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Dunkleosteus

Dunkleosteus is an extinct genus of large, armored arthrodire placoderm fish that thrived as an apex predator in the Late Devonian seas approximately 382–358 million years ago.^[1] Known primarily from fossils in the Cleveland Shale of northern Ohio, it featured a robust, stocky body covered in thick bony plates on the head and thorax, powerful shearing jaws formed from sharpened bone plates rather than teeth, and adaptations for fast, maneuverable swimming in pelagic environments.^[2]^[1] The most well-studied species, Dunkleosteus terrelli, reached lengths of up to 4.5 meters, preying on other armored fish, early sharks, and invertebrates with a bite force estimated among the strongest of ancient vertebrates.^[2]^[1] As one of the dominant predators during the "Age of Fishes," Dunkleosteus exemplifies the evolutionary innovations of jawed vertebrates in the Devonian Period, including a jointed neck for improved mobility and a thunniform body shape suited for burst acceleration and turning in open water.^[2] Fossils reveal a deep trunk comprising about 25–28% of its total length, large anteriorly positioned pectoral fins for enhanced maneuverability, and a lunate caudal fin with a prominent ventral lobe, challenging earlier depictions of it as a sluggish, bottom-dwelling creature.^[2] Its habitat was a subtropical inland sea at around 30–35° south latitude, now preserved in anoxic shales that protected soft tissues and provided exceptional fossil preservation.^[1] Designated as Ohio's state fossil fish in 2020, Dunkleosteus remains crucial for understanding the diversification of marine ecosystems and the rise of top predators before the Devonian extinction event around 359 million years ago.^[1]^[3]

History

Discovery

The first fossils of Dunkleosteus were discovered in 1867 by amateur paleontologist Jay Terrell, a hotel owner from Lorain, Ohio, while collecting along the shale cliffs of Lake Erie near Sheffield Lake. The initial specimens consisted primarily of jaw fragments from the Cleveland Shale, which Terrell sent to geologist John Strong Newberry for identification; these remains represented the armored head plates of what would later be recognized as a massive prehistoric predator.^[1]^[3]^[4] Subsequent excavations focused on major fossil quarries in the Late Devonian Cleveland Shale of northern Ohio, where thousands of Dunkleosteus specimens—mostly comprising the robust head and thoracic armor plates—have been unearthed due to the formation's exceptional preservation of placoderm remains. Additional significant sites span other Late Devonian deposits across the United States (such as in New York and Pennsylvania), Canada (including the Kettle Point Formation in Ontario), Europe (notably in Poland and Belgium), and Morocco (in the Maider Formation of the Anti-Atlas region), revealing a widespread distribution of the genus during the Famennian stage. These quarries have yielded disarticulated but informative fossils, highlighting Dunkleosteus as one of the most abundantly documented arthrodires from the period.^[5]^[6]^[7]^[8] Institutions such as the Cleveland Museum of Natural History have played a pivotal role in curating these collections since the early 20th century, amassing the world's largest repository of Dunkleosteus fossils through systematic preparation and study beginning in the 1930s. Early 20th-century expeditions by local collectors and museum staff in the Cleveland area further expanded holdings, recovering high-quality specimens from eroding shale exposures during a time of active industrial and infrastructural development that exposed new outcrops. This institutional effort has facilitated ongoing research into the fish's morphology and ecology.^[9]^[10]^[11] In recognition of its scientific and regional significance, Dunkleosteus terrelli was designated Ohio's official state fossil fish on December 21, 2020, through Senate Bill No. 123, signed into law by Governor Mike DeWine; the bill honors the species' abundance in Ohio's Devonian strata and its role in highlighting the state's paleontological heritage.^[12]

Etymology and Naming

The type species of Dunkleosteus was originally described as Dinichthys terrelli by American paleontologist John Strong Newberry in 1873, with the specific epithet honoring Jay Terrell, the amateur collector who discovered the initial fossil specimens near Sheffield Lake, Ohio, in the late 1860s.^[13] Newberry placed it within the genus Dinichthys, which he had established earlier for similar large arthrodire placoderms from the Late Devonian Cleveland Shale.^[13] In 1956, French paleontologist Jean-Pierre Lehman erected the genus Dunkleosteus to accommodate D. terrelli (as a junior synonym of Dinichthys terrelli), recognizing distinct cranial and thoracic armor features that warranted separation from Dinichthys. The genus name derives from the surname of American paleontologist David Hosbrook Dunkle (1911–1984), former curator of vertebrate paleontology at the Cleveland Museum of Natural History, combined with the Ancient Greek osteon (ὀστέον), meaning "bone," yielding "Dunkle's bone" in reference to the fossil's bony armor.^[15] The family classification evolved alongside these nomenclatural shifts: Dinichthys species were initially grouped in Dinichthyidae, established by American ichthyologist Oliver Perry Hay in 1902 as part of the arthrodire placoderms.^[16] By the mid-20th century, as Dinichthys species were synonymized or reassigned—such as Dinichthys terrelli to Dunkleosteus and others like D. herzeri retained but reclassified—the family was emended and renamed Dunkleosteidae by Erik Stensiö in 1963 to reflect the core taxa including Dunkleosteus, Eastmanosteus, and related genera within the order Arthrodira.^[17] This restructuring invalidated several junior synonyms from the original Dinichthyidae assemblage, consolidating large North American eubrachythoracid arthrodires under the new family by the late 1950s.^[17]

Taxonomy

Species

The genus Dunkleosteus is represented by several species, though taxonomic revisions have reduced the number of valid taxa due to fragmentary remains and morphological similarities. The type species is D. terrelli (originally described as Dinichthys terrelli by Newberry in 1873), known from the Cleveland Shale Member of the Ohio Shale Formation (Famennian stage of the Late Devonian) in Ohio, USA.^[18] The species was designated the type for the genus Dunkleosteus upon its erection by Lehman in 1956. Historically, ten species have been proposed within the genus, but validity is assessed based on diagnostic dermal bone morphology, ornamentation patterns, and stratigraphic context, with many invalidated due to insufficient distinguishing features or overlap with D. terrelli. A 2023 analysis considers only D. terrelli and D. raveri taxonomically stable, with others of questionable validity, including D. amblyodoratus and D. raveri from the Cleveland Shale and Kettle Point Formation (both Famennian), which were described as distinct in 2010 but later questioned; D. amblyodoratus based on features such as transverse articular facets on the parasphenoid and retention of fine sensory canal grooves.^[19] Other proposed taxa, such as D. belgicus, D. dia, and D. rhamphosus, remain of uncertain status pending further material, often based on isolated plates from European deposits. D. missouriensis (from Frasnian deposits in Missouri) is of questionable validity and not synonymized with D. terrelli due to stratigraphic differences. D. marsaisi from Morocco has been debated as potentially synonymous with D. terrelli.^[19] A recent addition is D. tuderensis, described in 2023 from an infragnathal bone in the Famennian sediments of the Tver Region, Russia, distinguished by its gnathal histology and growth patterns.^[19] Invalid species, such as those erected on single, poorly preserved fragments, are typically reassigned or excluded from the genus. Species distribution spans Laurussia and Gondwana margins, with D. terrelli and D. raveri in North America; D. tuderensis in eastern Europe-Russia; and other taxa like D. belgicus reported from Belgium and D. marsaisi from Morocco, reflecting a cosmopolitan Late Devonian range.

Phylogeny

Dunkleosteus is classified within the Placodermi, specifically in the order Arthrodira, suborder Eubrachythoraci, and superfamily Pachyosteomorpha, belonging to the family Dunkleosteidae. This placement is supported by cladistic analyses that highlight shared derived traits, including hypertrophied jaw adductor muscles enabling powerful bites and specialized dermal plates of the cranial armor adapted for shearing and crushing. These synapomorphies distinguish Dunkleosteidae from other arthrodires, emphasizing adaptations for predatory lifestyles in Late Devonian marine environments.^[20] Phylogenetic studies, such as the cladistic analysis of Eubrachythoraci, position Dunkleosteus as part of a monophyletic Dunkleosteidae, with close relations to genera like Eastmanosteus and Heintzichthys within Pachyosteomorpha. More recent reconstructions integrate morphological data from complete skeletons, showing Dunkleosteus as sister to other large arthrodires in trees derived from character matrices of cranial and thoracic plates.^[20] These analyses underscore the group's position among aspinothoracidans, bracketed by taxa like Coccosteus and Incisoscutum with known post-thoracic remains.^[20] Ongoing debates question the monophyly of Dunkleosteidae, with some evidence suggesting paraphyly based on variable armor ornamentation and fin morphologies across included genera. Recent cranial reconstructions from 2023–2024, utilizing three-dimensional mounts and CT scans, propose potential reclassifications by highlighting discrepancies in nuchal plate margins and parasphenoid facets, which may warrant separating forms like Dinichthys into distinct families.^[20] These updates refine evolutionary relationships but maintain Dunkleosteus as a key eubrachythoracid representative.^[20]

Description

Anatomy

Dunkleosteus exhibited the characteristic placoderm body plan, dominated by extensive dermal armor that protected the head and anterior trunk. This armor comprised thick, interlocking bony plates, including the nuchal and paranuchal plates on the posterior skull, formed from cellular lamellar dermal bone with a cancellar spongy architecture and superficial layers potentially incorporating semidentine-like tubercles in arthrodires, though the plates in D. terrelli were notably smooth and unornamented.^[21]^[20] The armor extended across the cranium and thorax, embedding within epaxial musculature to enhance structural integrity and stability during movement, and covered roughly one-third of the total body length.^[20] The skull featured a short, broad cranium constructed from articulated dermal plates, such as the rostral, postnasal, and submarginal, forming a deep, rounded structure with a terminal mouth and large orbits enclosed by cup-shaped sclerotic rings.^[20] Instead of conventional teeth, the jaws incorporated robust shearing bone plates, including the infragnathal (lower) and supragnathal (upper) blades with sharp, cutting edges designed for slicing prey.^[20] A single gill opening lay between the head and trunk shields, marked by postbranchial denticles.^[20] The overall body form was elongated and fusiform, with a stout, deep trunk optimized for hydrodynamic efficiency in a pelagic environment.^[20] Pectoral fins, positioned anteriorly with enlarged bases, provided primary stability and maneuverability, while pelvic fins were reduced and located posterior to the ventral armor shield.^[20] The tail was heterocercal, as inferred from closely related arthrodires, supporting a lunate caudal fin for propulsion without a distinct terminal lobe.^[20] Sensory adaptations included lateral line canals incised into the dermal plates, terminating posteriorly on the dorsolateral armor, which facilitated detection of prey vibrations and environmental cues through water displacement.^[20] Eyes were dorsally positioned with average proportions for the body mass, augmented by ornamented sclerotic rings possibly aiding in visual acuity for active hunting.^[20] A recent reconstruction by Engelman (2024) portrays Dunkleosteus terrelli as a more compact, shark-like predator, emphasizing refined plate articulations, fin placements, and a streamlined silhouette based on three-dimensionally preserved specimens.^[20]

Size

Early estimates of Dunkleosteus terrelli body length, from the late 19th and early 20th centuries, ranged from 6 to 10 meters, derived primarily from skull-to-body ratios extrapolated from smaller arthrodire relatives such as Coccosteus and assumptions of elongated, shark-like proportions.^[22] These figures, often around 7–9 meters by the 1920s, relied on incomplete fossil material and speculative reconstructions lacking quantitative validation.^[22] A 2023 revision by Engelman introduced a more rigorous method using orbit-opercular length (OOL) regression, calibrated against a dataset of over 3,000 extant fish observations, combined with fin spine lengths and comparative anatomy from closely related placoderms.^[22] This approach yielded an average adult length of 3.4 meters for D. terrelli, with a maximum of 4.1 meters for the largest individuals.^[22] Overestimations in prior studies stemmed from underestimating head size relative to body length (e.g., assuming only 8% head-to-total-length ratio versus 18–30% typical in non-anguilliform fishes) and ignoring soft tissue contributions.^[22] Mass estimates for D. terrelli, based on volumetric modeling of armored sections via modified ellipsoid regressions (r² = 0.992), range from 950–1,200 kilograms for typical 3.4-meter adults to 1,494–1,764 kilograms for maximum-sized specimens.^[22] Specimen variations highlight these limits; for instance, CMNH 5768 represents a standard adult at approximately 3.4 meters, while the largest known jaw element (68 cm inferognathal from CMNH 5936) supports the 4.1-meter upper bound.^[22]

Paleobiology

Diet and Feeding

Dunkleosteus employed a sophisticated feeding strategy as an apex predator, utilizing lever-like jaw plates powered by robust adductor muscles to deliver one of the most forceful bites among ancient fishes. Biomechanical models indicate that its jaw-closing mechanism generated an estimated maximal bite force exceeding 6,000 N at the tip of the shearing blades and over 7,400 N at the rear dental plates in a large individual, enabling it to crush heavily armored prey such as other placoderms.^[23] This force was achieved through a four-bar linkage system in the skull, which amplified muscle leverage during closure, comparable to the bite strength of large modern alligators and sufficient to shear through bone and exoskeletons. Prey capture likely involved suction feeding, facilitated by rapid jaw depression and cranial kinesis that expanded the oral cavity at high speed, drawing in water and nearby prey via negative pressure generated by gill expulsion. This mechanism targeted soft-bodied or lightly armored organisms, including fish, cephalopods like ammonites, and smaller placoderms such as antiarchs, allowing Dunkleosteus to engulf and position prey for subsequent crushing.^[23] The quick-opening phase of the jaws, driven by depressor muscles and thoracic armor interactions, mirrored suction dynamics in extant ram-suction feeders, optimizing strike efficiency in open-water environments. Fossil evidence supports this predatory behavior, with regurgitated boluses—semi-digested masses of fish bones and scales—frequently associated with Dunkleosteus remains, indicating incomplete digestion and routine expulsion of indigestible parts.^[24] Bite marks on fossils of potential prey, including the armored placoderm Bothriolepis and even smaller conspecifics, exhibit puncture and shear patterns matching the self-sharpening edges of Dunkleosteus jaw plates, confirming its role in direct predation and possible cannibalism.^[25] Additionally, chondrichthyan teeth attributed to species like Orodus found in proximity to Dunkleosteus fossils suggest these were stomach contents, further evidencing a diet dominated by smaller aquatic vertebrates.^[26]

Reproduction

The reproductive biology of Dunkleosteus, a large arthrodire placoderm from the Late Devonian, is inferred primarily from fossil evidence in closely related taxa and contemporaneous assemblages, as direct specimens preserving gonadal structures or embryos are lacking. Internal fertilization is considered likely, based on the discovery of ossified pelvic claspers in male specimens of the arthrodire Incisoscutum ritchiei from the Gogo Formation, which articulate with the pelvic girdle and bear denticle-covered tips analogous to those in chondrichthyans for sperm transfer during copulation.^[27] This structure demonstrates sexual dimorphism in the pelvic region, with females exhibiting broader basipterygia, and supports the widespread occurrence of internal fertilization across arthrodires, including eubrachythoracids like Dunkleosteus.^[28] Oviparity appears probable for Dunkleosteus, with reproduction involving lecitotrophic eggs that relied on yolk for embryonic nourishment, akin to the egg-laying strategies of modern sharks. Fossil egg cases from the Famennian Cleveland Shale— the type locality for D. terrelli—have been identified as arthrodiran based on their layered collagen fibers, frilled margins, raised ribs, and associated tuberculated bone fragments matching placoderm armor ornamentation.^[29] These pelagic egg cases, distinct from those of chondrichthyans, indicate external deposition after internal fertilization, suggesting a reproductive strategy that combined internal insemination with oviparous development to protect embryos in oxygen-poor marine environments.^[30] While direct evidence of mating behaviors remains elusive, the presence of claspers implies side-by-side copulation to accommodate the armored thoracic plates, a trait shared with other primitive gnathostomes. Subtle variations in armor plate morphology among Dunkleosteus specimens may reflect sexual dimorphism, though such differences are less pronounced than the clear pelvic distinctions observed in Incisoscutum.^[27] Overall, these inferred strategies highlight the evolutionary innovation of internal fertilization in placoderms, predating similar modes in extant vertebrates by over 100 million years.^[28]

Growth and Ontogeny

Fossil evidence from the Cleveland Shale reveals a well-documented ontogenetic series for Dunkleosteus terrelli, spanning juvenile to adult stages and highlighting progressive morphological changes in body shape and armor.^[2] Juvenile specimens, such as CMNH 6194 and CMNH 7424, exhibit a shallow trunk comprising approximately 20% of body length and a high fineness ratio of 3.5–3.85, indicating a relatively slender, circular cross-section body with lighter, less ossified armor.^[2] These early stages feature proportionally larger heads, evidenced by a head shield length-to-width ratio of about 1.25, compared to 0.77 in adults, and pectoral fins measuring 8% of total length (45% of skull length).^[2] Total body lengths for juveniles are estimated at under 3 meters, based on associated dermal plates and anatomical proportions.^[2] As D. terrelli transitioned to subadult stages, represented by specimens like CMNH 6090 and CMNH 7054, the body underwent significant remodeling, with trunk depth increasing to 25% of body length and fineness ratio decreasing to 2.92–3.18, resulting in a more robust form approximately 3.0–3.4 meters long.^[2] Armor plates deepened dorsoventrally through positive allometric growth, enhancing structural rigidity, while the trunk shifted from a circular to an ovate cross-section (depth-to-width ratio of 1.21–1.29 in later stages).^[2] Pectoral fins displayed positive allometry, growing to 10% of total length (55% of skull length) in adults, and the head shield widened, making the mouth more terminal for improved predatory efficiency.^[2] Gnathal elements, such as infragnathals, grew via labio-basal deposition of vascularized bone and osteonal reinforcement along occlusal margins, with two ossification centers fusing during development to accommodate wear and elongation. In mature adults, exemplified by CMNH 5768, the trunk reached 28% of body length with a fineness ratio of 2.66, yielding total lengths of 3.8–4.2 meters and a body up to 1.85 times the head length.^[2] These changes reflect an overall positive allometry in body depth and armor thickness, transitioning from a streamlined juvenile form suited to early mobility to a deeper, more hydrodynamic adult profile optimized for pelagic predation.^[2] Sclerotic rings expanded to fill orbits, reaching 8.1 cm in width, indicating sustained ocular development into maturity.^[2] Such ontogenetic shifts, preserved across numerous Cleveland Shale specimens comprising 20% of local vertebrate fossils, underscore D. terrelli's adaptation from vulnerable youth to dominant apex predator.^[2]

Paleoecology

Geological Context

_Dunkleosteus lived during the Famennian stage of the Late Devonian period, spanning approximately 372 to 359 million years ago.^[31] The genus is primarily known from the Cleveland Shale Member of the Ohio Shale Formation in North America, a key stratigraphic unit representing marine deposits from this interval.^[32] Fossils of Dunkleosteus have also been reported from other Famennian-aged formations, including the Kettle Point Formation in Canada, the Marnes de Famenne in Belgium, and deposits in the Holy Cross Mountains of Poland.^[32]^[7] The Famennian stage was marked by significant environmental perturbations, including the Kellwasser event at its base around 372 million years ago and the Hangenberg event near its close around 359 million years ago, both characterized by widespread ocean anoxia that influenced placoderm diversification and ultimately contributed to their decline.^[33]^[34] Exceptional fossil preservation of Dunkleosteus occurs in black shales formed under anoxic bottom waters, which minimized scavenging and decay, resulting in the recovery of disarticulated but well-preserved armor plates.^[2]^[35]

Habitat and Distribution

Dunkleosteus terrelli primarily inhabited the pelagic zone of epicontinental seas during the Late Devonian, occupying oxygenated surface waters overlying anoxic seafloors in the distal Appalachian Basin. Fossil evidence from the Cleveland Shale Member of the Ohio Shale Formation indicates a stratified paleoenvironment with water depths estimated at 30 to 100 meters, where unstable fine sediments, minimal bottom oxygen, and the presence of hydrogen sulfide created inhospitable benthic conditions unsuitable for non-nektonic organisms. This habitat supported a nektonic lifestyle, with the species actively cruising in open marine settings rather than associating with the seafloor.^[36] The global distribution of Dunkleosteus encompasses assemblages from North America in the Appalachian Basin, Europe along the margins of the Rheic Ocean, and North Africa on Gondwanan shelves, reflecting broad dispersal facilitated by Late Devonian ocean currents across ancient inland seas and open oceans. In North America, the species is particularly abundant in the Cleveland Shale of northern Ohio, where it comprises about 20% of vertebrate fossils, while European and African occurrences suggest a cosmopolitan range within Famennian marine ecosystems. This widespread fossil record underscores the species' capability for long-distance migration in subtropical latitudes around 30–35° south of the equator.^[2] Dunkleosteus exhibited environmental tolerances suited to marine conditions in stratified waters, including adaptation to low-oxygen benthic layers indirectly through its pelagic habits, though it primarily exploited upper water column niches with sufficient oxygenation. The species' remains show evidence of post-mortem flotation and scavenging in the water column, contributing to disarticulated preservation. Taphonomic biases favor overrepresentation in anoxic black shale deposits, where rapid burial in oxygen-poor environments enhanced fossilization of armored elements, while underestimating occurrences in shallower, oxygenated waters prone to faster decay or biotic disturbance.^[36]^[2]

References

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[PDF] GEOFACTS - Ohio.gov
Dunkleosteus terrelli (pronounced "dun-kul-OS-tee-us tare-RELL-eye") was an arthrodire placoderm (an extinct armored fish with a jointed neck) that lived near ...
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Dunkleosteus Reconstruction - Palaeontologia Electronica
Dunkleosteus is a widely-recognized prehistoric organism, yet its life appearance, paleobiology, and even basic morphology remain poorly understood. A new ...
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Meet Dunk: Ohio's Ancient Apex Predator
Feb 7, 2025 · Dunk was a fierce predator—so fierce, it required no teeth to hunt. Instead, Dunkleosteus had blade-like jawbones that sharpened themselves when ...
[4]
[PDF] Ohio Geology EXTRA
Jul 31, 2019 · In 1867, fossils of Dunkleosteus terrelli were discovered by amateur paleontologist Jay Terrell, a resident of Lorain, Ohio, who was collecting ...
[5]
[PDF] the geology of ohio—the devonian
... bones of armored arthrodires, of which Dunkleosteusis the best known. At least 22 species of arthrodires have been reported from the Cleveland Shale Member.
[6]
Two new species of Dunkleosteus Lehman, 1956, from the Ohio ...
Two new species of Dunkleosteus Lehman, 1956, from the Ohio Shale Formation (USA, Famennian) and the Kettle Point Formation (Canada, Upper Devonian), and a ...
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[PDF] A large Late Devonian arthrodire (Vertebrata, Placodermi) from Poland
Jan 19, 2018 · The described specimens are the oldest occurrence of the genus Dunkleosteus in Europe, the most complete one from Poland and one of the ...
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https://www.aapg.org/news-and-media/details/explorer/articleid/65292/sea-monsters-of-the-desert
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Our History | Cleveland Museum of Natural History
Paleontologist Peter Bungart began our collection of Dunkleosteus terrelli specimens when he reassembled the first fossil in 1936. Named for former curator ...
[10]
'Chunky dunk?' Cleveland's prehistoric sea monster may have been ...
Mar 9, 2023 · And its name honors both a former museum curator (David Dunkle) and a local business owner (Jay Terrell) who discovered the fossilized species.
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Following the discovery of the armored fish by Ohio geologist Jay Terrill in 1867 along the shale banks of Cove Beach in Sheffield Lake, fossilized remains of ...
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Governor DeWine Signs Bill Designating New State Fossil Fish
Governor Mike DeWine signed Ohio Senate Bill No. 123 into law, officially designating the fossil fish species Dunkleosteus terrelli as the Fossil Fish of Ohio.
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Aug 10, 2025 · Two pachyosteomorph arthrodires are described from the Upper Devonian of North America, Dunkleosteus raveri sp. nov. and Dunkleosteus ...
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Jul 19, 2025 · Author. Dinichthyidae, subfamily, belongs to Coccosteidae, stated without evidence, Hay, 1902. Dinichthyidae, family, belongs to Arthrothoraci ...Missing: original | Show results with:original
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[PDF] GEOLOGICAL SURVEY OF OHIO. - University of Kentucky
NEWBERRY. ... They will doubtless form a second species of the genus, for which I propose the name of Dinichthys Terrelli, to comme morate the zeal and.
[18]
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A Devonian Fish Tale: A New Method of Body Length Estimation ...
However, the exact size of this taxon is unclear due to its head and thoracic armor being the only elements of its body regularly preserved in the fossil record ...
[22]
A biomechanical model of feeding kinematics for Dunkleosteus ...
Apr 8, 2016 · Jaw-closing muscles of Dunkleosteus powered an extraordinarily strong bite, with an estimated maximal bite force of over 6000 N at the jaw tip ...
[23]
The Fossil Fish That Could - Cincinnati Museum Center
May 3, 2021 · Mounted cast of Dunkleosteus head and thoracic armor as previously displayed at Cincinnati Museum Center. Particularly remarkable in ...
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Bite marks as evidence of predation in early vertebrates
Aug 6, 2025 · Study of lifetime bite traces on agnathans and fish (or gnathostomes) from Ukraine, Estonia, Latvia and north-western and central European Russia
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reconstructing Dunkleosteus terrelli (Arthrodira, Placodermi) caudal ...
Dec 6, 2017 · Our proposal suggests a caudal fin with a well-developed ventral lobe, narrow peduncle and wide span, in contrast to classical reconstructions.
[26]
Pelvic claspers confirm chondrichthyan-like internal fertilization in ...
Jul 13, 2009 · Recent finds demonstrate that internal fertilization and viviparity (live birth) were more widespread in the Placodermi, an extinct group of ...
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Devonian arthrodire embryos and the origin of internal fertilization in vertebrates - Nature
### Summary of Reproduction in Arthrodires, Internal Fertilization, and Embryos
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Nov 2, 2018 · Recognition as egg cases is confirmed based on the observation of layered collagen fibers. The presence of a tuberculated bone fragment ...
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Apr 28, 2010 · The current study reviews three North American species of Dunkleosteus (Du. terrelli, Du. raveri sp. nov., and Du. amblyodoratus sp. nov.).Taxonomy, Systematic... · Dunkleosteus Raveri Sp. Nov... · Systematics
[32]
End-Devonian extinction and a bottleneck in the early evolution of ...
... Famennian stage boundary (374 Ma) and the less well-documented Hangenberg event some 15 million years later at the Devonian-Carboniferous boundary (359 Ma).
[33]
Precisely dating the Frasnian–Famennian boundary - Nature
Jun 22, 2018 · The current Geological Time Scale (GTS) provides an age for the base of the Famennian Stage of 372.2 ± 1.6 Ma, based on Monte Carlo statistical ...
[34]
Ohio's State Fossil Fish - Ohio Department of Natural Resources
Dunkleosteus terrelli (pronounced DUNK-ul-AH-stee-us tare-RELL-eye) was the top predator near the end of the Devonian Period, known as the “Age of Fishes.”
[35]
(PDF) The Cleveland Museum of Natural History PALEOECOLOGY ...
Thus, the disarticulation seen in specimens of Dunkleosteus terrelli is a result of local post-mortem flotation and possible scavenging within the water column.