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Centrosaurus

Centrosaurus apertus is a species of medium-sized, herbivorous ceratopsid belonging to the subfamily , characterized by its distinctive single large nasal horn, short frill with prominent openings and small marginal spikes, and robust build adapted for a terrestrial lifestyle. This ornithischian, which measured approximately 5.5 meters in length and weighed around 1.4 tonnes, inhabited the floodplains and coastal regions of what is now and in , as well as possibly northern in the United States, during a narrow temporal window of about 1.2 million years from 76.5 to 75.3 million years ago. First identified in 1901 by paleontologist Lawrence M. Lambe along the in , the genus was formally named and described by Lambe in 1904 based on skull fragments highlighting its unique squamosal-parietal crest structure, distinguishing it from related ceratopsians like . Fossils of C. apertus are exceptionally abundant, with over 20 major bonebeds—such as the renowned ones in —preserving hundreds of individuals from juveniles to adults, indicating a gregarious lifestyle where herds numbering in the thousands migrated seasonally and may have perished en masse due to floods. These assemblages, primarily from the lower within the Belly River Group, provide insights into its craniofacial ontogeny, where features like the nasal horn evolved from recurved in juveniles to straight or procurved in adults, and supraorbital horns were resorbed with maturity. The dinosaur's included a rotund supported by stocky legs, a muscular , a large head on a short , four-toed feet, five-fingered hands with hoof-like claws, a parrot-like for cropping , and dental batteries with 28–31 blade-like teeth for grinding tough plant matter such as ferns, cycads, and early flowering plants. Its frill, likely used for intraspecific display or recognition rather than against predators like tyrannosaurids, featured two large fenestrae and was edged with small bony projections, contributing to its role as one of the most well-represented ceratopsids in the fossil record and a key for understanding centrosaurine evolution and .

History of discovery

Early finds and naming

The initial discovery of Centrosaurus fossils occurred in 1901 when paleontologist Lawrence M. Lambe unearthed fragmentary remains, including a partial frill and a squamoso-parietal crest, along the in , , within the lower of the Late Cretaceous Belly River Group. Lambe formally named the type species Centrosaurus apertus in 1904, designating the holotype as specimen NMC 971—a complete exhibiting large oval fenestrae and hooked epoccipital processes along its posterior margin. The genus name derives from kentron (pointed) and sauros (lizard), alluding to the sharp, hook-like projections on the frill, while the specific apertus (Latin for open) refers to the prominent openings in the . The naming process was complicated by early taxonomic overlap with Monoclonius, a ceratopsid genus established by in 1876 based on fragmentary material; Lambe had initially referred some specimens to Monoclonius canadensis before recognizing distinguishing frill features that warranted a new genus, sparking debates among contemporaries like over whether Monoclonius species represented growth variants or synonyms of Centrosaurus. Further synonymy issues emerged in 1917 when Brown described Centrosaurus nasicornus from a specimen (AMNH 5239) featuring a more procurved nasal horn, presumed distinct at the time; however, a 2014 ontogenetic study by Mallon and analyzed craniofacial variation across C. apertus growth stages, revealing continuous morphological transitions in horn orientation—from recurved in juveniles to straight in subadults and procurved in adults—and concluded that C. nasicornus falls within this overlap as an intermediate subadult stage, rendering it a junior synonym of C. apertus.

Bone bed discoveries

A prominent bone bed of Centrosaurus apertus was discovered in , , during the early 20th century, yielding remains from hundreds of individuals preserved in the . This site, encompassing multiple assemblages, highlights the abundance of centrosaurine ceratopsids in floodplain environments and has provided key insights into taphonomic processes affecting large dinosaur aggregations. The Hilda mega-bonebed in represents the largest known bone bed, identified in the 1980s and systematically explored through reconnaissance and excavations beginning in 1997 by Royal Tyrrell Museum scientists. Spanning approximately 2.3 square kilometers and comprising 14 discontinuous bonebeds, it contains the remains of a few thousand C. apertus individuals, primarily from adults and subadults, offering unparalleled evidence of the scale of centrosaurine populations. Each sub-bonebed varies from hundreds to thousands of square meters, with high-density concentrations that underscore the depositional dynamics of mass mortality events in settings. In 2023, a McGill University-led excavation in Saskatchewan's Dinosaur Park Formation uncovered the province's first confirmed Centrosaurus fossils within a multigeneric bonebed, reported in 2024. These diagnostic specimens, including partial cranial elements, expand the known eastern distribution of C. apertus and reveal greater dinosaur diversity in the easternmost exposures of Late Cretaceous strata. The find, from a site near Eastend, includes over 75-million-year-old remains that complement western Canadian assemblages. Modern discovery methods for Centrosaurus bone beds increasingly incorporate field surveys augmented by techniques, such as drone-based imaging in the Canadian badlands. A 2025 study demonstrated that vibrant orange lichens preferentially colonize exposed bones, enabling their detection via spectral reflectance profiles captured by drones equipped with multispectral sensors. Applied to three multi-taxic bone beds, this approach identifies lichen-covered fossils against surrounding rock, improving efficiency in rugged terrains and facilitating targeted excavations for ceratopsian-rich sites.

Physical characteristics

Skull and ornamentation

The skull of Centrosaurus apertus measured approximately 1 meter in length and was characterized by robust construction typical of centrosaurine ceratopsids. A defining feature was the prominent midline , which curved forward and represented one of the most striking cranial structures among dinosaurs, with its form varying through from recurved in juveniles to procurved in adults. The parietosquamosal frill extended posteriorly from the occiput, measuring up to about 70 cm in length in mature individuals and featuring large parietal fenestrae that occupied much of its central area. This frill was bordered by rows of hook-like hornlets, including paired rostroventrally curved processes (P1s) over the frill and additional epiparietals and episquamosals along the margins, which collectively formed a diagnostic ornamentation distinct from the more elongate, straight spikes typical of relatives such as . The supraorbital horns above the eyes were small and often resorbed into low, rugose bosses in adults. Ontogenetic changes profoundly influenced skull ornamentation. In juveniles, the frill was relatively featureless with small fenestrae, smaller and more numerous hornlets, and a recurved ; as individuals matured, the frill expanded, fenestrae enlarged, hornlets consolidated into fewer but more robust structures, and texture shifted from striated to mottled and finally rugose, with vascularization evident in neurovascular grooves on the horns. These changes reflect episodic growth, marked by annual lines in the histology. Sensory adaptations included large orbits that occupied a significant portion of the skull's lateral surface, indicating enhanced visual capabilities suited to its environment. The fenestrae within the frill have been proposed to facilitate by allowing heat exchange or to serve in visual or acoustic display, though their precise functions remain debated among ceratopsians generally.

Body and limbs

Centrosaurus apertus reached a total body length of approximately 5.5 meters and an estimated of around 2 tonnes in adulthood. The postcranial featured a robust , characterized by the fusion of multiple sacral vertebrae into a that enhanced stability during locomotion and supported the animal's weight. The ribcage was broad and barrel-shaped, accommodating an expansive suited to the digestive demands of herbivory through microbial fermentation of fibrous vegetation. As a quadruped, Centrosaurus possessed pillar-like forelimbs with the slightly longer than the , facilitating weight-bearing posture; the manus terminated in hoof-like phalanges adapted for terrestrial support. The was comparatively short relative to the overall body and stiffened by elongated chevrons and neural spines, contributing to balance without extensive flexibility. Skin impressions preserved on a partial specimen indicate a covering of small, non-overlapping polygonal scales across the body, particularly evident near the pelvic region; unlike some basal ceratopsians such as , there is no preserved evidence of quills or filamentous structures in Centrosaurus.

Taxonomy

Etymology and species

The genus name Centrosaurus derives from the words κέντρον (kentron), meaning "point" or "prickle," and σαῦρος (sauros), meaning "lizard" or "reptile," translating to "pointed" or "prickly lizard" in reference to the numerous sharp, hook-like projections along the edges of its parietal frill. The species epithet apertus comes from the Latin word for "open," alluding to the large fenestrae, or openings, present in the frill of the specimen. Only one species, C. apertus, is currently considered valid within the . The type specimen, designated as the CMN 971, consists of a partial including a fragmentary , vertebrae, ribs, and limb elements, collected from the Belly River Group near Steveville, , . Additional paratypes and referred specimens, such as isolated elements and postcranial s, further define the and have been recovered from multiple sites, including large bone beds in the that form nearly monospecific assemblages dominated by C. apertus remains, indicating gregarious behavior in life. Formerly recognized species such as C. nasicornus have been synonymized with C. apertus based on ontogenetic analyses showing that differences in nasal horn morphology represent growth stages rather than distinct taxa. Similarly, several species originally assigned to the genus Monoclonius—such as M. crassus, M. flexus, and M. recurvicornis—are now regarded as invalid or reassigned to Centrosaurus apertus, often representing juvenile or subadult individuals of the same species due to overlapping anatomical features and stratigraphic context. Studies of cranial and horn morphology in C. apertus specimens have found no conclusive evidence for in horn size or shape, with variation attributable to and individual differences rather than sex-specific traits, as confirmed through analyses up to 2023.

Phylogenetic relationships

Centrosaurus is classified within the family , specifically the subfamily , where it is a member of the derived tribe . This placement is supported by cladistic analyses that recover as monophyletic, diverging from early in ceratopsid evolution during the . Key synapomorphies defining , and distinguishing it from , include elongated, fan-shaped squamosals that contribute to an expanded frill and a low-positioned nasal horn oriented forward on the snout. These features reflect adaptations for display and structural support in the frill, contrasting with the longer postorbital horns and shorter squamosals typical of chasmosaurines. In Centrosaurus, the nasal horn is prominently developed but positioned low, enhancing the rounded nasal profile characteristic of the subfamily. Recent phylogenetic analyses from the , incorporating extensive character matrices, consistently position Centrosaurus in a derived within known as Centrosaurini, forming a close sister-group relationship with . For instance, parsimony-based trees recover a "Styracosaurus-line" uniting these taxa, with Diabloceratops as a more basal centrosaurine outgroup. Bayesian analyses further support this topology, estimating divergence within Centrosaurini around 77 million years ago during the early . These relationships highlight the rapid diversification of centrosaurines across , the Late Cretaceous landmass of western , where multiple sympatric species coexisted in high-density assemblages. The basal position of taxa like Diabloceratops and the subsequent radiation of forms like Centrosaurus underscore a pattern of endemic evolution, contributing to the subfamily's taxonomic richness before the end-Cretaceous extinction.

Behavior and ecology

Social structure and behavior

Fossil evidence from multiple monospecific bone beds in the of indicates that Centrosaurus apertus exhibited gregarious behavior, living in large herds that likely included over 100 individuals for mutual protection against predators such as . These bone beds, such as Bone Bed 43, contain disarticulated remains dominated by C. apertus across various age classes, suggesting catastrophic events like flash floods trapped entire herds rather than scattered individuals. The abundance of such sites, including the expansive mega-bonebed complex spanning multiple localities, supports interpretations of social cohesion in these groups, potentially aiding in predator deterrence through collective vigilance and defense. Intraspecific interactions among Centrosaurus individuals are inferred from healed injuries on nasal horns and gouges on the parietal frill, consistent with combative behaviors for establishing dominance or competing for mates. Unlike , which shows frequent frill lesions from horn-locking, Centrosaurus pathologies primarily involve the prominent nasal horn, suggesting a combat style involving lateral strikes to the flanks rather than direct head-to-head clashes. These healed wounds indicate that such confrontations were survivable, allowing individuals to recover and reintegrate into the herd. The frill and horns of Centrosaurus likely served prominent functions, with vascular structures in the frill supporting potential visual signaling through posturing or . Indented vascular channels forming dendritic patterns on the frill suggest a capacity for blood flow that could flush the structure with color for intraspecific communication, such as attracting mates or intimidating rivals, rather than primary defensive roles. The lack of defensive injuries on the frill further reinforces its role in non-lethal displays. Inclusion of juvenile specimens in Centrosaurus beds points to mixed-age or social groups, where younger individuals benefited from the protection of adults within . Ontogenetic analyses show that juveniles lacked developed frill horns, which grew significantly during maturation, implying prolonged parental or group care until . However, there is no strong evidence for seasonal migration patterns in Centrosaurus, with formations attributed more to localized environmental hazards than long-distance movements.

Diet and locomotion

Centrosaurus was a herbivorous adapted as a low browser, primarily consuming ground-level such as ferns and low-growing angiosperms, with its and dental specialized for cropping and shearing tough, fibrous material. These adaptations allowed efficient processing of coarse foliage typical of its Late environment, where the dental —comprising tightly packed, self-sharpening teeth—facilitated grinding and wear-resistant mastication. While direct gut contents are unavailable, isotopic and anatomical evidence from related ceratopsians supports a dominated by high-fiber , potentially including cycads and horsetails alongside dominant ferns. The mechanics of Centrosaurus featured robust temporalis muscles anchored to an elevated coronoid process and a depressed , enhancing mechanical leverage for a powerful bite capable of overcoming resistant . Biomechanical models, including finite element analysis of ceratopsid skulls, indicate bite forces sufficient to generate high stress across the row, reflecting adaptations for forceful rather than speed. This configuration prioritized over rapid closure, aligning with a diet of , low-nutrient . As a quadrupedal ornithischian, Centrosaurus exhibited a locomotion profile suited to deliberate movement, with upright forelimbs providing stability and moderate flexibility for accessing browse up to approximately 2 in height. Limb proportions and scaling suggest a top speed of around 25 km/h during short bursts, limited by its robust build but supported by semi-erect that reduced sprawling constraints on efficiency. Its body build, with strong hindlimbs relative to forelimbs, further facilitated sustained walking paces while enabling occasional agile maneuvers. The high-fiber composition of its necessitated extensive by symbiotic microbes to extract nutrients, resulting in a voluminous digestive tract that influenced energy budgets and contributed to body mass estimates of 1–2 tons. This fermentative process, with long digesta retention times, supported lower mass-specific metabolic rates typical of large herbivorous dinosaurs, optimizing energy allocation for growth and maintenance in resource-variable ecosystems.

Pathologies and injuries

A notable example of pathology in Centrosaurus apertus is an instance of , a malignant bone cancer, identified in the of a specimen discovered in 1989 at , , , and housed at the Royal Ontario Museum. The tumor was advanced, featuring aggressive periosteal reactions and extensive , indicating the individual survived for an extended period—likely months—after the cancer's onset despite significant mobility impairment. This survival is attributed to the protective dynamics of its large herd, as the bone was recovered from a monodominant bonebed suggestive of a , such as a , affecting hundreds of Centrosaurus individuals. Trauma from intraspecific is evident in multiple Centrosaurus specimens, with healed fractures commonly observed on and the tips of nasal and brow horns. These injuries, characterized by formation and , align with patterns expected from conspecific clashes involving horn thrusts or ramming, as seen in comparative studies of ceratopsid dinosaurs. rates associated with such trauma appear low, with few cases showing signs of or chronic suppuration, implying robust immune responses capable of containing bacterial invasions post-injury. Evidence of parasitic infections is sparse in the fossil record of the , where Centrosaurus remains are abundant. No pathologies have been preserved or identified, consistent with the challenges of fossilizing soft-tissue agents in dinosaurs. Growth disruptions affecting ornamentation occur in some juvenile Centrosaurus specimens, manifesting as stunted or asymmetrical nasal horn development. These anomalies, marked by reduced and irregular growth lines in the parietosquamosal frill and horns, are interpreted as responses to nutritional stress during early , potentially from seasonal resource scarcity in their environment.

Distribution and environment

Geological context

Centrosaurus fossils are primarily known from the Belly River Group (known as the Judith River Group in Montana) in southern Alberta, Canada, with the majority occurring in the lower Dinosaur Park Formation and fewer in the underlying time-equivalent upper Oldman Formation. The Oldman Formation dates to the middle Campanian stage of the Late Cretaceous, approximately 78 to 77 million years ago, while the Dinosaur Park Formation spans roughly 77 to 74 million years ago. Radiometric dating using the ⁴⁰Ar/³⁹Ar method on bentonite layers has confirmed these ages, with a key horizon just above the Oldman-Dinosaur Park contact yielding 76.0 ± 0.3 million years ago, placing Centrosaurus within the mid-Campanian chronostratigraphic framework. Many Centrosaurus specimens, particularly in large monodominant bone beds, exhibit taphonomic features indicative of mass mortality events caused by river floods that trapped migrating herds, resulting in rapid burial within low-energy overbank sediments and preserving articulated to disarticulated skeletons with limited post-mortem alteration. Sedimentological evidence from the points to deposition in fluvial characterized by systems, with upward-fining channel sands and overbank muds reflecting seasonal river flow regimes in a humid, inland subtropical .

Geographic range

is restricted to the northern of , the western landmass of west of the . The , C. apertus, is best known from the southern Alberta portion of , where abundant fossils occur in the lower , particularly from bonebeds in and the Hilda area. These sites represent the core of its documented , with numerous specimens indicating large herd populations in and . A recent discovery has expanded the known range of C. apertus eastward into . In 2024, researchers identified diagnostic parietal fragments from a multigeneric bonebed in the easternmost exposure of the at Saskatchewan Landing Provincial Park, along . This finding, the first confirmed occurrence of the species in the province, suggests Centrosaurus occupied a wider expanse of the Canadian prairies, potentially from inland fluvial settings to more proximal coastal habitats. Fossils of Centrosaurus remain unknown south of the modern Alberta-Montana border or east of the , although possibly present in equivalent strata in northern , such as the , which may harbor undiscovered material. This limited spatial extent underscores its to northern , in contrast to chasmosaurine ceratopsids that prevailed in southern Laramidian latitudes during the late . Such biogeographic patterns reflect latitudinal gradients in ceratopsid diversity, with centrosaurines like Centrosaurus dominating higher latitudes.

Contemporaneous fauna

The of , , hosted a diverse array of predators during the middle Campanian, with tyrannosaurid theropods such as Gorgosaurus libratus and Daspletosaurus sp. serving as apex hunters that targeted large herbivore herds. Evidence of their predatory behavior includes bite marks on the frill of a juvenile Centrosaurus specimen, indicating attacks on ceratopsian groups, likely during opportunistic assaults on subadults or isolated individuals. These tyrannosaurids, reaching lengths of up to 9 meters, occupied the top , exerting significant predation pressure on the megaherbivore-dominated community. Among the herbivores co-occurring with Centrosaurus apertus, fellow ceratopsians such as Chasmosaurus russelli shared similar low- to mid-level browsing niches, cropping vegetation around 1–2 meters above the ground and potentially competing for angiosperm and fern resources in open floodplain areas. Hadrosaurs like Prosaurolophus maximus accessed higher browse, reaching up to 4–5 meters bipedally, which reduced direct overlap with ceratopsians but still involved competition for mid-canopy shrubs and conifers. Ankylosaurs, including Scolosaurus cutleri, foraged at lower heights of 0.5–1 meter, grazing tougher vegetation and filling a basal herbivore role that complemented the taller browsers in the assemblage. The dynamics of the formation reflected a predator-rich environment on ancient floodplains, where Centrosaurus functioned as a mid-level amid a broader community that included diverse avifauna dominated by ornithurine birds, such as those represented by isolated coracoids indicating ground-foraging or perching behaviors. Small mammals, primarily multituberculates like Meniscoessus and marsupials such as , occupied insectivorous and omnivorous niches, scavenging or feeding on seeds in the without significant interaction with the larger dinosaurs. This structure supported a stable food web until faunal turnover events disrupted it. Faunal shifts occurred at the Oldman-Dinosaur Park Formation boundary and within the lower around 76.5–75.5 Ma, marking the dominance of Centrosaurus apertus in the middle lower assemblage zone, where it coexisted with Corythosaurus casuarius before transitioning to Styracosaurus albertensis and Lambeosaurus lambei in the upper zone. These turnovers, spanning approximately 600,000 years, reflected environmental changes that restructured the community without extirpating ceratopsian diversity.

References

  1. [1]
    Centrosaurus
    ### Key Facts About Centrosaurus
  2. [2]
    Craniofacial ontogeny in Centrosaurus apertus - PMC - NIH
    Feb 13, 2014 · Centrosaurus apertus, a large bodied ceratopsid from the Late Cretaceous of North America, is one of the most common fossils recovered from the ...
  3. [3]
    A new centrosaurine ceratopsid from the Oldman Formation of ...
    Mar 2, 2017 · Unmodified adult supraorbital horn cores have an inflated pyramidal shape with rounded apices. TYPE SPECIES: Centrosaurus apertus Lambe, 1904.
  4. [4]
    Centrosaurus Remains from the Barnard Quarry Near Rangely ...
    Centrosaurus was described by Lawrence Lambe in 1904 on the basis of similar fragments discovered ... Formation of the Belly River Series in the Red Deer River ...
  5. [5]
    https://www.cambridge.org/core/books/dinosaur-systematics/on-the-status-of-the-ceratopsids-monoclonius-and-centrosaurus/0AB64C074B307624387CFCD900A0441F
  6. [6]
    17 - On the status of the ceratopsids Monoclonius and Centrosaurus
    Lambe named Centrosaurus apertus in 1904 on the basis of an isolated parietal from Judith River sediments in southern Alberta. Barnum Brown discovered complete ...
  7. [7]
    Monoclonius - Prehistoric Wildlife
    Nov 10, 2015 · ‭ ‬Lawrence Lambe considered Centrosaurus to be very distinct from Monoclonius,‭ ‬while Barnum Brown thought that all Monoclonius species named ...
  8. [8]
    taphonomy of a monodominant centrosaurus apertus (dinosauria ...
    Sep 1, 2015 · The horned dinosaur Centrosaurus apertus from the Belly River Group (Campanian) is represented by multiple articulated skulls and skeletons, ...
  9. [9]
    Certopsidae) Bone Bed from the Dinosaur Park Formation (Upper ...
    Aug 5, 2025 · The bone bed is dominated by the disarticulated, mostly fragmentary and slightly abraded remains of Centrosaurus apertus, with minor occurrences ...Missing: 1920s | Show results with:1920s
  10. [10]
    Alberta Hilda Dinosaur Mega-Bonebed | The Canadian Encyclopedia
    Jun 22, 2011 · The Tyrrell Museum excavated and studied parts of the Hilda mega-bonebed in 1997. That research indicated that the Hilda mega-bonebed is a ...Missing: discovery date
  11. [11]
    Saskatchewan's first Centrosaurus and Citipes elegans fossils ...
    Nov 19, 2024 · Paleontologists and students from McGill University have documented Saskatchewan's first confirmed fossil specimens of Centrosaurus, a horned dinosaur species ...
  12. [12]
    Occurrence of Centrosaurus apertus (Ceratopsidae
    Lambe L.M. 1904. On the squamoso–parietal crest of the horned dinosaurs Centrosaurus apertus and Monoclonius canadensis from the Cretaceous of Alberta.
  13. [13]
    Paleontologists discover Saskatchewan's first Centrosaurus and ...
    Nov 19, 2024 · Paleontologists and students from McGill University have documented Saskatchewan's first confirmed fossil specimens of Centrosaurus, a horned dinosaur species ...
  14. [14]
    https://phys.org/news/2025-10-lichens-drones-reveal-dinosaur-bones.html
  15. [15]
    https://www.geol.umd.edu/~tholtz/G104/physassi05.pdf
  16. [16]
    [PDF] Name: 1 GEOL 104 Dinosaurs: A Natural History Homework 5
    Psittacosaurus (skull length ~15 cm). Centrosaurus (skull length ~100 cm). Ornithopods. Hypsilophodon (skull length ~10 cm). Gryposaurus (skull length ~65 cm).
  17. [17]
    The thermoregulatory functions of the Triceratops frill and horns
    The frill and horn cores of Triceratops were used as thermoregulatory structures with the horn cores interpreted as being especially important in the ...
  18. [18]
    A complete skeleton of the horned dinosaur Monoclonius, and ...
    A complete skeleton of the horned dinosaur Monoclonius, and description of a second skeleton showing skin impressions.Missing: Centrosaurus | Show results with:Centrosaurus
  19. [19]
    The exquisitely preserved integument of Psittacosaurus and ... - Nature
    Aug 12, 2022 · The Frankfurt specimen of the early-branching ceratopsian dinosaur Psittacosaurus is remarkable for the exquisite preservation of squamous (scaly) skin and ...
  20. [20]
    Centrosaurus - Wiktionary, the free dictionary
    Etymology. From Ancient Greek κέντρον (kéntron, “point, spike”) + σαῦρος (saûros, “reptile”). Proper noun. English Wikipedia has an article on: Centrosaurus.
  21. [21]
    The most common horned dinosaur fossils in our collection belong ...
    Aug 24, 2022 · The name Centrosaurus means “prickly lizard,” thanks to the hook-shaped horns on its frill. The name apertus means aperture, referring to the ...
  22. [22]
    https://pubs.geoscienceworld.org/csp/cjes/article/52/8/655/301112/Origins-of-dinosaur-bonebeds-in-the-Cretaceous-of
  23. [23]
    https://doi.org/10.7717/peerj.17224
  24. [24]
    Monoclonius - Wikipedia
    ... Centrosaurus nasicornus. A 2014 study of changes during growth in Centrosaurus concluded that C. nasicornus is a junior synonym of C. apertus ...Missing: synonymy | Show results with:synonymy
  25. [25]
    https://pubs.geoscienceworld.org/sepm/palaios/article-abstract/16/5/482/99813/The-Taphonomy-of-a-Centrosaurus-Ornithischia
  26. [26]
    https://www.researchgate.net/publication/277416369_Pattern_and_Transition_of_Surficial_Bone_Texture_of_the_Centrosaurine_Frill_and_Their_Ontogenetic_and_Taxonomic_Implications
  27. [27]
    Certopsidae) Bone Bed from the Dinosaur Park Formation (Upper ...
    Mar 3, 2017 · It long has been used as a case example for evidence of herding and social behavior in dinosaurs, but a detailed analysis of the site has not ...Missing: structure | Show results with:structure
  28. [28]
    Centrosaurus | The Canadian Encyclopedia
    Mar 3, 2022 · Centrosaurus (pronounced cen-troh-sore-us) is a genus of medium-sized, plant-eating, horned dinosaur. It lived between 76.5 and 75.3 million ...
  29. [29]
    [PDF] Feeding height stratification among the herbivorous dinosaurs from ...
    Apr 4, 2013 · Significant results reported in bold. Taxonomic abbreviations: Cen, Centrosaurus; Cha, Chasmosaurus; Cor, Corythosaurus; Euo, Euoplocephalus; ...
  30. [30]
    The Functional and Palaeoecological Implications of Tooth ...
    Our findings reveal that tooth morphology and wear exhibit different, but complimentary, dietary signals that combine to support the hypothesis of dietary ...
  31. [31]
    Paleobiology of Herbivorous Dinosaurs | Request PDF
    Aug 10, 2025 · Mesozoic primary productivity included cycadophytes, gymnosperms, ferns, horsetails and ginkgoes, likely representing the main food source for ...
  32. [32]
    Skull Ecomorphology of Megaherbivorous Dinosaurs from the ...
    For example, long-faced Centrosaurus apertus have been described (e.g., Ce. ... herd of low-browsing ceratopsids passed through the area [5]. The strong ...<|separator|>
  33. [33]
    A Comparison of the Jaw Mechanics in Hadrosaurid and Ceratopsid ...
    Aug 26, 2009 · Three-dimensional finite element analysis results of Centrosaurus jaw (UALVP41) in lateral (A, D, G), rostral oblique (B, E, H), and caudal ...
  34. [34]
    [PDF] Forelimb posture in neoceratopsian dinosaurs: implications for gait ...
    Abstract.—Ceratopsid dinosaurs traditionally have been restored with sprawling forelimbs and were considered unable to run at high speeds.Missing: flexibility | Show results with:flexibility
  35. [35]
    [PDF] LIMB BONE SCALING, LIMB PROPORTIONS, AND BONE ...
    Mediportal animals have moderate adaptations for fast locomotion, notably often relatively longer metapodia, a semidigitigrade stance and flexed joints, ...
  36. [36]
    Speculations about the diet and digestive physiology of herbivorous ...
    Herbivorous dinosaurs likely used hindgut fermentation with gut microflora, had low metabolic rates, and long gut residence times, possibly eating high fiber ...
  37. [37]
    https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0004252
  38. [38]
    Doctors diagnose advanced cancer—in a dinosaur | Science | AAAS
    The conclusion: The dinosaur suffered from osteosarcoma, a cancer that, in humans, primarily attacks teens and young adults. The disease causes tumors of ...
  39. [39]
    Evidence of Combat in Triceratops | PLOS One - Research journals
    This pattern is consistent with Triceratops using its horns in combat and the frill being adapted as a protective structure for this taxon.
  40. [40]
    Evidence of Combat in Triceratops - PMC - NIH
    Jan 28, 2009 · One evolutionary interpretation worthy of further consideration is that some ceratopsids (such as Centrosaurus) lost their long brow horns or ...
  41. [41]
    Evidence of intestinal parasites of dinosaurs - PubMed
    These fossil parasite stages are described and their possible effect on dinosaurs discussed. Th … ... Evidence of intestinal parasites of dinosaurs.Missing: Centrosaurus worms
  42. [42]
    Stratigraphic architecture of the Belly River Group (Campanian ...
    Jan 25, 2024 · Identification of the Oldman Formation in the subsurface remains based on its relatively high gamma-ray response in mudstone successions, but it ...
  43. [43]
    Dinosaur trackways from the Upper Cretaceous Oldman and ...
    Aug 5, 2015 · In DPP, rock exposures are restricted to the uppermost Oldman Formation and the Dinosaur Park Formation (Eberth 2005). ... 76.5 and 74.8 Ma ( ...
  44. [44]
    The “Judith River–Belly River problem” revisited (Montana-Alberta ...
    Jul 28, 2023 · A bentonite bed positioned ~1 m above the Oldman–Dinosaur Park contact in Dinosaur Provincial Park (JC082817-1 bentonite) yielded an age of 76. ...
  45. [45]
    Palaeoenvironmental drivers of vertebrate community composition ...
    Nov 15, 2016 · The Oldman Formation is broadly considered to represent more fluvial, inland conditions, and is made up of series of upward fining palaeochannel ...
  46. [46]
    A new, transitional centrosaurine ceratopsid from the Upper ...
    Apr 29, 2020 · Stellasaurus expresses a unique combination of eucentrosauran centrosaurine characters, including an elongate nasal horncore, diminutive supraorbital horncores ...
  47. [47]
    Occurrence of Centrosaurus apertus (Ceratopsidae: Centrosaurinae) in Saskatchewan, Canada, and expanded dinosaur diversity in the easternmost exposure of the Late Cretaceous (Campanian) Dinosaur Park Formation
    ### Extracted Information
  48. [48]
    A Centrosaurine (Dinosauria: Ceratopsia) from the Aguja Formation ...
    While centrosaurines and ceratopsids in general are abundant in the Late Campanian of northern Laramidia, they are much less commonly found in southern ...
  49. [49]
    A ceratopsid-dominated tracksite from the Dinosaur Park Formation ...
    Jul 23, 2025 · The Dinosaur Park Formation at the Park is characterized by fluvial channel-belt, floodplain, and coal deposits that record sedimentation on an ...
  50. [50]
    Bite marks on the frill of a juvenile Centrosaurus from the Late ...
    Oct 12, 2018 · Bite marks on bones can provide critical information about interactions between carnivores and animals they consumed (or attempted to) in ...
  51. [51]
    https://www.sciencedirect.com/science/article/abs/pii/S0031018212003793
  52. [52]
    Feeding height stratification among the herbivorous dinosaurs from ...
    Most herbivorous dinosaur species from the Dinosaur Park Formation were restricted to feeding no higher than approximately 1 m above the ground. There is ...Missing: fiber fermentation
  53. [53]
    https://doi.org/10.1016/j.palaeo.2012.06.024
  54. [54]
    Megaherbivorous dinosaur turnover in the Dinosaur Park Formation ...
    Sep 15, 2012 · ▻ The Dinosaur Park Formation is composed of two broad megaherbivore assemblage zones. ▻ These zones span ~ 600 Ka. ▻ Each zone is divisible ...