi

Torvosaurus tanneri

Spinosaurus aegyptiacus
Avetheropoda
Avetheropoda
Carnosauria
Allosauroidea
Metriacanthosauridae
Metriacanthosaurinae
Allosauria
Allosauridae
Carcharodontosauria
Neovenatoridae
Carcharodontosauridae
Carcharodontosaurinae
Giganotosaurini
Megaraptora?
Megaraptoridae
Coelurosauria
    • see below↓
Xuanhanosaurus qilixiaensis Allosaurus fragilis

Neovenator salerii Carcharodontosaurus saharicus

Australovenator wintonensis
Coelurosauria
Coelurosauria
Tyrannoraptora
Tyrannosauroidea
Coeluridae?
Proceratosauridae
Pantyrannosauria
Eutyrannosauria
Tyrannosauridae
Albertosaurinae
Tyrannosaurinae
Alioramini
Daspletosaurini
Teratophoneini
Tyrannosaurini
Maniraptoromorpha
    • see below↓
Dubious coelurosaurs
Zuolong salleei Stokesosaurus clevelandi

Alioramus remotus

Tarbosaurus bataar
Maniraptoromorpha
Maniraptoromorpha
Neocoelurosauria
Compsognathidae
Maniraptoriformes
Ornithomimosauria
Macrocheiriformes
Deinocheiridae
Ornithomimidae
Maniraptora
Sinosauropteryx prima

Deinocheirus mirificus

Qiupalong henanensis
Taxon identifiers
Eotyrannus
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