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Alligator prenasalis
Alligator prenasalis
Alligator prenasalis
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Alligator prenasalis
Temporal range: Late Eocene, 37.2–33.9 Ma[1]
Skeleton of Alligator prenasalis (AMNH 4994) in the American Museum of Natural History
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Archosauria
Order: Crocodilia
Family: Alligatoridae
Subfamily: Alligatorinae
Genus: Alligator
Species:
A. prenasalis
Binomial name
Alligator prenasalis
(Loomis, 1904)
Synonyms
  • Crododilus prenasalis Loomis, 1904
  • Caimanoidea visheri Mehl, 1916
  • Caimanoideus visheri Mehl, 1916 (lapsus calami of Caimanoidea visheri)
  • Caimanoeda visheri Mehl, 1916 (lapsus calami of Caimanoidea visheri)
  • Allognathosuchus riggsi Patterson, 1931

Alligator prenasalis is an extinct species of alligator from the Late Eocene period. It is well known, with many fossils having been collected from the Chadron and Brule Formations in South Dakota. The species was first named in 1904, but was originally classified as a crocodile in the genus Crocodilus. It was reassigned to the genus Alligator in 1918 on the basis of more complete material. It is the earliest known member of the genus Alligator.[2]

Taxonomy

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The skull of Alligator prenasalis (AMNH 4994)

Junior synonyms

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Several species of extinct alligatorines have been considered junior synonyms of A. prenasalis. These include Caimanoidea visheri, named by paleontologist Maurice Mehl in 1916 from fragmentary material, and Allognathosuchus riggsi, named in 1931 from a single piece of a lower jaw. Both were considered synonymous with the species in 1972 by paleontologist D.W. Higgins.[2] Mehl used two alternate spellings of Caimanoidea in his 1916 paper: Caimanoideus and Caimanoeda.[3] Because the name Caimanoidea is used first and most frequently, it has been considered the valid name of the genus.[4]

Cladistics

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A. prenasalis is similar to the Eocene alligatorine Allognathosuchus mooki (now known as Navajosuchus mooki). In 1930, American paleontologist George Gaylord Simpson considered A. prenasalis (then called Caimanoidea) to be ancestral to A. mooki because it appeared to be similar but less specialized. A. mooki was considered to be more specialized because it had a blunt snout, while A. prenasalis had a broader, flat, and supposedly primitive snout.[5]

If A. prenasalis were an ancestor of A. mooki, it would have to have occurred in the Eocene. Simpson hypothesized that A. prenasalis appeared at this time and gave rise to A. mooki, which soon became extinct. While A. prenasalis (a more generalized form) possibly could have descended from A. mooki (a more specialized form) through what is known as a reversal, the accepted knowledge at the time was that generalists could not arise from specialists. This was called the "law of the unspecialized", first devised by paleontologist Edward Drinker Cope in 1896.[5]

More recent phylogenetic analyses have shown flat-snouted alligatorines to form a clade within a larger group of blunt-snouted alligatorines. Therefore, blunt-snouted forms did not form a single, specialized group, but rather a collection of basal taxa, some of which were ancestral to modern forms such as Alligator. Alligator is usually recovered as a monophyletic group with A. prenasalis as the most basal member of the clade,[5] as shown in the cladogram below:[6][7]

Alligatoridae

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Alligator prenasalis

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from Grokipedia
Alligator prenasalis is an extinct of and the earliest known member of the genus Alligator, representing a basal in the evolutionary history of the group. This small-bodied crocodilian lived during the late Eocene to early epochs, approximately 37 to 32 million years ago (Ma), in what is now the region of . Fossils, including fragments and postcranial elements, have been primarily recovered from the Chadron and Brule formations of the White River Group in and northwestern , with recent discoveries extending its known range to the during the late (28–26 Ma). The species was first described in 1904 by Frederic B. Loomis as Crocodilus prenasalis based on fragmentary cranial material from the Chadron Formation in South Dakota, initially classified within the genus Crocodilus due to limited specimens. In 1918, W.D. Matthew reassigned it to Alligator following the recovery of more complete fossils that revealed diagnostic features of the genus, such as the structure of the external naris and orbital margins. Subsequent paleontological work, including cladistic analyses using morphological characters from 28 alligatoroid taxa, has solidified A. prenasalis as the most basally divergent species within Alligator, bridging early alligatoroids and later, more derived forms. Morphologically, A. prenasalis featured elongate orbits and supratemporal fenestrae, flat orbital margins, nasals bisecting the external naris, and a splenial contributing to the beyond the seventh dentary tooth—traits indicative of its primitive status. Adults were estimated to reach total body lengths of 1.30–1.92 m, significantly smaller than modern mississippiensis or the A. olseni (1.71–2.41 m), suggesting to a subtropical environment with abundant small prey. Its forward-facing external naris and premaxillary notch distinguish it from contemporaneous taxa like Thecachampsa, while its small size aligns it with other small-bodied early alligatoroids. The discovery of A. prenasalis highlights the early diversification of in following the Eocene-Oligocene transition, a period of cooling climates that influenced crocodilian distributions. While fragmentary remains have been tentatively linked to the genus from earlier Eocene sites in , , and , A. prenasalis provides the oldest definitive record, informing reconstructions of alligator and prior to the dominance of larger species in the .

Taxonomy

Naming and etymology

The species Alligator prenasalis was originally described and named as Crocodilus prenasalis by paleontologist Frederic B. Loomis in , based on a fragmentary partial and associated postcranial elements collected by O.A. Peterson from the Titanothere Beds of the White River Formation in . This initial classification placed it within the genus Crocodilus owing to the incomplete nature of the type specimen, which at the time suggested affinities with crocodiles rather than alligators. The specific "prenasalis" derives from the Latin roots prae- (before) and nasus (nose), likely referencing a perceived pre-narial structure or feature in the morphology observed in the , though Loomis's original description does not explicitly clarify the intent behind the name. This etymological choice highlights the focus on cranial details in the limited material available, which included portions of the rostrum and narial region. In , William D. Matthew reclassified the species as prenasalis after studying additional and more complete specimens, recognizing distinct alligatorine traits such as the overall proportions and dental arrangement that distinguished it from true crocodiles. This reassignment marked A. prenasalis as the earliest known member of the modern genus Alligator, establishing its foundational role in understanding the evolutionary origins of the lineage within North American deposits.

Classification and synonyms

Alligator prenasalis was originally described as Crocodilus prenasalis by Frederick Brewster Loomis in 1904, based on fragmentary remains from the Titanothere beds of South Dakota, initially classified within the genus Crocodilus due to limited material. In 1918, William Diller Matthew reassigned the species to the genus Alligator after examining more complete specimens, recognizing its alligatorine affinities through features such as the overall cranial proportions and dental arrangement more consistent with the genus Alligator. Several junior synonyms have been proposed for A. prenasalis over the years, reflecting early uncertainties in alligatoroid . These include Caimanoidea visheri (Mehl, 1916), with lapsus calami spellings Caimanoideus visheri and Caimanoeda visheri, erected for a partial skull from the of , and Allognathosuchus riggsi (Patterson, 1931), based on isolated teeth from the White River Formation. In 1971, D. W. Higgins synonymized these taxa with A. prenasalis in a comprehensive review of alligators from the Big Badlands, citing shared morphological traits including a broad, short with a rounded anterior margin and subconical, homodont posterior that distinguishes it from the more Allognathosuchus. Subsequent revisions, including those by Christopher A. Brochu in 1999, have upheld this synonymization and confirmed A. prenasalis as a valid, distinct within the Alligatorinae and genus Alligator, positioned as the basalmost member of the crown-group Alligator based on its primitive retention of a dorsally oriented naris while sharing derived features like the enlarged fourth maxillary tooth with later congeners. This placement differentiates it from related genera such as Allognathosuchus, which exhibits a longer, narrower rostrum and specialized anterior teeth adapted for crushing.

Phylogenetic relationships

Alligator prenasalis occupies a basal position within the clade Alligator, representing the earliest known species in the genus according to cladistic analyses of cranial and postcranial morphology. This placement is supported by its retention of primitive features relative to later alligatorines, positioning it as a stem taxon within Alligatorinae that bridges early caiman-like forms and more derived modern Alligator species, though it is not a direct ancestor of extant taxa such as A. mississippiensis. The species exhibits close morphological similarity to the Eocene alligatorine Allognathosuchus mooki (now recognized as Navajosuchus mooki), particularly in overall cranial proportions, but differs in possessing less derived features such as a relatively broader and less specialized . Key cladistic traits supporting its position outside more specialized alligatorines include a broad and robust adapted for durophagous feeding, which align it with basal members of the rather than advanced Oligocene-Miocene forms.

Description

Body size and general morphology

Alligator prenasalis was a small-bodied basal alligatorine, with estimated adult body lengths ranging from 1.30 to 1.92 meters, derived from regression equations applied to skull measurements of known specimens. This modest contrasts with the larger dimensions attained by later species, such as A. mississippiensis, which typically reach 3–4.5 meters in total length. The overall morphology of A. prenasalis reflects a primitive condition within the genus, characterized by a broad, flat that suggests a generalist feeding strategy. Postcranial elements from related specimens indicate adaptations consistent with predation in semi-aquatic habitats and comparable to those in other basal alligatorines. Unlike more advanced Alligator species, A. prenasalis retained several plesiomorphic traits, including a relatively elongated rostrum and primitive morphology featuring a low deltoid crest. These features underscore its position as an early diverging member of the , lacking the extreme specializations that characterize later forms.

Cranial and dental features

The of Alligator prenasalis is characterized by a broad, flat overall structure with a short and wide similar to that of modern Alligator mississippiensis, indicating a generalist feeding . The nasals extend anteriorly to contact the premaxillae, bisecting the external naris—a feature shared with modern alligators. This contact contributes to a higher cross-profile of the skull, with the elevated above the premaxillaries, and the lateral margins of the snout converging more gradually than in extant species. The orbits are moderately sized and directed laterally, positioned dorsally with well-developed supraorbital ridges that enhance the visual field, while the supratemporal fenestrae are large, oval in shape, and semicircular posteriorly with pointed anterior ends. The cranial table is larger and broader relative to the interorbital space, which is narrower than in A. mississippiensis. The quadrates are notably robust and massive, featuring a broad glenoid surface that is approximately four-thirds wider than in modern alligators, indicating a strong bite force supported by enhanced jaw musculature. Dentition in A. prenasalis is , with anterior teeth being stout and conical, often slightly recurved and sharp, transitioning to more blunt posterior forms adapted for crushing. The upper typically bears five premaxillary teeth and 14–16 maxillary teeth per side (totaling 20–21 per side), with the third and fourth maxillary teeth being particularly enlarged relative to A. mississippiensis, though overall fewer premaxillary teeth are prominently enlarged relative to caimans. The lower likely has 21 teeth per side, showing a serial homology with mesial-to-distal variation from caniniform to molariform shapes and low shape-y compared to other crocodylians. Middle teeth often display a spade-shaped morphology, while posterior ones are globidontan. A key diagnostic feature is the prominent prenarial boss or ridge on the premaxillae, which forms a low anterior border with sloping surfaces and likely inspired the species epithet "prenasalis," distinguishing it from related taxa like Allognathosuchus through its narrower, more elongated profile and larger fenestrae. This ridge, combined with the forward-facing external naris and premaxillary notch, underscores the primitive yet specialized cranial architecture of the species.

Fossil record

Discovery and known specimens

The first fossils attributable to Alligator prenasalis were collected from the badlands of South Dakota in the late 19th century, with the holotype (SDSM 6738)—comprising the right portion of the skull and lower jaw—described by F. B. Loomis in 1904 from the Titanothere beds. A notable specimen, AMNH 4994, represents a partial skeleton collected from in 1906 that provides the most complete postcranial data available for the species. Additional fragmentary remains were reported in 2015 from the Chadron Formation in Sioux County, northwestern (including UF 270767 and UF 209734, consisting of partial skulls, mandibles, teeth, and limb elements), marking the first definitive records of the species outside and expanding its known geographic range across the . Over 20 known specimens of A. prenasalis have been documented, the majority comprising skulls and jaws, though postcranial elements are rarer. In 2023, a report described similar material—including a right (UF 422816), parietal (UF 333984), osteoderms, teeth, and vertebrae—from late sites in , potentially indicating an early southeastern extension of the genus' distribution, though the remains are not confirmed as A. prenasalis due to morphological differences and limited diagnostic features.

Stratigraphy and localities

Fossils of Alligator prenasalis are primarily known from the White River Group in the region of , specifically the Chadron Formation of late Eocene age (Chadronian North American Land Mammal Age, approximately 37–33.7 Ma) and the Brule Formation of early age (Orellan North American Land Mammal Age, approximately 33.7–32 Ma). These formations consist of fluvial and lacustrine sediments that preserve a diverse fauna from the continental interior during a period of relatively warm global paleoclimate. The temporal range of A. prenasalis is thus confined to the late Eocene through early , with no definitive records extending beyond this interval. The majority of specimens have been recovered from the White River Badlands within , , where both the Chadron and Brule Formations are well-exposed. Additional key localities occur in the Chadron Formation of northwestern , particularly in Sioux County, expanding the known geographic distribution westward from the sites. This distribution across the northern suggests A. prenasalis inhabited riverine and environments in a broad continental interior range. Fragmentary material from other late Eocene sites in , , , and has been tentatively referred to Alligator, but these await confirmation and do not alter the definitive stratigraphic context.

Paleobiology

Habitat and paleoecology

Alligator prenasalis inhabited the late Eocene landscapes of the , primarily within the Chadron Formation of the White River Group, characterized by subtropical to warm temperate forests interspersed with rivers, lakes, and expansive floodplains. These environments featured fluvial and lacustrine depositional settings, with layers contributing to nutrient-rich soils that supported dense vegetation and ecosystems. The presence of well-developed paleosols indicates a humid climate conducive to forested habitats, contrasting with the more arid conditions that followed in the . Fossils of A. prenasalis coexisted with a diverse array of terrestrial and semi-aquatic vertebrates in this wetland-dominated , including early equids such as Mesohippus, primitive oreodonts like Miniochoerus, and plesiadapiforms such as cf. Ignacius (related to Phenacolemur). This faunal assemblage reflects a productive, riverine supporting herbivores adapted to forested floodplains and browsers in adjacent woodlands, with A. prenasalis likely occupying aquatic niches amid these communities. The late Eocene climatic regime, marked by elevated global temperatures and higher atmospheric CO₂ levels, facilitated the northward extension of alligator distributions well beyond their modern subtropical range, reaching latitudes in present-day and . Mean annual temperatures were approximately 7–10°C warmer than today, promoting ectothermic reptiles like alligators in temperate inland settings. The species' relatively small body , estimated at 1.3–1.9 meters in , suggests to smaller inland waterways and seasonal fluctuations in these northern floodplains, differing from the larger-bodied, often coastal modern Alligator mississippiensis. This distribution implies a broader ecological tolerance during the Eocene greenhouse climate, prior to range contraction following the Eocene- cooling event around 34 Ma. Fossils from early Brule Formation sites indicate persistence in similar but drying floodplain environments, while late remains from the southeastern US suggest subtropical coastal habitats.

Diet and behavior

Alligator prenasalis exhibited a generalist carnivorous diet, preying primarily on , amphibians, and small mammals available in its Eocene wetland habitats. Its dentition, featuring robust posterior teeth adapted for crushing, further suggests the inclusion of hard-shelled prey such as turtles and molluscs in its diet, enabling an opportunistic feeding strategy that broadened its . The species' blunt, broad morphology supported versatile prey capture, particularly lateral strikes on aquatic or semi-aquatic animals, consistent with its phylogenetic position among basal alligators. As a semi-aquatic , A. prenasalis likely employed stealthy hunting tactics in shallow waters, relying on its small adult body size (estimated at 1.3–1.9 m) to target prey without dominating larger competitors. This lifestyle positioned it as a mid-level predator within diverse crocodyliform assemblages, potentially overlapping in resource use with contemporaneous caimanines and early gavialoids. No direct evidence exists for complex social behaviors, such as communal nesting observed in modern alligators; inferences suggest a largely solitary focused on individual foraging and territorial defense.

References

  1. https://palaeo-electronica.org/content/2023/3765-oldest-alligator-in-se-usa
  2. https://www.researchgate.net/publication/286397631_First_Fossil_Alligator_from_the_Late_Eocene_of_Nebraska_and_the_Late_Paleogene_Record_of_Alligators_in_the_Great_Plains
  3. https://digitallibrary.amnh.org/server/api/core/bitstreams/1e7bd125-db09-4e8f-af46-7d93b37ccd87/content
  4. https://www.journals.uchicago.edu/doi/pdf/10.1086/622301
  5. https://doc.rero.ch/record/15199/files/PAL_E2475.pdf
  6. https://www.tandfonline.com/doi/abs/10.1080/02724634.1999.10011201
  7. https://peerj.com/articles/12094/
  8. https://doi.org/10.1670/14-069
  9. https://upload.wikimedia.org/wikipedia/commons/2/25/Bulletin_of_the_Museum_of_Comparative_Zoology_at_Harvard_College_%28IA_bulletinofmuseum74harv%29.pdf
  10. https://peerj.com/articles/6485/
  11. https://palaeo-electronica.org/content/pdfs/1223.pdf
  12. https://www.cambridge.org/core/services/aop-cambridge-core/content/view/952C03C6276B1813CF82E05BC2B76DBA/S0022336000022046a.pdf/catalogue-revisions-of-some-type-specimens-of-fossil-vertebrates-in-the-systematic-collections-at-the-south-dakota-school-of-mines-and-technology.pdf
  13. https://ajsonline.org/article/126821-two-new-river-reptiles-from-the-titanothere-beds
  14. http://subhumanfreak.blogspot.com/2015/06/hall-of-vertebrate-origins.html
  15. https://palaeo-electronica.org/content/2023/3784-oldest-alligator-in-se-usa-tables
  16. https://doi.org/10.26879/1223
  17. https://www.bioone.org/doi/full/10.1670/14-069
  18. https://www.sciencedirect.com/science/article/abs/pii/S0031018200002480
  19. https://npshistory.com/publications/badl/clark-1937.pdf
  20. https://rivp-paludicola.org/wp-content/uploads/2018/05/9-4-kihm-tornow-2014.pdf
  21. https://www.nature.com/articles/s41598-023-36559-6
  22. https://peerj.com/articles/10665/
  23. https://www.iucncsg.org/365_docs/attachments/protarea/ba655dee3c4c9096c917bbc62d7e5fef.pdf
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