Your search keyword '"Ornithischia"' showing total 347 results

1. Early Jurassic origin of avian endothermy and thermophysiological diversity in dinosaurs.

Author

Chiarenza AA, Cantalapiedra JL, Jones LA, Gamboa S, Galván S, Farnsworth AJ, Valdes PJ, Sotelo G, and Varela S

Subjects

Animals, Body Temperature Regulation physiology, Acclimatization, Dinosaurs anatomy & histology, Dinosaurs physiology, Biological Evolution, Birds physiology, Birds anatomy & histology, Fossils anatomy & histology

Abstract

A fundamental question in dinosaur evolution is how they adapted to long-term climatic shifts during the Mesozoic and when they developed environmentally independent, avian-style acclimatization, becoming endothermic. 1 The ability of warm-blooded dinosaurs to flourish in harsher environments, including cold, high-latitude regions, , 2 The ability of warm-blooded dinosaurs to flourish in harsher environments, including cold, high-latitude regions, 3 , 4 raises intriguing questions about the origins of key innovations shared with modern birds, 5 , 6 indicating that the development of homeothermy (keeping constant body temperature) and endothermy (generating body heat) played a crucial role in their ecological diversification. 7 Despite substantial evidence across scientific disciplines (anatomy, 8 reproduction, 9 energetics, 10 biomechanics, 10 osteohistology, 11 palaeobiogeography, 12 geochemistry, 13 , 14 and soft tissues 15 , 16 , 17 ), a consensus on dinosaur thermophysiology remains elusive. 1 , 12 , 15 , 17 , 18 , 19 Differential thermophysiological strategies among terrestrial tetrapods allow endotherms (birds and mammals) to expand their latitudinal range (from the tropics to polar regions), owing to their reduced reliance on environmental temperature. 20 By contrast, most reptilian lineages (squamates, turtles, and crocodilians) and amphibians are predominantly constrained by temperature in regions closer to the tropics. 21 Determining when this macroecological pattern emerged in the avian lineage relies heavily on identifying the origin of these key physiological traits. Combining fossils with macroevolutionary and palaeoclimatic models, we unveil distinct evolutionary pathways in the main dinosaur lineages: ornithischians and theropods diversified across broader climatic landscapes, trending toward cooler niches. An Early Jurassic shift to colder climates in Theropoda suggests an early adoption of endothermy. Conversely, sauropodomorphs exhibited prolonged climatic conservatism associated with higher thermal conditions, emphasizing temperature, rather than plant productivity, as the primary driver of this pattern, suggesting poikilothermy with a stronger dependence on higher temperatures in sauropods., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

2. Tooth replacement in the early-diverging neornithischian Jeholosaurus shangyuanensis and implications for dental evolution and herbivorous adaptation in Ornithischia.

Author

Hu J, Xu X, Li F, and Han F

Subjects

Animals, Phylogeny, Herbivory, Fossils, Dinosaurs anatomy & histology, Tooth diagnostic imaging, Tooth surgery, Tooth anatomy & histology

Abstract

Background: Tooth replacement patterns of early-diverging ornithischians, which are important for understanding the evolution of the highly specialized dental systems in hadrosaurid and ceratopsid dinosaurs, are poorly known. The early-diverging neornithischian Jeholosaurus, a small, bipedal herbivorous dinosaur from the Early Cretaceous Jehol Biota, is an important taxon for understanding ornithischian dental evolution, but its dental morphology was only briefly described previously and its tooth replacement is poorly known., Results: CT scanning of six specimens representing different ontogenetic stages of Jeholosaurus reveals significant new information regarding the dental system of Jeholosaurus, including one or two replacement teeth in nearly all alveoli, relatively complete tooth resorption, and an increase in the numbers of alveoli and replacement teeth during ontogeny. Reconstructions of Zahnreihen indicate that the replacement pattern of the maxillary dentition is similar to that of the dentary dentition but with a cyclical difference. The maxillary tooth replacement rate in Jeholosaurus is probably 46 days, which is faster than that of most other early-diverging ornithischians. During the ontogeny of Jeholosaurus, the premaxillary tooth replacement rate slows from 25 days to 33 days with similar daily dentine formation., Conclusions: The tooth replacement rate exhibits a decreasing trend with ontogeny, as in Alligator. In a phylogenetic context, fast tooth replacement and multi-generation replacement teeth have evolved at least twice independently in Ornithopoda, and our analyses suggest that the early-diverging members of the major ornithischian clades exhibit different tooth replacement patterns as an adaption to herbivory., (© 2024. The Author(s).)

Published

2024

3. Placing juvenile specimens in phylogenies: An ontogenetically sensitive phylogenetic assessment of a new genus of iguanodontian dinosaur from the Early Cretaceous Kirkwood Formation, South Africa.

Author

Poole K

Subjects

Animals, Phylogeny, South Africa, Dinosaurs

Abstract

The phylogenetic relationships of the new dryosaurid genus Iyuku are explored using parsimony analysis. As all known specimens are juvenile, each character of the data matrix was examined across all included taxa for morphological changes through ontogeny in the phylogenetic characters. Any character that changed in any taxon was considered an ontogenetically sensitive character (OSC) and coded as unknown for juvenile specimens, including all specimens of Iyuku. This method was tested with three other genera in the data set that are known from juvenile and adult specimens: Orodromeus, Dryosaurus, and Hypacrosaurus. Four separate analyses were performed: (1) standard phylogenetic coding, (2) coding OSCs as unknown for juveniles, with both juvenile and adult OTUs present, (3) removal of adult specimens from second analysis, (4) adult specimens where known, taxa known only from juveniles coded as unknown for OSCs. In all taxa, congeneric juvenile and adult specimens were recovered as sister taxa (analysis 2), and juveniles in analysis 3 were found at a congruent node to the congeneric adult in analyses 1 and 4, though with a loss of resolution in the tree. Consideration of the changes in morphology through ontogeny across a given set of taxa can allow some confidence in the phylogenetic affinities of juvenile specimens. In all analyses, Iyuku is recovered as the sister taxon to Dysalotosaurus within Dryosauridae., (© 2022 American Association for Anatomy.)

Published

2023

4. Multiple pathways to herbivory underpinned deep divergences in ornithischian evolution.

Author

Button DJ, Porro LB, Lautenschlager S, Jones MEH, and Barrett PM

Subjects

Animals, Phylogeny, Herbivory, Skull anatomy & histology, Fossils, Biological Evolution, Dinosaurs anatomy & histology

Abstract

The extent to which evolution is deterministic is a key question in biology, 1 , 2 , 3 , 4 , 5 , High-fiber herbivory originated multiple times within ornithischian dinosaurs, 6 , 7 have not compared early-diverging taxa spanning independent acquisitions of herbivory. Here, we perform finite-element analysis on the skull of five early-diverging members of the major ornithischian clades to characterize morphofunctional pathways to herbivory. Results reveal limited functional convergence among ornithischian clades, with each instead achieving comparable performance, in terms of reconstructed patterns and magnitudes of functionally induced stress, through different adaptations of the feeding apparatus. Thyreophorans compensated for plesiomorphic low performance through increased absolute size, heterodontosaurids expanded jaw adductor muscle volume, ornithopods increased jaw system efficiency, and ceratopsians combined these approaches. These distinct solutions to the challenges of herbivory within Ornithischia underpinned the success of this diverse clade. Furthermore, the resolution of multiple solutions to equivalent problems within a single clade through macroevolutionary time demonstrates that phenotypic evolution is not necessarily predictable, instead arising from the interplay of adaptation, innovation, contingency, and constraints. , 8 , 9 with intensive debate on how adaptation 6 , 10 , 11 , 12 , 13 and constraints 14 , 15 , 16 might canalize solutions to ecological challenges. 4 , 5 , 6 Alternatively, unique adaptations 1 , 9 , 17 and phylogenetic contingency 1 , 3 , 18 may render evolution fundamentally unpredictable. 3 Information from the fossil record is critical to this debate, 1 , 2 , 11 but performance data for extinct taxa are limited. 7 This knowledge gap is significant, as general morphology may be a poor predictor of biomechanical performance. 17 , 19 , 20 High-fiber herbivory originated multiple times within ornithischian dinosaurs, 21 making them an ideal clade for investigating evolutionary responses to similar ecological pressures. 22 However, previous biomechanical modeling studies on ornithischian crania 17 , 23 , 24 , 25 have not compared early-diverging taxa spanning independent acquisitions of herbivory. Here, we perform finite-element analysis on the skull of five early-diverging members of the major ornithischian clades to characterize morphofunctional pathways to herbivory. Results reveal limited functional convergence among ornithischian clades, with each instead achieving comparable performance, in terms of reconstructed patterns and magnitudes of functionally induced stress, through different adaptations of the feeding apparatus. Thyreophorans compensated for plesiomorphic low performance through increased absolute size, heterodontosaurids expanded jaw adductor muscle volume, ornithopods increased jaw system efficiency, and ceratopsians combined these approaches. These distinct solutions to the challenges of herbivory within Ornithischia underpinned the success of this diverse clade. Furthermore, the resolution of multiple solutions to equivalent problems within a single clade through macroevolutionary time demonstrates that phenotypic evolution is not necessarily predictable, instead arising from the interplay of adaptation, innovation, contingency, and constraints. 1 , 2 , 3 , 7 , 8 , 9 , 18 ., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

5. Computed tomographic analysis of the dental system of three Jurassic ceratopsians and implications for the evolution of tooth replacement pattern and diet in early-diverging ceratopsians.

Author

Hu J, Forster CA, Xu X, Zhao Q, He Y, and Han F

Subjects

Animals, Diet, Fossils, Odontogenesis, Dinosaurs anatomy & histology, Tooth diagnostic imaging

Abstract

The dental system of ceratopsids is among the most specialized structure in Dinosauria by the presence of tooth batteries and high-angled wear surfaces. However, the origin of this unique dental system is poorly understood due to a lack of relevant knowledge in early-diverging ceratopsians. Here, we study the dental system of three earliest-diverging Chinese ceratopsians: Yinlong and Hualianceratops from the early Late Jurassic of Xinjiang and Chaoyangsaurus from the Late Jurassic of Liaoning Province. By micro-computed tomographic analyses, our study has revealed significant new information regarding the dental system, including no more than five replacement teeth in each jaw quadrant; at most one replacement tooth in each alveolus; nearly full resorption of the functional tooth root; and occlusion with low-angled, concave wear facets. Yinlong displays an increase in the number of maxillary alveoli and a decrease in the number of replacement teeth during ontogeny as well as the retention of functional tooth remnants in the largest individual. Chaoyangsaurus and Hualianceratops have slightly more replacement teeth than Yinlong . In general, early-diverging ceratopsians display a relatively slow tooth replacement rate and likely use gastroliths to triturate foodstuffs. The difference in dietary strategy might have influenced the tooth replacement pattern in later-diverging ceratopsians., Competing Interests: JH, CF, XX, QZ, YH, FH No competing interests declared, (© 2022, Hu et al.)

Published

2022

6. Climatic constraints on the biogeographic history of Mesozoic dinosaurs.

Author

Chiarenza AA, Mannion PD, Farnsworth A, Carrano MT, and Varela S

Subjects

Animals, Biodiversity, Ecosystem, Fossils, Phylogeny, Dinosaurs anatomy & histology

Abstract

Dinosaurs dominated Mesozoic terrestrial ecosystems globally. However, whereas a pole-to-pole geographic distribution characterized ornithischians and theropods, sauropods were restricted to lower latitudes. Here, we evaluate the role of climate in shaping these biogeographic patterns through the Jurassic-Cretaceous (201-66 mya), combining dinosaur fossil occurrences, past climate data from Earth System models, and habitat suitability modeling. Results show that, uniquely among dinosaurs, sauropods occupied climatic niches characterized by high temperatures and strongly bounded by minimum cold temperatures. This constrained the distribution and dispersal pathways of sauropods to tropical areas, excluding them from latitudinal extremes, especially in the Northern Hemisphere. The greater availability of suitable habitat in the southern continents, particularly in the Late Cretaceous, might be key to explaining the high diversity of sauropods there, relative to northern landmasses. Given that ornithischians and theropods show a flattened or bimodal latitudinal biodiversity gradient, with peaks at higher latitudes, the closer correspondence of sauropods to a subtropical concentration could hint at fundamental thermophysiological differences to the other two clades., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

7. A new Heterodontosaurus specimen elucidates the unique ventilatory macroevolution of ornithischian dinosaurs.

Author

Radermacher VJ, Fernandez V, Schachner ER, Butler RJ, Bordy EM, Naylor Hudgins M, de Klerk WJ, Chapelle KE, and Choiniere JN

Subjects

Animals, Dinosaurs physiology, Biological Evolution, Dinosaurs anatomy & histology, Fossils anatomy & histology, Pulmonary Ventilation

Abstract

Ornithischian dinosaurs were ecologically prominent herbivores of the Mesozoic Era that achieved a global distribution by the onset of the Cretaceous. The ornithischian body plan is aberrant relative to other ornithodiran clades, and crucial details of their early evolution remain obscure. We present a new, fully articulated skeleton of the early branching ornithischian Heterodontosaurus tucki . Phase-contrast enhanced synchrotron data of this new specimen reveal a suite of novel postcranial features unknown in any other ornithischian, with implications for the early evolution of the group. These features include a large, anteriorly projecting sternum; bizarre, paddle-shaped sternal ribs; and a full gastral basket - the first recovered in Ornithischia. These unusual anatomical traits provide key information on the evolution of the ornithischian body plan and suggest functional shifts in the ventilatory apparatus occurred close to the base of the clade. We complement these anatomical data with a quantitative analysis of ornithischian pelvic architecture, which allows us to make a specific, stepwise hypothesis for their ventilatory evolution., Competing Interests: VR, VF, ES, RB, EB, MN, Wd, KC, JC No competing interests declared, (© 2021, Radermacher et al.)

Published

2021

8. A new, 'hip' way to breathe.

Author

Spencer MR

Subjects

Animals, Biological Evolution, Dinosaurs

Abstract

Ornithischians, one of the three major groups of dinosaurs, developed a unique mechanism to ensure airflow in the lungs., Competing Interests: MS No competing interests declared, (© 2021, Spencer.)

Published

2021

9. Cranial Musculature in Herbivorous Dinosaurs: A Survey of Reconstructed Anatomical Diversity and Feeding Mechanisms.

Author

Nabavizadeh A

Subjects

Animals, Biological Evolution, Dinosaurs physiology, Fossils, Muscle, Skeletal physiology, Skull physiology, Dinosaurs anatomy & histology, Feeding Behavior physiology, Herbivory physiology, Muscle, Skeletal anatomy & histology, Skull anatomy & histology

Abstract

Herbivorous dinosaurs exhibited diverse cranial feeding mechanisms. Although osteological, microwear, and biomechanical research has revealed some of this diversity, the evolutionary reorientation of cranial musculature throughout nonavian herbivorous Dinosauria and its influence on feeding mechanisms requires more study. Here, cranial muscle reconstructions in herbivorous dinosaurs are reviewed and informative anatomical characters are compared across 142 dinosaur genera (84 ornithischians, 36 sauropodomorphs, and 22 herbivorous nonavian theropods), both through examination of specimens and literature. Traits include those relating to the temporal region, adductor chamber, palate, and mandibular attachments, such as the coronoid elevation and retroarticular process. Findings reveal many combinations of anatomical traits influencing a diversity of feeding mechanisms. Some primarily more orthal feeders, including herbivorous theropods, nonsauropod sauropodomorphs, basal ornithischians, and derived stegosaurs (which also show varying degrees of coinciding slight palinal motion and long-axis hemimandibular rotation), possess traits indicative of more prominent temporal musculature and moderately sized palatal musculature. However, orthal feeding sauropods and pachycephalosaurs possess traits indicative of greatly reduced, low-angled temporal musculature, and enhanced palatal musculature producing a primarily vertical, orthal feeding vector. Among ankylosaurs, hadrosaurids, and neoceratopsians, a rostrolabial temporal muscle expansion is present (with a tall coronoid elevation in hadrosaurids and ceratopsids) for greater temporal muscle support and mechanical advantage for complex palinal feeding motions. This also aids in long-axis hemimandibular rotation against the predentary in hadrosaurs and ankylosaurs. This diversity in cranial muscle architecture provides an informative spectrum of numerous adaptations acquired given the evolution of various anatomical constraints in the skull. Anat Rec, 303:1104-1145, 2020. © 2019 American Association for Anatomy., (© 2019 American Association for Anatomy.)

Published

2020

10. New Reconstruction of Cranial Musculature in Ornithischian Dinosaurs: Implications for Feeding Mechanisms and Buccal Anatomy.

Author

Nabavizadeh A

Subjects

Animals, Biological Evolution, Bite Force, Dinosaurs physiology, Fossils, Jaw physiology, Muscle, Skeletal physiology, Skull anatomy & histology, Skull physiology, Dinosaurs anatomy & histology, Eating physiology, Jaw anatomy & histology, Muscle, Skeletal anatomy & histology

Abstract

The charismatic and diverse ornithischian dinosaurs exhibited some of the most extreme examples of cranial anatomy, inspiring decades of investigation into their muscular anatomy. Current ornithischian jaw muscle reconstructions, although parsimonious, pose concerns of small adductor muscles and caudally displaced insertions relative to mandibular proportions. Here, craniomandibular material of ornithischian genera spanning all subclades is reexamined for osteological correlates indicative of intracranial and oral soft tissues. M. adductor mandibulae externus (mAME) has traditionally been reconstructed as solely inserting along the caudal margin of the coronoid process for jaw closure. Here, a new mAME reconstruction is proposed in derived ornithischians, with the superficial-most mAME layer reconstructed as a rostrolabial expansion of muscle, exiting the cranium rostroventrally beneath a unique, laterally flaring jugal and inserting along the lateral surface of the coronoid process and its rostrally extending, shelf-like labial dentary ridge (LDR). Through previous dental microwear and morphological studies, ceratopsians, hadrosaurids, and ankylosaurs are known to have implemented a major palinal feeding component in their jaw motions, unlike other primarily basal ornithischians. This rostral fan-like extension of muscle in these derived clades would create a greater mandibular support system and mechanical advantage along the labial margin of the jaw, cradling the entire mandible while lifting it up into occlusion and retracting it. In hadrosaurids and ankylosaurs, this rostrolabially expanding muscle also acts in medial rotation of the dentaries about their long axes. With these new reconstructions, the notion of a novel, unparsimonious "cheek" muscle is rejected, with further discussion of plausible buccal soft tissues. Anat Rec, 2018. © 2018 Wiley Periodicals, Inc. Anat Rec, 303:347-362, 2020. © 2018 American Association for Anatomy., (© 2018 Wiley Periodicals, Inc.)

Published

2020

11. Heterodonty and double occlusion in Manidens condorensis: a unique adaptation in an Early Jurassic ornithischian improving masticatory efficiency.

Author

Becerra MG, Pol D, Rössner GE, and Rauhut OWM

Subjects

Animals, Biological Evolution, Dinosaurs physiology, Herbivory, Jaw anatomy & histology, Mastication, Adaptation, Physiological, Dinosaurs anatomy & histology, Fossils, Tooth anatomy & histology

Abstract

New materials of the ornithischian dinosaur Manidens condorensis highlight a strong heterodonty between the upper and lower dentitions and reveal a novel occlusion type previously unreported in herbivorous dinosaurs. The diamond-shaped maxillary teeth have prominent cingular entolophs in a V- to Z-shaped configuration that are absent in dentary teeth. These cingular entolophs bear denticles and serrations with vertical wear that is coplanar with the apical wear facets, supporting their involvement in chewing. The separated apical and basal wear in dentary teeth is consistent with the apical and cingular wear in maxillary teeth, indicating an alternate occlusion, an orthal jaw motion, and shearing interactions between marginal and cingular edges in a double occlusion. Measurements of the length and wear area along the marginal and cingular edges indicate that the latter are functionally equivalent to adding eight teeth to a maxillary toothrow of ten, almost doubling the lengths of cutting edges and the degree of intraoral processing, while maintaining a plesiomorphic skull anatomy, an adaptation to herbivory unique in Ornithischia.

Published

2018

12. A dinosaur missing-link? Chilesaurus and the early evolution of ornithischian dinosaurs.

Author

Baron MG and Barrett PM

Subjects

Animals, Biological Evolution, Bone and Bones, Fossils, Phylogeny, Dinosaurs

Abstract

The enigmatic dinosaur taxon Chilesaurus diegosuarezi was originally described as a tetanuran theropod, but this species possesses a highly unusual combination of features that could provide evidence of alternative phylogenetic positions within the clade. In order to test the relationships of Chilesaurus , we added it to a new dataset of early dinosaurs and other dinosauromorphs. Our analyses recover Chilesaurus in a novel position, as the earliest diverging member of Ornithischia, rather than a tetanuran theropod. The basal position of Chilesaurus within the clade and its suite of anatomical characters suggest that it might represent a 'transitional' taxon, bridging the morphological gap between Theropoda and Ornithischia, thereby offering potential insights into the earliest stages of ornithischian evolution, which were previously obscure. For example, our results suggest that pubic retroversion occurred prior to some of the craniodental and postcranial modifications that previously diagnosed the clade (e.g. the presence of a predentary bone and ossified tendons)., (© 2017 The Author(s).)

Published

2017

13. Morphological Diversity and Evolution of the Jugal in Dinosaurs.

Author

Sullivan C and Xu X

Subjects

Aggression, Animals, Behavior, Animal physiology, Social Behavior, Biological Evolution, Dinosaurs anatomy & histology, Fossils, Zygoma anatomy & histology

Abstract

In dinosaurs, as in other reptiles, the homologue of the mammalian zygomatic bone is the jugal. The dinosaurian jugal was primitively triradiate, with posterior, dorsal and anterior processes that respectively contacted the quadratojugal, the postorbital, and the maxilla and lacrimal. However, the jugal evolved along different lines in the three major dinosaurian clades. In theropods this cranial element remained relatively conservative in morphology, apart from being reduced to a rod-like structure in most birds and a few non-avians. In sauropodomorphs the jugal eventually became small, plate-like and nearly restricted to the area below the orbit, even being excluded from the ventral margin of the skull in many derived taxa. Among ornithischians the jugal was highly variable, but in many cases became large and/or adorned with ornamental features such as horns, flanges, and rugosities. The jugal does not appear to have been a site of muscle attachment in most non-avian dinosaurs, but represented an important structural element in the akinetic dinosaurian skull. The conspicuous jugal ornaments seen in many ornithischian dinosaurs, like the less striking ones documented in some saurischians, may have played an important role in the social behavior of the species that possessed them. In many cases they have a weapon-like aspect suggesting use in aggressive displays, if not actual combat, adding to the evidence that agonistic behavior was likely widespread among ornithischians in particular. Anat Rec, 300:30-48, 2017. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2017

14. The Predentary Bone and Its Significance in the Evolution of Feeding Mechanisms in Ornithischian Dinosaurs.

Author

Nabavizadeh A and Weishampel DB

Subjects

Animals, Biological Evolution, Dinosaurs physiology, Fossils, Jaw physiology, Dinosaurs anatomy & histology, Eating physiology, Jaw anatomy & histology

Abstract

The characteristic predentary bone in ornithischian dinosaurs is a unique, unpaired element located at the midline of the mandibular symphysis. Although traditionally thought to only be a plant "nipping" bone, the true functional significance of this bone among feeding mechanisms of ornithischian dinosaurs is poorly known. Recent studies of a select few ornithischian genera have suggested rotation of the mandibular corpora around their long axes relative to their midline joint articulation with the predentary bone. This study aims to re-evaluate these hypotheses as well as provide in-depth qualitative comparative descriptions of predentary bone morphology in ornithischian genera throughout all subclades, including heterodontosaurids, thyreophorans, ornithopods, and marginocephalians. Descriptions evaluate overall shape of the predentary, its articular surfaces contacting the rostral ends of the dentaries, and the morphology of the rostral extent of the dentaries and their midline symphysis. Functionally relevant morphologies in each predentary morphotype are accentuated for further speculation of feeding mechanisms. Three predentary morphotypes are described throughout ornithischian subclades and each plays a unique role in feeding adaptations. Most notably, the predentary likely evolved as a midline axial point of the mandibular symphysis for simultaneous variable movement or rotation of the mandibular corpora in many, but not all, taxa. This simultaneous movement of the hemimandibles would have aided in feeding on both sides of the jaw at once. The function of the predentary as well as other jaw adaptations is discussed for genera throughout all subclades, focusing on both general shape and joint morphology. Anat Rec, 299:1358-1388, 2016. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

15. Histologic Examination of an Assemblage of Psittacosaurus (Dinosauria: Ceratopsia) Juveniles From the Yixian Formation (Liaoning, China).

Author

Bo Z, Hedrick BP, Chunling G, Tumarkin-Deratzian AR, Fengjiao Z, Caizhi S, and Dodson P

Subjects

Animals, Body Size, Bone Development, China, Dinosaurs physiology, Phylogeny, Bone and Bones anatomy & histology, Dinosaurs anatomy & histology, Histological Techniques methods

Abstract

Psittacosaurus is one of the most abundant dinosaurs known, which allows for extensive study of its growth and form. Previous studies have evaluated growth trajectories of Psittacosaurus using bone histology. However, we present the first study of Psittacosaurus comparative juvenile histology and describe the histology of Psittacosaurus within its first year of life based on multiple sections taken from an exquisite monospecific assemblage of juveniles from the Yixian Formation in Liaoning, China. Specimens studied had femur lengths ranging from 30 to 36 mm. The five juveniles examined all have similar histologic patterns in the midshaft and epiphyseal regions showing that there is limited plasticity in bone development in juvenile Psittacosaurus and that all of the specimens in the assemblage were likely the same age. The microstructure patterns are compatible with the hypothesis that Psittacosaurus was precocial and that these juveniles were neonates. Based on comparisons with other juvenile ornithischians, juvenile Psittacosaurus had a growth rate similar to Orodromeus, slower than that of Maiasaura, Dysalotosaurus, or hadrosaurs consistent with small body size. Our results support previous studies that demonstrated that the orientation of vascular canals is likely not solely reflective of growth rate, but is also affected by underlying biomechanical, structural processes. The number of studies done on theropod and sauropodomorph histology dwarfs those of ornithischians. More studies of ornithischian histology are necessary in order to better establish phylogenetic trends in microstructure and to learn more about growth in this important clade., (© 2016 Wiley Periodicals, Inc.)

Published

2016

16. A palaeoequatorial ornithischian and new constraints on early dinosaur diversification.

Author

Barrett PM, Butler RJ, Mundil R, Scheyer TM, Irmis RB, and Sánchez-Villagra MR

Subjects

Animals, Geologic Sediments, Phylogeny, Venezuela, Biological Evolution, Dinosaurs anatomy & histology, Dinosaurs classification, Fossils anatomy & histology

Abstract

Current characterizations of early dinosaur evolution are incomplete: existing palaeobiological and phylogenetic scenarios are based on a fossil record dominated by saurischians and the implications of the early ornithischian record are often overlooked. Moreover, the timings of deep phylogenetic divergences within Dinosauria are poorly constrained owing to the absence of a rigorous chronostratigraphical framework for key Late Triassic-Early Jurassic localities. A new dinosaur from the earliest Jurassic of the Venezuelan Andes is the first basal ornithischian recovered from terrestrial deposits directly associated with a precise radioisotopic date and the first-named dinosaur from northern South America. It expands the early palaeogeographical range of Ornithischia to palaeoequatorial regions, an area sometimes thought to be devoid of early dinosaur taxa, and offers insights into early dinosaur growth rates, the evolution of sociality and the rapid tempo of the global dinosaur radiation following the end-Triassic mass extinction, helping to underscore the importance of the ornithischian record in broad-scale discussions of early dinosaur history., (© 2014 The Author(s) Published by the Royal Society. All rights reserved.)

Published

2014

17. Locomotion in ornithischian dinosaurs: an assessment using three-dimensional computational modelling.

Author

Maidment SC, Bates KT, Falkingham PL, VanBuren C, Arbour V, and Barrett PM

Subjects

Animals, Extremities anatomy & histology, Extremities physiology, Computer Simulation, Dinosaurs anatomy & histology, Dinosaurs physiology, Models, Biological, Motor Activity physiology

Abstract

Ornithischian dinosaurs were primitively bipedal with forelimbs modified for grasping, but quadrupedalism evolved in the clade on at least three occasions independently. Outside of Ornithischia, quadrupedality from bipedal ancestors has only evolved on two other occasions, making this one of the rarest locomotory transitions in tetrapod evolutionary history. The osteological and myological changes associated with these transitions have only recently been documented, and the biomechanical consequences of these changes remain to be examined. Here, we review previous approaches to understanding locomotion in extinct animals, which can be broadly split into form-function approaches using analogy based on extant animals, limb-bone scaling, and computational approaches. We then carry out the first systematic attempt to quantify changes in locomotor muscle function in bipedal and quadrupedal ornithischian dinosaurs. Using three-dimensional computational modelling of the major pelvic locomotor muscle moment arms, we examine similarities and differences among individual taxa, between quadrupedal and bipedal taxa, and among taxa representing the three major ornithischian lineages (Thyreophora, Ornithopoda, Marginocephalia). Our results suggest that the ceratopsid Chasmosaurus and the ornithopod Hypsilophodon have relatively low moment arms for most muscles and most functions, perhaps suggesting poor locomotor performance in these taxa. Quadrupeds have higher abductor moment arms than bipeds, which we suggest is due to the overall wider bodies of the quadrupeds modelled. A peak in extensor moment arms at more extended hip angles and lower medial rotator moment arms in quadrupeds than in bipeds may be due to a more columnar hindlimb and loss of medial rotation as a form of lateral limb support in quadrupeds. We are not able to identify trends in moment arm evolution across Ornithischia as a whole, suggesting that the bipedal ancestry of ornithischians did not constrain the development of quadrupedal locomotion via a limited number of functional pathways. Functional anatomy appears to have had a greater effect on moment arms than phylogeny, and the differences identified between individual taxa and individual clades may relate to differences in locomotor performance required for living in different environments or for clade-specific behaviours., (© 2013 The Authors. Biological Reviews © 2013 Cambridge Philosophical Society.)

Published

2014

18. Hadrosaur-like vascularisation in the dentary of an early diverging iguanodontian dinosaur.

Author

Rotatori, Filippo Maria, Quaranta, Mattia, Bertozzo, Filippo, Hübner, Tom, Camilo, Bruno, Mateus, Octávio, and Moreno-Azanza, Miguel

Subjects

*MANDIBLE, *ORNITHISCHIA, *PALEOBIOLOGY, *PALEONTOLOGY, *RESEARCH personnel, *DINOSAURS

Abstract

Virtual palaeontology is a growing field, leading palaeontologists to better understand the microanatomy of many extinct species. The application of techniques such as CT and μCT-scanning allows the researchers to study micro-anatomical features in a non-invasive way and make inferences on the palaeobiology of animals. Dinosaurs have been extensively studied using these techniques, with particular focus on the microanatomy of the cranium, whereas relatively little is known of other cranial elements, such as the lower jaw. Here, we aim to fill this gap, describing the microanatomy of the specimen ML 768, an isolated dentary belonging to a dryosaurid iguanodontian dinosaur from the Upper Jurassic of Lourinhã Fm. The dentary ML 768 was subjected to μCT-scanning, and subsequently the data were segmented in Avizo and rendered in Blender. We identified functional and replacement teeth, recognising remnants of old replacement cycles. Furthermore, we mapped a rich neurovascular network present in the dentary and compared it with reference literature. We found that the high vascularisation is shared with other cerapodan dinosaurs with high tooth replacement rates, although homoeostasis may have also played a role in the development of this condition. Further evidence is needed to appreciate the macroevolutionary significance of these findings. [ABSTRACT FROM AUTHOR]

Published

2024

19. Coahuilasaurus lipani , a New Kritosaurin Hadrosaurid from the Upper Campanian Cerro Del Pueblo Formation, Northern Mexico.

Author

Longrich, Nicholas R., Ramirez Velasco, Angel Alejandro, Kirkland, Jim, Bermúdez Torres, Andrés Eduardo, and Serrano-Brañas, Claudia Inés

Subjects

*ORNITHISCHIA, *DINOSAURS, *BIOGEOGRAPHY, *HERBIVORES, *LATITUDE

Abstract

The Late Cretaceous of Western North America (Laramidia) supported a diverse dinosaur fauna, with duckbilled dinosaurs (Hadrosauridae) being among the most speciose and abundant members of this assemblage. Historically, collecting and preservational biases have meant that dinosaurs from Mexico and the American Southwest are poorly known compared to those of the northern Great Plains. However, evidence increasingly suggests that distinct species and clades inhabited southern Laramidia. Here, a new kritosaurin hadrosaurid, represented by the anterior part of a skull, is reported from the late Campanian of the Cerro del Pueblo Formation, ~72.5 Ma, in Coahuila, Mexico. The Cerro del Pueblo Formation kritosaur was originally considered to represent the same species as a saurolophine from the Olmos Formation of Sabinas, but the Sabinas hadrosaur is now considered a distinct taxon. More recently, the Cerro del Pueblo Formation kritosaur has been referred to Kritosaurus navajovius. We show it represents a new species related to Gryposaurus. The new species is distinguished by its large size, the shape of the premaxillary nasal process, the strongly downturned dentary, and massive denticles on the premaxilla's palatal surface, supporting recognition of a new taxon, Coahuilasaurus lipani. The dinosaur assemblage of the Cerro del Pueblo Formation shows higher diversity than the contemporaneous fauna of the Horseshoe Canyon Formation in Alberta. Furthermore, Kritosaurini, Lambeosaurini, and Parasaurolophini all persist into the latest Campanian in southern Laramidia after disappearing from northern Laramidia. These patterns suggest declining herbivore diversity seen at high latitudes may be a local, rather than global phenomenon, perhaps driven by cooling at high latitudes in the Late Campanian and Maastrichtian. [ABSTRACT FROM AUTHOR]

Published

2024

20. Histological analysis and etiology of a pathological iguanodontian femur from England.

Author

Bertozzo, Filippo, Stein, Koen, Varotto, Elena, Galassi, Francesco M., Ruffell, Alastair, and Murphy, Eileen

Subjects

*ORNITHISCHIA, *FOSSILS, *DINOSAURS, *PALEOPATHOLOGY, *OVULATION

Abstract

Derived ornithopods, such as hadrosaurids, show a high occurrence of fossilized lesions and diseases. However, paleopathologies in iguanodontians seem to be less common, considering the rich fossil record of these taxa in Europe, in particular in Belgium, Britain and Spain. Here, we describe an iguanodontian femur discovered in England that exhibits a large overgrowth of its lateral aspect, not previously recognized in any other similar remains. The specimen was scanned with micro‐computed tomography (microCT) and later sectioned in three sites of the overgrowth for histological analysis. The femur belongs to an early adult Iguanodontia indet., based on the presence of a woven parallel fibered complex in the outer cortex and three to four lines of arrested growth. Internal analysis of the dome‐like overgrowth suggests it can be diagnosed as a fracture callus. The injury might have negatively impacted upon the animal's locomotion as the trauma had occurred in the region above the knee, a crucial spot for hindlimb musculature. Finally, a cancellous medullary bone‐like tissue was recognized in the medullary cavity next to the pathological overgrowth. An attempt was made to determine the precise nature of this tissue, as medullary bone is linked with the ovulation period in (avian) dinosaurs, whereas other types of endosteal, medullary bone‐like tissue have previously been recognized in pathological bones. [ABSTRACT FROM AUTHOR]

Published

2024

21. TITANICS.

Author

Gallivan, Peter

Subjects

TITANOSAURUS, DINOSAURS, ORNITHISCHIA, SAURISCHIA, TRIASSIC Period, JURASSIC Period, CRETACEOUS Period

Abstract

The article offers information on the biggest dinosaurs known as titanosaurs. Topics discussed include the evolution of dinosaurs in terms of size from the Triassic to the Jurassic period, the emergence of ornithischians, theropods, and sauropods by the Cretaceous period, and the possible contribution of increased oxygen in the air to the significant growth of titanosaurs.

Published

2024

22. Trophic evolution in ornithopod dinosaurs revealed by dental wear.

Author

Ősi, Attila, Barrett, Paul M., Nagy, András Lajos, Szenti, Imre, Vásárhelyi, Lívia, Magyar, János, Segesdi, Martin, Csiki-Sava, Zoltán, Botfalvai, Gábor, and Jó, Viviána

Subjects

TOOTH abrasion, MECHANICAL wear, ORNITHISCHIA, DINOSAURS, TEETH

Abstract

Ornithopod dinosaurs evolved numerous craniodental innovations related to herbivory. Nonetheless, the relationship between occlusion, tooth wear rate, and tooth replacement rate has been neglected. Here, we reconstruct tooth wear rates by measuring tooth replacement rates and tooth wear volumes, and document their dental microwear. We demonstrate that total tooth volume and rates of tooth wear increased steadily during ornithopod evolution, with deeply-nested taxa wearing up to 3360 mm3 of tooth volume/day. Increased wear resulted in asymmetric tooth crown formation with uneven von Ebner line increment width by the Late Jurassic, and in faster tooth replacement rates in multiple lineages by the mid-Cretaceous. Microwear displays a contrasting pattern, with decreasing complexity and pit percentages in deeply-nested and later-occurring taxa. We hypothesize that early ornithopods were browsers and/or frugivores but deeply nested iguanodontians were bulk-feeders, eating tougher, less nutritious plants; these trends correlate with increasing body mass and longer gut passage times. Ornithopod dinosaurs adapted to be herbivorous. Here, the authors track increased tooth volume, wear, and replacement rates through ornithopod evolution, suggesting that early ornithopods were frugivores or browsers, but later iguanodontians fed on tough, less nutritious plants. [ABSTRACT FROM AUTHOR]

Published

2024

23. Taxonomic and stratigraphic update of the material historically attributed to Megalosaurus from Portugal.

Author

MALAFAIA, ELISABETE, MOCHO, PEDRO, ESCASO, FERNANDO, NARVAÉZ, IVAN, and ORTEGA, FRANCISCO

Subjects

*FOSSIL vertebrates, *FOSSILS, *FOSSIL collection, *ORNITHISCHIA, *VERTEBRAE, *DINOSAURS, *SAURISCHIA

Abstract

The first paleontological works on Mesozoic vertebrates from Portugal, carried out from the end of the 19th and the first half of the 20th century, provided the discovery of significant collections of vertebrate fossils. These collections are particularly relevant because they include several specimens collected from different regions of the Lusitanian Basin (some of the sites are currently inaccessible), whose fossil record is poorly known. Theropod remains are relatively scarce and generally consist of fragmentary material, mostly assigned to the megalosaurid Megalosaurus from the Middle Jurassic of England, the first dinosaur to be named and a "wastebasket" taxon used by many scientists to identify theropod material. The studied fossils mostly consist of isolated teeth and vertebrae collected from Upper Jurassic levels of the coastal region, with also some material from Lower and Upper Cretaceous strata from the central and northern sectors of the Lusitanian Basin. Here specimens attributed to Megalosaurus from different Portuguese institutions are reviewed and their taxonomic affinity and stratigraphic context are updated. Most specimens actually belong to different theropod groups, including several isolated teeth from different Upper Jurassic localities here assigned to Ceratosaurus, Torvosaurus, and Allosaurus, as well as an isolated tooth from the Lower Cretaceous that is attributed to an indeterminate allosauroid. Other theropod remains consist mostly of vertebral fragments of indeterminate avetheropods and allosauroids. Elements of other dinosaur groups are also represented, including a few vertebrae here referred to stegosaurians and iguanodontians, as well as a vertebra and some appendicular remains attributed to sauropods. Two vertebrae assigned to thalattosuchians were also identified. The study of this collection allows to better characterize the diversity of Late Jurassic dinosaur faunas from different areas of the Lusitanian Basin and provides some data on the poorly known Cretaceous fossil record of theropods from Portugal. [ABSTRACT FROM AUTHOR]

Published

2024

24. The osteology of Haya griva (Dinosauria: Ornithischia) from the Late Cretaceous of Mongolia / Daniel E. Barta and Mark A. Norell.

Author

Barta, Daniel E., Norell, Mark A., American Museum of Natural History Library, Barta, Daniel E., and Norell, Mark A.

Subjects

Cretaceous, Dinosaurs, Haya griva, Khugenetslavkant Region, Mongolia, Ornithischia, Paleontology, Ukhaa Tolgod Region

Published

2021

25. The first hadrosaurid trackway from the horseshoe canyon formation (campanian/maastrichtian) of Alberta, Canada.

Author

Powers, Mark J., Rhodes, Matthew M., Dyer, Aaron D., Mendonca, Steven E., Wilkinson, Ryan, Hudgins, Michael Naylor, Pruden, Matthew J., Currie, Philip J., and Funston, Gregory F.

Subjects

*FOSSIL vertebrates, *TRACE fossils, *HORSESHOES, *CANYONS, *FOOT, *TOES, *DINOSAURS

Abstract

The Horseshoe Canyon Formation has provided a wealth of vertebrate skeletal fossils over the past 100 years of collection. Vertebrate trace fossils such as footprints and trackways, however, have been markedly underrepresented. Trackways can provide a wealth of information regarding behaviour and soft tissues reflective of autopodial anatomy. Discovery of several giant, high-fidelity ichnites in series from the Morrin Member represents the first definitive dinosaur trackway reported from the Horseshoe Canyon Formation. The trackway is composed of three footprint casts in series, alongside 22 associated ichnites. The ichnites were formed in soft sediment molds along a non-uniform walking surface. The deep substrates allowed for the preservation of both the plantar surface and dorsal components of the trackmakers' feet. Some ichnites show soft tissue morphologies like interdigital webbing, toe pads, and skin impressions. Presence of these features and small kidney-shaped forelimb prints allow referral to Hadrosauropodus langstoni. The preservation of the trackway demonstrates asymmetries useful for comparison of the relief and impression surfaces of prints using both discrete and morphometric characteristics, improving confidence in identifying partial or isolated Hadrosauropodus prints of various modes of formation. [ABSTRACT FROM AUTHOR]

Published

2023

26. A New Basal Neornithischian Dinosaur from the Phu Kradung Formation (Upper Jurassic) of Northeastern Thailand.

Author

Manitkoon, Sita, Deesri, Uthumporn, Khalloufi, Bouziane, Nonsrirach, Thanit, Suteethorn, Varavudh, Chanthasit, Phornphen, Boonla, Wansiri, and Buffetaut, Eric

Subjects

*FOSSIL vertebrates, *DINOSAURS, *ILIUM, *FOSSIL collection

Abstract

An exceptional articulated skeleton of a new basal neornithischian dinosaur, Minimocursor phunoiensis gen. et sp. nov., was discovered in the Late Jurassic Phu Kradung Formation at the Phu Noi locality, Kalasin Province, Thailand, a highly productive non-marine fossil vertebrate locality of the Khorat Plateau. It is one of the best-preserved dinosaurs ever found in Southeast Asia. Minimocursor phunoiensis gen. et sp. nov. shows a combination of both plesiomorphic and apomorphic characters resembling those of Late Jurassic to Early Cretaceous small-bodied ornithischians from China: a low subtriangular boss is projected laterally on the surface of the jugal, the brevis shelf of the ilium is visible in lateral view along its entire length, a distinct supraacetabular flange is present on the pubic peduncle of the ilium, the prepubis tip extends beyond the distal end of the preacetabular process of the ilium, and the manus digit formula is ?-3-4-3-2. The phylogenetic analysis shows that this dinosaur is among the most basal neornithischians. This study provides a better understanding of the early evolution and taxonomic diversity of ornithischians in Southeast Asia. [ABSTRACT FROM AUTHOR]

Published

2023

27. Vectipelta barretti, a new ankylosaurian dinosaur from the Lower Cretaceous Wessex Formation of the Isle of Wight, UK.

Author

Pond, Stuart, Strachan, Sarah-Jane, Raven, Thomas J., Simpson, Martin I., Morgan, Kirsty, and Maidment, Susannah C. R.

Subjects

*ISLANDS, *DINOSAURS, *FLOODPLAINS, *LAGOONS, *CATALOGING, *SPECIES

Abstract

The Wealden Group of southern England was deposited by rivers, on floodplains and in lagoons during the Early Cretaceous. Two historically significant ankylosaurs, Polacanthus and Hylaeosaurus, are currently known from its deposits; Hylaeosaurus from the 'lower Wealden fauna' and Polacanthus from the 'upper Wealden fauna'. Here, we describe a new genus and species of ankylosaur from the Wessex Formation of the Isle of Wight, which is characterized by numerous postcranial autapomorphies. Vectipelta barretti gen. et sp. nov. is 6–8 million years older than Polacanthus, and at least 3 million years younger than Hylaeosaurus, suggesting a more complicated pattern of faunal turnover in the Wealden Group than previously realized. Vectipelta does not appear to be closely related to either of the other Wealden taxa, but instead is found in a clade with two Chinese ankylosaurs, suggesting a complex pattern of dispersal to and from Europe, North America and Asia during the Early Cretaceous. The historic practise of cataloguing all ankylosaur material from the Wessex Formation as 'Polacanthus' has potentially prevented a diversity of taxa from being discovered, and new and existing material in museum collections should be re-appraised using an autapomorphy-driven approach. [ABSTRACT FROM AUTHOR]

Published

2023

28. Ornithischian dinosaurs in Southeast Asia: a review with palaeobiogeographic implications.

Author

Manitkoon, Sita, Deesri, Uthumporn, Warapeang, Prapasiri, Nonsrirach, Thanit, and Chanthasit, Phornphen

Subjects

*DINOSAURS, *FOSSILS, *HERBIVORES

Abstract

Ornithischian dinosaurs have been discovered in Thailand, Laos, and Malaysia. These bird-hipped herbivores remain relatively rare by comparison with saurischian dinosaurs. In the Late Jurassic, stegosaurs and basal neornithischians from Thailand showed similarities to Middle-Late Jurassic taxa from China. Ornithischians appeared in the fossil record again during the late Early Cretaceous (Aptian-Albian) of Thailand and Laos. They are represented by non-hadrosaurid iguanodontians and basal ceratopsians. A few specimens have been reported from poorly dated Early Cretaceous rocks of Malaysia. Here, we illustrate the diversity of ornithischian assemblages in Southeast Asia and discuss their palaeobiogeographical implications. [ABSTRACT FROM AUTHOR]

Published

2023

29. Evidence of age segregation behavior in Hypacrosaurus stebingeri (Hadrosauridae: Lambeosaurinae) based on the taphonomic comparison of bonebeds from the Upper Cretaceous (upper Campanian) Oldman Formation of southernmost Alberta (Canada) and Two Medicine Formation of Montana (USA)

Author

Joubarne, Tristan, Therrien, François, and Zelenitsky, Darla K.

Subjects

*OLDER people, *MESOZOIC Era, *ORNITHISCHIA, *TIME of death, *PALEOECOLOGY

Abstract

Hadrosaurid social structure is still poorly understood. Evidence from bonebeds suggests that juvenile individuals of some hadrosaurid species lived apart from herds composed of older individuals, a phenomenon called age segregation. However, the timing at which juvenile individuals became segregated and later rejoined a multigenerational herd is unknown. Three monodominant bonebeds that preserve the remains of multiple individuals of the lambeosaurine hadrosaurid Hypacrosaurus stebingeri at different ontogenetic stages offer an opportunity to better understand the social structure of this species: the Devil's Coulee juvenile hadrosaur bonebed (JBB) from the Oldman Formation of Alberta (Canada) preserves a minimum of four similar-sized late juvenile individuals; the Blacktail Creek North (BCNB) bonebed from the Two Medicine Formation of Montana (USA) preserves a minimum of 23 early juvenile (previously referred to as "nestling") individuals; and the Lambeosite (LB) bonebed preserves four similar-sized late juvenile individuals and one adult individual. These bonebeds show uniform taphonomic signatures throughout their respective bone assemblages, characterized by little to no weathering and abrasion, uniform style of fracturing, and rare tooth marks on bones. All three bonebeds are interpreted as mass-mortality assemblages. Histological data indicate that the late juvenile individuals from the JBB were three years old at the time of death, similar to the slightly larger late juvenile individuals from the LB, whereas the early juveniles from the BCNB had not yet reached 1 year of age. A taphonomic comparison of the three bonebeds reveal that H. stebingeri individuals lived in age-segregated groups, likely cohorts, until into their fourth year of life when, after having reached sexual maturity, they rejoined a multigenerational herd. The smaller number of individuals preserved in bonebeds representing later ontogenetic stages could reflect a decrease in group size due to high juvenile mortality rate or to higher metabolic needs. • Two Hypacrosaurus stebingeri bonebeds preserve segregated groups of individuals. • Hadrosaurs were segregated according to their age until their fourth year of life. • The size of segregated groups appears to decrease with late ontogenetic stages. [ABSTRACT FROM AUTHOR]

Published

2024

30. A catalog of Zalmoxes (Dinosauria, Ornithopoda) specimens from the Upper Cretaceous Nălaț-Vad locality, Hațeg Basin, Romania

Author

Brusatte, Stephen, Csiki-Sava, Zoltán, Dumbravă, Mihai, Norell, Mark A., Totoianu, Radu, Vremir, Mátyás, American Museum of Natural History Library, Brusatte, Stephen, Csiki-Sava, Zoltán, Dumbravă, Mihai, Norell, Mark A., Totoianu, Radu, and Vremir, Mátyás

Subjects

Cretaceous, Dinosaurs, Hațeg Region (Hunedoara), Island animals, Ornithischia, Paleontology, Reptiles, Fossil, Romania, Zalmoxes

Published

2017

31. Size-mediated competition and community structure in a Late Cretaceous herbivorous dinosaur assemblage.

Author

Wyenberg-Henzler, Taia, Patterson, R. Timothy, and Mallon, Jordan C.

Subjects

*COMMUNITIES, *DINOSAURS, *BODY size, *PALEOECOLOGY, *MULTIVARIATE analysis, *COEXISTENCE of species, *MESOZOIC Era

Abstract

It has been argued that, throughout the Mesozoic, the immature growth forms of megaherbivorous dinosaurs competitively excluded small herbivorous dinosaur species, leading to the left-skewed species richness-body mass distributions of their fossil assemblages. By corollary, where large and small herbivores coexisted over a geologically significant period of time, they must have exhibited niche partitioning. We use multivariate ecomorphological analysis of the Late Cretaceous ornithischian dinosaur assemblage of North America to examine this prediction. Our results indicate good ecomorphological separation of most, but not all, species at small body size, although more work is required to demonstrate that these patterns were adaptive. Calculation of browse profiles using corrected abundance data and bracketed estimates of energy requirements suggests that immature megaherbivores – most particularly hadrosaurids – outstripped coexisting small ornithischian species in their control of the resource base. [ABSTRACT FROM AUTHOR]

Published

2022

32. A new specimen of the ornithischian dinosaur Haya griva, cross-Gobi geologic correlation, and the age of the Zos Canyon beds

Author

Norell, Mark, Barta, Daniel E., American Museum of Natural History Library, Norell, Mark, and Barta, Daniel E.

Subjects

Cretaceous, Dinosaurs, Geology, Geology, Stratigraphic, Gobi Desert (Mongolia and China), Haya griva, Mongolia, Ornithischia, Paleontology, Paleontology, Stratigraphic, Reptiles, Fossil, Stratigraphic correlation, Ukhaa Tolgod Region

Published

2016

33. Dinosaur track spans continents.

Subjects

CRETACEOUS Period, ORNITHISCHIA, SAURISCHIA, DINOSAURS, RESEARCH personnel

Abstract

Dinosaurs may have used a narrow pathway to travel between Africa and South America when the continents were connected, according to a study of fossilized footprints in Brazil and Cameroon. The footprints, dating back 120 million years, were found to be similar in shape, age, and geological context, suggesting that multiple species of dinosaurs roamed in both countries at the same time. This discovery sheds light on how dinosaurs moved across vast landmasses and thrived before the continents separated. The lead author of the study emphasizes the interconnectedness of the Earth and the likelihood of animal migration in a connected world. [Extracted from the article]

Published

2024

34. The phylogenetic nomenclature of ornithischian dinosaurs.

Author

Madzia, Daniel, Arbour, Victoria M., Boyd, Clint A., Farke, Andrew A., Cruzado-Caballero, Penélope, and Evans, David C.

Subjects

DINOSAURS, MESOZOIC Era, DEFINITIONS, MOLECULAR phylogeny

Abstract

Ornithischians form a large clade of globally distributed Mesozoic dinosaurs, and represent one of their three major radiations. Throughout their evolutionary history, exceeding 134 million years, ornithischians evolved considerable morphological disparity, expressed especially through the cranial and osteodermal features of their most distinguishable representatives. The nearly two-century-long research history on ornithischians has resulted in the recognition of numerous diverse lineages, many of which have been named. Following the formative publications establishing the theoretical foundation of phylogenetic nomenclature throughout the 1980s and 1990s, many of the proposed names of ornithischian clades were provided with phylogenetic definitions. Some of these definitions have proven useful and have not been changed, beyond the way they were formulated, since their introduction. Some names, however, have multiple definitions, making their application ambiguous. Recent implementation of the International Code of Phylogenetic Nomenclature (ICPN, or PhyloCode) offers the opportunity to explore the utility of previously proposed definitions of established taxon names. Since the Articles of the ICPN are not to be applied retroactively, all phylogenetic definitions published prior to its implementation remain informal (and ineffective) in the light of the Code. Here, we revise the nomenclature of ornithischian dinosaur clades; we revisit 76 preexisting ornithischian clade names, review their recent and historical use, and formally establish their phylogenetic definitions. Additionally, we introduce five new clade names: two for robustly supported clades of later-diverging hadrosaurids and ceratopsians, one uniting heterodontosaurids and genasaurs, and two for clades of nodosaurids. Our study marks a key step towards a formal phylogenetic nomenclature of ornithischian dinosaurs. [ABSTRACT FROM AUTHOR]

Published

2021

35. Assessing conflict between early neornithischian tree topologies.

Author

Brown, Emily E., Butler, Richard J., Barrett, Paul M., and Maidment, Susannah C. R.

Subjects

*TOPOLOGY, *TREES, *HOMOPLASY, *DINOSAURS

Abstract

The phylogenetic relationships of the species commonly referred to as 'hypsilophodontids' remain one of the key questions in ornithischian dinosaur research, having profound implications for understanding the origin, evolution and taxonomical compositions of several more recently evolved neornithischian clades. Recent phylogenetic analyses have recovered two conflicting placements for these taxa: (1) primarily within Cerapoda (Ornithopoda + Marginocephalia), as a paraphyletic assemblage of early ornithopods; and (2) primarily outside of Cerapoda, within the clade Thescelosauridae. Here we assess three recent independent neornithischian phylogenetic studies that have recovered topologies congruent with one of these placements. We compare the compositions of these data matrices and test how each of them responds to manipulation of taxa and characters. The positions in which controversial clades are recovered is shown to be highly dependent on the sample of taxa analysed; however, taxon incompleteness or instability is not a contributing factor in altering topology. Character completeness and homoplasy is shown not to significantly alter tree topology either, although these factors can affect resolution. In one matrix investigated, femoral and dental characters are found to provide disproportionate support for the placement of key taxa outside of Cerapoda, and the exclusion of a small number of these characters results in 'hypsilophodontids' falling within Ornithopoda. In contrast, matrices that originally recovered 'hypsilophodontids' within Cerapoda are comparably more stable, with this array of taxa remaining in a consistent position throughout all analyses. There is still much work to be done to resolve these relationships, but our study provides several suggestions for future analyses with the aim of resolving areas of conflict within the neornithischian tree. [ABSTRACT FROM AUTHOR]

Published

2021

36. A new, ‘hip’ way to breathe

Author

Marc R Spencer

Subjects

ornithodira, dinosauria, ornithischia, dinosaurs, Medicine, Science, Biology (General), QH301-705.5

Abstract

Ornithischians, one of the three major groups of dinosaurs, developed a unique mechanism to ensure airflow in the lungs.

Published

2021

37. Palaeontology meets metacommunity ecology: the Maastrichtian dinosaur fossil record of North America as a case study.

Author

García‐Girón, Jorge, Heino, Jani, Alahuhta, Janne, Chiarenza, Alfio Alessandro, Brusatte, Stephen L., and Mannion, Philip

Subjects

*PALEONTOLOGY, *FOSSILS, *DINOSAURS, *PALEOECOLOGY, *FOOD chains, *FOSSIL collection, *TROPHIC cascades

Abstract

Documenting the patterns and potential associated processes of ancient biotas has always been a central challenge in palaeontology. Over recent decades, intense debate has focused on the organization of dinosaur‐dominated communities, yet no general consensus has been reached on how these communities were organized in a spatial context. Here, we used analytical routines typically applied in metacommunity ecology to provide novel insights into dinosaurian distributions across the latest Cretaceous of North America. To do this, we combined fossil occurrences with functional, phylogenetic and palaeoenvironmental modelling, and adopted the perspective that more reasonable conclusions on palaeoecological reconstructions can be gained from studies that consider the organization of biotas along ecological gradients at multiple spatial scales. Our results showed that dinosaurs were restricted in range to different parts of the Hell Creek Formation, prompting the recognition of discrete and compartmentalized faunal areas during the Maastrichtian at fine‐grained scales, whereas taxa with the broadest ranges included those with narrower distributions when combining data from various geological formations across the Western Interior of North America. Although groups of dinosaurs had coincident range boundaries, their communities responded to multiple ecologically‐important gradients when compensating for differences in sampling effort. Metacommunity structures of both ornithischians and theropods were correlated with climatic barriers and potential trophic relationships between herbivores and carnivores, thereby suggesting that dinosaurian faunas were shaped by physiological constraints, limited food resources abundance, and a combination of bottom‐up and top‐down forces across multiple spatial grains and extents. [ABSTRACT FROM AUTHOR]

Published

2021

38. A new basal hadrosaurid (Dinosauria: Ornithischia) from the latest Cretaceous Kita-ama Formation in Japan implies the origin of hadrosaurids.

Author

Kobayashi, Yoshitsugu, Takasaki, Ryuji, Kubota, Katsuhiro, and Fiorillo, Anthony R.

Subjects

*HADROSAURIDAE, *PHYLOGENY, *DINOSAURS, *ORNITHISCHIA

Abstract

Here we describe a partial hadrosaurid skeleton from the marine Maastrichtian Kita-ama Formation in Japan as a new taxon, Yamatosaurus izanagii gen. et sp. nov., based on unique characters in the dentition. Our phylogenetic analysis demonstrates Yamatosaurus izanagii belongs to Hadrosauridae, composed of Hadrosaurus foulkii + (Yamatosaurus izanagii + (Saurolophinae + Lambeosaurinae)). The coracoid lacks a biceps tubercle as in non-hadrosaurid hadrosauroids, suggesting its presence is a key feature for the clade of Saurolophinae and Lambeosaurinae. The evolutionary rates analysis further supports that shoulder and forelimb features, which are likely to have been involved in locomotion, were important for the early evolution of Hadrosauridae. Our biogeographic analyses show that basal hadrosaurids were widely distributed in Asia and Appalachia, that the clade of Saurolophinae and Lambeosaurinae originated in Asia, and that eastern Asia may have served as a refugium of relict hadrosauroid taxa such as Plesiohadros djadokhtaensis, Tanius sinensis, and Yamatosaurus izanagii during the Late Cretaceous. The contemporaneous occurrence of basal (Yamatosaurus izanagii) and derived (Kamuysaurus japonicus) hadrosaurids during the Maastrichtian in Japan is the first record in Asia. Because of the long geographical distance between these localities, they likely did not co-exist, but instead demonstrate some level of provinciality. [ABSTRACT FROM AUTHOR]

Published

2021

39. New data on tail lengths and variation along the caudal series in the non-avialan dinosaurs.

Author

Hone, David W. E., Persons, W. Scott, and Le Comber, Steven C.

Subjects

DINOSAURS, SAURISCHIA, BIOMECHANICS, VERTEBRAE

Abstract

The tails of non-avialan dinosaurs varied considerably in terms of overall length, total number of vertebrae, and gross form and function. A new dataset confirms that there is little or no consistent relationship between tail length and snout-sacrum length. Consequently, attempts to estimate one from the other are likely to be very error-prone. Patterns of changes in centra lengths across the caudal series vary among non-avian dinosaurs. However, some overarching patterns do emerge. A number of taxa show (anterior to posterior) a series of short centra, followed by a series of longer centra, with the remainder of the tail consisting of a long series of centra tapering in length. This pattern is consistent with functional constraints, and the anterior series of longer centra are coincident with the major attachments of femoral musculature. This pattern is not present in many basal taxa and may have evolved independently in different dinosaurian groups, further suggesting functional importance. [ABSTRACT FROM AUTHOR]

Published

2021

40. Shape variability in tridactyl dinosaur footprints: the significance of size and function.

Author

Lallensack, Jens N., Engler, Thomas, Barthel, H. JONAS, and Marchetti, Lorenzo

Subjects

*ANIMAL locomotion, *FOOTPRINTS, *DINOSAURS, *GROUP size, *FOSSILS

Abstract

The functional anatomy of the hindlimb of bipedal dinosaurs has been intensively studied. Yet, surprisingly little work has been done concerning functional adaptation of digits for terrestrial locomotion. While complete and articulated pes skeletons are scarce, pes shape is abundantly recorded by fossil footprints. We elucidate the significance of footprint shape and size for locomotion using a large sample (n = 303) of tridactyl dinosaur footprints from a broad range of geographical localities and time slots. Size and shape variation are characterized separately for theropods and ornithischians, the two principal trackmaker taxa. At smaller sizes, theropod footprints are best discriminated from ornithischian footprints by their smaller interdigital angle and larger projection of digit III; at larger sizes digital widths are effective discriminants. Ornithischian footprints increase in size from the Early Jurassic to the Late Cretaceous, a trend not observed in theropod footprints. Size and function are argued to be important determinants of footprint shape, and an attempt made to infer function from shape. Digit III projection and length‐to‐width ratio of the footprints are negatively correlated with size in both groups; digit impression width is positively correlated with size only in ornithischians. Digit III projection appears to be positively correlated with cursorial ability. Increased interdigital angles are associated with a decrease in digital width, possibly an adaptation for stability. Weak digit III projection and increased digital width are interpreted as adaptations for graviportality. Footprints yield great potential for the understanding of the functional morphology of dinosaur feet. [ABSTRACT FROM AUTHOR]

Published

2020

41. New information on ornithopod dinosaurs from the Late Jurassic of Portugal.

Author

ROTATORI, FILIPPO MARIA, MORENO-AZANZA, MIGUEL, and MATEUS, OCTÁVIO

Subjects

*CRETACEOUS-Paleogene boundary, *PRINCIPAL components analysis, *DINOSAURS

Abstract

Ornithopods are one of the most speciose group of herbivorous dinosaurs, rising during the Jurassic and getting extinct at the Cretaceous-Paleogene boundary. However, most of the attention has been given to derived forms (hadrosaurids). Herein, cranial and post-cranial ornithopod material from the Upper Jurassic Lourinhã Formation and housed at Museu da Lourinhã is described and discussed. Comparison and phylogenetic analyses has allowed the attribution of the material either to Dryosauridae or to Ankylopollexia. The large-sized taxa conservatively ascribed to Ankylopollexia, resemble more closely Early Cretaceous styracosternans than Late Jurassic taxa. Due to the lack of autapomorphic characters, it was not possible to assign the material to any of the two valid Jurassic ornithopod Portuguese species, Draconyx loureiroi and Eousdryosaurus nanohallucis, although phylogenetic analyses hint a close relationship between the Lourinhã dryosaurid material and E. nanohallucis. Principal Component Analysis plotting limb bones proportions indicates a not fully mature ontogenetic stage for the Portuguese specimens. Comparing the Portuguese ornithopod fauna with the one in Morrison Formation and Kimmeridge Clay Formation, it is remarked the key-role of Portugal to understand biogeographic patterns in the distribution of iguanodontians. [ABSTRACT FROM AUTHOR]

Published

2020

42. Pisanosaurus mertii and the Triassic ornithischian crisis: could phylogeny offer a solution?

Author

Baron, Matthew G.

Subjects

*SAURISCHIA, *FOSSILS, *FOSSIL collection, *DINOSAURS, *TRIASSIC Period, *CRISES, *PHYLOGENY

Abstract

Two recent studies have independently recovered Pisanosaurus mertii – long thought to represent the oldest known member of Ornithischia – within Silesauridae. These finds are expanded upon here, as are the implications of this hypothesis. Based upon these finds, it now appears that Ornithischia was absent in the Triassic Period entirely, which constitutes a major incongruence between the fossil record and current phylogenetic hypotheses, particularly the traditional model of dinosaur interrelationships in which Ornithischia and Saurischia are sister-taxa. It has been suggested previously that Ornithischia was simply a rare component of Late Triassic faunas, or that perhaps the clade's ecology or geographic distribution were not conducive to producing a fossil record. Here I propose that phylogeny could hold the solution to this problem. I examine how an alternative position for Ornithischia – nested either within Theropoda or Sauropodomorpha – could be the reason behind their later appearance and relative rarity in the Early Jurassic. An Early Jurassic origin of Ornithischia would force us to consider that the anatomical similarities between ornithischians and Early Jurassic taxa might not be convergences, and to broaden the current datasets of early dinosaurs to test these ideas. [ABSTRACT FROM AUTHOR]

Published

2019

43. Appendicular skeleton of Protoceratops andrewsi (Dinosauria, Ornithischia): comparative morphology, ontogenetic changes, and the implications for non-ceratopsid ceratopsian locomotion.

Author

Słowiak, Justyna, Tereshchenko, Victor S., and Fostowicz-Frelik​, Łucja

Subjects

MORPHOLOGY, ONTOGENY, EXTREMITIES (Anatomy), BIPEDALISM, DINOSAURS, SKELETON, ANATOMY

Abstract

Protoceratops andrewsi is a well-known ceratopsian dinosaur from the Djadokhta Formation (Upper Cretaceous, Mongolia). Since the 1920s, numerous skeletons of different ontogenetic stages from hatchlings to adults, including fully articulated specimens, have been discovered, but the postcranial anatomy of Protoceratops has not been studied in detail. A new, mostly articulated subadult individual provides an excellent opportunity for us to comprehensively describe the anatomy of the limb skeleton, to compare to other ceratopsian dinosaurs, and to study the ontogenetic and intraspecific variation in this species. New data provided by the specimen shed light on the lifestyle of P. andrewsi. The young subadult individuals present an array of morphological characters intermediate between the bipedal Psittacosaurus and fully quadrupedal adult P. andrewsi. We compare these observations with a broad range of non-ceratopsid Neoceratopsia (of various locomotor adaptations) and Psittacosauridae (obligate bipeds), which gives us insight into the evolution of the skeletal characters informative for the postural change in ceratopsian dinosaurs. [ABSTRACT FROM AUTHOR]

Published

2019

44. A new hadrosauroid (Dinosauria: Ornithopoda) from the Late Cretaceous Baynshire Formation of the Gobi Desert (Mongolia).

Author

Tsogtbaatar, Khishigjav, Weishampel, David B., Evans, David C., and Watabe, Mahito

Subjects

*DINOSAURS, *MUSCULOSKELETAL system, *LIFE sciences, *PALEOBIOLOGY, *ANATOMY, *INSECT anatomy, *ILIUM

Abstract

A new genus and species of non-hadrosaurid hadrosauroid, Gobihadros mongoliensis, is described from a virtually complete and undeformed skull and postcranial skeleton, as well as extensive referred material, collected from the Baynshire Formation (Cenomanian-Santonian) of the central and eastern Gobi Desert, Mongolia. Gobihadros mongoliensis is the first non-hadrosaurid hadrosauroid from the Late Cretaceous of central Asia known from a complete, articulated skull and skeleton. The material reveals the skeletal anatomy of a proximate sister taxon to Hadrosauridae in remarkable detail. Gobihadros is similar to Bactrosaurus johnsoni and Gilmoreosaurus mongoliensis, but can be distinguished from them in several autapomorphic traits, including the maximum number (three) of functional dentary teeth per tooth position, a premaxillary oral margin with a ‘double-layer morphology’, and a sigmoidal dorsal outline of the ilium with a well-developed, fan-shaped posterior process. All of these characters in Gobihadros are inferred to be convergent in Hadrosauridae. Phylogenetic analysis positions Gobihadros mongoliensis as a Bactrosaurus-grade hadrosauromorph hadrosauroid. Its relationship with Maastrichtian hadrosaurids from Asia (e.g., Saurolophus angustirostris, Kerberosaurus manakini, Wulagasaurus dongi, Kundurosaurus nagornyi) are sufficiently distant to indicate that these latter taxa owe their distribution to migration from North America across Beringia, rather than having a common Asian origin with Go. mongoliensis. [ABSTRACT FROM AUTHOR]

Published

2019

45. A reassessment of the purported ankylosaurian dinosaur Bienosaurus lufengensis from the Lower Lufeng Formation of Yunnan, China.

Author

RAVEN, THOMAS J., BARRETT, PAUL M., XING XU, and MAIDMENT, SUSANNAH C. R.

Subjects

*DINOSAURS, *ANIMALS, *NATURE, *BELIEF & doubt

Abstract

The earliest definitive ornithischian dinosaurs are from the Early Jurassic and are rare components of early dinosaur faunas. The Lower Lufeng Formation (Hettangian-Sinemurian) of Yunnan Province, China, has yielded a diverse Early Jurassic terrestrial vertebrate fauna. This includes several incomplete specimens have been referred to Ornithischia, including the type specimen of the thyreophoran "Tatisaurus" and other generically indeterminate material. The highly fragmentary Lufeng ornithischian Bienosaurus lufengensis was described briefly in 2001 and identified as an ankylosaurian dinosaur. Recent studies have cast doubt on this hypothesis, however, and given that the referral of Bienosaurus to Ankylosauria would result in an extensive ghost-lineage extending between it and the first definitive eurypodans (ankylosaurs + stegosaurs) in the Middle Jurassic, the holotype specimen is re-examined and re-described. We identify Bienosaurus as a probable thyreophoran dinosaur, although the fragmentary nature of the material and the absence of autapomorphies means that the specimen should be regarded as a nomen dubium. [ABSTRACT FROM AUTHOR]

Published

2019

46. Ornithopod diversity in the Griman Creek Formation (Cenomanian), New South Wales, Australia.

Author

Bell, Phil R., Herne, Matthew C., Brougham, Tom, and Smith, Elizabeth T.

Subjects

RIVERS, GEOLOGIC faults, ANIMALS, LIGHTNING, DINOSAURS, COMMUNITIES

Abstract

During the Early Cretaceous, dinosaur communities of the Australian-Antarctic rift system (Eumeralla and Wonthaggi formations) cropping out in Victoria were apparently dominated by a diverse small-bodied ‘basal ornithopod’ fauna. Further north, in Queensland (Winton and Mackunda formations), poorly-represented small-bodied ornithopods coexisted with large-bodied iguanodontians. Our understanding of the ornithopod diversity from the region between the Australian-Antarctic rift and Queensland, represented by Lightning Ridge in central-northern New South Wales (Griman Creek Formation), has been superficial. Here, we re-investigate the ornithopod diversity at Lightning Ridge based on new craniodental remains. Our findings indicate a diverse ornithopod fauna consisting of two-to-three small-bodied non-iguanodontian ornithopods (including Weewarrasaurus pobeni gen. et sp. nov.), at least one indeterminate iguanodontian, and a possible ankylopollexian. These results support those of previous studies that favour a general abundance of small-bodied basal ornithopods in Early to mid-Cretaceous high-latitude localities of southeastern Australia. Although these localities are not necessarily time-equivalent, increasing evidence indicates that Lightning Ridge formed a ‘meeting point’ between the basal ornithopod-dominated localities in Victoria and the sauropod-iguanodontian faunas in Queensland to the north. [ABSTRACT FROM AUTHOR]

Published

2018

47. New materials of iguanodontians (Dinosauria: Ornithopoda) from the Lower Cretaceous Khok Kruat Formation, Ubon Ratchathani, Thailand

Author

Suravech Suteethorn and Adun Samathi

Subjects

musculoskeletal diseases, Reptilia, Fossils, Skull, Biodiversity, Thailand, musculoskeletal system, Dinosaurs, Animals, Animalia, Animal Science and Zoology, Chordata, Ornithischia, Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

We describe iguanodontian post-cranial remains, including a cervical vertebra, two dorsal vertebrae, five caudal vertebrae, a metacarpal, right femur, tibia and fibula, and a small femur possibly from a juvenile of the same taxon. This is the first record of a juvenile iguanodontian co-occurring with an adult from Thailand. The material was recovered from the Lower Cretaceous Khok Kruat Formation of Khok Pha Suam, Ubon Ratchathani Province, north-eastern Thailand. It was reconstructed to belong to a non-hadrosauriform styracosternan. This study provides the first osteological description of iguanodontian post-cranial material in Thailand and its potential autapomorphic features. However, whether it belongs to a previously named taxon or represents a new one cannot be assessed yet and must await further discovery.

Published

2022

48. Tooth development, histology, and enamel microstructure in Changchunsaurus parvus: Implications for dental evolution in ornithopod dinosaurs.

Author

Chen, Jun, LeBlanc, Aaron R. H., Jin, Liyong, Huang, Timothy, and Reisz, Robert R.

Subjects

*DENTITION, *ORNITHOPODA, *ANIMAL diversity, *ORNITHISCHIA, *TOOTH replantation

Abstract

The great diversity of dinosaurian tooth shapes and sizes, and in particular, the amazing dental complexity in derived ornithischians has attracted a lot of attention. However, the evolution of dental batteries in hadrosaurids and ceratopsids is difficult to understand without a broader comparative framework. Here we describe tooth histology and development in the "middle" Cretaceous ornithischian dinosaur Changchunsaurus parvus, a small herbivore that has been characterized as an early ornithopod, or even as a more basal ornithischian. We use this taxon to show how a "typical" ornithischian dentition develops, copes with wear, and undergoes tooth replacement. Although in most respects the histological properties of their teeth are similar to those of other dinosaurs, we show that, as in other more derived ornithischians, in C. parvus the pulp chamber is not invaded fully by the newly developing replacement tooth until eruption is nearly complete. This allowed C. parvus to maintain an uninterrupted shearing surface along a single tooth row, while undergoing continuous tooth replacement. Our histological sections also show that the replacement foramina on the lingual surfaces of the jaws are likely the entry points for an externally placed dental lamina, a feature found in many other ornithischian dinosaurs. Surprisingly, our histological analysis also revealed the presence of wavy enamel, the phylogenetically earliest occurrence of this type of tissue. This contradicts previous interpretations that this peculiar type of enamel arose in association with more complex hadrosauroid dentitions. In view of its early appearance, we suggest that wavy enamel may have evolved in association with a shearing-type dentition in a roughly symmetrically-enameled crown, although its precise function still remains somewhat of a mystery. [ABSTRACT FROM AUTHOR]

Published

2018

49. A basal ornithopod dinosaur from the Cenomanian of the Czech Republic.

Author

Madzia, Daniel, Boyd, Clint A., and Mazuch, Martin

Subjects

*ORNITHOPODA, *DINOSAURS, *PHYLOGENY, *ORNITHISCHIA, *HYPSILOPHODON

Abstract

During their long evolutionary history, neornithischian dinosaurs diverged into several clades with distinctive adaptations. However, the early evolution within Neornithischia and the resolution of the phylogenetic relationships of taxa situated near the base of the clade remain problematic. This is especially true for those taxa traditionally placed at the base of Ornithopoda, either as ‘hypsilophodontids’ or at the base of the diverse clade Iguanodontia. Recent studies are improving our understanding of the anatomy and relationships of these taxa, with discoveries of several new non-ankylopollexian ornithopods from South America and Europe providing key insights into early ornithopod evolution and palaeobiogeography. Here, we describe a new basal ornithopod, Burianosaurus augustai gen. et sp. nov., based on a well-preserved femur from the upper Cenomanian strata (Korycany Beds of the Peruc-Korycany Formation) of the Czech Republic. The new taxon is diagnosed by a unique suite of characters and represents the only occurrence of a Cenomanian non-avian dinosaur in Central Europe north of the Alpine Tethyan areas. Histological examination of the type specimen reveals the presence of a loosely packed Haversian system which suggests relatively mature bone from a possible young adult. Phylogenetic analyses of two different data sets, selected to test the placement of B. augustai in various parts of the neornithischian tree, reconstruct B. augustai as a basal ornithopod, firmly nested outside Ankylopollexia. These results also support a diverse Elasmaria as a basal clade within Ornithopoda and reconstruct Hypsilophodon outside Ornithopoda as the sister taxon to Cerapoda. However, the relationships of ‘hypsilophodontids’ within Neornithischia remain contentious. http://zoobank.org/urn:lsid:zoobank.org:pub:D28A9FB8-A253-4032-8710-4F51668A1E4F [ABSTRACT FROM AUTHOR]

Published

2018

50. Ontogeny and taxonomy of the hadrosaur (Dinosauria, Ornithopoda) remains from Basturs Poble bonebed (late early Maastrichtian, Tremp Syncline, Spain).

Author

Fondevilla, Víctor, Dalla Vecchia, Fabio Marco, Gaete, Rodrigo, Galobart, Àngel, Moncunill-Solé, Blanca, and Köhler, Meike

Subjects

*DINOSAURS, *ORNITHOPODA, *ZOOLOGICAL specimens, *MUSCULOSKELETAL system, *PALEONTOLOGY

Abstract

The lower Maastrichtian site of Basturs Poble (southern Pyrenees, Spain) is the first hadrosaur bonebed reported from Europe. It is an accumulation of disarticulated lambeosaurine skeletal elements, possibly belonging to Pararhabdodon isonensis. The sample shows high intraspecific morphological variability among many skeletal elements, suggesting the need for caution in choosing characters for phylogenetic analyses. Juvenile to adult individuals are represented in the sample, while hatchling remains are absent. Bone histology reveals that juveniles are over-represented and that the youngest individuals represented by tibia specimens were two years old. Adult individuals, with tibiae 550–600 mm long, were 14–15 years old when they died. However, individual variation in tibia length at skeletal maturity occurs within the sample, so individual maturity cannot be assumed on the basis of bone size alone. The Basturs Poble bonebed occurs within the upper part of the C31r magnetochron. Thus, lambeosaurine hadrosaurids were already present and abundant in the Ibero-Armorica Island at the end of the early Maastrichtian and P. isonensis spans the upper part of the lower Maastrichtian to the upper part of the upper Maastrichtian (upper part of C31r-lower part of C29r). [ABSTRACT FROM AUTHOR]

Published

2018