Fact-checked by Grok 2 weeks ago

Ichthyodectiformes

Ichthyodectiformes is an extinct order of basal teleost ray-finned fishes (Actinopterygii: Teleostei) characterized by their predatory adaptations, including elongated fusiform bodies, large mouths lined with a single row of sharp, fang-like marginal teeth, a deeply forked caudal fin, and posterior positioning of the dorsal and anal fins.^[1] These fishes ranged in size from small forms under 30 cm to giants exceeding 5 m in length, such as Xiphactinus audax, and exhibited diverse cranial ornamentations, including pitted and ridged skull bones in some species.^[2] The order was formally established by Bardack and Sprinkle in 1969 based on shared morphological features among several Mesozoic taxa previously classified under the suborder Ichthyodectoidei, with the name derived from the genus Ichthyodectes (meaning "fish-biter" in Greek), originally described by Cope in 1872.^[1] Fossils of Ichthyodectiformes are abundant in epicontinental marine deposits worldwide, spanning from the Middle Jurassic (Bathonian stage) to the Late Cretaceous (Maastrichtian stage), though they are also recorded in brackish and freshwater environments.^[1] Their global distribution includes North America, Europe (e.g., Solnhofen Limestone in Germany), South America, Africa, Asia, Australia, and Antarctica, reflecting the connectivity of Mesozoic shallow seas.^[2] The order encompasses approximately 44 genera and over 75 species, organized into families such as Ichthyodectidae, Saurodontidae, and the recently proposed Heckelichthyidae; notable genera include Thrissops (common in Late Jurassic lagoonal settings), Cladocyclus (shallow marine Cretaceous forms), Saurodon, and Proportus.^[1] Phylogenetic analyses place Ichthyodectiformes as stem-group teleosts, sister to more derived clades like Elopiformes, highlighting their role in early teleost diversification during the Mesozoic radiation of ray-finned fishes.^[2] Their extinction at the end of the Cretaceous coincides with the broader K-Pg boundary event, after which modern teleost lineages dominated aquatic ecosystems.^[1]

Taxonomy

Classification

Ichthyodectiformes is an extinct order of stem-group teleost ray-finned fishes (Actinopterygii: Teleostei), positioned basal to crown-group teleosts.^[3] The order was formally established by Bardack and Sprinkle in 1969, with the name derived from the type genus Ichthyodectes, introduced by Edward Drinker Cope in 1870 to describe predatory Cretaceous fishes initially placed within the family Saurodontidae.^[4] The etymology of Ichthyodectes combines Greek ichthys ("fish") and dēktēs ("biter"), reflecting its inferred piscivorous habits.^[1] At least eight valid families are currently recognized within Ichthyodectiformes, reflecting ongoing taxonomic revisions based on anatomical and phylogenetic analyses.^[2] The type family Ichthyodectidae includes key genera such as Ichthyodectes (with species like I. ctenodon, characterized by comb-like teeth), Thrissops (elongate forms with reduced scales), and Allothrissops (distinguished by a more robust skull).^[5] The Saurodontidae encompasses large predatory genera including Saurocephalus (noted for its long rostrum) and Xiphactinus (a massive form reaching over 6 meters, with sword-like jaws).^[6] Other families include Cladocyclidae (e.g., Cladocyclus, with cycloid scales and a deep body), Allothrissopidae, and additional groups like the recently proposed Bardackichthyidae, accommodating taxa with specialized cranial ornamentation.^[7] The order comprises approximately 25-30 valid genera, with several synonyms resolved through nomenclatural history; for instance, Portheus arcuatus was later synonymized under Gillicus arcuatus following Cope's revisions.^[6] Representative genera beyond the families noted include Gillicus (a smaller ichthyodectid with arched body profile), Heckelichthys (from European deposits, with pronounced dorsal fin), Vallecillichthys (a bulldog-like form from Mexico), Amakusaichthys (Japanese taxon with unique vertebral counts), and Furloichthys (Italian species featuring a prognathous jaw).^[8] Diagnostic traits defining Ichthyodectiformes include a fusiform body covered in cycloid scales, a toothed premaxilla, and a specialized caudal skeleton with expanded hypurals; additional synapomorphies encompass a paired ossified ethmopalatine bone, a prominent supraoccipital crest, a maxilla that excludes the premaxilla from the mouth gape in closure, and bladelike anterior pectoral fin rays.^[9] These features, outlined in seminal reviews, distinguish the order from other basal teleosts while supporting its monophyletic status in most analyses.^[10]

Phylogeny

Ichthyodectiformes occupy a basal position within Teleostei, typically regarded as a stem group sister to the crown-group teleosts comprising Elopiformes, Otocephala, and Percomorpha. This placement stems from early cladistic analyses that identified shared derived traits distinguishing them from more advanced teleosts while retaining primitive characteristics.^[11] Subsequent studies have largely upheld this positioning, emphasizing their role as early diverging teleosts during the Mesozoic radiation.^[9] The order is characterized by key synapomorphies including an elongate body form, a reduced number of branchiostegal rays (typically fewer than in other basal teleosts), and specialized dentition patterns featuring robust, conical teeth suited for piscivory. These features support monophyly in most analyses, though the basal phylogeny remains poorly resolved, with evidence of mosaic evolution where taxa exhibit a mix of primitive and derived traits. For instance, the preopercular sensory canal, a plesiomorphic feature shared with non-teleost actinopterygians, contributes to debates on paraphyly, as certain ichthyodectiforms appear to bridge gaps to elopomorphs or other basal groups in varied cladograms.^[11]^[9]^[12] Recent phylogenetic updates from 2020 to 2024, incorporating new genera such as Bardackichthys from North America, have refined intraordinal relationships through expanded morphological datasets and cladistic parsimony analyses. These studies reveal extensive homoplasy and support the recognition of new families, including Bardackichthyidae, while highlighting potential monophyletic subgroups in Asia, such as those encompassing Chuhsiungichthys, Jinjuichthys, and Amakusaichthys within a proposed Chuhsiungichthyidae. A 2024 study describing the new species Amakusaichthys benammii from Mexico further underscores connections between Asian and North American ichthyodectiforms, supporting the order's monophyletic or grade-like nature as a stem teleost assemblage in ongoing revisions. Such findings from Albian and later deposits reinforce the evolutionary tree of the group.^[9]^[1]^[12]^[13]

Description

General anatomy

Ichthyodectiformes exhibit a fusiform body shape adapted for swift swimming in marine environments, covered in cycloid scales that are thin and overlapping with fine concentric circuli.^[12] The dorsal and anal fins are positioned posteriorly on the body, with their bases supported by lepidotrichia, and the dorsal fin often originating opposite or slightly anterior to the anal fin.^[5] The skull is characterized by an elongate premaxilla and maxilla forming the upper jaw, with conical teeth arranged in a single row.^[5] In some genera, such as the newly described Mexican species, the skull bones are strongly ornamented with multiple pores and short ridges, particularly on the frontal and parietal regions.^[1] The lower jaw features a short, rounded postarticular process and a small retroarticular bone positioned posteriorly at the angular's end.^[4] The caudal skeleton is specialized for rapid propulsion, including multiple hypurals (typically 7), elongate uroneurals (up to 5), and epurals (3), supporting a deeply forked homocercal caudal fin with reinforced rays in the lobes.^[12] Sensory systems include a well-developed lateral line along the body and cranial sensory canals with numerous pores, such as 6–7 in the mandibular canal and branched preopercular canals, aiding detection in aquatic settings.^[12]^[1] Dentition varies across the order, with most taxa bearing large, predatory conical teeth for grasping prey, though some, like Heckelichthys, possess small, fine teeth suggestive of microphagous feeding.^[14]^[15]

Size and variation

Ichthyodectiforms exhibited a wide range of body sizes, with most species attaining lengths between 1 and 5 meters.^[4] The largest known specimens belong to Xiphactinus audax, a Late Cretaceous predator from deposits of the Western Interior Seaway, which reached lengths exceeding 6 meters.^[4] In contrast, smaller forms such as Thrissops species were under 1 meter long, with the smallest, such as the 2025-described T. ettlingensis, reaching only about 15.5 cm in total length, while maximum total lengths around 90 cm reported for T. kimmeridgensis.^[16]^[2] Giant predators like Saurocephalus, characterized by an elongate body and powerful jaws, measured approximately 1.5 meters.^[17] Morphological variation within the order was pronounced, reflecting diverse ecological adaptations among these predatory fishes. Some taxa displayed elongated snouts, as seen in the recently described Campanian species Amakusaichthys benammii from Tzimol Quarry in Chiapas, Mexico, where the triangular ethmoid region of the skull is nearly 1.5 times longer than wide, contributing to a pronounced long-nosed appearance; known specimens reach total lengths of 0.45–0.47 meters.^[18] Other variations included extreme jaw mechanics enabling wide gapes, notably in Dugaldia emmilta from the Albian Toolebuc Formation of Australia. This species possessed a proportionally massive head—comprising about 31% of standard length due to its mandible shape and tooth arrangement—allowing significant lateral mouth enlargement akin to the aggressive display in the modern blenny Neoclinus blanchardi (sarcastic fringehead).^[19] These size and form disparities likely influenced predatory strategies, with smaller, agile species targeting compact prey in coastal environments and larger ones dominating open-water niches.^[20]

Paleobiology

Diet and feeding

Members of Ichthyodectiformes were primarily piscivorous predators that targeted smaller teleost fishes and possibly invertebrates in marine environments during the Mesozoic. Fossil evidence from preserved gut contents provides direct insight into their dietary habits, such as the renowned specimen of a nearly intact Gillicus arcuatus (approximately 2 m in length) found within the stomach of a larger Xiphactinus audax (over 4 m), demonstrating active predation and potential intra-guild or cannibalistic behavior in the Late Cretaceous Western Interior Seaway.^[21] Similarly, the first documented stomach contents in Ichthyodectes ctenodon reveal a partially digested Enchodus petrosus swallowed head-first, underscoring the mid-sized predatory role of this species (around 1.6 m) in targeting comparably sized prey.^[22] Feeding strategies varied among taxa, with dentition adapted for grasping and holding elusive prey. Conical, fang-like teeth in genera such as Ichthyodectes facilitated secure capture during strikes, while species like Gillicus arcuatus exhibited small teeth aiding in suction-assisted feeding on smaller fish.^[1] Although most ichthyodectiforms were macropredators, some basal forms may have incorporated microphagous elements, with small teeth and elongated gill rakers in taxa like Heckelichthys suggesting occasional filter-feeding on planktonic organisms.^[23] Hunting behavior is inferred from skeletal morphology and preserved prey orientations, pointing to ambush tactics enabled by a streamlined body and powerful caudal fin propulsion for rapid acceleration. Qualitative assessments of jaw mechanics indicate sufficient bite force for subduing active prey, with endothermic physiological traits likely supporting prolonged pursuit in open-water environments.^[24]^[25]

Physiology

Evidence for regional endothermy has been inferred in large ichthyodectiforms such as Xiphactinus audax from the presence of a highly developed rete mirabile within the orbital sinus, a vascular counter-current heat exchanger that retains metabolic heat to elevate tissue temperatures in the head and eyes, similar to modern endothermic teleosts like billfishes and tunas. Bone histology in related large Cretaceous teleosts shows dense vascularization in vertebrae, indicative of rapid growth rates and elevated metabolic demands consistent with partial endothermy, though direct histological data for Xiphactinus remains limited.^[25] Sensory adaptations in Ichthyodectiformes emphasize enhanced olfaction and vision, crucial for macropredatory lifestyles in marine environments. Large orbits, as seen in genera like Cladocyclus, indicate well-developed visual acuity, likely aiding in hunting within the water column. The lateral line system, evidenced by perforated scales and sensory canals extending along the body in species such as Amakusaichthys and Cladocyclus, facilitated detection of prey vibrations and movements, particularly useful in potentially turbid coastal waters.^[1] Respiratory and circulatory systems in Ichthyodectiformes show adaptations for efficient oxygen uptake and blood flow in active predatory forms. Gill arches bear rakers composed of hollow tubes and L-shaped projections without prominent denticles, as observed in Cladocyclus, permitting unimpeded water flow over the gills while minimizing particle entrapment, unlike filter-feeding teleosts.^[4] The hypothesized rete mirabile structures, inferred from phylogenetic proximity to endothermic teleosts, likely supported thermoregulation by conserving heat in cranial circulatory networks, enhancing metabolic efficiency during sustained swimming.^[25] Osmoregulatory adaptations for marine and brackish habitats are inferred from the overall skeletal morphology of Ichthyodectiformes, including robust vertebral and scale structures consistent with those of modern marine teleosts that maintain ionic balance through specialized kidney function, though direct proxies like preserved renal elements are absent in the fossil record.

Fossil record

Geological distribution

Ichthyodectiformes fossils exhibit a cosmopolitan distribution across multiple continents during the Mesozoic era, reflecting their adaptation to diverse aquatic environments. In North America, notable occurrences include the Niobrara Formation in Kansas, where well-preserved specimens of Xiphactinus audax have been recovered from chalk deposits representing the Western Interior Seaway, an epicontinental sea.^[26] Additional sites encompass the Woodbine Formation in north-central Texas, yielding nearly complete skeletons of new ichthyodectiform taxa from Cenomanian marine strata.^[9] In South America, fossils are documented in shallow marine deposits of the Ipubi Formation in northeastern Brazil, home to Cladocyclus gardneri, and the Salamanca Formation in Patagonia, Argentina, marking the southernmost records of Xiphactinus in latest Maastrichtian transgressive marine sediments.^[27]^[28] European localities feature prominent Jurassic sites such as the Solnhofen Limestone in Bavaria, Germany, a renowned lagerstätte yielding exceptional soft-tissue preservation of Thrissops species in finely laminated limestones formed in a restricted lagoonal environment.^[2] Further records come from the Kimmeridge Clay in England, preserving additional Thrissops taxa in Upper Jurassic marine shales. In Asia, discoveries span the Lower Cretaceous Jinju Formation in South Korea, with Jinjuichthys cheongi from coastal margin deposits, and the Santonian Himenoura Group in Kumamoto Prefecture, Japan, containing Amakusaichthys goshouraensis in marine beds; Chinese sites include the Lower Cretaceous of Yunnan Province, recording Chuhsiungichthys in continental settings.^[5]^[15] African fossils are primarily from the Cenomanian Kem Kem beds in southern Morocco, where Cladocyclus pankowskii occurs in deltaic and paralic environments of the Ifezouane and Aoufous Formations.^[29] In Mexico, the Albian Tlayúa Formation near Puebla provides lagerstätte-quality preservation of ichthyodectiforms like Proportus in shallow marine limestones. Antarctic records include fragmentary remains from Late Cretaceous shallow marine deposits, such as the Santa Marta Formation on James Ross Island.^[30] The order predominantly inhabited marine settings, including epicontinental seas and shallow-water carbonates and shales, as evidenced by associations with ammonites and other marine biota in formations like the Niobrara and Solnhofen.^[26]^[2] Some taxa adapted to brackish or freshwater environments, particularly along Asian coastal margins and in Australian fluvial deposits, such as the upper Albian Winton Formation near Isisford, Queensland, where Cladocyclus geddesi represents the first eastern Gondwanan record in low-energy riverine sands.^[31] Taphonomic biases favor exceptional preservation in lagerstätten like Solnhofen and Tlayúa, where anoxic conditions allowed soft-tissue fossilization, contrasting with more fragmentary remains in coarser clastic deposits elsewhere.^[2]

Temporal range

The Ichthyodectiformes originated in the Middle Jurassic, with the earliest records dating to approximately 165–145 million years ago (Ma) in marine deposits of Europe and North America. Basal forms, such as Thrissops, are documented from Late Jurassic (Kimmeridgian–Tithonian) lagerstätten like the Solnhofen Limestone in Germany, representing some of the first large predatory teleosts.^[2]^[32] These early occurrences establish the group's initial radiation during a period of expanding shallow marine environments in the Jurassic epicontinental seas. The order achieved its peak diversity during the Cretaceous period (145–66 Ma), particularly in the Late Cretaceous (Cenomanian–Turonian stages, ~100–90 Ma), when numerous genera proliferated in epicontinental seaways worldwide. Representative examples include Xiphactinus from the Niobrara Formation (upper Turonian, ~90 Ma) in North America, where this apex predator exemplifies the group's ecological dominance in mid-latitude marine settings. Key stratigraphic units, such as the Albian-aged (~110 Ma) Tlayúa Formation in Mexico and the early Turonian (~90 Ma) Vallecillo Member of the Agua Nueva Formation, also yield diverse ichthyodectiform assemblages, highlighting a surge in morphological and ecological variation during this interval.^[33]^[8] This peak coincided with faunal turnover and marine anoxic events, such as the Oceanic Anoxic Event 2 (OAE2) in the Cenomanian–Turonian, which influenced but did not curtail the group's expansion.^[34] The latest occurrences of Ichthyodectiformes extend into the earliest Paleocene (Danian stage, ~66–64 Ma), with Saurocephalus lanciformis documented from post-Cretaceous–Paleogene (K–Pg) boundary deposits, suggesting limited survival beyond the mass extinction. The group suffered a nearly total wipeout at the K–Pg boundary (~66 Ma), attributed to the global catastrophe that disrupted marine ecosystems, though rare post-boundary records imply possible persistence in refugia. Diversity had already begun declining in the latest Cretaceous due to ongoing faunal turnover and environmental stresses, leading to the order's ultimate extinction by the early Eocene.^[35]^[34]

References

[1]
A long-nose ichthyodectiform - Palaeontologia Electronica
Dec 12, 2024 · This new Mexican species exhibits numerous distinctive features, including a strongly ornamented skull with multiple pores and short ridges.Missing: paleobiology | Show results with:paleobiology
[2]
New species of the genus Thrissops (Teleostei, Ichthyodectiformes ...
Jul 25, 2025 · The Ichthyodectiformes were predatory fish, which in the Cretaceous (Xiphactinus) can reach over five meters in length (Shimada and Everhart ...Missing: paleobiology | Show results with:paleobiology
[3]
Revision of Dugaldia emmilta (Teleostei, Ichthyodectiformes) from ...
This species shows unusual features for an ichthyodectiform, in particular the shape of the mandible and the arrangement of the teeth on the lower jaw.Missing: paleobiology | Show results with:paleobiology
[4]
[PDF] The first record of the ichthyodectiform fish Cladocyclus from eastern ...
Dec 2, 2014 · Cladocyclus is a genus of ichthyodectiform fish that is best known from fossils found in shallow marine Cretaceous.Missing: paleobiology | Show results with:paleobiology
[5]
A new ichthyodectiform (Pisces, Teleostei) from the Lower ...
Bardack and Sprinkle (1969) established a new extinct group of teleosts, the Ichthyodectiformes, based on their detailed study on fishes of the two extinct ...
[6]
[PDF] First record of the ichthyodectiform fish Xiphactinus (Teleostei) from ...
Mar 2, 2020 · Review of ichthyodectiform and other Mesozoic teleost fishes and the theory and practice of classify- ing fossils. Bulletin of the American ...Missing: paleobiology | Show results with:paleobiology
[7]
The First Record of the Ichthyodectiform Fish Cladocyclus from ...
Jun 17, 2014 · Cladocyclus is a genus of ichthyodectiform fish that is best known from fossils found in shallow marine Cretaceous deposits in Brazil and ...
[8]
[PDF] Ichthyodectiformes), a Late Cretaceous (early Turonian) “Bulldog fish
On the basis of a comparative study, this monospecific genus is recognized as member of the suborder Ichthyodectoidei and placed with Ichthyodectes and ...Missing: paleobiology | Show results with:paleobiology
[9]
A new ichthyodectiform fish (Actinopterygii - ScienceDirect.com
Phylogenetic analyses reveal a previously unrecognized family within Ichthyodectiformes. •. Ichthyodectiform phylogeny is manifested with extensive mosaic ...
[10]
Review of ichthyodectiform and other Mesozoic teleost fishes, and ...
Review of ichthyodectiform and other Mesozoic teleost fishes, and the theory and practice of classifying fossils. Bulletin of the AMNH ; v. 158, article 2.
[11]
Review of ichthyodectiform and other Mesozoic teleost fishes, and ...
Sep 1, 1977 · Review of ichthyodectiform and other Mesozoic teleost fishes, and the theory and practice of classifying fossils. Bulletin of the AMNH ; v. 158, ...Missing: families | Show results with:families<|control11|><|separator|>
[12]
(PDF) A new ichthyodectiform (Pisces, Teleostei) from the Lower ...
Aug 10, 2025 · Here we report the first ichthyodectiform in the Jinju Biota from the Lower Cretaceous Jinju Formation, Shindong Group, at Hyojagyo, ...
[13]
A new ichthyodectiform fish, Amakusaichthys goshouraensis gen. et ...
... The relationships of the species described here resulted from a phylogenetic analysis based on the study B performed by Hacker and Shimada (2021), which at ...
[14]
A new species of Heckelichthys from the Muhi Quarry (Albian ...
This Mexican taxon is identified as a new species of Heckelichthys due to: presence of an elongated head, second infraorbital being the longest, small teeth, ...Missing: dentition | Show results with:dentition
[15]
A new ichthyodectiform fish, Amakusaichthys goshouraensis gen. et ...
This new species is highly distinct from other ichthyodectiforms in having the long snout and small mouth with fine conical teeth, which indicates this group ...
[16]
Thrissops kimmeridgensis Ebert, 2025, sp. nov. - Zenodo
... size, with the most ... Maximum length 75.5 cm standard length (~ 90 cm total length); ... New species of the genus Thrissops (Teleostei, Ichthyodectiformes) ...
[17]
Cambridge Greensand Formation - Pteros
Some of the other predatory fish include Saurocephalus, a swift-moving meter and a half-long hunter with an elongate body. It bore powerful teeth and jaws ...
[18]
None
Summary of each segment:
[19]
Revision of Dugaldia emmilta (Teleostei, Ichthyodectiformes) from ...
Ichthyodectiformes is an extinct clade of basal teleosts discovered in dominantly marine and, to a lesser extent, freshwater deposits from all continents, ...<|separator|>
[20]
The smallest recorded specimen of Xiphactinus audax from the ...
May 20, 2019 · The smallest recorded specimen of Xiphactinus audax from the Niobrara Chalk of. Kansas and its implications for juvenile ichthyodectid ...
[21]
(PDF) Another Sternberg “Fish-within-a-Fish” Discovery: First Report ...
Aug 5, 2025 · This specimen is the only known example of Ichthyodectes ctenodon Cope 1870 with stomach contents. Although most of the prey fish was lost due to erosion prior ...<|control11|><|separator|>
[22]
(PDF) Bite marks on an ichthyodectiform fish from Australia
Bite marks on an ichthyodectiform fish from Australia: possible evidence of trophic interaction in an Early Cretaceous marine ecosystem. Alcheringa 38, 000–000.Missing: habits | Show results with:habits
[23]
(PDF) Upper Cenomanian fishes from the Bonarelli Level (OAE2) of ...
Aug 10, 2025 · The Bonarelli Level (BL) is a radiolarian-ichthyolithic, organic-rich marker bed that was deposited close to the Cenomanian/Turonian ...
[24]
Regional endothermy as a trigger for gigantism in some extinct ...
Sep 22, 2017 · For that reason, hunting strategies implying ambushing ... Shark-bitten Xiphactinus audax (Teleostei: Ichthyodectiformes) from ...
[25]
Evidence of endothermy in the extinct macropredatory osteichthyan ...
Interestingly, the world's largest elasmobranchs display two specializations found never to overlap: filter feeding and mesothermy. The contrasting ...
[26]
[PDF] SOME AMERICAN CRETACEOUS FISH SCALES, WITH NOTES ON ...
Niobrara formation. Niobrara shale. ' Carlile shale. Carlile shale ... Xiphactinus audax Leidy, Acad. Nat. Sci. Philadelphia. Proc., p. 12, 1870 ...
[27]
Spectroscopic studies of the fish fossils (Cladocyclus gardneri and ...
The sample of Cladocyclus gardneri and Vinctifer comptoni fossils were collected from the Ipubi Formation, being one of the less studied, among the formations ...
[28]
https://doi.org/10.1080/03115518.2019.1702221
[29]
A new species of Cladocyclus (Teleostei: Ichthyodectiformes) from ...
Aug 6, 2025 · Today, juvenile predatory large-bodied fish are rare in open-water ... The Kem Kem assemblage is characterized by taxa of proportionally large ...
[30]
https://pubs.geoscienceworld.org/sgf/bsgf/article-abstract/183/6/561/314035/Late-Cretaceous-Maastrichtian-ray-finned-fishes
[31]
A new ichthyodectiform (Actinopterygii, Teleostei) from the Lower ...
Mar 16, 2010 · Following the characters proposed by Patterson and Rosen (1977), Ogunichthys is considered as a member of the Ichthyodectiformes and is placed ...Abstract · Description · Discussion
[32]
Sequence stratigraphy of the Niobrara Formation: Implications for ...
Jul 1, 2021 · The first third-order sequence of the Niobrara Formation was deposited between ca. 90.0 and 88.7 Ma (upper Turonian–middle Coniacian) and ranges ...<|separator|>
[33]
Ecomorphological selectivity among marine teleost fishes ... - PNAS
Mar 31, 2009 · Here, I demonstrate ecomorphological selectivity among marine teleost fishes during the end-Cretaceous extinction, based on a genus-level dataset.<|separator|>
[34]
[PDF] New vertebrate microfossils expand the diversity of the ...
Apr 12, 2024 · We report 11 new additions to the vertebrate fauna of Edelman Fossil Park, the first Paleocene record of Saurocephalus lanciformis, the first ...