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Suchosaurus
Temporal range: Early Cretaceous (Valanginian to Aptian), 140–122.46 Ma
Holotype tooth of S. cultridens seen from two angles
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Family: Spinosauridae
Subfamily: Baryonychinae
Genus: Suchosaurus
Owen, 1841
Type species
Suchosaurus cultridens
Owen, 1841
Species
  • S. cultridens Owen, 1841 (type)
  • S. girardi Sauvage, 1897
Synonyms

Suchosaurus (meaning "crocodile lizard") is a dubious genus of spinosaurid dinosaur from Cretaceous England and Portugal, originally believed to be a genus of crocodile. The type material, consisting of teeth, was used by British palaeontologist Richard Owen to name the species S. cultridens in 1841. Later in 1897, French palaeontologist Henri-Émile Sauvage named a second species, S. girardi, based on two fragments from the mandible and one tooth discovered in Portugal. Suchosaurus is possibly a senior synonym of the contemporary spinosaurid Baryonyx, but is usually considered a dubious name due to the paucity of its remains, and is considered an indeterminate baryonychine. In the Wadhurst Clay Formation of what is now southern England, Suchosaurus lived alongside other dinosaurs, as well as plesiosaurs, mammals, and crocodyliforms.

History of discovery

[edit]

In about 1820, British palaeontologist Gideon Mantell acquired teeth discovered near Cuckfield in the Wadhurst Clay of East Sussex, part of a lot with the present inventory number NHMUK PV OR 36536. In 1822, he reported these, after an identification by William Clift, as belonging to crocodiles.[1] In 1824, the teeth were mentioned and illustrated by Georges Cuvier, representing the first fossil illustration of a spinosaurid dinosaur (though this group wouldn't be recognized for nearly another century).[2] In 1827 Mantell described additional teeth, pointing out the similarities to the crocodilians Teleosaurus and Gavialis.[3] One of these teeth is the present specimen NHMUK PV R 4415, which was presented to the British Museum (Natural History) in 1912; others are part of NHMUK PV OR 36536.[citation needed]

In 1841, British palaeontologist Richard Owen named, based on NHMUK PV OR 36536 as a syntype series, a subgenus Crocodylus (Suchosaurus) with as type species Crocodylus (Suchosaurus) cultridens.[4] The subgeneric name was derived from Greek σοῦχος, souchos, the name of the Egyptian crocodile god Sobek. This reflected the presumed taxonomic affinities; at the time the crocodile-like snouts of spinosaurids were not known. The specific name is derived from Latin culter, "dagger", and dens, "tooth", in reference to the elongated form of the teeth. In 1842, Owen again mentioned the taxon as a subgenus,[5] subsequently he and other workers would use it as a full genus Suchosaurus. In 1842 and 1878 Owen referred some vertebrae (backbones) to Suchosaurus,[6] but these were later identified by Richard Lydekker as likely belonging to ornithischian dinosaurs instead.[7] In 1884, Owen indicated a tooth as "Suchosaurus leavidens" in a caption,[8] this is usually seen as a lapsus calami (or "slip of the pen") because this species is not further mentioned.[citation needed]

Type mandible and tooth of S. girardi

In 1897, French palaeontologist Henri-Émile Sauvage named a second species: Suchosaurus girardi, based on two jaw fragments (specimen MG324) and a tooth, found in the Papo Seco Formation of Portugal by Swiss-Portuguese geologist Paul Choffat. The specific name honours French geologist Albert Girard.[9] The tooth was considered lost but was rediscovered and in 2013 reported as specimen MNHN/UL.I.F2.176.1, part of remains recovered after a fire in 1978.[10]

During the nineteenth and most of the twentieth century, Suchosaurus was usually considered to have been some obscure crocodilian, perhaps belonging to the Pholidosauridae.[11] Single comparable teeth discovered in England were referred to the genus.[7] However, when publishing a redescription of Baryonyx in 1998, British palaeontologist Angela Milner realised that the teeth of that spinosaurid dinosaur were extremely similar to those of Suchosaurus. In 2003, she suggested both genera represented one and the same animal.[12] An identity would imply the name Suchosaurus has priority. However, the Suchosaurus teeth are also indistinguishable from those of Cristatusaurus and Suchomimus, making it an indeterminate baryonychine.[citation needed]

Skeletal reconstruction of the related Baryonyx

In 2007, French palaeontologist Eric Buffetaut considered the teeth of S. girardi very similar to those of Baryonyx (and S. cultridens) except for the stronger development of the ribs (lengthwise ridges) on the tooth crown, suggesting that the remains belonged to the same genus. Buffetaut agreed with Milner that the teeth of S. cultridens were almost identical to those of B. walkeri, but with a ribbier surface. The former taxon might be a senior synonym of the latter (since it was published first), depending on whether the differences were within a taxon or between different ones. According to Buffetaut, since the holotype specimen of S. cultridens is one worn tooth and that of B. walkeri is a skeleton it would be more practical to retain the newer name.[13] In 2011, Portuguese palaeontologist Octávio Mateus and colleagues agreed that Suchosaurus was closely related to Baryonyx, but considered both species in the former genus (Suchosaurus) nomina dubia (dubious names) since their holotype specimens were not considered diagnostic (lacking distinguishing features) and could not be definitely equated with other taxa.[14]

Description

[edit]
Holotype tooth of S. cultridens (part of NHMUK PV OR 36536) in 2011

In 2012, American vertebrate palaeontologist Thomas R. Holtz Jr. tentatively estimated Suchosaurus at around 10 metres (33 ft) in length and weighing between 1 and 4 tonnes (1.1 and 4.4 short tons).[15][16] And in 2016, Spanish palaeontologists Molina-Pérez and Larramendi estimated S. cultridens at approximately 8.6 m (28 ft) long, 2.15 m (7.1 ft) tall at the hips and weighing 1.4 t (1.5 short tons).[17] The teeth of Suchosaurus girardi were curved, oval in cross section, and had tall roots that were one and a half times taller than the crown. Its teeth, like some other spinosaurids, bore flutes (lengthwise grooves), in S. girardi, there were eight flutes on the lingual side (which faced the inside of the mouth), and four less distinct flutes on the labial side (which faced the outside of the mouth). The tooth enamel, or outermost layer, had a microscopic wrinkled texture.[14]

Palaeoecology

[edit]
Hypothetical life restoration

The Wadhurst Clay Formation, part of the Wealden Group, is dated to the Valanginian stage of the Early Cretaceous Period, about 139.8 to 132.9 million years ago.[18] It consists mainly of shales and mudstones.[19] Other dinosaurs that shared this environment with Suchosaurus included the iguanodontians Barilium and Hypselospinus,[20] as well as the dubious species Megalosaurus dunkeri and an unnamed maniraptoran.[21][22] They coexisted with the plesiosaur Hastanectes,[23] the crocodyliform Goniopholis[24] and the mammals Loxaulax,[25] Aegialodon,[26] Laolestes,[27] and Spalacotherium.[28]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Suchosaurus

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from Grokipedia
Suchosaurus is a of spinosaurid theropod dinosaur from the period ( stage, approximately 130–125 million years ago) of , known from isolated teeth and dentary fragments originally misinterpreted as belonging to a crocodilian (primarily for the ). The was established by in 1842 based on conical, finely serrated teeth with a compressed cross-section and longitudinal ridges, initially named Crocodylus cultridens in 1840–1845 before reassignment. It encompasses two : the S. cultridens from the Wealden Supergroup of (e.g., and ), and S. girardi from the Papo Seco Formation of . Both are currently regarded as nomina dubia due to the lack of diagnostic autapomorphies in the material, rendering them indeterminate beyond . The teeth of Suchosaurus exhibit spinosaurid characteristics, including a straight to slightly recurved crown, fine marginal denticles, and enamel fluting, suggesting a piscivorous diet similar to that of its relative Baryonyx walkeri. Estimated body length for Suchosaurus is around 10 meters (33 feet), based on comparisons with better-known baryonychines, though this is speculative given the fragmentary remains. Earlier taxonomic revisions proposed S. cultridens as a junior synonym of Baryonyx walkeri due to overlapping dental morphology and stratigraphic proximity in the Barremian Weald Clay Formation, but recent phylogenetic analyses suggest Suchosaurus may represent a distinct lineage within Ceratosuchopsini, separate from Baryonyx. Similarly, S. girardi lacks distinctive features and is also considered a nomen dubium, potentially referable to another indeterminate spinosaurid. Despite its dubious status, Suchosaurus highlights the early recognition and persistent taxonomic challenges of spinosaurids in European Wealden deposits, where multiple baryonychine taxa coexisted, including Baryonyx, Ceratosuchops, and Riparovenator. No postcranial elements are confidently assigned to the genus, limiting paleobiological insights, but its presence underscores the diversity of piscivorous theropods in lagoonal and fluvial environments of the proto-Atlantic margin.

Etymology and taxonomy

Name origin

The genus name Suchosaurus was established by the British anatomist and paleontologist Richard Owen in 1841 for teeth from the Early Cretaceous Wealden Group of southern England, initially interpreted as belonging to a crocodilian. The type species was initially described as Crocodylus cultridens in Owen's 1840–1845 publication before the genus Suchosaurus was established. The name derives from the Greek sūchos (σῦχος), meaning "crocodile" (from the Egyptian crocodile god Sobek), and sauros (σαῦρος), meaning "lizard" or "reptile," underscoring Owen's original attribution to a crocodile-like reptile rather than a dinosaur. The type species, S. cultridens, was named by Owen in the same 1841 publication, with the specific epithet combining the Latin culter, meaning "knife" or "plowshare," and dens, meaning "tooth," in reference to the distinctive serrated, blade-shaped form of the teeth. These teeth, collected earlier by Gideon Mantell and illustrated as early as 1827, were the basis for the new genus and species, marking one of the earliest named theropod taxa predating the formal recognition of Dinosauria. In 1897, the French paleontologist Henri-Émile Sauvage introduced a second species, S. girardi, based on jaw fragments and a tooth from the Early Cretaceous of Portugal.

Classification and validity

Suchosaurus is classified within the clade Dinosauria, specifically as a member of Theropoda, the family Spinosauridae, and possibly the subfamily Baryonychinae, based on dental characteristics consistent with spinosaurid theropods such as conical, finely serrated teeth with enamel fluting. The genus was initially established by Richard Owen in 1841, who described the type species S. cultridens based on isolated teeth from the Early Cretaceous Wealden Group of England and classified it within Crocodylia due to superficial resemblances to crocodilian dentition. In 1926, Friedrich von Huene reclassified Suchosaurus as a theropod dinosaur within Saurischia, recognizing its reptilian affinities beyond crocodilians. Its placement as a spinosaurid was solidified in the 1980s and 1990s following the discovery and description of Baryonyx walkeri (Charig & Milner, 1986, 1990), whose teeth closely matched those of Suchosaurus, and subsequent analyses of spinosaurid morphology that highlighted shared traits like piscivorous adaptations. Suchosaurus is widely regarded as a nomen dubium owing to its fragmentary holotype material, consisting solely of teeth that lack sufficient diagnostic features to distinguish it from other spinosaurids. Specifically, S. cultridens is considered an indeterminate baryonychine, potentially representing the senior synonym of Baryonyx walkeri given overlapping morphology and provenance, though its poor preservation prevents formal synonymy. The species S. girardi, based on Portuguese jaw fragments, was referred to Baryonychinae (potentially Baryonyx) in 2011 but deemed a nomen dubium due to lack of diagnostic features. Some phylogenetic analyses have compared Suchosaurus to African baryonychines like Cristatusaurus and Suchomimus, proposing potential congenericity or junior synonymy in broader spinosaurid revisions, though these remain debated due to geographic and stratigraphic differences.

Discovery history

Initial finds and naming

The initial discovery of Suchosaurus material occurred around 1820 when English physician and geologist Gideon Mantell unearthed several fossilized teeth near Cuckfield in Tilgate Forest, East Sussex, England, within sediments of the Wealden Group, a Lower Cretaceous formation known for its rich reptile fauna. Mantell initially interpreted these conical, finely serrated teeth as belonging to an extinct crocodile, a view supported by French anatomist Georges Cuvier after Mantell sent him specimens in 1824 for examination. Mantell illustrated and described the teeth in his 1827 publication Illustrations of the Geology of Sussex, emphasizing their compressed, ribbed structure and sharp edges, though he retained the crocodilian attribution. In 1841, British anatomist and paleontologist Richard Owen formally named the genus Suchosaurus with the type species S. cultridens, based on a series of these teeth from Mantell's collection, including the holotype specimen NHMUK PV R 36536 (formerly BMNH 36536) housed at the Natural History Museum, London. Owen's description appeared in his comprehensive work Odontography; or, A Treatise on the Comparative Anatomy of the Teeth (published between 1840 and 1845), where he detailed the teeth as tall, laterally compressed cones with prominent longitudinal ridges and fine serrations along the carinae, distinguishing them from typical crocodilian dentition while still classifying the animal as a reptile akin to a crocodile. The name Suchosaurus derives from the Greek words suchos (crocodile) and sauros (lizard), reflecting Owen's initial perception of the taxon as a crocodyliform. These finds formed part of the burgeoning 19th-century paleontological explorations in the Wealden Group, which also yielded the famous Iguanodon teeth discovered by Mantell in 1822, contributing to the early recognition of large terrestrial reptiles in England's Mesozoic strata before the formal establishment of the Dinosauria by Owen in 1842.

Subsequent material and synonymy

In the late 19th and early 20th centuries, additional isolated teeth from the Wealden Supergroup of southern England, including specimens from the Isle of Wight's Wessex Formation, were referred to Suchosaurus cultridens by researchers such as Harry Govier Seeley and Richard Lydekker, expanding the known material beyond the type locality in Sussex. These referrals were based on shared conical, finely serrated morphology but have since been questioned due to the non-diagnostic nature of isolated teeth, with most now attributed to Baryonyx walkeri or left as indeterminate spinosaurids. In 1897–1898, French paleontologist Henri Émile Sauvage named Suchosaurus girardi based on teeth and jaw fragments from the Early Cretaceous strata near Leiria, Portugal, initially aligning it with the English material as a second species. In 2011, Octávio Mateus and colleagues regarded S. girardi as a nomen dubium lacking unique diagnostic features, referring the Portuguese material to Baryonychinae incertae sedis and noting consistency with baryonychine spinosaurids such as Baryonyx walkeri. During the 20th century, Friedrich von Huene classified Suchosaurus within the Megalosauridae in his 1926 review of carnivorous saurischians, interpreting the teeth as indicative of a large theropod rather than a crocodilian. The discovery and description of Baryonyx walkeri by Alan J. Charig and Angela C. Milner in 1986 further linked Suchosaurus to spinosaurids, as the new species' dentition closely resembled S. cultridens teeth from the Wealden, leading to the referral of most English Suchosaurus material to Baryonyx. From the 1990s onward, debates have centered on the potential synonymy of Suchosaurus with Baryonyx, with S. cultridens considered a possible senior synonym due to its earlier naming, though its validity remains dubious given the fragmentary type material. David W. E. Hone and Thomas R. Holtz Jr. (2017) reviewed these issues in their comprehensive analysis of spinosaurid taxonomy, noting that while merger is likely, nomenclatural priority and the need for additional diagnostic fossils continue to influence ongoing discussions.

Description

Known fossil remains

The known fossil remains attributed to Suchosaurus consist exclusively of isolated teeth and limited jaw fragments, with no postcranial skeletal elements ever described for the genus. The holotype of the type species S. cultridens (Owen, 1841) is a single isolated tooth (NHMUK PV R 36536) collected from the Wadhurst Clay Formation (Early Cretaceous, Valanginian) in Tilgate Forest, West Sussex, England; this specimen is housed in the Natural History Museum, London. Owen's original description also included several additional isolated teeth from the same locality as part of the type series, though these are cataloged collectively under the holotype number at the Natural History Museum, London. Additional teeth referred to S. cultridens have been reported from the Wealden Group of southern England, including specimens from sites in East Sussex (e.g., NHMUK PV R 4415 from the Brede Bone Bed, Valanginian) and the Isle of Wight. These isolated teeth, primarily from the Wadhurst Clay and Vectis Formations, were initially attributed to Suchosaurus but have since been reidentified as belonging to the spinosaurid Baryonyx walkeri based on shared dental morphology. Recent studies as of 2023 continue to regard both species as nomina dubia, indeterminate at the genus level within Spinosauridae. The holotype of the second species, S. girardi (Sauvage, 1897–1898), comprises two partial dentary fragments (MG/UM 324a–b) and an associated isolated tooth (MG/UM 324c), recovered from the Papo Seco Formation (Early Cretaceous, Barremian) at Boca do Chapim, Cabo Espichel, Portugal; these remains are stored at the Museu Geológico de Lisboa in Lisbon. This material was reexamined in a 2011 taxonomic revision and regarded as likely referable to Baryonyx walkeri, though S. girardi is considered a nomen dubium due to insufficient diagnostic features. The limited nature of all Suchosaurus specimens—restricted to dental and mandibular fragments—has contributed to the genus's classification as a nomen dubium within Baryonychinae.

Morphology and estimated size

Suchosaurus is known primarily from isolated teeth and fragmentary jaw material, which reveal a dentition adapted for grasping slippery prey. The teeth are conical in form, exhibiting a slight posterior curvature and an oval to subcircular cross-section at the base of the crown. Fine, straight serrations, consisting of minute denticles, occur along the mesial and distal carinae, with densities of approximately 6-7 per millimeter, with some variation, particularly toward the base. Longitudinal enamel flutes are prominent on both labial and lingual surfaces, aiding in prey retention; for instance, teeth attributed to S. girardi display 8 flutes lingually and 4 labially, while those of S. cultridens possess 10-12 flutes overall. Fragmentary dentary remains referred to S. girardi indicate a robust lower jaw structure comparable to that of other baryonychine spinosaurids, with subcircular alveoli supporting the conical teeth and evidence of increased premaxillary tooth count exceeding five. The fluted enamel texture and overall conidont morphology of the teeth suggest adaptations for piscivory, facilitating grip on fish scales and soft-bodied aquatic prey without deep slashing wounds typical of ziphodont theropods. Body size estimates for Suchosaurus derive from scaling dental measurements to the skeletal proportions of the related Baryonyx walkeri, yielding lengths of 8.6-10 meters and weights of 1-4 tonnes; more conservative analyses place S. cultridens at 7-8 meters in length. Tooth crowns reach up to 54-70 mm, implying potential for larger mature individuals. In comparison to other spinosaurids, Suchosaurus teeth closely resemble those of Baryonyx in conical shape, fine denticulation, and fluted enamel but differ from Suchomimus in having more numerous flutes (versus 2-10, averaging 6-7). These distinctions highlight subtle morphological variation within baryonychines, though taxonomic overlap remains debated due to limited material.

Paleobiology and paleoecology

Habitat and environment

Suchosaurus fossils date to the Early Cretaceous period, specifically the Valanginian Wadhurst Clay Formation (ca. 140–133 Ma) and the Barremian Weald Clay Formation (ca. 129–125 Ma) for material from England and the lower Barremian stage (approximately 129–125 Ma) for specimens from Portugal. In England, Suchosaurus remains, primarily teeth attributed to S. cultridens, occur in the Wadhurst Clay and Weald Clay Formations of the Wealden Group in southern regions such as Sussex and Kent. These formations represent non-marine depositional environments characterized by coastal floodplains, braided river systems, and lagoons, with interbedded sandstones, siltstones, mudstones, and occasional limestones or clay ironstones. Fossils are preserved in mudstones and sandstones that indicate low-energy fluvial and brackish water settings, with evidence of tidal influences through fining-upward sequences and occasional gypsum or sideritic concretions. The surrounding vegetation included conifers such as cheirolepidiaceans and ginkgophytes, reflecting a diverse riparian flora. Portuguese material, referred to S. girardi, derives from the Papo Seco Formation in the Lusitanian Basin near Cabo Espichel, south of Lisbon. This unit consists of silty mudstones and marls interbedded with medium- to coarse-grained sandstones and gravels, deposited in a restricted lagoonal to fluvial environment with brackish influences and proximity to coastal barriers. Sedimentary structures suggest subtidal to intertidal conditions, including ribbon-shaped sand bodies and traces of gypsum indicating periodic evaporation in a semi-enclosed basin. The paleoclimate across these sites was subtropical, with warm temperatures averaging around 25°C and seasonal rainfall supporting humid conditions that fostered diverse ecosystems, though periodic drier phases are inferred from calcretes and desiccation features in the Wealden sediments.

Diet and contemporaries

Suchosaurus is inferred to have been primarily piscivorous, with a diet focused on fish, based on the morphology of its conical, finely serrated teeth that were well-suited for grasping and holding slippery aquatic prey. These teeth, characterized by their straight, robust crowns with minimal curvature, resemble those of other spinosaurids and suggest adaptations for piercing and securing fish rather than tearing flesh from larger terrestrial animals. Hunting adaptations likely included a semi-aquatic lifestyle, similar to that of related spinosaurids, enabling Suchosaurus to wade or swim in shallow waters while using an elongated snout—extrapolated from close relatives like Baryonyx—to capture prey efficiently. Oxygen isotope analysis of spinosaurid bones indicates significant time spent in water, supporting a lifestyle that facilitated access to aquatic resources and reduced competition with fully terrestrial predators. In its Early Cretaceous environment, Suchosaurus coexisted with a diverse vertebrate assemblage, including ornithischian dinosaurs such as Barilium and Hypselospinus, crocodylomorphs like Goniopholis, turtles, abundant fish including Scheenstia, and small mammals such as Loxaulax. The theropod community was characterized by low diversity, dominated by spinosaurids such as Baryonyx, Ceratosuchops, and Riparovenator with few other large carnivores present. As an apex or mid-level predator in floodplain ecosystems, Suchosaurus likely occupied a niche overlapping with crocodilians, potentially competing for fish and other aquatic prey in riverine and lagoonal settings. Suchosaurus shared a similar piscivorous diet with Baryonyx walkeri, another Wealden spinosaurid, as evidenced by fish scales (Lepidotes) preserved in the stomach contents of a Baryonyx specimen, alongside associated sediments containing fish remains near Suchosaurus teeth localities.

References

  1. https://pmc.ncbi.nlm.nih.gov/articles/PMC10239232/
  2. https://www.researchgate.net/publication/285762094_A_new_specimen_of_the_theropod_dinosaur_Baryonyx_from_the_early_Cretaceous_of_Portugal_and_taxonomic_validity_of_Suchosaurus
  3. https://doi.org/10.11646/zootaxa.2827.1.3
  4. https://www.geol.umd.edu/~tholtz/dinoappendix/HoltzappendixWinter2010.pdf
  5. https://pmc.ncbi.nlm.nih.gov/articles/PMC8481559/
  6. https://www.lyellcollection.org/doi/10.1144/SP343.10
  7. https://www.cambridge.org/core/journals/geological-magazine/article/spinosaurid-dinosaur-baryonyx-saurischia-theropoda-in-the-early-cretaceous-of-portugal/E2F9B7C099506CE2CD948E022FBDAD5E
  8. https://doi.org/10.7717/peerj.15453
  9. https://www.geokniga.org/bookfiles/geokniga-dinosaurs-and-other-extinct-saurians.pdf
  10. https://en.wikiversity.org/wiki/WikiJournal_of_Science/Baryonyx
  11. https://www.smithsonianmag.com/science-nature/hidden-dinosaurs-and-confusing-teeth-14538904/
  12. https://www.mapress.com/zt/article/view/zootaxa.2827.1.3
  13. https://www.nature.com/articles/324359a0
  14. https://onlinelibrary.wiley.com/doi/10.1111/1755-6724.13328
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  16. https://onlinelibrary.wiley.com/doi/10.1002/spp2.1604
  17. https://palaeo-electronica.org/content/2019/2806-dental-features-in-theropods
  18. https://ddd.uab.cat/pub/artpub/2025/288360/hisbio_a2024theropodmontea.pdf
  19. https://www.biotaxa.org/Zootaxa/article/view/zootaxa.2827.1.3
  20. https://www.geol.umd.edu/~tholtz/dinoappendix/HoltzappendixWinter2011.pdf
  21. https://eprints.soton.ac.uk/477685/1/peerj_15453.pdf
  22. https://mapress.com/zt/article/view/zootaxa.2827.1.3
  23. https://www.cambridge.org/core/journals/geological-magazine/article/sideritic-ironstones-as-indicators-of-depositional-environments-in-the-weald-basin-early-cretaceous-se-england/3C9AB9C9D5F1B6CF0C72D06727F63AA2
  24. https://www.bgs.ac.uk/downloads/start.cfm?id=1400
  25. https://www.mdpi.com/2813-6284/3/4/18
  26. https://www.sciencedirect.com/science/article/abs/pii/S0195667104000242
  27. https://pmc.ncbi.nlm.nih.gov/articles/PMC3665537/
  28. https://pubs.geoscienceworld.org/gsa/geology/article-abstract/38/2/139/130188/Oxygen-isotope-evidence-for-semi-aquatic-habits
  29. https://www.researchgate.net/publication/263543496_Crocodilians
  30. https://www.sciencedirect.com/science/article/abs/pii/S0016787817300500
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