Australovenator

Australovenator (meaning "southern hunter") is a genus of megaraptorid theropod dinosaur from Cenomanian (Late Cretaceous)-age Winton Formation (dated to 95 million years ago[1]) of Australia. It is known from partial cranial and postcranial remains which were described in 2009 by Scott Hocknull and colleagues, although additional descriptions and analyses continue to be published. It is the most complete predatory dinosaur discovered in Australia.

Australovenator
Temporal range: Late Cretaceous[1]
~95 Ma
Reconstructed skeleton, Australian Age of Dinosaurs Museum, Winton, Australia
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Clade: Megaraptora
Family: Megaraptoridae
Genus: Australovenator
Hocknull et al. 2009
Species:
A. wintonensis
Binomial name
Australovenator wintonensis
Hocknull et al. 2009

Description

Life restoration

According to Hocknull, it was 2 m (6.6 ft) tall at the hip and 6 m (20 ft) long, with a weight of about 500 to 1,000 kilograms (1,100 to 2,200 lb). Because it was a relatively lightweight predator, he coined it as the "cheetah of its time".[2] Like other megaraptorans, Australovenator would have been a bipedal carnivore.[3]

History of discovery

Australovenator is based on a theropod specimen (AODF 604), affectionately nicknamed "Banjo" after Banjo Paterson, which was found intermingled with the remains of the sauropod Diamantinasaurus matildae at the "Matilda site" (AODL 85). The parts of the holotype as it was initially described, which are held at the Australian Age of Dinosaurs Museum of Natural History, consists of a left dentary, teeth, partial forelimbs and hindlimbs, a partial right ilium, ribs, and gastralia. Australovenator was described in 2009 by paleontologist Scott Hocknull of the Queensland Museum, and colleagues. The type species is A. wintonensis, in reference to nearby Winton.[4] Although the holotype was first described in 2009, the process of excavating the "Matilda site" is still ongoing and papers describing new elements of the holotype are still being published.

Silhouette with known skeletal elements.

Additional arm elements of the holotype were described in 2012,[5] more leg elements were described in 2013,[6] and a right dentary was described in 2015.[7]

For sometime, Australovenator was considered to be within the same genus as another Australian Megaraptorid called Rapator. Rapator is based of a metacarpal first described by Huene during the early 1900's and for prior to the recognition of Megaraptora, it was considered to be either an alvarezsaurid, or an intermediate theropod.[8] After the discovery of Australovenator, some scientists noted the similarity between Rapator and Australovenator. While Hocknull et al. (2009) identified a few distinguishing characters between the two taxa, based on a poorly preserved metacarpal I from the holotype of Australovenator.[4] Agnolin et al. (2010), reclassified Rapator, instead finding it a megaraptoran, potentially sister taxon to Australovenator. They mentioned that Megaraptor, the only other taxon also preserving metacarpal I, was less similar to Rapator than Australovenator. However, there were no clear differences between the two latter taxa.[9] The metacarpals of both taxa were redescribed in White et al. (2014), who determined that they were not synonymous, adding multiple features two the potential characters identified by Hocknull et al. and Angolan et al.[1] In 2019, material from the Eumeralla Formation was referred to Australovenator.[10] In 2020 a paper was published on a heavily eroded specimen of an indeterminate megaraptoran found near the type locality consisting of "two fragmentary vertebrae, three partial metatarsals and the distal end of a pedal phalanx" as well as other indeterminate bone fragments. The animal was slightly larger than the holotype individual of Australovenator.[11]

Classification

Dentary

A phylogenetic analysis found Australovenator to be an allosauroid carnosaurian, with similarities to Fukuiraptor and carcharodontosaurids. In the initial analysis, it was shown to be the sister taxon of the Carcharodontosauridae.[4] More detailed studies found that it formed a clade with several other carcharodontosaurid-like allosaurs, the Neovenatoridae.[12] Recent phylogenetic analysis suggests Australovenator is a tyrannosauroid, like with all other megaraptorans.[13] A phylogenetic analysis in 2016 focusing on the new neovenatorid Gualicho found that Australovenator and other megaraptorids were either allosauroids or basal coelurosaurs as opposed to being tyrannosauroids.[14]

The ankles of Australovenator and Fukuiraptor are similar to the Australian talus bone known as NMVP 150070 that had previously been identified as belonging to Allosaurus sp., and this bone likely represents Australovenator or a close relative of it.[4][15] Alternatively, this bone could belong to an abelisaur.[16]

The cladogram below follows the 2010 analysis by Benson, Carrano and Brusatte.[12] Another study published later in 2010 also found the Australian theropod Rapator to be a megaraptoran extremely similar to Australovenator.[9]

Sculpture in Winton
Neovenatoridae

Neovenator

unnamed

Chilantaisaurus

Megaraptora
unnamed

Siats meekerorum[17]

Australovenator

?Rapator

Fukuiraptor

unnamed

?Orkoraptor

Aerosteon

Megaraptor

Australovenator holding prey

The cladogram below follows the 2014 analysis by Porfiri et al. that finds megaraptorans to be tyrannosauroids.[18]

Megaraptora

Fukuiraptor

Megaraptoridae

Australovenator

Aerosteon

unnamed

Orkoraptor

Eotyrannus

Megaraptor


Novas et al. in 2016 found that Megraptora lacked many of the traits that would make them coelurosaurs closely related to tyrannosaurids, instead they found that Megaraptora were Neovenatorids Allosauroids as originally proposed.[19]

Allosauroidea 

Metriacanthosauridae

Allosauria

Allosauridae

Carcharodontosauria

Carcharodontosauridae

Neovenatoridae

Deltadromeus

Gualicho

Neovenator

Chilantaisaurus

Megaraptora



Australovenator is a possible relative of Joan Wiffen's theropod, an undescribed dinosaur known from a single vertebra from Mangahouanga Stream in New Zealand.[20]

Palaeobiology

Life restoration

With very comprehensive and well-preserved hand and foot remains, Australovenator has been made a topic of various research papers studying the dynamics of theropod appendages.

A 2015 study tested the range of motion of Australovenator's arms using computer models and found that it had flexible arms, with the forearms capable of making an angle of 144 to 66 degrees with the humerus, an elbow range of motion similar to that of maniraptoriforms. Unusually, its radius could slide independently of the ulna when its arm was flexed, similar to that of birds but unlike most non-avian dinosaurs. However, the study also found that Australovenator's fingers were capable of extension far beyond those of any other sampled theropod, with only Dilophosaurus having capabilities even near it. This study concluded that Australovenator's flexibility, facilitated by a combination of traits in both primitive and advanced theropods, played a role in prey capture, giving it the ability to grasp prey towards its chest to make it easier for its weak jaws to disembowel food.[21]

A 2016 study used CT scans of an emu foot to digitally reconstruct the musculature and soft tissue of an Australovenator foot, as well as determine how soft tissue affects flexibility. The study determined that muscular range of motion is often overestimated when not accounting for soft tissue, and that soft tissue reconstruction is vital for making future analyses of theropod flexibility more accurate. A review of hindlimb elements described in 2013 re-identified several phalanges which were initially positioned incorrectly. In addition, it noted that Australovenator's phalanx II-3 was splayed, a pathology that may have resulted from the impacts of kicking motions. Some modern birds, such as the cassowary, are known to use their second toe as weapons in defensive or territorial fights.[22]

A 2017 followup to the 2016 study used a 3-D printed model of the reconstructed foot to make footprints in a matrix of clay and sand in an effort to understand the creation of dinosaur footprints. The study specifically was designed to clarify the identity of particular controversial footprints from Lark Quarry, which may have been left from either a large theropod (like Australovenator) or an ornithopod (like Muttaburrasaurus). The study found that the artificial Australovenator footprints were similar to those at Lark Quarry, concluding that the trackways in question were likely those of a theropod. The writers of the study expressed interest in creating a reconstruction of a Muttaburrasaurus foot as an extension of the study, although no Muttaburrasaurus pedal material is known.[23]

Palaeoecology

Life restoration of Australovenator feeding on carcass of Diamantinasaurus

AODL 604 was found about 60 kilometres (37 mi) northwest of Winton, near Elderslie Station. It was recovered from the lower part of the Winton Formation, dated to the late Cenomanian. AODL 604 was found in a clay layer between sandstone layers, interpreted as an oxbow lake, or billabong, deposit. Also found at the site were the type specimen of the sauropod Diamantinasaurus, bivalves, fish, turtles, crocodilians, and plant fossils. The Winton Formation had a faunal assemblage including bivalves, gastropods, insects, the lungfish Metaceratodus, turtles, the crocodilian Isisfordia, pterosaurs, and several types of dinosaurs, such as the sauropods Diamantinasaurus and Wintonotitan, and unnamed ankylosaurians and hypsilophodonts. Plants known from the formation include ferns, ginkgoes, gymnosperms, and angiosperms.[4]

References

  1. White, M. A.; Falkingham, P. L.; Cook, A. G.; Hocknull, S. A.; Elliott, D. A. (2013). "Morphological comparisons of metacarpal I for Australovenator wintonensis and Rapator ornitholestoides: Implications for their taxonomic relationships". Alcheringa: An Australasian Journal of Palaeontology. 37 (4): 435–441. doi:10.1080/03115518.2013.770221.
  2. Phillips, Nicky (2009-07-03). "Scientists discover 3 new Aussie dinosaurs". ABC Science Online. ABC News. Retrieved 2018-01-11.
  3. Holtz, Thomas R., Jr.; Molnar, Ralph E.; Currie, Philip J. (2004). Weishampel, David B.; Dodson, Peter; Halszka, Osmólska (eds.). The Dinosauria (2nd ed.). Berkeley: University of California Press. pp. 71–110. ISBN 0-520-24209-2.
  4. Hocknull, Scott A.; White, Matt A.; Tischler, Travis R.; Cook, Alex G.; Calleja, Naomi D.; Sloan, Trish; Elliott, David A. (2009). Sereno, Paul (ed.). "New Mid-Cretaceous (Latest Albian) Dinosaurs from Winton, Queensland, Australia". PLoS ONE. 4 (7): e6190. Bibcode:2009PLoSO...4.6190H. doi:10.1371/journal.pone.0006190. PMC 2703565. PMID 19584929.
  5. White, M. A.; Cook, A. G.; Hocknull, S. A.; Sloan, T.; Sinapius, G. H. K.; Elliott, D. A. (2012). Dodson, Peter (ed.). "New Forearm Elements Discovered of Holotype Specimen Australovenator wintonensis from Winton, Queensland, Australia". PLoS ONE. 7 (6): e39364. Bibcode:2012PLoSO...739364W. doi:10.1371/journal.pone.0039364. PMC 3384666. PMID 22761772.
  6. White, Matt A.; Benson, Roger B. J.; Tischler, Travis R.; Hocknull, Scott A.; Cook, Alex G.; Barnes, David G.; Poropat, Stephen F.; Wooldridge, Sarah J.; Sloan, Trish (2013-07-24). "New Australovenator Hind Limb Elements Pertaining to the Holotype Reveal the Most Complete Neovenatorid Leg". PLOS ONE. 8 (7): e68649. Bibcode:2013PLoSO...868649W. doi:10.1371/journal.pone.0068649. ISSN 1932-6203. PMC 3722220. PMID 23894328.
  7. White, Matt A.; Bell, Phil R.; Cook, Alex G.; Poropat, Stephen F.; Elliott, David A. (2015-12-15). "The dentary ofAustralovenator wintonensis(Theropoda, Megaraptoridae); implications for megaraptorid dentition". PeerJ. 3: e1512. doi:10.7717/peerj.1512. ISSN 2167-8359. PMC 4690360. PMID 26713256.
  8. Dinosaurs: The Most Complete, Up-to-Date Encyclopedia for Dinosaur Lovers of All Ages. Random House. 2007. ISBN 9780375824197.
  9. Agnolin, Ezcurra; Pais; Salisbury (2010). "A reappraisal of the Cretaceous non-avian dinosaur faunas from Australia and New Zealand: Evidence for their Gondwanan affinities". Journal of Systematic Palaeontology. 8 (2): 257–300. doi:10.1080/14772011003594870.
  10. Poropat, Stephen F.; White, Matt A.; Vickers-Rich, Patricia; Rich, Thomas H. (2019-07-04). "New megaraptorid (Dinosauria: Theropoda) remains from the Lower Cretaceous Eumeralla Formation of Cape Otway, Victoria, Australia". Journal of Vertebrate Paleontology. 39 (4): e1666273. doi:10.1080/02724634.2019.1666273. ISSN 0272-4634.
  11. White, Matt A.; Bell, Phil R.; Poropat, Stephen F.; Pentland, Adele H.; Rigby, Samantha L.; Cook, Alex G.; Sloan, Trish; Elliott, David A. (2020). "New theropod remains and implications for megaraptorid diversity in the Winton Formation (lower Upper Cretaceous), Queensland, Australia". Royal Society Open Science. 7 (1): 191462. doi:10.1098/rsos.191462. PMC 7029900. PMID 32218963.
  12. Benson, R.B.J.; Carrano, M.T; Brusatte, S.L. (2010). "A new clade of archaic large-bodied predatory dinosaurs (Theropoda: Allosauroidea) that survived to the latest Mesozoic". Naturwissenschaften. 97 (1): 71–78. Bibcode:2010NW.....97...71B. doi:10.1007/s00114-009-0614-x. PMID 19826771.
  13. Novas, F. E.; Agnolín, F. L.; Ezcurra, M. D.; Canale, J. I.; Porfiri, J. D. (2012). "Megaraptorans as members of an unexpected evolutionary radiation of tyrant-reptiles in Gondwana". Ameghiniana. 49 (Suppl): R33.
  14. Apesteguía, Sebastián; Smith, Nathan D.; Valieri, Rubén Juárez; Makovicky, Peter J. (2016-07-13). "An Unusual New Theropod with a Didactyl Manus from the Upper Cretaceous of Patagonia, Argentina". PLOS ONE. 11 (7): e0157793. Bibcode:2016PLoSO..1157793A. doi:10.1371/journal.pone.0157793. ISSN 1932-6203. PMC 4943716. PMID 27410683.
  15. Molnar, Ralph E.; Flannery, Timothy F.; Rich, Thomas H.V. (1981). "An allosaurid theropod dinosaur from the Early Cretaceous of Victoria, Australia". Alcheringa. 5 (2): 141–146. doi:10.1080/03115518108565427.
  16. Agnolin, F. L.; Ezcurra, M. D.; Pais, D. F.; Salisbury, S. W. (2010). "A reappraisal of the Cretaceous non-avian dinosaur faunas from Australia and New Zealand: Evidence for their Gondwanan affinities". Journal of Systematic Palaeontology. 8 (2): 257–300. doi:10.1080/14772011003594870.
  17. Zanno, L. E.; Makovicky, P. J. (2013). "Neovenatorid theropods are apex predators in the Late Cretaceous of North America". Nature Communications. 4: 2827. Bibcode:2013NatCo...4.2827Z. doi:10.1038/ncomms3827. PMID 24264527.
  18. Porfiri, Juan D.; Novas, Fernando E.; Calvo, Jorge O.; Agnolín, Federico L.; Ezcurra, Martín D.; Cerda, Ignacio A. (2014). "Juvenile specimen of Megaraptor (Dinosauria, Theropoda) sheds light about tyrannosauroid radiation". Cretaceous Research. 51: 35–55. doi:10.1016/j.cretres.2014.04.007.
  19. Novas, F.E.; Rolando, A.M.A.; Agnolin, F.L. (2016). "Phylogenetic relationships of the Cretaceous Gondwanan theropods Megaraptor and Australovenator: the evidence afforded by their manual anatomy" (PDF). Memoirs of Museum Victoria. 74: 49–61. Archived from the original (PDF) on 2016-08-18.
  20. Ralph E. Molnar; Joan Wiffen; Brendan Hayes (1998). "A probable theropod bone from the latest Jurassic of New Zealand". New Zealand Journal of Geology and Geophysics. 41 (2): 145–148. doi:10.1080/00288306.1998.9514798.
  21. White, Matt A.; Bell, Phil R.; Cook, Alex G.; Barnes, David G.; Tischler, Travis R.; Bassam, Brant J.; Elliott, David A. (2015-09-14). "Forearm Range of Motion in Australovenator wintonensis (Theropoda, Megaraptoridae)". PLOS ONE. 10 (9): e0137709. Bibcode:2015PLoSO..1037709W. doi:10.1371/journal.pone.0137709. ISSN 1932-6203. PMC 4569425. PMID 26368529.
  22. White, Matt A.; Cook, Alex G.; Klinkhamer, Ada J.; Elliott, David A. (2016-08-03). "The pes ofAustralovenator wintonensis(Theropoda: Megaraptoridae): analysis of the pedal range of motion and biological restoration". PeerJ. 4: e2312. doi:10.7717/peerj.2312. ISSN 2167-8359. PMC 4975041. PMID 27547591.
  23. White, Matt A.; Cook, Alex G.; Rumbold, Steven J. (2017-06-06). "A methodology of theropod print replication utilising the pedal reconstruction of Australovenator and a simulated paleo-sediment". PeerJ. 5: e3427. doi:10.7717/peerj.3427. ISSN 2167-8359. PMC 5463970. PMID 28603673.

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