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Balaur bondoc

December 22, 2023

Balaur is a genus of theropod dinosaur from the late Cretaceous period, in what is now Romania. It is the type species of the monotypic genus Balaur, after the balaur (Romanian pronunciation: [baˈla.ur][1]), a dragon of Romanian folklore. The specific name bondoc (Romanian pronunciation: [bonˈdok][2]) means "stocky", so Balaur bondoc means "stocky dragon" in Romanian. This name refers to the greater musculature that Balaur had compared to its relatives. The genus, which was first described by scientists in August 2010, is known from two partial skeletons (including the type specimen).

Balaur bondoc
Temporal range: Late Cretaceous, 70 Ma
Holotype specimen
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Clade: Eumaniraptora
Genus: Balaur
Csiki et al., 2010
Species:
B. bondoc
Binomial name
Balaur bondoc
Csiki et al., 2010

Fossils of Balaur were found in the Densuș-Ciula and Sebeș Formations of Cretaceous Romania which correspond to Hațeg Island, a subtropical island[3] in the European archipelago of the Tethys sea approximately 70 million years ago. Hațeg Island is commonly referred to as the "Island of the Dwarf Dinosaurs" on account of the extensive fossil evidence that its native dinosaurs exhibited island syndrome, a collection of morphological, ecological, physiological and behavioural differences compared with their continental counterparts. Examples included island gigantism of Hatzegopteryx, island dwarfism of the titanosaur Magyarosaurus dacus, and a reduction in flight capacity in Balaur (Balaur is currently believed to be a basal avialan, a group that includes modern birds, based on phylogenetic analysis, despite being previously grouped within the dromaeosaurid dinosaurs, a group which includes Velociraptor). This reduction in flight capacity is also seen in extant island birds including the ratites and insular barn owls[4] as well as the extinct moa of New Zealand[5] and the extinct dodo of Mauritius.

Discovery and naming edit

 
Skeletal reconstruction showing known remains in white

The first small bones belonging to Balaur bondoc consisted of six elements of the front limbs. Named specimens FGGUB R. 1580–1585, these were discovered in 1997 in Romania by Dan Grigorescu, but the morphology of the arm was so unusual that scientists could not correctly combine them,[6][7] mistaking them for the remains of an oviraptorosaur.[8] The first partial skeleton was discovered in September 2009 in Romania, approximately 2.5 kilometers north of Sebeș, along the Sebeș river in the Sebeș Formation dating from the early Maastrichtian, and was given the preliminary field number SbG/A-Sk1. Later it received the holotype inventory number EME VP.313. The discovery was made by the geologist and paleontologist Mátyás Vremir of the Transylvanian Museum Society of Cluj Napoca who sent them for analysis to Zoltán Csiki of the University of Bucharest.[9] The findings were described on August 31, 2010, in the Proceedings of the National Academy of Sciences.[10] The 1997 specimens indicate an individual about 45% longer than the holotype; they were also found in a younger stratum.

The generic name Balaur (three syllables, stressed on the second /a/) is from the Romanian word for a dragon of Romanian folklore, while the specific epithet bondoc (pronounced like "boned oak", meaning "a squat, chubby individual") refers to the small, robust shape of the animal. As the balaur is a winged dragon, the name additionally hints at the close relation of Balaur to the birds within Panaves. Bondoc was chosen by the discoverers also because it is derived from the Turkish bunduk, "small ball", thus alluding to the probable Asian origin of the ancestors of Balaur.[11]

Description edit

 
Balaur bondoc compared in size to a human

Balaur is a genus of theropod dinosaurs estimated to have lived about 70 million years ago in the late Cretaceous (Maastrichtian), and contains the single species B. bondoc.[10] The bones of this species were shorter and heavier than those of basal paravians. While the feet of most early paravians bore a single, large "sickle claw" on the second toe which was held retracted off the ground, Balaur had large retractable sickle claws on both the first and second toes of each foot.[10] In addition to its strange feet, the type specimen of Balaur is unique for its status of being the most complete theropod fossil from the late Cretaceous of Europe. It also possesses a great number of additional autapomorphies, including a reduced and presumably nonfunctional third finger, consisting of only one rudimentary phalanx.[10][12]

The partial skeleton was collected from the red floodplain mudstone of the Sebeș Formation of Romania. It consists of a variety of vertebrae, as well as much of pectoral and pelvic girdles, and a large part of the limbs. It is the first reasonably complete and well-preserved theropod from the Late Cretaceous of Europe.[10]

 
Balaur reconstructed as an avialan

It is similar in size to Velociraptor, with Balaur's recovered skeletal elements suggesting an overall length of around 1.8–2.5 m (5.9–8.2 ft) and a body mass of 15 kg (33 lb).[10][13] Balaur had re-evolved a functional first toe used to support its weight, which bore a large claw that could be hyperextended. It had short and stocky feet and legs, and large muscle attachment areas on the pelvis which indicate that it was adapted for strength rather than speed.[12][6] Csiki et al. describe this "novel body plan" as "a dramatic example of aberrant morphology developed in island-dwelling taxa."[10] The stocky feet are exemplified by the length of the metatarsus being only two times its width. It is 1.5 times wider than the lower leg. Both traits are unique in the Theropoda. The skeleton of Balaur also shows extensive fusion of limb bones. Wrist bones and the metacarpals are fused into a carpometacarpus. The pelvic bones are fused. The shinbone, calf bone and the upper ankle bones have been fused into a tibiotarsus and the lower ankle bones and the metatarsals into a tarsometatarsus. The degree of fusion is typical for the Avialae, the evolutionary branch of the birds and their direct relatives.[14]

Classification edit

 
Left foot and tibia of the holotype

The position of Balaur relative to other bird-like dinosaurs and early birds has been difficult to determine. The initial phylogenetic analysis placed Balaur bondoc closest to the Asiatic mainland dromaeosaurid species Velociraptor mongoliensis. A 2013 study by Brusatte and colleagues, using a modified version of the same data, found it in an unresolved close relationship with the dromaeosaurids Deinonychus and Adasaurus, with some possible alternative trees suggesting it branched off before the common ancestor of Deinonychus and Velociraptor, while others maintained it as the closest relative of Velociraptor, with Adasaurus as their next closest relative.[14]

More recent analyses using different sets of anatomical data have since cast doubt on a dromaeosaurid classification for Balaur. In 2013, a larger analysis containing a wide variety of coelurosaurs found that Balaur was not a dromaeosaurid at all, but a basal avialan, more closely related to modern birds than to Jeholornithiformes but more basal than Omnivoropterygiformes.[15] A study published in 2014 found Balaur to be sister to Pygostylia.[16] An independent analysis using an expanded version of the original data set (the one that found Balaur to be a dromaeosaurid) drew a similar conclusion in 2014.[17] In 2015, researchers Andrea Cau, Tom Brougham, and Darren Naish published a study which specifically attempted to clarify which theropods were close relatives of Balaur. While their analysis could not completely rule out the possibility that B. bondoc was a dromaeosaurid, they concluded that this result was less likely than the classification of Balaur as a non-pygostylian avialan based on several important bird-like features. Many of the presumed unique traits would in fact have been normal for a member of the Avialae. Typical bird features included the degree of fusion of the limb bones, the functional first toe, the first toe claw not being smaller than the second claw, a long penultimate phalanx of the third toe, a small fourth toe claw and a long fifth metatarsal.[18]

On the other hand, some recent studies continue to place Balaur within the Velociraptorinae.[19][20]

Paleobiology edit

Diet and lifestyle edit

 
Reconstruction of Balaur as a dromaeosaur, using the originally-proposed kicking motion

Little is known about the behavior of Balaur. Because of the lack of skull material, it is impossible to determine by the shape of the teeth whether Balaur was a carnivore or a herbivore. The original description assumed it was carnivorous because it had been found that it was closely related to Velociraptor. Csiki speculated in 2010 that it may have been one of the apex predators in its limited island ecosystem, as neither the skeletons nor teeth of larger theropods have been discovered in Romania. He also believed that it likely used its double sickle claws for slashing prey, and that the atrophied state of its hands indicates that it probably did not use them to hunt.[21] One of the original discoverers indicated that it "was probably more of a kickboxer than a sprinter" compared to Velociraptor, and was probably able to hunt larger animals than itself.[12][22] However, more recent studies by Denver Fowler and others have shown that the foot anatomy of paravians like Balaur indicate that they used their large claws to grip and pin prey to the ground while flapping with their proto-wings to stay on top of their victim. Once it was worn out, they might have proceeded to feast while it was still alive as some modern birds of prey still do. Due to the shape of the claws, they would not have been effective in slashing attacks.[23] The very short, fused metatarsus of Balaur and enlarged first claw, strange even by true dromaeosaur standards, are thought to be consistent with these newer studies, lending further support to the idea that Balaur was a predator.[24]

Italian paleontologist Andrea Cau has speculated that the aberrant features present in Balaur may have been a result of this theropod being omnivorous or herbivorous rather than carnivorous like most non-avian theropods. The lack of the third finger may be a sign of reduced predatory behavior, and the robust first toe could be interpreted as a weight-supporting adaptation rather than a weapon. These characteristics are consistent with the relatively short, stocky limbs and wide, swept-back pubis, which may indicate enlarged intestines for digesting vegetation as well as reduced speed. Cau referred to this as the "Dodoraptor" model.[25] However, in light of the research done by Fowler et al., Cau has remarked that the anatomy of Balaur may be more congruent with the hypothesis that Balaur was predatory after all.[26]

In 2015, Cau et al. reconsidered the ecology of Balaur again in their reevaluation of its phylogenetic position, arguing that if Balaur was an avialan, it would be phylogenetically bracketed by taxa known to have been herbivorous, such as Sapeornis and Jeholornis. This suggests a non-hypercarnivorous lifestyle to be a more parsimonious conclusion and supports Cau's initial interpretations of its specializations. This is also indicated by the reduced third finger, the lack of a ginglymoid lower articulation of the second metatarsal and the rather small and moderately recurved second toe claw. Balaur had a broad pelvis, a broad foot, a large first toe, and broad lower ends of the metatarsals relative to the articulation surfaces; such a combination can in the remainder of the Theropoda only be found with the herbivorous Therizinosauridae.[18]

Island syndrome edit

See also: Island syndrome § Hațeg Island
 
Pair of Balaur bondoc in their native Hațeg Island environment of what is now Romania

During the Maastrichtian age, much of Europe was fragmented into islands, and a number of the bizarre morphologies of Balaur are thought to be a result of Island syndrome.[27] This describes the differences in the morphology, ecology, physiology and behaviour of island species like Balaur compared to their continental counterparts as a result of the different selection pressures that act on island species.[28] One common effect is Foster's rule which describes how small mainland species become larger and large mainland species become smaller. This is seen in other taxa from Hațeg Island including the pterosaur Hatzegopteryx which exhibited island gigantism and the titanosaur Magyarosaurus dacus which exhibited island dwarfism.[27] However, Balaur appears to have had comparable body size to other basal avialans and closely related dromaeosaurid dinosaurs. Balaur appears to have exhibited other features of island syndrome, most notably a reduced capacity for flight compared to other basal avialans. This reduction in flight capacity is also seen in extant island birds including the ratites and insular barn owls[4] as well as the extinct moa of New Zealand[5] and the extinct dodo of Mauritius.

In addition to island syndrome, species isolated on islands are also affected by genetic drift and the founder effect to a greater degree due to the small effective population size. This can magnify the effects of mutations which may otherwise be diluted in a larger population and may have given rise to some of the neomorphisms seen in Balaur like the retractable claw on its first toe.[10]

In 2010, the increased robustness of Balaur was compared to parallel changes seen in isolated herbivorous mammals.[11] In 2013, it was claimed that Balaur was the only predatory vertebrate known to have become more robust after invading an island niche and it was suggested that its broad feet had evolved to improve postural stability.[14] The 2015 interpretation of Balaur as an omnivorous member of the Avialae, suggested it was the descendant of a flying species that had developed a larger size similar to the development in several other island herbivores. This would then be a rare instance of secondary flightlessness in a paravian to resemble a dromaeosaurid, as predicted by Gregory S. Paul.[18]

References edit

  1. ^ "Definitie: balaur | DEX online". Dexonline.ro. Retrieved 2010-09-25.
  2. ^ "Definitie: bondoc | DEX online". Dexonline.ro. Retrieved 2021-03-12.
  3. ^ Benton, Michael J.; Csiki, Zoltan; Grigorescu, Dan; Redelstorff, Ragna; Sander, P. Martin; Stein, Koen; Weishampel, David B. (15 July 2010). "Dinosaurs and the island rule: The dwarfed dinosaurs from Hațeg Island". Palaeogeography, Palaeoclimatology, Palaeoecology. European island faunas of the Late Cretaceous – The Hațeg Island. 293 (3–4): 438–454. Bibcode:2010PPP...293..438B. doi:10.1016/j.palaeo.2010.01.026.
  4. ^ a b Roulin, A.; Salamin, N. (19 April 2010). "Insularity and the evolution of melanism, sexual dichromatism and body size in the worldwide-distributed barn owl". Journal of Evolutionary Biology. 23 (5): 925–934. doi:10.1111/j.1420-9101.2010.01961.x. PMID 20298444. S2CID 20356466.
  5. ^ a b Worthy, T. H.; Scofield, R.P. (2012). "Twenty-first century advances in knowledge of the biology of moa (Aves: Dinornithiformes): a new morphological analysis and moa diagnoses revised". New Zealand Journal of Zoology. 39 (2): 87–153. doi:10.1080/03014223.2012.665060. S2CID 83768608.
  6. ^ a b "'Stocky dragon' dinosaur terrorized Late Cretaceous Europe". Physorg.com. from the original on 1 September 2010. Retrieved 2010-09-01.
  7. ^ "Scientists Unveil New and Improved Velociraptor Cousin – Time NewsFeed". Newsfeed.time.com. 2010-08-31. Retrieved 2010-09-01.
  8. ^ Csiki, Z. & Grigorescu, D. (2005). (PDF). Kaupia. 14: 78. Archived from the original (PDF) on 2016-03-04. Retrieved 2010-09-26.
  9. ^ "Balaurul bondoc zguduie lumea științei". Adevărul (in Romanian). August 2010. from the original on 14 September 2010. Retrieved 2010-09-01.
  10. ^ a b c d e f g h Z., Csiki; Vremir, M.; Brusatte, S. L.; Norell, M. A. (2010). "An aberrant island-dwelling theropod dinosaur from the Late Cretaceous of Romania". Proceedings of the National Academy of Sciences of the United States of America. 107 (35): 15357–15361. Bibcode:2010PNAS..10715357C. doi:10.1073/pnas.1006970107. PMC 2932599. PMID 20805514.
  11. ^ a b Csiki, Z.; Vremir, M.; Brusatte, S. L.; Norell, M. A. (2010-08-17). "An aberrant island-dwelling theropod dinosaur from the Late Cretaceous of Romania". Proc. Natl. Acad. Sci. 107 (35): 15357–61. Bibcode:2010PNAS..10715357C. doi:10.1073/pnas.1006970107. PMC 2932599. PMID 20805514.
  12. ^ a b c "BBC News – Beefy dino sported fearsome claws". Bbc.co.uk. 2010-08-31. Retrieved 2010-09-01.
  13. ^ Paul, Gregory S. (2016). The Princeton Field Guide to Dinosaurs. Princeton University Press. p. 140. ISBN 978-1-78684-190-2. OCLC 985402380.
  14. ^ a b c Brusatte, S. L. et al. (2013). "The Osteology of Balaur bondoc, an Island-Dwelling Dromaeosaurid (Dinosauria: Theropoda) from the Late Cretaceous of Romania" Bulletin of the American Museum of Natural History 374: 1-100. Brusatte, S. L.; Vremir, M. T. S.; Csiki-Sava, Z. N.; Turner, A. H.; Watanabe, A.; Erickson, G. M.; Norell, M. A. (2013). "The Osteology of Balaur bondoc, an Island-Dwelling Dromaeosaurid (Dinosauria: Theropoda) from the Late Cretaceous of Romania" (PDF). Bulletin of the American Museum of Natural History. 374: 1–100. doi:10.1206/798.1. S2CID 59932467.
  15. ^ Godefroit, Pascal; Cau, Andrea; Hu, Dong-Yu; Escuillié, François; Wu, Wenhao; Dyke, Gareth (2013). "A Jurassic avialan dinosaur from China resolves the early phylogenetic history of birds". Nature. 498 (7454): 359–362. Bibcode:2013Natur.498..359G. doi:10.1038/nature12168. PMID 23719374. S2CID 4364892.
  16. ^ Lee, Michael S. Y.; Cau, Andrea; Naish, Darren; Dyke, Gareth J. (2014). "Sustained miniaturization and anatomical innovation in the dinosaurian ancestors of birds". Science. 345 (6196): 562–566. Bibcode:2014Sci...345..562L. doi:10.1126/science.1252243. PMID 25082702. S2CID 37866029.
  17. ^ Foth, Christian; Tischlinger, Helmut; Rauhut, Oliver (2014). "New specimen of Archaeopteryx provides insights into the evolution of pennaceous feathers". Nature. 511 (7507): 79–82. Bibcode:2014Natur.511...79F. doi:10.1038/nature13467. PMID 24990749. S2CID 4464659.
  18. ^ a b c Cau, Andrea; Brougham, Tom; Naish, Darren (2015). "The phylogenetic affinities of the bizarre Late Cretaceous Romanian theropod Balaur bondoc (Dinosauria, Maniraptora): Dromaeosaurid or flightless bird?". PeerJ. 3: e1032. doi:10.7717/peerj.1032. PMC 4476167. PMID 26157616.
  19. ^ Turner, Alan H.; Montanari, Shaena; Norell, Mark A. (2021). "A New Dromaeosaurid from the Late Cretaceous Khulsan Locality of Mongolia" (PDF). American Museum Novitates (3965): 1–48. doi:10.1206/3965.1. ISSN 0003-0082. S2CID 231597229.
  20. ^ Napoli, J. G.; Ruebenstahl, A. A.; Bhullar, B.-A. S.; Turner, A. H.; Norell, M. A. (2021). "A New Dromaeosaurid (Dinosauria: Coelurosauria) from Khulsan, Central Mongolia" (PDF). American Museum Novitates (3982): 1–47. doi:10.1206/3982.1. hdl:2246/7286. ISSN 0003-0082. S2CID 243849373.
  21. ^ "New Predatory Dinosaur Discovered in Romania". Wired. 2009-01-04. from the original on 2010-08-31. Retrieved 2010-09-01.
  22. ^ Caroline Davies (2010-08-30). "Frightening new predator found in the homeland of the dragon | Science". The Guardian. London. from the original on 31 August 2010. Retrieved 2010-09-01.
  23. ^ Fowler, D.W.; Freedman, E.A.; Scannella, J.B.; Kambic, R.E. (2011). Farke, Andrew Allen (ed.). "The Predatory Ecology of Deinonychus and the Origin of Flapping in Birds". PLOS ONE. 6 (12): e28964. Bibcode:2011PLoSO...628964F. doi:10.1371/journal.pone.0028964. PMC 3237572. PMID 22194962.
  24. ^ Choi, Charles (14 December 2011). "Velociraptors' Killer Claws Helped Them Eat Prey Alive". LiveScience.
  25. ^ Cau, A (2010). Balaur: More than just a "Double-Sickle-Clawed Raptor" Theropoda, September 1, 2010.
  26. ^ Cau, A (2011). The Extinction of Dodoraptor (?) Theropoda, December 30, 2011.
  27. ^ a b Stein K; et al. (2010). "Small body size and extreme cortical bone remodeling indicate phyletic dwarfism in Magyarosaurus dacus (Sauropoda: Titanosauria)". Proc Natl Acad Sci USA. 107 (20): 9258–9263. Bibcode:2010PNAS..107.9258S. doi:10.1073/pnas.1000781107. PMC 2889090. PMID 20435913.
  28. ^ Baeckens, Simon; Van Damme, Raoul (20 April 2020). "The island syndrome". Current Biology. 30 (8): R329–R339. doi:10.1016/j.cub.2020.03.029. PMID 32315628.

External links edit

 
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December 22, 2023
balaur, bondoc, balaur, genus, theropod, dinosaur, from, late, cretaceous, period, what, romania, type, species, monotypic, genus, balaur, after, balaur, romanian, pronunciation, baˈla, dragon, romanian, folklore, specific, name, bondoc, romanian, pronunciatio. Balaur is a genus of theropod dinosaur from the late Cretaceous period in what is now Romania It is the type species of the monotypic genus Balaur after the balaur Romanian pronunciation baˈla ur 1 a dragon of Romanian folklore The specific name bondoc Romanian pronunciation bonˈdok 2 means stocky so Balaur bondoc means stocky dragon in Romanian This name refers to the greater musculature that Balaur had compared to its relatives The genus which was first described by scientists in August 2010 is known from two partial skeletons including the type specimen Balaur bondocTemporal range Late Cretaceous 70 Ma PreꞒ Ꞓ O S D C P T J K Pg N Holotype specimenScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClade DinosauriaClade SaurischiaClade TheropodaClade EumaniraptoraGenus BalaurCsiki et al 2010Species B bondocBinomial name Balaur bondocCsiki et al 2010Fossils of Balaur were found in the Densuș Ciula and Sebeș Formations of Cretaceous Romania which correspond to Hațeg Island a subtropical island 3 in the European archipelago of the Tethys sea approximately 70 million years ago Hațeg Island is commonly referred to as the Island of the Dwarf Dinosaurs on account of the extensive fossil evidence that its native dinosaurs exhibited island syndrome a collection of morphological ecological physiological and behavioural differences compared with their continental counterparts Examples included island gigantism of Hatzegopteryx island dwarfism of the titanosaur Magyarosaurus dacus and a reduction in flight capacity in Balaur Balaur is currently believed to be a basal avialan a group that includes modern birds based on phylogenetic analysis despite being previously grouped within the dromaeosaurid dinosaurs a group which includes Velociraptor This reduction in flight capacity is also seen in extant island birds including the ratites and insular barn owls 4 as well as the extinct moa of New Zealand 5 and the extinct dodo of Mauritius Contents 1 Discovery and naming 2 Description 3 Classification 4 Paleobiology 4 1 Diet and lifestyle 4 2 Island syndrome 5 References 6 External linksDiscovery and naming edit nbsp Skeletal reconstruction showing known remains in whiteThe first small bones belonging to Balaur bondoc consisted of six elements of the front limbs Named specimens FGGUB R 1580 1585 these were discovered in 1997 in Romania by Dan Grigorescu but the morphology of the arm was so unusual that scientists could not correctly combine them 6 7 mistaking them for the remains of an oviraptorosaur 8 The first partial skeleton was discovered in September 2009 in Romania approximately 2 5 kilometers north of Sebeș along the Sebeș river in the Sebeș Formation dating from the early Maastrichtian and was given the preliminary field number SbG A Sk1 Later it received the holotype inventory number EME VP 313 The discovery was made by the geologist and paleontologist Matyas Vremir of the Transylvanian Museum Society of Cluj Napoca who sent them for analysis to Zoltan Csiki of the University of Bucharest 9 The findings were described on August 31 2010 in the Proceedings of the National Academy of Sciences 10 The 1997 specimens indicate an individual about 45 longer than the holotype they were also found in a younger stratum The generic name Balaur three syllables stressed on the second a is from the Romanian word for a dragon of Romanian folklore while the specific epithet bondoc pronounced like boned oak meaning a squat chubby individual refers to the small robust shape of the animal As the balaur is a winged dragon the name additionally hints at the close relation of Balaur to the birds within Panaves Bondoc was chosen by the discoverers also because it is derived from the Turkish bunduk small ball thus alluding to the probable Asian origin of the ancestors of Balaur 11 Description edit nbsp Balaur bondoc compared in size to a humanBalaur is a genus of theropod dinosaurs estimated to have lived about 70 million years ago in the late Cretaceous Maastrichtian and contains the single species B bondoc 10 The bones of this species were shorter and heavier than those of basal paravians While the feet of most early paravians bore a single large sickle claw on the second toe which was held retracted off the ground Balaur had large retractable sickle claws on both the first and second toes of each foot 10 In addition to its strange feet the type specimen of Balaur is unique for its status of being the most complete theropod fossil from the late Cretaceous of Europe It also possesses a great number of additional autapomorphies including a reduced and presumably nonfunctional third finger consisting of only one rudimentary phalanx 10 12 The partial skeleton was collected from the red floodplain mudstone of the Sebeș Formation of Romania It consists of a variety of vertebrae as well as much of pectoral and pelvic girdles and a large part of the limbs It is the first reasonably complete and well preserved theropod from the Late Cretaceous of Europe 10 nbsp Balaur reconstructed as an avialanIt is similar in size to Velociraptor with Balaur s recovered skeletal elements suggesting an overall length of around 1 8 2 5 m 5 9 8 2 ft and a body mass of 15 kg 33 lb 10 13 Balaur had re evolved a functional first toe used to support its weight which bore a large claw that could be hyperextended It had short and stocky feet and legs and large muscle attachment areas on the pelvis which indicate that it was adapted for strength rather than speed 12 6 Csiki et al describe this novel body plan as a dramatic example of aberrant morphology developed in island dwelling taxa 10 The stocky feet are exemplified by the length of the metatarsus being only two times its width It is 1 5 times wider than the lower leg Both traits are unique in the Theropoda The skeleton of Balaur also shows extensive fusion of limb bones Wrist bones and the metacarpals are fused into a carpometacarpus The pelvic bones are fused The shinbone calf bone and the upper ankle bones have been fused into a tibiotarsus and the lower ankle bones and the metatarsals into a tarsometatarsus The degree of fusion is typical for the Avialae the evolutionary branch of the birds and their direct relatives 14 Classification edit nbsp Left foot and tibia of the holotypeThe position of Balaur relative to other bird like dinosaurs and early birds has been difficult to determine The initial phylogenetic analysis placed Balaur bondoc closest to the Asiatic mainland dromaeosaurid species Velociraptor mongoliensis A 2013 study by Brusatte and colleagues using a modified version of the same data found it in an unresolved close relationship with the dromaeosaurids Deinonychus and Adasaurus with some possible alternative trees suggesting it branched off before the common ancestor of Deinonychus and Velociraptor while others maintained it as the closest relative of Velociraptor with Adasaurus as their next closest relative 14 More recent analyses using different sets of anatomical data have since cast doubt on a dromaeosaurid classification for Balaur In 2013 a larger analysis containing a wide variety of coelurosaurs found that Balaur was not a dromaeosaurid at all but a basal avialan more closely related to modern birds than to Jeholornithiformes but more basal than Omnivoropterygiformes 15 A study published in 2014 found Balaur to be sister to Pygostylia 16 An independent analysis using an expanded version of the original data set the one that found Balaur to be a dromaeosaurid drew a similar conclusion in 2014 17 In 2015 researchers Andrea Cau Tom Brougham and Darren Naish published a study which specifically attempted to clarify which theropods were close relatives of Balaur While their analysis could not completely rule out the possibility that B bondoc was a dromaeosaurid they concluded that this result was less likely than the classification of Balaur as a non pygostylian avialan based on several important bird like features Many of the presumed unique traits would in fact have been normal for a member of the Avialae Typical bird features included the degree of fusion of the limb bones the functional first toe the first toe claw not being smaller than the second claw a long penultimate phalanx of the third toe a small fourth toe claw and a long fifth metatarsal 18 On the other hand some recent studies continue to place Balaur within the Velociraptorinae 19 20 Paleobiology editDiet and lifestyle edit nbsp Reconstruction of Balaur as a dromaeosaur using the originally proposed kicking motionLittle is known about the behavior of Balaur Because of the lack of skull material it is impossible to determine by the shape of the teeth whether Balaur was a carnivore or a herbivore The original description assumed it was carnivorous because it had been found that it was closely related to Velociraptor Csiki speculated in 2010 that it may have been one of the apex predators in its limited island ecosystem as neither the skeletons nor teeth of larger theropods have been discovered in Romania He also believed that it likely used its double sickle claws for slashing prey and that the atrophied state of its hands indicates that it probably did not use them to hunt 21 One of the original discoverers indicated that it was probably more of a kickboxer than a sprinter compared to Velociraptor and was probably able to hunt larger animals than itself 12 22 However more recent studies by Denver Fowler and others have shown that the foot anatomy of paravians like Balaur indicate that they used their large claws to grip and pin prey to the ground while flapping with their proto wings to stay on top of their victim Once it was worn out they might have proceeded to feast while it was still alive as some modern birds of prey still do Due to the shape of the claws they would not have been effective in slashing attacks 23 The very short fused metatarsus of Balaur and enlarged first claw strange even by true dromaeosaur standards are thought to be consistent with these newer studies lending further support to the idea that Balaur was a predator 24 Italian paleontologist Andrea Cau has speculated that the aberrant features present in Balaur may have been a result of this theropod being omnivorous or herbivorous rather than carnivorous like most non avian theropods The lack of the third finger may be a sign of reduced predatory behavior and the robust first toe could be interpreted as a weight supporting adaptation rather than a weapon These characteristics are consistent with the relatively short stocky limbs and wide swept back pubis which may indicate enlarged intestines for digesting vegetation as well as reduced speed Cau referred to this as the Dodoraptor model 25 However in light of the research done by Fowler et al Cau has remarked that the anatomy of Balaur may be more congruent with the hypothesis that Balaur was predatory after all 26 In 2015 Cau et al reconsidered the ecology of Balaur again in their reevaluation of its phylogenetic position arguing that if Balaur was an avialan it would be phylogenetically bracketed by taxa known to have been herbivorous such as Sapeornis and Jeholornis This suggests a non hypercarnivorous lifestyle to be a more parsimonious conclusion and supports Cau s initial interpretations of its specializations This is also indicated by the reduced third finger the lack of a ginglymoid lower articulation of the second metatarsal and the rather small and moderately recurved second toe claw Balaur had a broad pelvis a broad foot a large first toe and broad lower ends of the metatarsals relative to the articulation surfaces such a combination can in the remainder of the Theropoda only be found with the herbivorous Therizinosauridae 18 Island syndrome edit See also Island syndrome Hațeg Island nbsp Pair of Balaur bondoc in their native Hațeg Island environment of what is now RomaniaDuring the Maastrichtian age much of Europe was fragmented into islands and a number of the bizarre morphologies of Balaur are thought to be a result of Island syndrome 27 This describes the differences in the morphology ecology physiology and behaviour of island species like Balaur compared to their continental counterparts as a result of the different selection pressures that act on island species 28 One common effect is Foster s rule which describes how small mainland species become larger and large mainland species become smaller This is seen in other taxa from Hațeg Island including the pterosaur Hatzegopteryx which exhibited island gigantism and the titanosaur Magyarosaurus dacus which exhibited island dwarfism 27 However Balaur appears to have had comparable body size to other basal avialans and closely related dromaeosaurid dinosaurs Balaur appears to have exhibited other features of island syndrome most notably a reduced capacity for flight compared to other basal avialans This reduction in flight capacity is also seen in extant island birds including the ratites and insular barn owls 4 as well as the extinct moa of New Zealand 5 and the extinct dodo of Mauritius In addition to island syndrome species isolated on islands are also affected by genetic drift and the founder effect to a greater degree due to the small effective population size This can magnify the effects of mutations which may otherwise be diluted in a larger population and may have given rise to some of the neomorphisms seen in Balaur like the retractable claw on its first toe 10 In 2010 the increased robustness of Balaur was compared to parallel changes seen in isolated herbivorous mammals 11 In 2013 it was claimed that Balaur was the only predatory vertebrate known to have become more robust after invading an island niche and it was suggested that its broad feet had evolved to improve postural stability 14 The 2015 interpretation of Balaur as an omnivorous member of the Avialae suggested it was the descendant of a flying species that had developed a larger size similar to the development in several other island herbivores This would then be a rare instance of secondary flightlessness in a paravian to resemble a dromaeosaurid as predicted by Gregory S Paul 18 References edit Definitie balaur DEX online Dexonline ro Retrieved 2010 09 25 Definitie bondoc DEX online Dexonline ro Retrieved 2021 03 12 Benton Michael J Csiki Zoltan Grigorescu Dan Redelstorff Ragna Sander P Martin Stein Koen Weishampel David B 15 July 2010 Dinosaurs and the island rule The dwarfed dinosaurs from Hațeg Island Palaeogeography Palaeoclimatology Palaeoecology European island faunas of the Late Cretaceous The Hațeg Island 293 3 4 438 454 Bibcode 2010PPP 293 438B doi 10 1016 j palaeo 2010 01 026 a b Roulin A Salamin N 19 April 2010 Insularity and the evolution of melanism sexual dichromatism and body size in the worldwide distributed barn owl Journal of Evolutionary Biology 23 5 925 934 doi 10 1111 j 1420 9101 2010 01961 x PMID 20298444 S2CID 20356466 a b Worthy T H Scofield R P 2012 Twenty first century advances in knowledge of the biology of moa Aves Dinornithiformes a new morphological analysis and moa diagnoses revised New Zealand Journal of Zoology 39 2 87 153 doi 10 1080 03014223 2012 665060 S2CID 83768608 a b Stocky dragon dinosaur terrorized Late Cretaceous Europe Physorg com Archived from the original on 1 September 2010 Retrieved 2010 09 01 Scientists Unveil New and Improved Velociraptor Cousin Time NewsFeed Newsfeed time com 2010 08 31 Retrieved 2010 09 01 Csiki Z amp Grigorescu D 2005 A new theropod from Tustea are there oviraptorosaurs in the Upper Cretaceous of Europe PDF Kaupia 14 78 Archived from the original PDF on 2016 03 04 Retrieved 2010 09 26 Balaurul bondoc zguduie lumea științei Adevărul in Romanian August 2010 Archived from the original on 14 September 2010 Retrieved 2010 09 01 a b c d e f g h Z Csiki Vremir M Brusatte S L Norell M A 2010 An aberrant island dwelling theropod dinosaur from the Late Cretaceous of Romania Proceedings of the National Academy of Sciences of the United States of America 107 35 15357 15361 Bibcode 2010PNAS 10715357C doi 10 1073 pnas 1006970107 PMC 2932599 PMID 20805514 a b Csiki Z Vremir M Brusatte S L Norell M A 2010 08 17 An aberrant island dwelling theropod dinosaur from the Late Cretaceous of Romania Proc Natl Acad Sci 107 35 15357 61 Bibcode 2010PNAS 10715357C doi 10 1073 pnas 1006970107 PMC 2932599 PMID 20805514 a b c BBC News Beefy dino sported fearsome claws Bbc co uk 2010 08 31 Retrieved 2010 09 01 Paul Gregory S 2016 The Princeton Field Guide to Dinosaurs Princeton University Press p 140 ISBN 978 1 78684 190 2 OCLC 985402380 a b c Brusatte S L et al 2013 The Osteology of Balaur bondoc an Island Dwelling Dromaeosaurid Dinosauria Theropoda from the Late Cretaceous of Romania Bulletin of the American Museum of Natural History374 1 100 Brusatte S L Vremir M T S Csiki Sava Z N Turner A H Watanabe A Erickson G M Norell M A 2013 The Osteology of Balaur bondoc an Island Dwelling Dromaeosaurid Dinosauria Theropoda from the Late Cretaceous of Romania PDF Bulletin of the American Museum of Natural History 374 1 100 doi 10 1206 798 1 S2CID 59932467 Godefroit Pascal Cau Andrea Hu Dong Yu Escuillie Francois Wu Wenhao Dyke Gareth 2013 A Jurassic avialan dinosaur from China resolves the early phylogenetic history of birds Nature 498 7454 359 362 Bibcode 2013Natur 498 359G doi 10 1038 nature12168 PMID 23719374 S2CID 4364892 Lee Michael S Y Cau Andrea Naish Darren Dyke Gareth J 2014 Sustained miniaturization and anatomical innovation in the dinosaurian ancestors of birds Science 345 6196 562 566 Bibcode 2014Sci 345 562L doi 10 1126 science 1252243 PMID 25082702 S2CID 37866029 Foth Christian Tischlinger Helmut Rauhut Oliver 2014 New specimen of Archaeopteryx provides insights into the evolution of pennaceous feathers Nature 511 7507 79 82 Bibcode 2014Natur 511 79F doi 10 1038 nature13467 PMID 24990749 S2CID 4464659 a b c Cau Andrea Brougham Tom Naish Darren 2015 The phylogenetic affinities of the bizarre Late Cretaceous Romanian theropod Balaur bondoc Dinosauria Maniraptora Dromaeosaurid or flightless bird PeerJ 3 e1032 doi 10 7717 peerj 1032 PMC 4476167 PMID 26157616 Turner Alan H Montanari Shaena Norell Mark A 2021 A New Dromaeosaurid from the Late Cretaceous Khulsan Locality of Mongolia PDF American Museum Novitates 3965 1 48 doi 10 1206 3965 1 ISSN 0003 0082 S2CID 231597229 Napoli J G Ruebenstahl A A Bhullar B A S Turner A H Norell M A 2021 A New Dromaeosaurid Dinosauria Coelurosauria from Khulsan Central Mongolia PDF American Museum Novitates 3982 1 47 doi 10 1206 3982 1 hdl 2246 7286 ISSN 0003 0082 S2CID 243849373 New Predatory Dinosaur Discovered in Romania Wired 2009 01 04 Archived from the original on 2010 08 31 Retrieved 2010 09 01 Caroline Davies 2010 08 30 Frightening new predator found in the homeland of the dragon Science The Guardian London Archived from the original on 31 August 2010 Retrieved 2010 09 01 Fowler D W Freedman E A Scannella J B Kambic R E 2011 Farke Andrew Allen ed The Predatory Ecology of Deinonychus and the Origin of Flapping in Birds PLOS ONE 6 12 e28964 Bibcode 2011PLoSO 628964F doi 10 1371 journal pone 0028964 PMC 3237572 PMID 22194962 Choi Charles 14 December 2011 Velociraptors Killer Claws Helped Them Eat Prey Alive LiveScience Cau A 2010 Balaur More than just a Double Sickle Clawed Raptor Theropoda September 1 2010 Cau A 2011 The Extinction of Dodoraptor Theropoda December 30 2011 a b Stein K et al 2010 Small body size and extreme cortical bone remodeling indicate phyletic dwarfism in Magyarosaurus dacus Sauropoda Titanosauria Proc Natl Acad Sci USA 107 20 9258 9263 Bibcode 2010PNAS 107 9258S doi 10 1073 pnas 1000781107 PMC 2889090 PMID 20435913 Baeckens Simon Van Damme Raoul 20 April 2020 The island syndrome Current Biology 30 8 R329 R339 doi 10 1016 j cub 2020 03 029 PMID 32315628 External links edit nbsp Wikimedia Commons has media related to Balaur 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