Opistocelikaudia: Różnice pomiędzy wersjami
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| name = ''Opisthocoelicaudia'' |
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{{Zwierzę infobox |
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| fossil_range = [[Late Cretaceous]], {{Fossil range|70}} |
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|nazwa zwyczajowa = Opistocelikaudia |
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| image = Opisthocoelicaudia_Museum_of_Evolution_in_Warsaw_02.JPG |
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|nazwa łacińska = ''Opisthocoelicaudia skarzynskii'' |
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| image_width = 250px |
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|TSN = |
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| image_caption = Skeleton restoration in the [[Museum of Evolution of Polish Academy of Sciences]], [[Warsaw]] |
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|zoolog = Borsuk-Bialynicka, 1977 |
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| genus = Opisthocoelicaudia |
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|okres istnienia = {{Okres istnienia grupy organizmów 2|75|65}} |
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| parent_authority = [[Maria Magdalena Borsuk-Białynicka|Borsuk-Białynicka]], [[1977 in paleontology|1977]] |
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|grafika = Opisthocoelicaudia Museum of Evolution in Warsaw 02.JPG |
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| species=skarzynskii |
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|opis grafiki = Fragment kompletnego szkieletu eksponowanego w [[Muzeum Ewolucji PAN]] |
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| authority=Borsuk-Białynicka, 1977 |
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|typ = [[strunowce]] |
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|podtyp = [[kręgowce]] |
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|gromada = [[zauropsydy]] |
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|podgromada = [[diapsydy]] |
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|nadrząd = [[dinozaury]] |
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|rząd = [[dinozaury gadziomiedniczne]] |
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|podrząd = [[zauropodomorfy]] |
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|infrarząd = [[zauropody]] |
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{{wstaw takson|[[Titanosauria]]}} |
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|rodzina = [[saltazaury]] |
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|rodzaj = '''opistocelikaudia''' |
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|gatunek = ''Opisthocoelicaudia skarzynskii'' |
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|synonimy = |
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|wikispecies = |
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|commons = Category:Opisthocoelicaudia |
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}} |
}} |
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'''Opistocelikaudia''' (''Opisthocoelicaudia skarzynskii'') – [[Zauropody|zauropod]] z rodziny [[saltazaury|saltazaurów]] (Saltasauridae). |
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'''''Opisthocoelicaudia''''' {{IPAc-en|ɒ|ˌ|p|ɪ|s|θ|oʊ-|s|ɪ|l|ᵻ|ˈ|k|ɔː|d|i|ə}} is a [[genus]] of [[sauropod]] [[dinosaur]] of the [[late Cretaceous|Late Cretaceous Period]] discovered in the [[Gobi Desert]] of [[Mongolia]]. The only [[species]] is '''''Opisthocoelicaudia skarzynskii'''''. A well-preserved skeleton lacking only the head and neck was unearthed in 1965 by Polish and Mongolian scientists, making ''Opisthocoelicaudia'' one of the best known sauropods from the Late Cretaceous. Tooth marks on this skeleton indicate that large carnivorous dinosaurs had fed on the [[wikt:carcass|carcass]] and possibly had carried away the now-missing parts. To date, only two additional, much less complete specimens are known, including a part of a [[pectoral girdle|shoulder]] and a fragmentary tail. A relatively small sauropod, ''Opisthocoelicaudia'' measured about {{convert|11.4|m|ft}} in length. Like other sauropods, it would have been characterised by a small head sitting on a very long neck and a barrel shaped trunk carried by four column-like legs. The name ''Opisthocoelicaudia'' means "posterior cavity tail", alluding to the unusual, [[Vertebral column#Classification|opisthocoel]] condition of the anterior tail vertebrae that were [[wikt:Special:Search/concave|concave]] on their posterior sides. This and other skeletal features lead researchers to propose that ''Opisthocoelicaudia'' was able to rear on its hindlegs. |
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Żył w epoce [[kreda późna|późnej kredy]] (ok. 75-65 mln lat temu) na terenach środkowej [[Azja|Azji]]. Długość ciała ok. 12 m, wysokość ok. 5 m masa ok. 30 t. Jego szczątki znaleźli w 1965 r. polscy i mongolscy paleontolodzy w [[Mongolia|Mongolii]] (na pustyni [[Gobi]]). Nazwa "opistecolikaudia" oznacza "tylnowklęsłe kręgi ogonowe". |
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Named and described by Polish paleontologist [[Maria Magdalena Borsuk-Białynicka]] in 1977, ''Opisthocoelicaudia'' was first thought to be a new member of the [[Camarasauridae]], but is currently considered a [[derived trait|derived]] member of the [[Titanosaur]]ia. Its exact relationships within Titanosauria are contentious, but it may have been close to the North American ''[[Alamosaurus]]''. All ''Opisthocoelicaudia'' fossils stem from the [[Nemegt Formation]]. Despite being rich in dinosaur fossils, the only other sauropod from this [[formation (geology)|rock unit]] is ''[[Nemegtosaurus]]'', which is known from a single skull. Since the skull of ''Opisthocoelicaudia'' remains unknown, several researchers have suggested that ''Nemegtosaurus'' and ''Opisthocoelicaudia'' may represent the same species. Sauropod footprints from the Nemegt Formation, which include skin impressions, can probably be referred to either ''Nemegtosaurus'' or ''Opisthocoelicaudia'' as these are the only known sauropods from this formation. |
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Początkowo (Borsuk-Bialynicka, 1977) dinozaur ten został zaklasyfikowany jako przedstawiciel rodziny [[kamarazaury|kamarazaurów]], dopiero w 1993 argentyńscy paleontolodzy Leonardo Salgado i Rodolfo Coria zaklasyfikowali go do saltazaurów. |
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==Description== |
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Zrekonstruowany szkielet opistocelikaudii można obejrzeć w warszawskim [[Muzeum Ewolucji PAN|Muzeum Ewolucji]]. |
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[[File:Opisthocoelicaudia.jpg|thumb|300px|Life restoration]] |
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Like other sauropods, ''Opisthocoelicaudia'' had a small head on a long neck, a barrel-shaped body on four columnar limbs, and a long tail. It was relatively small for a sauropod; the [[holotype|type specimen]] was estimated at {{convert|11.4|m|ft|abbr=on}} from the head to the tip of the tail.<ref name="paul_97"/><ref name="seebacher_2001"/> The body mass has been estimated at {{convert|8.4|t|lb|abbr=on}},<ref name="paul_97"/> {{convert|10.5|t|lb|abbr=on}},<ref name="seebacher_2001"/> {{convert|22|t|lb|abbr=on}},<ref name="anderson2009"/> {{convert|13|t|lb|abbr=on}}<ref name="packard_09"/> and {{convert|25.4|t|lb|abbr=on}}<ref name="Bensonetal2014">{{Cite journal | doi = 10.1371/journal.pbio.1001853| pmid = 24802911| title = Rates of Dinosaur Body Mass Evolution Indicate 170 Million Years of Sustained Ecological Innovation on the Avian Stem Lineage| journal = PLoS Biology| volume = 12| issue = 5| pages = e1001853| year = 2014| last1 = Benson | first1 = R. B. J. | last2 = Campione | first2 = N. S. E. | last3 = Carrano | first3 = M. T. | last4 = Mannion | first4 = P. D. | last5 = Sullivan | first5 = C. | last6 = Upchurch | first6 = P. | last7 = Evans | first7 = D. C. | pmc=4011683}}</ref> in separate studies. |
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[[File:Opisthocoelicaudia Museum of Evolution in Warsaw 23.JPG|thumb|left|The ischium and pubis bones. The gap normally present between these bones is closed, a characteristic of ''Opisthocoelicaudia'']] |
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{{Zauropody}} |
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The skull and neck are not preserved, but the reconstruction of the [[nuchal ligament]] indicates the possession of a neck of medium length of roughly {{convert|5|m|ft|abbr=on}}.<ref name="borsuk-bialynicka_1977"/> As in other titanosaurs, the back was quite flexible due to the lack of accessory vertebral joints ([[hyposphene-hypantrum articulation]]s),<ref name="apesteguia_2005"/> while the pelvic region was strengthened by an additional sixth [[sacrum|hip vertebra]].<ref name="borsuk-bialynicka_1977"/> The anterior vertebrae of the tail were [[Vertebral column#Classification|opisthocoelous]], which means they were convex on their anterior sides and concave on their back sides, forming [[ball-and-socket joint]]s.<ref name="borsuk-bialynicka_1977"/> These opisthocoelous tail vertebrae lend ''Opisthocoelicaudia'' its name and serve to distinguish the genus from all other titanosaurs.<ref name="upchurch2004"/> Other titanosaurs were usually characterised by strongly procoelous anterior tail vertebrae, which were concave on their anterior sides and convex on their back sides.<ref name="salgado-coria_1993"/> Another unique feature can be found in the back vertebrae, which show bifurcated [[spinous process]]es, resulting in a double row of bony projections along the top of the spine.<ref name="wil02"/> While unique in titanosaurs, this feature can be found in several other unrelated sauropods, including ''[[Diplodocus]]'' and ''[[Euhelopus]]'', where it evolved independently.<ref name="taylor-wedel_2013"/> |
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{{dinozaury}} |
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[[File:Opisthocoelicaudia Museum of Evolution in Warsaw 20.JPG|thumb|upright|Limbs of ''Opisthocoelicaudia'', showing the digit-less semicircular hands and the fully developed feet]] |
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As in the hips of other titanosaurs, the [[ischium]] was relatively short, measuring only two-thirds the length of the [[pubis (bone)|pubis]]. The left and right ischium bones as well as the left and right pubis bones were [[ossification|ossified]] with each other over most of their length, closing the gap that in other sauropods is normally present between these bones.<ref name="upchurch2004"/> The limbs were proportionally short, as seen in other titanosaurs.<ref name="carrano_05"/> The forelimbs measured {{convert|1.87|m|ft|abbr=on}} in height in the nearly complete specimen, approximately two thirds the length of the hindlimbs, which were reconstructed at {{convert|2.46|m|ft|abbr=on}} height.<ref name="borsuk-bialynicka_1977"/> As in other titanosaurs, the limbs were slightly spread outwards rather than standing vertically under the body,<ref name="wilson_carrano"/> while the forelimbs were more flexible and mobile compared to other sauropods.<ref name="carrano_05"/> |
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The [[manus (anatomy)|manus]] was composed merely of the five [[metacarpalia]], which were orientated vertically and arranged in a semicircle. [[Carpus|Carpal bones]] were missing, as in other titanosaurs.<ref name="borsuk-bialynicka_1977"/><ref name="apesteguia_2005b"/> [[Phalanges of the hand|Finger bones]] and claws were also completely absent – in most other titanosaurs, these bones were still present though extremely [[Vestigiality|reduced]] in size. In the foot, the [[talus bone]] was strongly reduced as in other titanosaurs, while the [[calcaneus]] was probably completely absent in ''Opisthocoelicaudia''.<ref name="borsuk-bialynicka_1977"/> In contrast to the manus, the foot showed well developed digits and claws. The [[Phalanx bone#Phalangeal formula|phalangeal formula]], which states the number of phalanges (digit bones) beginning with the innermost digit, is 2-2-2-1-0. Foot skeletons of titanosaurs are rarely found, and besides ''Opisthocoelicaudia'', completely preserved examples are known only from ''[[Epachthosaurus]]'' and the unnamed La Invernada titanosaur, whose phalangeal formulas are 2-2-3-2-0 and 2-2-2-2-0, respectively. Of these three titanosaurs, ''Ophistocoelicaudia'' was the most [[derived trait|derived]] while showing the fewest phalanges, indicating a progressive reduction in the phalangeal count during titanosaur evolution.<ref name="gonzales-riga_2008"/> |
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[[Kategoria:Saltazaury]] |
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[[Kategoria:Dinozaury Azji]] |
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[[Osteoderm]]s (bony plates formed in the skin) have been found with at least 10 titanosaur genera. The lack of osteoderms in the nearly complete ''Opisthocoelicaudia'' skeleton might indicate that they are absent in this genus. <ref name="d_Emic_2009"/> However the closeley related ''Alamosaurus'' was found to have osteoderms nearly a century after its discovery, this combined with basal forms like ''[[Malawisaurus]]'' and a number of closely related titanosaurs also bearing osteoderms it's possible that ''Ophistocoelicaudia'' had them as well. <ref name=carranoetal/> |
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[[Kategoria:Dinozaury kredy]] |
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==Discovery and specimens== |
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[[File:Mongolian sauropod.jpg|thumb|left|Mounted type specimen]] |
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The type specimen ([[Polish Academy of Sciences|ZPAL]] MgD-Ij48) was discovered between the 10th and 23 June 1965, during a joint Polish-Mongolian paleontological expedition led by Polish paleontologist [[Zofia Kielan-Jaworowska]].<ref name="kielan-jaworowska_1968"/><ref name="kielan-jaworowska2013"/> The largest of a series of expeditions carried out in 1963–1971, this expedition involved 21 members, which at times were supported by additional hired Mongolian workers. The site of discovery is located in [[Ömnögovi Province]] in southern Mongolia in the ''[[Altan Uul]]'' area, which exposes some 100 km² of [[badlands]]. The sediments exposed at Altan Uul belong to the [[Nemegt Formation]], the youngest of the three [[Formation (stratigraphy)|geological formations]] of the [[Nemegt Basin]]. ''Opisthocoelicaudia'' was the first of several important dinosaur discoveries made by the 1965 expedition. The other finds, made at different localities, include several skeletons of the [[Tyrannosauridae|tyrannosaurid]] ''[[Tarbosaurus]]'' as well as the type specimens of the giant [[Ornithomimosauria|ornithomimosaur]] ''[[Deinocheirus]]'', the sauropod ''Nemegtosaurus'', and the [[Pachycephalosauria|pachycephalosaur]] ''[[Homalocephale]]''.<ref name="kielan-jaworowska2013"/> |
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[[File:Opisthocoelicaudia Museum of Evolution in Warsaw 08.JPG|thumb|Latero-ventral view of the opisthocoelous anterior tail vertebrae, which lend ''Opisthocoelicaudia'' its name]] |
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On the fifth day of fieldwork, Ryszard Gradzinski, the [[geologist]] of the expedition, found a concretion of well-preserved bones which promised to belong to a fairly complete skeleton. Excavation started on the next day, revealing a nearly complete skeleton lacking only the head and neck. Until today, this specimen remains by far the most complete find of this dinosaur. The transport of the specimen out of rough terrain caused major technical problems. Stone blocks containing the fossils had to be moved some 580 m on improvised metal sledges made out of petrol drums before they could be loaded onto trucks. Because the skeleton was embedded in very hard [[sandstone]] layers, several blocks weighed over a ton. On the 9th of July, the packing of the skeleton into 35 crates started for transportation to [[Dalanzadgad]]; together, the crates weighed about 12 tons.<ref name="kielan-jaworowska_1968"/><ref name="kielan-jaworowska2013"/> |
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The type specimen belonged to an aged individual.<ref name="borsuk-bialynicka_1977"/> Its [[taphonomy]] is unusual as it was found lying on its back – in contrast, most other nearly complete dinosaur skeletons of the Nemegt Formation usually are found lying on their sides.<ref name="gradzinski_69"/> The specimen was found encased in [[cross-bedding|cross-bedded]] sandstone deposited by a river. Most of the discovered vertebrae were still connected together, forming a continuous series that consisted of 8 dorsal, 6 sacral and 34 caudal vertebrae. An additional 3 vertebrae were found isolated from the series and may belong to the transitional area between back and neck. The remaining parts of the skeleton were shifted slightly out of their original anatomical position. Both the left limb and rib bones were found on the right side of the body, while conversely the right limb and rib bones were found on the left side. Bite marks have been identified on the skeleton, particularly in the pelvis and the thigh bone, showing that [[predator (biology)|predators]] had fed on the carcass. The skull and neck are missing, indicating that the carnivores might have carried away these body parts.<ref name="borsuk-bialynicka_1977"/> The completeness of the remains indicate that the individual had died near the discovery site.<ref name="gradzinski_69"/> A flooding event might have transported the carcass a short distance and subsequently covered it with sediment, even before the soft tissue had decayed entirely.<ref name="borsuk-bialynicka_1977"/> |
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In 1977, Polish paleontologist [[Maria Magdalena Borsuk-Białynicka]] published her comprehensive description of the skeleton and named ''Opisthocoelicaudia skarzynskii'' as a new genus and species. The genus name, hinting at the unusual opisthocoel condition of the tail vertebrae, means "posterior cavity tail". It is derived from the [[Ancient Greek|Greek]] οπισθή, ''opisthe'' [back], κοιλος, ''koilos'' [hollow], and [[Latin]] ''cauda'' [tail]. The specific name honors Wojciech Skarżyński, the person who prepared the type specimen.<ref name="borsuk-bialynicka_1977"/> ''Opisthocoelicaudia'' was only the third sauropod from Asia known from a postcranial skeleton, after ''Euhelopus'' and ''[[Mamenchisaurus]]''.<ref name="borsuk-bialynicka_1977"/> Today, the skeleton is part of the collection of the Institute of Geology of the [[Mongolian Academy of Sciences]] in [[Ulaanbaatar]].<ref name="maryanska_2000"/> |
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[[File:Opisthocoelicaudia Museum of Evolution in Warsaw 25.JPG|thumb|Shoulder blade and coracoid of a juvenile individual]] |
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Besides the type specimen, Borsuk-Białynicka described a [[scapula|shoulder blade]] and [[coracoid]] (ZPAL MgD-I/25c) from the same locality. These bones were not yet fused to each other, indicating a juvenile individual.<ref name="borsuk-bialynicka_1977"/> [[Philip J. Currie|Philip Currie]] and colleagues in 2003 mentioned a fragmentary tail ([[Mongolian Academy of Sciences|MPD]] 100/406) from the Nemegt locality that can be attributed to ''Opisthocoelicaudia''.<ref name="currie_03"/> |
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==Age and paleoenvironment== |
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[[File:Nemegt Formation.png|thumb|left|Location of the Nemegt locality within Mongolia]] |
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The Nemegt Formation was deposited within the [[Late Cretaceous]], although its exact age is unknown as it has never been [[Radiometric dating|dated radiometrically]]. According to different authors, the formation is late [[Campanian]] to early [[Maastrichtian]], early Maastrichtian, or middle Maastrichtian in age.<ref name="osmolska_97"/> The sediments of the Nemegt Formation were deposited in a plain crossed by rivers.<ref name="gradzinski_69"/> The climate was warm and [[Holdridge life zones|subhumid]] with seasonal droughts,<ref name="osmolska_97"/> and the soils were relatively dry.<ref name="jerzykiewicz_91"/> Nevertheless, the Nemegt Formation was more humid than the underlying (and thus older) [[Barun Goyot Formation|Barun Goyot]] and [[Djadochta Formation]]s, which show a [[semiarid]] climate.<ref name="osmolska_97"/> |
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The fauna of the Nemegt Formation includes aquatic or amphibious animals such as fish, turtles, and crocodiles as well as birds and the abundant medium to large sized dinosaurs, while smaller [[terrestrial animal|terrestrial]] vertebrates like lizards and mammals are rare.<ref name="osmolska_97"/> [[Theropoda|Theropod dinosaurs]] are very diverse in the Nemegt and include the abundant tyrannosaur ''Tarbosaurus'',<ref name="osmolska_97"/> which might have preyed upon ''Opisthocoelicaudia''.<ref name="hurum_03"/> The only other known sauropod is ''Nemegtosaurus'', which is known from a single skull. [[Ornithischia]]ns are represented by the "duck-billed" [[Hadrosauridae|hadrosaurids]] (including the very common ''[[Saurolophus]]''), the thick-skulled [[Pachycephalosauria|pachycephalosaurs]], and the heavely armored [[Ankylosauria|ankylosaurs]]. [[Neoceratopsia]]ns are absent, despite being present in the older Barun Goyot and Djadochta formations.<ref name="osmolska_97"/> Other important dinosaur finds from the same locality as ''Opisthocoelicaudia'' include the [[Troodontidae|troodontid]] ''[[Borogovia]]''<ref name="osmolska_87"/> and the [[Ankylosauria|ankylosaur]] ''[[Tarchia]]''.<ref name="maryanska_1969"/> |
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==Classification== |
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Originally, ''Opisthocoelicaudia'' was classified as a member of the [[family (biology)|family]] [[Camarasauridae]], together with ''[[Camarasaurus]]'' and ''Euhelopus''. This classification was based on several shared features of the skeleton, most importantly the forked neural spines of the back vertebrae. In 1977, Borsuk-Białynicka considered ''Opisthocoelicaudia'' closer to ''Euhelopus'' than to ''Camarasaurus'', placing it in the subfamily [[Euhelopodinae]].<ref name="borsuk-bialynicka_1977"/> A 1981 study by Walter Coombs and [[Ralph Molnar]], on the other hand, considered it a member of the subfamily [[Camarasauridae|Camarasaurinae]] and therefore a close relative of ''Camarasaurus''.<ref name="combs_81"/> Today, both ''Euhelopus'' and ''Opisthocoelicaudia'' are classified outside the Camarasauridae. In 1993, Leonardo Salgado and [[Rodolfo Coria]] showed ''Opisthocoelicaudia'' to represent a titanosaur and classified it within the family [[Titanosauridae]].<ref name="salgado-coria_1993"/> The name Titanosauridae is currently considered [[Valid name (zoology)|invalid]] by many scientists;<ref name="wilson_2003"/> instead, the name [[Lithostrotia]] is often used as an equivalent.<ref name="upchurch2004"/><ref name="demic2012"/> |
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[[File:Opisthocoelicaudia skeleton restoration.jpg|thumb|300px|Skeletal drawing showing elements of the type specimen]] |
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Within the Lithostrotia, ''Opisthocoelicaudia'' has been found to be closely related to the genera ''Alamosaurus'', ''[[Neuquensaurus]]'', ''[[Rocasaurus]]'' and ''[[Saltasaurus]]'', together forming the family [[Saltasauridae]]. Interrelationships of these genera are contested. Many scientists considered ''Opisthocoelicaudia'' to be most closely related to ''Alamosaurus'', with both genera forming a [[monophyletic]] group, the [[Opisthocoelicaudiinae]]. Other scientists came to the conclusion that the Opisthocoelicaudiinae is [[paraphyletic]] (not forming a natural group).<ref name="wilson05"/> Contradicting most other studies, Upchurch and colleagues in 2004 argued that ''Alamosaurus'' has to be placed outside the Saltasauridae as a close relative of ''[[Pellegrinisaurus]]'', and therefore is not related to ''Opisthocoelicaudia'' at al.<ref name="upchurch2004"/> |
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The following cladogram is based on Calvo and colleagues (2007), showing a monophyletic ''Opisthocoelicaudiinae'':<ref name="calvo2007"/> |
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{{clade| style=font-size:100%;line-height:80% |
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|label1=[[Saltasauridae]] |
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|1={{clade |
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|label1= [[Opisthocoelicaudiinae]] |
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|1={{clade |
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|1='''''Opisthocoelicaudia''''' |
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|2=''[[Alamosaurus]]''}} |
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|label2= [[Saltasaurinae]] |
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|2={{clade |
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|1=''[[Neuquensaurus]]'' |
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|2={{clade |
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|1=''[[Rocasaurus]]'' |
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|2=''[[Saltasaurus]]'' |
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}}}}}}}} |
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=== Relationship to ''Nemegtosaurus'' === |
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[[File:Opisthocoelicaudia Museum of Evolution in Warsaw 14.JPG|thumb|left|Cast of the skull of ''[[Nemegtosaurus]]'', a possible synonym, mounted on a ''Opisthocoelicaudia'' skeletal restoration]] |
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Another sauropod of the Nemegt-Formation, ''Nemegtosaurus'', is known only from a skull. ''Opisthocoelicaudia'', on the other hand, lacks both the skull and neck, precluding a direct comparison and leading to suspicions that it may represent a [[synonym (taxonomy)|synonym]] of ''Nemegtosaurus''. According to the [[International Code of Zoological Nomenclature]] (ICZN), the oldest name has priority over younger synonyms – if ''Opisthocoelicaudia'' would be shown to be a synonym of ''Nemegtosaurus'', the name ''Nemegtosaurus'' would remain valid while ''Opisthocoelicaudia'' would become invalid.<ref name="currie_03"/> |
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Both ''Opisthocoelicaudia'' and ''Nemegtosaurus'' where discovered during the 1965 joint Polish-Mongolian expedition. Before the remains were prepared and described, the expedition crew believed both finds to belong to the same species of sauropod.<ref name="kielan-jaworowska2013" /> In 1977, Borsuk-Białynicka deemed ''Opisthocoelicaudia'' and ''Nemegtosaurus'' to represent separate genera because ''Nemegtosaurus'' was at this time considered to be a member of the [[Dicraeosauridae]], while ''Opisthocoelicaudia'' seemed to be a representative of a different group, the Camarasauridae. Furthermore, she argued that different sauropod genera sharing the same habitat is nothing unusual; this is most obvious in the North American [[Morrison Formation]], which contains more than five contemporary sauropod species.<ref name="borsuk-bialynicka_1977"/> |
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Currently, both ''Opisthocoelicaudia'' and ''Nemegtosaurus'' are classified within the Titanosauria, and Jeffrey Wilson stated in 2005 that synonymy cannot be ruled out.<ref name="wilson_2005b"/> In a 2003 study, Currie and colleagues argued that a synonymy is very probable and reported a fragmentary tail referable to ''Opisthocoelicaudia'' that was discovered in the same locality where the ''Nemegtosaurus'' skull was found.<ref name="currie_03"/> Nevertheless, Kielan-Jaworowska stated in 2013 that the question of a possible synonymy may not be resolved until a skull is found in association with postcranial remains.<ref name="kielan-jaworowska2013" /> |
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==Paleobiology== |
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===Posture=== |
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{{further|Sauropod neck posture}} |
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[[File:Opisthocoelicaudia posture.svg|thumb|300px|A: Posture based on the 1977 reconstruction by Borsuk-Białynicka,<ref name="borsuk-bialynicka_1977"/> with a horizontal back. B: Posture based on the 2007 reconstruction by Schwarz et al.,<ref name="schwarz_07"/> with a much steeper scapula (green) that is angled 60° towards the horizontal, resulting in a downwards tilting back]] |
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Originally, Borsuk-Białynicka assumed that in [[Anatomical position#Standard anatomical position|standard position]] the neck was horizontal or slanted slightly downward. This was based on the reconstruction of the [[nuchal ligament]], which runs atop of the cervical and dorsal vertebrae and serves to support the weight of the head and neck.<ref name="borsuk-bialynicka_1977"/> Although an S-curved, swan-like ascending neck was envisaged in several subsequent reconstructions following similar depictions of better known sauropods, recent studies argue that sauropod necks were relatively straight and were carried more horizontally.<ref name="stevens_13"/> |
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The back was also reconstructed in a more or less horizontal orientation by Borsuk-Białynicka,<ref name="borsuk-bialynicka_1977"/> which was followed by most subsequent depictions. In a 2007 study, Daniela Schwarz and colleagues suggested that the back dipped towards the rear. According to these researchers, the shoulder blade would have been inclined at a horizontal angle of 55–65°, much steeper than previously thought, resulting in an elevated shoulder region.<ref name="schwarz_07"/> With the vertebral column of the trunk and neck held in a relatively straight line, this would result in an elevated position of the head.<ref name="stevens_13"/> |
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===Rearing stance=== |
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[[File:Opisthocoelicaudia pelvis.jpg|thumb|left|Pelvis of the type specimen]] |
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''Opisthocoelicaudia'' may have been able to rear up on its hindlimbs for foraging, using its tail as a third leg. In 1977, Borsuk-Białynicka cited several skeletal features that might have been related to rearing, including the opisthocoelous vertebrae of the anterior part of the tail, which, according to this author, would have made the tail more flexible than in other sauropods. Features of the pelvis, such as the thickened shelf of the [[Acetabulum#Perforate Acetabulum|acetabulum]], the flaring [[ilium (bone)|ilia]], and the fused [[pubis (bone)|pubic symphysis]], may have allowed the pelvis to withstand the stress of rearing.<ref name="borsuk-bialynicka_1977"/> |
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Heinrich Mallison in 2011 argued that ''Opisthocoelicaudia'' was able to angle the anterior part of the tail against the posterior part, producing a buckle in midsection. Thus, the anterior part would have been more straight during rearing than in other sauropods.<ref name="mallison2011"/> In 2005, Wilson assumed that rearing was an innovation not only of ''Opisthocoelicaudia'' but also of related genera within the subfamily Saltasaurinae. Common features of these genera, such as the shortened tail, may have evolved as adaptations to rearing.<ref name="wilson05"/> |
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===Footprints=== |
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[[File:Opisthocoelicaudia footprint.JPG|thumb|Natural cast of a sauropod hindfoot impression, probably left by ''Opisthocoelicaudia''.]] |
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Footprints from the Nemegt Formation were unknown until 2003, when Currie and colleagues described several examples from the Nemegt locality. Most of these footprints belonged to hadrosaurids (probably ''Saurolophus''), while two have been left by a large theropod (probably ''Tarbosaurus'') and yet another two by the hindfoot of a sauropod. The sauropod tracks were assigned to ''Opisthocoelicaudia'', which showed a matching hind foot morphology. The researchers argued that ''Opisthocoelicaudia'' was probably the only known sauropod from the Nemegt Formation when ''Nemegtosaurus'' is regarded a synonym, making it unlikely that the tracks were left by another, similar titanosaur. The tracks were left in the soft and wet mud of shallow or freshly dried up points along a river and subsequently filled up with sand. Today only the sand infill remains, with the encasing mudstone having been eroded away.<ref name="currie_03"/> |
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The best-preserved footprint measures {{convert|63|cm|in|abbr=on}} across, so it was probably created by an individual larger than the type specimen. Although the surface of the underside is hard to obtain, the vertical surfaces are very well preserved, making this track one of the best preserved sauropod tracks known. Four digital impressions can be distinguished, with two or three showing claw impressions. The toes were almost perpendicular. Even a skin impression has been preserved above the impression of the first toe, which shows the non-overlapping scales, each with an average diameter of {{convert|14|mm|in|abbr=on}}. The foot of the track creator was probably a little longer than wide. The second track is much shallower than the first, but shows well-preserved digit impressions with a high degree of detail, including at least two deep claw impressions that are rotated outwards, and a well-preserved impression of a fleshy toe pad behind the middle claw.<ref name="currie_03"/> |
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{{Przypisy | przypisy = |
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Wersja z 07:38, 1 kwi 2017
Opisthocoelicaudia Szablon:IPAc-en is a genus of sauropod dinosaur of the Late Cretaceous Period discovered in the Gobi Desert of Mongolia. The only species is Opisthocoelicaudia skarzynskii. A well-preserved skeleton lacking only the head and neck was unearthed in 1965 by Polish and Mongolian scientists, making Opisthocoelicaudia one of the best known sauropods from the Late Cretaceous. Tooth marks on this skeleton indicate that large carnivorous dinosaurs had fed on the carcass and possibly had carried away the now-missing parts. To date, only two additional, much less complete specimens are known, including a part of a shoulder and a fragmentary tail. A relatively small sauropod, Opisthocoelicaudia measured about 11,4 metra (37 ft) in length. Like other sauropods, it would have been characterised by a small head sitting on a very long neck and a barrel shaped trunk carried by four column-like legs. The name Opisthocoelicaudia means "posterior cavity tail", alluding to the unusual, opisthocoel condition of the anterior tail vertebrae that were concave on their posterior sides. This and other skeletal features lead researchers to propose that Opisthocoelicaudia was able to rear on its hindlegs.
Named and described by Polish paleontologist Maria Magdalena Borsuk-Białynicka in 1977, Opisthocoelicaudia was first thought to be a new member of the Camarasauridae, but is currently considered a derived member of the Titanosauria. Its exact relationships within Titanosauria are contentious, but it may have been close to the North American Alamosaurus. All Opisthocoelicaudia fossils stem from the Nemegt Formation. Despite being rich in dinosaur fossils, the only other sauropod from this rock unit is Nemegtosaurus, which is known from a single skull. Since the skull of Opisthocoelicaudia remains unknown, several researchers have suggested that Nemegtosaurus and Opisthocoelicaudia may represent the same species. Sauropod footprints from the Nemegt Formation, which include skin impressions, can probably be referred to either Nemegtosaurus or Opisthocoelicaudia as these are the only known sauropods from this formation.
Description
Like other sauropods, Opisthocoelicaudia had a small head on a long neck, a barrel-shaped body on four columnar limbs, and a long tail. It was relatively small for a sauropod; the type specimen was estimated at 11,4 m (37 ft) from the head to the tip of the tail.[1][2] The body mass has been estimated at 8,4 t (19 000 lb),[1] 10,5 t (23 000 lb),[2] 22 t (49 000 lb),[3] 13 t (29 000 lb)[4] and 25,4 t (56 000 lb)[5] in separate studies.
The skull and neck are not preserved, but the reconstruction of the nuchal ligament indicates the possession of a neck of medium length of roughly 5 m (16 ft).[6] As in other titanosaurs, the back was quite flexible due to the lack of accessory vertebral joints (hyposphene-hypantrum articulations),[7] while the pelvic region was strengthened by an additional sixth hip vertebra.[6] The anterior vertebrae of the tail were opisthocoelous, which means they were convex on their anterior sides and concave on their back sides, forming ball-and-socket joints.[6] These opisthocoelous tail vertebrae lend Opisthocoelicaudia its name and serve to distinguish the genus from all other titanosaurs.[8] Other titanosaurs were usually characterised by strongly procoelous anterior tail vertebrae, which were concave on their anterior sides and convex on their back sides.[9] Another unique feature can be found in the back vertebrae, which show bifurcated spinous processes, resulting in a double row of bony projections along the top of the spine.[10] While unique in titanosaurs, this feature can be found in several other unrelated sauropods, including Diplodocus and Euhelopus, where it evolved independently.[11]
As in the hips of other titanosaurs, the ischium was relatively short, measuring only two-thirds the length of the pubis. The left and right ischium bones as well as the left and right pubis bones were ossified with each other over most of their length, closing the gap that in other sauropods is normally present between these bones.[8] The limbs were proportionally short, as seen in other titanosaurs.[12] The forelimbs measured 1,87 m (6,1 ft) in height in the nearly complete specimen, approximately two thirds the length of the hindlimbs, which were reconstructed at 2,46 m (8,1 ft) height.[6] As in other titanosaurs, the limbs were slightly spread outwards rather than standing vertically under the body,[13] while the forelimbs were more flexible and mobile compared to other sauropods.[12]
The manus was composed merely of the five metacarpalia, which were orientated vertically and arranged in a semicircle. Carpal bones were missing, as in other titanosaurs.[6][14] Finger bones and claws were also completely absent – in most other titanosaurs, these bones were still present though extremely reduced in size. In the foot, the talus bone was strongly reduced as in other titanosaurs, while the calcaneus was probably completely absent in Opisthocoelicaudia.[6] In contrast to the manus, the foot showed well developed digits and claws. The phalangeal formula, which states the number of phalanges (digit bones) beginning with the innermost digit, is 2-2-2-1-0. Foot skeletons of titanosaurs are rarely found, and besides Opisthocoelicaudia, completely preserved examples are known only from Epachthosaurus and the unnamed La Invernada titanosaur, whose phalangeal formulas are 2-2-3-2-0 and 2-2-2-2-0, respectively. Of these three titanosaurs, Ophistocoelicaudia was the most derived while showing the fewest phalanges, indicating a progressive reduction in the phalangeal count during titanosaur evolution.[15]
Osteoderms (bony plates formed in the skin) have been found with at least 10 titanosaur genera. The lack of osteoderms in the nearly complete Opisthocoelicaudia skeleton might indicate that they are absent in this genus. [16] However the closeley related Alamosaurus was found to have osteoderms nearly a century after its discovery, this combined with basal forms like Malawisaurus and a number of closely related titanosaurs also bearing osteoderms it's possible that Ophistocoelicaudia had them as well. [17]
Discovery and specimens
The type specimen (ZPAL MgD-Ij48) was discovered between the 10th and 23 June 1965, during a joint Polish-Mongolian paleontological expedition led by Polish paleontologist Zofia Kielan-Jaworowska.[18][19] The largest of a series of expeditions carried out in 1963–1971, this expedition involved 21 members, which at times were supported by additional hired Mongolian workers. The site of discovery is located in Ömnögovi Province in southern Mongolia in the Altan Uul area, which exposes some 100 km² of badlands. The sediments exposed at Altan Uul belong to the Nemegt Formation, the youngest of the three geological formations of the Nemegt Basin. Opisthocoelicaudia was the first of several important dinosaur discoveries made by the 1965 expedition. The other finds, made at different localities, include several skeletons of the tyrannosaurid Tarbosaurus as well as the type specimens of the giant ornithomimosaur Deinocheirus, the sauropod Nemegtosaurus, and the pachycephalosaur Homalocephale.[19]
On the fifth day of fieldwork, Ryszard Gradzinski, the geologist of the expedition, found a concretion of well-preserved bones which promised to belong to a fairly complete skeleton. Excavation started on the next day, revealing a nearly complete skeleton lacking only the head and neck. Until today, this specimen remains by far the most complete find of this dinosaur. The transport of the specimen out of rough terrain caused major technical problems. Stone blocks containing the fossils had to be moved some 580 m on improvised metal sledges made out of petrol drums before they could be loaded onto trucks. Because the skeleton was embedded in very hard sandstone layers, several blocks weighed over a ton. On the 9th of July, the packing of the skeleton into 35 crates started for transportation to Dalanzadgad; together, the crates weighed about 12 tons.[18][19]
The type specimen belonged to an aged individual.[6] Its taphonomy is unusual as it was found lying on its back – in contrast, most other nearly complete dinosaur skeletons of the Nemegt Formation usually are found lying on their sides.[20] The specimen was found encased in cross-bedded sandstone deposited by a river. Most of the discovered vertebrae were still connected together, forming a continuous series that consisted of 8 dorsal, 6 sacral and 34 caudal vertebrae. An additional 3 vertebrae were found isolated from the series and may belong to the transitional area between back and neck. The remaining parts of the skeleton were shifted slightly out of their original anatomical position. Both the left limb and rib bones were found on the right side of the body, while conversely the right limb and rib bones were found on the left side. Bite marks have been identified on the skeleton, particularly in the pelvis and the thigh bone, showing that predators had fed on the carcass. The skull and neck are missing, indicating that the carnivores might have carried away these body parts.[6] The completeness of the remains indicate that the individual had died near the discovery site.[20] A flooding event might have transported the carcass a short distance and subsequently covered it with sediment, even before the soft tissue had decayed entirely.[6]
In 1977, Polish paleontologist Maria Magdalena Borsuk-Białynicka published her comprehensive description of the skeleton and named Opisthocoelicaudia skarzynskii as a new genus and species. The genus name, hinting at the unusual opisthocoel condition of the tail vertebrae, means "posterior cavity tail". It is derived from the Greek οπισθή, opisthe [back], κοιλος, koilos [hollow], and Latin cauda [tail]. The specific name honors Wojciech Skarżyński, the person who prepared the type specimen.[6] Opisthocoelicaudia was only the third sauropod from Asia known from a postcranial skeleton, after Euhelopus and Mamenchisaurus.[6] Today, the skeleton is part of the collection of the Institute of Geology of the Mongolian Academy of Sciences in Ulaanbaatar.[21]
Besides the type specimen, Borsuk-Białynicka described a shoulder blade and coracoid (ZPAL MgD-I/25c) from the same locality. These bones were not yet fused to each other, indicating a juvenile individual.[6] Philip Currie and colleagues in 2003 mentioned a fragmentary tail (MPD 100/406) from the Nemegt locality that can be attributed to Opisthocoelicaudia.[22]
Age and paleoenvironment
The Nemegt Formation was deposited within the Late Cretaceous, although its exact age is unknown as it has never been dated radiometrically. According to different authors, the formation is late Campanian to early Maastrichtian, early Maastrichtian, or middle Maastrichtian in age.[23] The sediments of the Nemegt Formation were deposited in a plain crossed by rivers.[20] The climate was warm and subhumid with seasonal droughts,[23] and the soils were relatively dry.[24] Nevertheless, the Nemegt Formation was more humid than the underlying (and thus older) Barun Goyot and Djadochta Formations, which show a semiarid climate.[23]
The fauna of the Nemegt Formation includes aquatic or amphibious animals such as fish, turtles, and crocodiles as well as birds and the abundant medium to large sized dinosaurs, while smaller terrestrial vertebrates like lizards and mammals are rare.[23] Theropod dinosaurs are very diverse in the Nemegt and include the abundant tyrannosaur Tarbosaurus,[23] which might have preyed upon Opisthocoelicaudia.[25] The only other known sauropod is Nemegtosaurus, which is known from a single skull. Ornithischians are represented by the "duck-billed" hadrosaurids (including the very common Saurolophus), the thick-skulled pachycephalosaurs, and the heavely armored ankylosaurs. Neoceratopsians are absent, despite being present in the older Barun Goyot and Djadochta formations.[23] Other important dinosaur finds from the same locality as Opisthocoelicaudia include the troodontid Borogovia[26] and the ankylosaur Tarchia.[27]
Classification
Originally, Opisthocoelicaudia was classified as a member of the family Camarasauridae, together with Camarasaurus and Euhelopus. This classification was based on several shared features of the skeleton, most importantly the forked neural spines of the back vertebrae. In 1977, Borsuk-Białynicka considered Opisthocoelicaudia closer to Euhelopus than to Camarasaurus, placing it in the subfamily Euhelopodinae.[6] A 1981 study by Walter Coombs and Ralph Molnar, on the other hand, considered it a member of the subfamily Camarasaurinae and therefore a close relative of Camarasaurus.[28] Today, both Euhelopus and Opisthocoelicaudia are classified outside the Camarasauridae. In 1993, Leonardo Salgado and Rodolfo Coria showed Opisthocoelicaudia to represent a titanosaur and classified it within the family Titanosauridae.[9] The name Titanosauridae is currently considered invalid by many scientists;[29] instead, the name Lithostrotia is often used as an equivalent.[8][30]
Within the Lithostrotia, Opisthocoelicaudia has been found to be closely related to the genera Alamosaurus, Neuquensaurus, Rocasaurus and Saltasaurus, together forming the family Saltasauridae. Interrelationships of these genera are contested. Many scientists considered Opisthocoelicaudia to be most closely related to Alamosaurus, with both genera forming a monophyletic group, the Opisthocoelicaudiinae. Other scientists came to the conclusion that the Opisthocoelicaudiinae is paraphyletic (not forming a natural group).[31] Contradicting most other studies, Upchurch and colleagues in 2004 argued that Alamosaurus has to be placed outside the Saltasauridae as a close relative of Pellegrinisaurus, and therefore is not related to Opisthocoelicaudia at al.[8]
The following cladogram is based on Calvo and colleagues (2007), showing a monophyletic Opisthocoelicaudiinae:[32]
Relationship to Nemegtosaurus
Another sauropod of the Nemegt-Formation, Nemegtosaurus, is known only from a skull. Opisthocoelicaudia, on the other hand, lacks both the skull and neck, precluding a direct comparison and leading to suspicions that it may represent a synonym of Nemegtosaurus. According to the International Code of Zoological Nomenclature (ICZN), the oldest name has priority over younger synonyms – if Opisthocoelicaudia would be shown to be a synonym of Nemegtosaurus, the name Nemegtosaurus would remain valid while Opisthocoelicaudia would become invalid.[22]
Both Opisthocoelicaudia and Nemegtosaurus where discovered during the 1965 joint Polish-Mongolian expedition. Before the remains were prepared and described, the expedition crew believed both finds to belong to the same species of sauropod.[19] In 1977, Borsuk-Białynicka deemed Opisthocoelicaudia and Nemegtosaurus to represent separate genera because Nemegtosaurus was at this time considered to be a member of the Dicraeosauridae, while Opisthocoelicaudia seemed to be a representative of a different group, the Camarasauridae. Furthermore, she argued that different sauropod genera sharing the same habitat is nothing unusual; this is most obvious in the North American Morrison Formation, which contains more than five contemporary sauropod species.[6]
Currently, both Opisthocoelicaudia and Nemegtosaurus are classified within the Titanosauria, and Jeffrey Wilson stated in 2005 that synonymy cannot be ruled out.[33] In a 2003 study, Currie and colleagues argued that a synonymy is very probable and reported a fragmentary tail referable to Opisthocoelicaudia that was discovered in the same locality where the Nemegtosaurus skull was found.[22] Nevertheless, Kielan-Jaworowska stated in 2013 that the question of a possible synonymy may not be resolved until a skull is found in association with postcranial remains.[19]
Paleobiology
Posture
Originally, Borsuk-Białynicka assumed that in standard position the neck was horizontal or slanted slightly downward. This was based on the reconstruction of the nuchal ligament, which runs atop of the cervical and dorsal vertebrae and serves to support the weight of the head and neck.[6] Although an S-curved, swan-like ascending neck was envisaged in several subsequent reconstructions following similar depictions of better known sauropods, recent studies argue that sauropod necks were relatively straight and were carried more horizontally.[35]
The back was also reconstructed in a more or less horizontal orientation by Borsuk-Białynicka,[6] which was followed by most subsequent depictions. In a 2007 study, Daniela Schwarz and colleagues suggested that the back dipped towards the rear. According to these researchers, the shoulder blade would have been inclined at a horizontal angle of 55–65°, much steeper than previously thought, resulting in an elevated shoulder region.[34] With the vertebral column of the trunk and neck held in a relatively straight line, this would result in an elevated position of the head.[35]
Rearing stance
Opisthocoelicaudia may have been able to rear up on its hindlimbs for foraging, using its tail as a third leg. In 1977, Borsuk-Białynicka cited several skeletal features that might have been related to rearing, including the opisthocoelous vertebrae of the anterior part of the tail, which, according to this author, would have made the tail more flexible than in other sauropods. Features of the pelvis, such as the thickened shelf of the acetabulum, the flaring ilia, and the fused pubic symphysis, may have allowed the pelvis to withstand the stress of rearing.[6]
Heinrich Mallison in 2011 argued that Opisthocoelicaudia was able to angle the anterior part of the tail against the posterior part, producing a buckle in midsection. Thus, the anterior part would have been more straight during rearing than in other sauropods.[36] In 2005, Wilson assumed that rearing was an innovation not only of Opisthocoelicaudia but also of related genera within the subfamily Saltasaurinae. Common features of these genera, such as the shortened tail, may have evolved as adaptations to rearing.[31]
Footprints
Footprints from the Nemegt Formation were unknown until 2003, when Currie and colleagues described several examples from the Nemegt locality. Most of these footprints belonged to hadrosaurids (probably Saurolophus), while two have been left by a large theropod (probably Tarbosaurus) and yet another two by the hindfoot of a sauropod. The sauropod tracks were assigned to Opisthocoelicaudia, which showed a matching hind foot morphology. The researchers argued that Opisthocoelicaudia was probably the only known sauropod from the Nemegt Formation when Nemegtosaurus is regarded a synonym, making it unlikely that the tracks were left by another, similar titanosaur. The tracks were left in the soft and wet mud of shallow or freshly dried up points along a river and subsequently filled up with sand. Today only the sand infill remains, with the encasing mudstone having been eroded away.[22]
The best-preserved footprint measures 63 cm (25 in) across, so it was probably created by an individual larger than the type specimen. Although the surface of the underside is hard to obtain, the vertical surfaces are very well preserved, making this track one of the best preserved sauropod tracks known. Four digital impressions can be distinguished, with two or three showing claw impressions. The toes were almost perpendicular. Even a skin impression has been preserved above the impression of the first toe, which shows the non-overlapping scales, each with an average diameter of 14 mm (0,55 in). The foot of the track creator was probably a little longer than wide. The second track is much shallower than the first, but shows well-preserved digit impressions with a high degree of detail, including at least two deep claw impressions that are rotated outwards, and a well-preserved impression of a fleshy toe pad behind the middle claw.[22]
- ↑ a b Szablon:Cite book
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- ↑ Carrano, M.T. and D’Emic, M.D. in review. Osteoderms of the titanosaur sauropod dinosaur Alamosaurus sanjuanensis Gilmore, 1922. Journal of Vertebrate Paleontology.
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