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Un ankylosaurio (Reptilia, Ornithischia) Campaniano en el continente Antartico

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  • University of Buenos Aires - CONICET
... The present study is the continuation of preliminary histological observations carried out by de Ricqlès et al. (2001) on the small ossicles found in the dermal armor remains of the Antarctic ankylosaurian dinosaur (Gasparini et al., 1987(Gasparini et al., , 1996Salgado & Coria, 1996) identified as Antarctopelta oliveroi (Salgado & Gasparini, 2006). ...
... The present study was carried out on six small ossicles scattered in the rock matrix and forming a mosaic between larger elements of the semi-disarticulated dermal skeleton of the holotype A. oliveroi (Museo de La Plata MLP 86-X-28-1, Argentina) from the Late Cretaceous of the Antarctic Peninsula (Gasparini et al., 1987(Gasparini et al., , 1996, that were recently described histologically (Cerda et al., 2019). ...
... The vitreous tissue of the external layer of the ankylosaurian ossicles shares some characteristics with the osteodermine described by de Buffrénil et al. (2010de Buffrénil et al. ( , 2011 in the osteoderms of extinct glyptosaurine anguids, and considered so far as unique to squamates (de Buffrénil et al., 2010(de Buffrénil et al., , 2011Vickaryous et al., 2015). Even if the terminology of this tissue remains debated, the term "osteodermine were considered as Sharpey's fibers (Francillon-Vieillot et al., 1990) connecting the osteoderms to the overlying dermal layers (Levrat-Calviac, 1986-1987Levrat-Calviac & Zylberberg, 1986;Vickaryous et al., 2015). Apart from those Sharpey's fibers-like collagenic extensions, the material composing the external layer of the ankylosaurian dinosaur ossicles presents an amorphous aspect on SEM micrographs ( Figure 6). ...
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Ankylosaurs were a group of heavily armored non‐avian dinosaurs (Dinosauria, Ankylosauria), represented by a relatively abundant fossil record from the Cretaceous of North and South America. Their dermal skeleton was characterized by large osteoderms whose development and functional role have been largely investigated. However, interstitial small ossicles, forming between these osteoderms, have been far more overlooked and it remains unknown whether they were formed through the ossification of a preexisting fibrous matrix of connective tissue (i.e., metaplasia) or by a cell‐induced differentiation of new fiber bundles followed by mineralization (i.e., neoplasia sensu (Zeitschrift für Wissenschaftliche Zoologie, 1858, 9, 147)). Here, we propose a hypothesis on the developmental origin of these small ossicles in the ankylosaurian Antarctopelta oliveroi using light microcopy, scanning electron microscopy and three‐dimensional virtual histology through propagation phase‐contrast synchrotron radiation micro‐computed tomography (PPC‐SRμCT). Ossicles are located in the dermis. They are composed of two layers: (1) a thin external layer, and (2) a thick basal plate, composed of collagen fiber bundles, which forms the main part of the ossicle. The external layer is made of a smooth, vitreous mineralized tissue that does not look like bone. The basal plate, however, is of osseous origin. In this basal plate, the collagen fiber bundles are organized in two orthogonal systems: one horizontal—observable in cross‐sections—and one vertical—observable in the primary plane of sections sensu (Journal of Vertebrate Paleontology, 2004, 24, 874). The horizontal system is itself composed of successive layers of collagen fiber bundles arranged into an orthogonal plywood‐like structure. The bundles of the vertical system radiate from the center of the ossicle at the level of the transition between the external layer and the basal plate and run towards the periphery of the basal plate. Their thickness increases from the center of the ossicle towards its periphery. Numerous bundles of the vertical system form thin threads that interweave and penetrate within the thick bundles of the horizontal system. Our new data suggest that the ossicles were at least partially formed by metaplasia, that is, through the ossification of a preexisting fibrous matrix of connective tissue. This process was probably supplemented by a cell‐induced differentiation of new fiber bundles laid down prior to their incorporation into the fibrous system and its mineralization. This process looks more akin to neoplasia sensu (Zeitschrift für Wissenschaftliche Zoologie, 1858, 9, 147) than to metaplasia. Consequently, metaplastic and neoplastic processes may coexist in these ossicles with a possible differential expression during ontogeny.
... The only known ankylosaur reported from Antarctica is the holotype of Antarctopelta oliveroi coming from the Snow Hill Island Formation (upper Campanian? e lower Maastrichtian), on James Ross Island (Gasparini et al., 1987(Gasparini et al., , 1996Oliveiro et al., 1991;Gasparini and Salgado, 2006). Recently, Arbour and Currie (2015) proposed Antarctopelta oliveroi as a nomen dubium based on the assumption that the autapomorphy-bearing bones (i.e., caudal vertebrae) belong to marine reptiles (elasmosaurids and mosasaurs). ...
... This is in total congruence with the FABI model. In a similar way, Gasparini et al. (1987Gasparini et al. ( , 1996 supported the view that ankylosaurs arrived in Antarctica and Australia via a migration from North America, however they were not certain if such a migration occurred during the Jurassic or was a Late Cretaceous event. If it was Jurassic, then the ankylosaurs of South America, Antarctica and Australia may belong to an endemic lineage that had persisted on such landmasses since Jurassic times. ...
Article
The fossil record of ornithischians in South America is sparse, and they are clearly underrepresented when compared with sauropod dinosaurs. However, recent discoveries indicate that ornithischians were more diversified than thought. The aim of the present contribution is to describe isolated remains belonging to ankylosaurs, and ornithopods, including basal euiguanodontians and hadrosaurs coming from the Chorrillo Formation (upper Campanian–lower Maastrichtian), Santa Cruz province, southern Argentina. The fossil remains of ankylosaurs reported here are the southernmost recorded for the continent. They show a unique combination of plesiomorphic features, indicating that they may belong to a basal ankylosaur. Ankylosaurs and hadrosaurids are thought to have arrived in South America during the latest Cretaceous through Central America. However, a detailed overview of the fossil record of Gondwana indicates that both clades were present and probably diversified along southern continents. This indicates that their presence in South America may be alternatively interpreted as the result of migration from other landmasses, including Africa and Europe, or may even be the result of Jurassic–Early Cretaceous vicariance from their northern counterparts.
... Nevertheless, the non-avian dinosaur fossils that have been discovered in the JRB-all of which pertain to the Upper Cretaceous-collectively indicate the presence of a diversity of taxa that hold significant biostratigraphic and paleobiogeographic implications (Figure 1 , Table 1; Reguero and Gasparini, 2007;Reguero et al., 2013aReguero et al., , 2013b. Among the most important discoveries are five associated partial skeletons: (1) the holotype of the ankylosaur Antarctopelta oliveroi (Olivero et al., 1986(Olivero et al., , 1991Gasparini et al., 1987Gasparini et al., , 1996de Ricqlè s et al., 2001;Gasparini, 2004, 2006;Coria et al., 2011;Rozadilla et al., 2016a); (2) three specimens representing at least two taxa of small to medium-sized, early-diverging ornithopods: the holotypes of Morrosaurus antarcticus (Cambiaso et al., 2002;Novas et al., 2002a;Rozadilla et al., 2016b) and Trinisaura santamartaensis (Coria et al., 2008(Coria et al., , 2013 and a third, still-undescribed skeleton that may represent one of these species or potentially a third Thomson and Hooker, 1991;Milner et al., 1992;Hooker, 2000;Barrett et al., 2014); and (3) a partial skeleton of a medium-sized non-avian theropod that was recently designated the holotype of the possible deinonychosaur Imperobator antarcticus (Case et al., 2007;Case, 2016, 2019). Two other associated specimens, each consisting of a handful of fragmentary ornithopod hind limb elements from the latest Cretaceous of Vega Island, have also recently been identified (Coria et al., 2015a(Coria et al., , 2015bMCL pers. ...
... Ornithischians are the most abundantly represented non-avian dinosaurs in the JRB, both in terms of numbers of individual specimens as well as in associated skeletons. One of these skeletons constitutes the holotype of the taxonomically contentious ankylosaur Antarctopelta oliveroi (MLP 86-X-28-1; Olivero et al., 1986Olivero et al., , 1991Gasparini et al., 1987Gasparini et al., , 1996de Ricqlè s et al., 2001;Gasparini, 2004, 2006;Coria et al., 2011;Rozadilla et al., 2016a). Recovered from the upper Campanian Gamma Member (approximately equivalent to the Herbert Sound Member of Crame et al., 1991) of the Snow Hill Island Formation (which was formerly assigned to the Santa Marta Formation; Olivero, 2012a) of the Santa Marta Cove area of James Ross Island, the Antarctopelta holotype initially consisted of fragmentary cranial bones, a partial dentary with an in situ tooth (Figure 5b), three other teeth, two disarticulated cervical vertebrae and a cast of a natural mold of three additional, articulated cervicals, two dorsal vertebral centra, dorsal rib fragments, the partial sacrum, eight incomplete caudal vertebrae, fragments of the scapula, coracoid, ilium, and femur, five metapodials, two phalanges, and a collection of osteoderms comprising six distinct morphotypes (Salgado and Gasparini, 2006;Otero and Reguero, 2013;Poropat pers. ...
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Although the fossil record of non-avian dinosaurs from the Cretaceous of Antarctica is the poorest of any continent, fossils representing at least five major taxonomic groups (Ankylosauria, early-diverging Ornithopoda, Hadrosauridae, Titanosauria, and Theropoda) have been recovered. All come from Upper Cretaceous (Coniacian–Maastrichtian) marine and nearshore deposits belonging to the Gustav and Marambio groups of the James Ross Basin at the northern tip of the Antarctic Peninsula. The majority of these finds have come from the Campanian–Maastrichtian Snow Hill Island and López de Bertodano formations of James Ross and Vega islands. Given the rarity of Antarctic Cretaceous non-avian dinosaurs, discoveries of any fossils of these archosaurs, no matter how meager, are of significance. Here we describe fragmentary new ornithischian (ankylosaur and ornithopod) material from the upper Campanian–lower Maastrichtian Cape Lamb Member of the Snow Hill Island Formation and the Maastrichtian Sandwich Bluff Member of the López de Bertodano Formation. One of these specimens is considered to probably pertain to the holotypic individual of the early-diverging ornithopod Morrosaurus antarcticus. We also provide an up-to-date synthesis of the Late Cretaceous non-avian dinosaur record of the James Ross Basin and analyze the biostratigraphic occurrences of the various finds, demonstrating that most (including all named taxa and all reasonably complete skeletons discovered to date) occur within a relatively condensed temporal interval of the late Campanian to early Maastrichtian. Most or all James Ross Basin dinosaurs share close affinities with penecontemporaneous taxa from Patagonia, indicating that at least some continental vertebrates could disperse between southern South America and Antarctica during the final stages of the Mesozoic.
... El primer dinosaurio antártico fue descubierto en 1986 por E. Olivero y R. Scasso en las cercanías de la Caleta Santa Marta (isla James Ross, Fig. 2.1) y su extracción fue finalizada por M. Reguero y F. Carlini (Gasparini et al.,1987;Olivero et al.,1991). Luego, fue considerado el holotipo de la nueva especie Antarctopelta oliveroi (Salgado y Gasparini, 2006, Rozadilla et al., 2016 y analizado paleohistológicamente (Cerda et al. 2019). ...
... To increase the knowledge about ankylosaur bone histology and its taxonomic and paleobiologic implications, we performed a detailed histological study of the type specimen of Antarctopelta oliveroi (MLL-86-X-28-1) from the Upper Cretaceous of Antarctica. This taxon, formally named by Salgado and Gasparini (2006), is the first reported Antarctic dinosaur (Gasparini et al., 1987), and was recovered from the outcrops of Snow Hill Island Formation, Gamma Member (upper Campanian-lower Maastrichtian) at the James Ross Island (Salgado and Gasparini, 2006). Although this taxon was considered as a nomen nudum by Arbour and Currie (2016), a recent review performed by Rozadilla et al. (2016) validated its taxonomic status based on the presence of autapomorphic features. ...
Article
A detailed histological study of Antarctopelta oliveroi, from the Upper Cretaceous of Antarctica, is performed in order to increase our knowledge of the ankylosaur bone histology and its taxonomical and paleobiological implications. The main goals of this contribution are: to infer the ontogenetic stage of the holotype of Antarctopelta oliveroi (MLP 86-X-28-1); to evaluate the degree of interelemental histological variation; to compare its histology with that of other ankylosaurs; to provide information about the phylogenetic affinities of Antarctopelta regarding dermal armor histology; and to evaluate the influence of a high latitude, strongly seasonal ecosystem on the growth of Antarctopelta. The sample includes several postcranial elements from the holotype (e.g. osteoderms, appendicular bones, dorsal ribs, ossified tendons). Bone histology reveals that the specimen was sexually mature at its time of death. Although a distinct Outer Circumferential Layer is not evident in all the sampled elements, the bone microstructure suggests quite slow appositional growth (i.e. most of the growth had already occurred) at the time of death. Primary cortical bone of the sampled elements, mostly composed of fibrolamellar bone tissue interrupted by growth marks, reveals a cyclical growth strategy as reported for other ankylosaurs and non-avian dinosaurs. The bone histology of Antarctopelta indicates that, as with other Southern Hemisphere polar dinosaurs, there are no apparent differences in growth strategy compared with its low latitude relatives. Therefore, no evident physiological modifications appears to be linked with the distribution of ankylosaurs and other non-avian dinosaurs at higher latitudes (>60S).
... The dinosaurian fauna of the James Ross Basin includes an ankylosaur ( Gasparini et al., 1987), three species of ornithopods (a hypsilophont, Hooker et al., 1991; two species of elasmarinans, Rodadilla et al., 2016), a hadrosaurid ( Case et al., 2000), a titanosaurian ( Cerda et al., 2011), and a paravian, the subject of this study. The initial identification of the specimen from the Naze Peninsula on James Ross Island described as belonging to Dromaeosauridae (Case et al., 2007) seemingly increased the biogeographic range of the clade, previously absent from Antarctica. ...
... Ankylosaur body fossils are uncommon throughout the rest of the Gondwanan continents, with undoubted specimens known only from South America , Coria & Salgado 2001 and Antarctica (Gasparini et al. 1987, Gasparini et al. 1996, Salgado & Gasparini 2006. Their occurrence in uppermost Cretaceous strata in conjunction with hadrosaurs has been held up as evidence for a connection between North and South America during the Late Cretaceous. ...
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Although Cretaceous fossils (coal excluded) from Victoria, Australia, were first reported in the 1850s, it was not until the 1950s that detailed studies of these fossils were undertaken. Numerous fossil localities have been identified in Victoria since the 1960s, including the Koonwarra Fossil Bed (Strzelecki Group) near Leongatha, the Dinosaur Cove and Eric the Red West sites (Otway Group) at Cape Otway, and the Flat Rocks site (Strzelecki Group) near Cape Paterson. Systematic exploration over the past five decades has resulted in the collection of thousands of fossils representing various plants, invertebrates and vertebrates. Some of the best-preserved and most diverse Hauterivian–Barremian floral assemblages in Australia derive from outcrops of the lower Strzelecki Group in the Gippsland Basin. The slightly younger Koonwarra Fossil Bed (Aptian) is a Konservat-Lagerstätte that also preserves abundant plants, including one of the oldest known flowers. In addition, insects, crustaceans (including the only syncaridans known from Australia between the Triassic and the present), arachnids (including Australia’s only known opilione), the stratigraphically youngest xiphosurans from Australia, bryozoans, unionoid molluscs and a rich assemblage of actinopterygian fish are known from the Koonwarra Fossil Bed. The oldest known—and only Mesozoic—fossil feathers from the Australian continent constitute the only evidence for tetrapods at Koonwarra. By contrast, the Barremian–Aptian-aged deposits at the Flat Rocks site, and the Aptian–Albian-aged strata at the Dinosaur Cove and Eric the Red West sites, are all dominated by tetrapod fossils, with actinopterygians and dipnoans relatively rare. Small ornithopod (=basal neornithischian) dinosaurs are numerically common, known from four partial skeletons and a multitude of isolated bones. Aquatic meiolaniform turtles constitute another prominent faunal element, represented by numerous isolated bones and articulated carapaces and plastrons. More than 50 specimens—mostly lower jaws—evince a high diversity of mammals, including monotremes, a multituberculate and several enigmatic ausktribosphenids. Relatively minor components of these fossil assemblages are diverse theropods (including birds), rare ankylosaurs and ceratopsians, pterosaurs, non-marine plesiosaurs and a lepidosaur. In the older strata of the upper Strzelecki Group, temnospondyl amphibians—the youngest known worldwide—are a conspicuous component of the fauna, whereas crocodylomorphs appear to be present only in up-sequence deposits of the Otway Group. Invertebrates are uncommon, although decapod crustaceans and unionoid bivalves have been described. Collectively, the Early Cretaceous biota of Victoria provides insights into a unique Mesozoic high-latitude palaeoenvironment and elucidates both palaeoclimatic and palaeobiogeographic changes throughout more than 25 million years of geological time.
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Dinosaurs were an abundant group of reptiles that originated in the mid-Triassic. They rapidly diversified, filling all of the ecological niches for large-bodied terrestrial vertebrates by the Late Triassic and dominated this landscape for 163 m.y. Yet due to the lack of direct evidence little is known about their metabolism. The question as to whether dinosaurs were “warm-blooded” or “cold-blooded” has been debated for over 25 years. Knowledge of dinosaur thermal physiology is critical if we are to understand how they lived and functioned. This knowledge can then be used to help answer questions regarding to their origin, diversification, and their eventual extinction. The question that is being resolved here is, “How do you stick a thermometer into dinosaur bone?”.
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Extensive and well-preserved tracksites in the coastally exposed Lower Cretaceous (Valanginian–Barremian) Broome Sandstone of the Dampier Peninsula provide almost the entire fossil record of dinosaurs from the western half of the Australian continent. Tracks near the town of Broome were described in the late 1960s as Megalosauropus broomensis and attributed to a medium-sized theropod trackmaker. Brief reports in the early 1990s suggested the occurrence of at least another nine types of tracks, referable to theropod, sauropod, ornithopod, and thyreophoran trackmakers, at scattered tracksites spread over more than 80 km of coastline north of Broome, potentially representing one of the world's most diverse dinosaurian ichnofaunas. More recently, it has been proposed that this number could be as high as 16 and that the sites are spread over more than 200 km. However, the only substantial research that has been published on these more recent discoveries is a preliminary study of the sauropod tracks and an account of the ways in which the heavy passage of sauropod trackmakers may have shaped the Dampier Peninsula's Early Cretaceous landscape. With the other types of dinosaurian tracks in the Broome Sandstone remaining undescribed, and the full extent and nature of the Dampier Peninsula's dinosaurian tracksites yet to be adequately addressed, the overall scientific significance of the ichnofauna has remained enigmatic. At the request of the area's Goolarabooloo Traditional Custodians, 400+ hours of ichnological survey work was undertaken from 2011 to 2016 on the 25 km stretch of coastline in the Yanijarri–Lurujarri section of the Dampier Peninsula, inclusive of the coastline at Walmadany (James Price Point). Forty-eight discrete dinosaurian tracksites were identified in this area, and thousands of tracks were examined and measured in situ and using three-dimensional photogrammetry. Tracksites were concentrated in three main areas along the coast: Yanijarri in the north, Walmadany in the middle, and Kardilakan–Jajal Buru in the south. Lithofacies analysis revealed 16 repeated facies types that occurred in three distinctive lithofacies associations, indicative of an environmental transgression between the distal fluvial to deltaic portions of a large braid plain, with migrating sand bodies and periodic sheet floods. The main dinosaurian track-bearing horizons seem to have been generated between periodic sheet floods that blanketed the preexisting sand bodies within the braid plain portion of a tidally influenced delta, with much of the original, gently undulating topography now preserved over large expanses of the present day intertidal reef system. Of the tracks examined, 150 could be identified and are assignable to a least eleven and possibly as many as 21 different track types: five different types of theropod tracks, at least six types of sauropod tracks, four types of ornithopod tracks, and six types of thyreophoran tracks. Eleven of these track types can formally be assigned or compared to existing or new ichnotaxa, whereas the remaining ten represent morphotypes that, although distinct, are currently too poorly represented to confidently assign to existing or new ichnotaxa. Among the ichnotaxa that we have recognized, only two (Megalosauropus broomensis and Wintonopus latomorum) belong to existing ichnotaxa, and two compare to existing ichnotaxa but display a suite of morphological features suggesting that they may be distinct in their own right and are therefore placed in open nomenclature. Six of the ichnotaxa that we have identified are new: one theropod ichnotaxon, Yangtzepus clarkei, ichnosp. nov.; one sauropod ichnotaxon, Oobardjidama foulkesi, ichnogen. et ichnosp. nov.; two ornithopod ichnotaxa, Wintonopus middletonae, ichnosp. nov., and Walmadanyichnus hunteri, ichnogen. et ichnosp. nov.; and two thyreophoran ichnotaxa, Garbina roeorum, ichnogen. et ichnosp. nov., and Luluichnus mueckei, ichnogen. et ichnosp. nov. The level of diversity of the main track types is comparable across areas where tracksites are concentrated: Kardilakan–Jajal Buru (12), Walmadany (11), and Yanijarri (10). The overall diversity of the dinosaurian ichnofauna of the Broome Sandstone in the Yanijarri–Lurujarri section of the Dampier Peninsula is unparalleled in Australia, and even globally. In addition to being the primary record of non-avian dinosaurs in the western half of Australia, this ichnofauna provides our only detailed glimpse of Australia's dinosaurian fauna during the first half of the Early Cretaceous. It indicates that the general composition of Australia's mid-Cretaceous dinosaurian fauna was already in place by the Valanginian–Barremian. Both sauropods and ornithopods were diverse and abundant, and thyreophorans were the only type of quadrupedal ornithischians. Important aspects of the fauna that are not seen in the Australian mid-Cretaceous body fossil record are the presence of stegosaurians, an overall higher diversity of thyreophorans and theropods, and the presence of large-bodied hadrosauroid-like ornithopods and very large-bodied sauropods. In many respects, these differences suggest a holdover from the Late Jurassic, when the majority of dinosaurian clades had a more cosmopolitan distribution prior to the fragmentation of Pangea. Although the record for the Lower Cretaceous of Gondwana is sparse, a similar mix of taxa occurs in the Barremian–lower Aptian La Amarga Formation of Argentina and the Berriasian–Hauterivian Kirkwood Formation of South Africa. The persistence of this fauna across the Jurassic-Cretaceous boundary in South America, Africa, and Australia might be characteristic of Gondwanan dinosaurian faunas more broadly. It suggests that the extinction event that affected Laurasian dinosaurian faunas across the Jurassic-Cretaceous boundary may not have been as extreme in Gondwana, and this difference may have foreshadowed the onset of Laurasian-Eurogondwanan provincialism. The disappearance of stegosaurians and the apparent drop in diversity of theropods by the mid-Cretaceous suggests that, similar to South America, Australia passed through a period of faunal turnover between the Valanginian and Aptian. -------- In: Society of Vertebrate Paleontology Memoir (Journal of Vertebrate Paleontology Vol. 36, supplement to 6, November 2016).
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