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Teratosaurus
Teratosaurus
Teratosaurus
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Teratosaurus
Temporal range: Late Triassic, 216–204 Ma
Right maxilla of the holotype (NHMUK PV OR 38646)
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Archosauria
Clade: Pseudosuchia
Family: Rauisuchidae
Genus: Teratosaurus
Meyer, 1861
Type species
Teratosaurus suevicus
Meyer, 1861

Teratosaurus is a genus of rauisuchians known from the late Triassic Stubensandstein (Löwenstein Formation, Norian stage) of Germany. It is estimated to be 6.2 m (20 ft) in length.

Discovery

[edit]
Life restoration

In 1860, Sixt Friedrich Jakob von Kapff at the Heslacher Wand near Stuttgart discovered the upper jaw bone of a large reptile. The type specimen, which Hermann von Meyer declared to be distinct from Belodon, was described and named by the latter as the type species Teratosaurus suevicus. The generic name is derived from Greek τέρας, teras, "[ominous birth of a] monster" and sauros, "lizard". The specific name refers to Suevia.[1] The holotype, specimen NHMUK PV OR 38646, was found in the Mittlerer Stubensandstein. It consists of a 245 millimetres long right maxilla with six large, up to five centimetres long, teeth, erroneously interpreted by Meyer as the left maxilla.[2] It indicates a body length of about six metres.[3]

Later authors, such as Kapff himself, von Huene, Osborn, and Edwin H. Colbert, incorrectly attributed postcrania of the sauropodomorph dinosaur Efraasia to this species or genus and, as a result, it was thought to be a representative of a presumed group of carnivorous Prosauropoda or, alternatively, a very primitive theropod. Following this lead, many popular books in the 20th century depicted "teratosaurs" as the earliest sort of large-bodied meat-eating dinosaur, walking on two legs and preying on the prosauropods of its day. It was thought by many to be a Triassic ancestor to the "carnosaurs" of the Jurassic. Sauropodomorph material was described as Teratosaurus species such as Teratosaurus minor (now Efraasia)[4] and Teratosaurus trossingensis.

In 1985 and 1986, Peter Galton and Michael Benton independently showed that Teratosaurus is actually a rauisuchian, a type of non-dinosaurian large predatory archosaur, many of which walked on all fours, and lived alongside dinosaurs during the Late Triassic.[5][2]

Apart from the holotype and the sauropodomorph fossils, teeth probably belonging to various carnivorous archosaurs were named as Teratosaurus species. These included Teratosaurus lloydi, a renaming of Cladeiodon lloydi (Owen 1841) by Huene in 1908,[6] and Teratosaurus bengalensis.[7] Teratosaurus silesiacus, described in 2005 by Tomasz Sulej on the basis of a left maxilla,[8] was transferred to the genus Polonosuchus by Brussatte et al. in 2009.[9]

References

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Teratosaurus

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from Grokipedia
Teratosaurus is a of large, carnivorous rauisuchian that inhabited during the epoch, specifically the stage around 227–208 million years ago. Known from fragmentary remains including a and some referred postcranial bones such as an ilium, it represents one of the earliest named rauisuchians within the pseudosuchian lineage and was initially mistaken for a theropod upon its in 1861. The type species, Teratosaurus suevicus, was named by Hermann von Meyer based on a right maxilla (NHMUK PV R 38646) discovered in the Mittlerer Stubensandstein Formation (part of the Löwenstein Formation) near Stuttgart, Germany, featuring a deep main body, V-shaped posterodorsal process, and sockets for approximately 13 teeth with long roots and laterally compressed crowns adapted for a predatory lifestyle. Additional material, including a referred right ilium (SMNS 52972) from the same formation, indicates a robust pelvic structure with a prominent supra-acetabular process and laterally directed acetabulum, supporting a quadrupedal gait typical of rauisuchians. These fossils suggest T. suevicus was among the largest terrestrial predators in its ecosystem, estimated at 4–6 meters in length and comparable in scale to other rauisuchids that reached body lengths of 2–6 meters, though exact dimensions for Teratosaurus remain uncertain due to the incompleteness of the skeleton. Historically, Teratosaurus played a key role in early paleontological debates, as its was one of the first fossils from the to be described, leading to its erroneous placement among dinosaurs before being reclassified as a rauisuchian in the based on shared traits like the antorbital fossa and dental morphology with other pseudosuchians. Modern phylogenetic analyses place it within or as a basal loricatan, closely related to crocodylomorphs rather than dinosaurs, highlighting the diversity of large carnivores that coexisted with early dinosaurs in the floodplains and river systems of the Germanic Basin. No additional species are confidently assigned to the , and ongoing research continues to refine its anatomy and ecological role through comparisons with better-preserved relatives like and .

Taxonomy

Etymology

The name Teratosaurus was established by the German paleontologist Christian Erich Hermann von Meyer in , based on an isolated with large, serrated teeth from the Stubensandstein Formation in , . The name derives from the teratos (τέρας), meaning "monster" or "marvel," and sauros (σαῦρος), meaning "" or "," alluding to the specimen's prominent, dagger-like that evoked a monstrous appearance. The type and only species is T. suevicus, with the epithet suevicus derived from Latinized "Suevicus," honoring Suevia—the historical Roman name for the Swabian (Süddeutschland) region where the holotype was collected. Von Meyer initially described Teratosaurus as a saurian distinct from contemporary taxa like the phytosaur Belodon, but by the late 19th and early 20th centuries, it was grouped with dinosaurs owing to its size and predatory features; it was later recognized as a non-dinosaurian rauisuchian .

Classification

Teratosaurus was first described and classified by Hermann von Meyer in 1861 as a within the newly established group , based on a single right (NHMUK PV R 38646) from the of , which he distinguished from phytosaur material like Belodon by its robust build and ziphodont teeth. This initial placement reflected the limited understanding of diversity at the time, grouping it with early carnivorous dinosaurs such as . In 1976, Bernhard Krebs reclassified Teratosaurus as a rauisuchian pseudosuchian, recognizing shared features with other non-dinosaurian archosaurs like an antorbital fenestra and thecodont dentition, rather than dinosaurian traits. This was independently confirmed and elaborated by Peter M. Galton in 1985 and Michael J. Benton in 1986, who emphasized the maxilla's morphology—including the absence of a maxillary fenestra, a straight ventral margin, and a prominent ridge for the lacrimal—as diagnostic of rauisuchians, firmly excluding it from Dinosauria. Teratosaurus is classified as a rauisuchian within the clade (crocodile-line archosaurs, ), which diverged from the dinosaur-bird line () early in the ; modern analyses place it outside but closely related to kirkpatricki from and Polonosuchus silesiacus from , supported by synapomorphies such as a deep with a straight ventral edge and robust jaw musculature attachments. Cladograms position within as the to , highlighting the diversity of large pseudosuchian carnivores in the . The genus has no valid synonyms, though early misattributions linked it to invalid theropod names like Cladeiodon (Owen, 1841), a fragmentary British now considered a and distinct from Teratosaurus based on dental differences. Additionally, the species "Teratosaurus silesiacus" (Sulej, 2005), based on Polish material, was reclassified as Polonosuchus silesiacus in 2009 due to distinct autapomorphies in the , such as a more sinuous ventral margin and additional fenestrae, separating it from the German T. suevicus .

Description

Skull and Dentition

The holotype specimen of Teratosaurus suevicus, housed as NHMUK PV R 38646 in the Natural History Museum, , consists of a partial right measuring 245 mm in rostrocaudal length. This element preserves 13 alveoli, of which six contain teeth reaching up to 50 mm in height, with the teeth exhibiting ziphodont morphology characterized by fine serrations along the mesial and distal carinae and slight recurvature. The first alveolus is notably smaller than the succeeding ones, suggesting heterodonty with reduced anterior potentially functioning as incisors, while the posterior teeth are larger and adapted for carnivory, akin to carnassial-like structures in other predatory archosaurs. Cross-sections of the preserved crowns are oval, and the enamel displays a textured surface consistent with adaptations for slicing flesh in rauisuchian predators. Reconstruction of the T. suevicus skull, based on proportional comparisons to the related rauisuchian Postosuchus kirkpatricki, indicates an elongated approximately 1 m in length, comprising a robust with a deep and inferred deep . A small is present at the posterior dorsal margin of the , a trait shared with other early-branching rauisuchians but reduced relative to the overall cranial depth. The further exhibits a prominent, sharp groove along the medial surface for the dental lamina, interpreted as an autapomorphy of T. suevicus, and evidence of a bevelled rostromedial surface suggesting a movable articulation with the —a diagnostic rauisuchian feature facilitating flexibility. In rauisuchian context, the T. suevicus aligns with pseudosuchian cranial traits, including a deep mandibular ramus inferred from the robust maxillary body and large temporal fenestrae implied by the overall proportions, which supported powerful jaw adductor musculature for bone-crushing predation. These features distinguish Teratosaurus from contemporaneous theropod dinosaurs, which typically lack the maxilla-premaxilla mobility and exhibit shallower snouts with more laterally compressed . Estimated total body lengths for T. suevicus are uncertain but likely 4–6 m, comparable to related rauisuchians, underscoring its role as a top predator in ecosystems.

Postcranial Skeleton

The postcranial skeleton of Teratosaurus is extremely fragmentary and not directly associated with the of T. suevicus, limiting detailed knowledge of its anatomy. The only confidently referred element is a right ilium (SMNS 52972) from the Stubensandstein Formation of , measuring approximately 260 mm in length with a prominent supra-acetabular process (28 mm wide) and laterally directed , indicating a robust pelvic structure supportive of a quadrupedal . Other isolated postcranial material from the same formation, including vertebrae and limb fragments, has been reidentified as belonging to other taxa such as the sauropodomorph Sellosaurus gracilis and indeterminate poposaurids, precluding confident attribution of axial or limb features to Teratosaurus. A partial from the Late of , originally described as T. silesiacus but now classified as the closely related Polonosuchus silesiacus, provides insights into the postcranial of Teratosaurus-like rauisuchians. This material includes three anterior that are short and high, with the axis bearing a triangular neural spine; twelve caudal vertebrae with moderately tall, plate-like neural spines angled posterodorsally; ribs; chevrons; partial shoulder and pelvic girdles; ; ; ; partial manus; ; ; ; and partial pes. Although assigned to Polonosuchus, it suggests a robust and consistent with a semi-erect posture in such taxa. Limb anatomy, inferred from Polonosuchus and other rauisuchids like Postosuchus, indicates hindlimbs substantially longer than forelimbs, supporting a primarily quadrupedal stance with possible facultative bipedality; the femur is estimated at 60–70 cm based on scaling from these relatives. The pes is four-toed, with digit V reduced to a small splint-like element, a plesiomorphic archosaurian trait retained in rauisuchids. Osteological features such as sacral ribs fused to the ilium and an elongated pubic shaft with a distal plate are inferred for Teratosaurus from shared rauisuchid synapomorphies observed in taxa like Batrachotomus and Postosuchus. Body proportions are reconstructed as a barrel-shaped for supporting quadrupedal locomotion, with a total length of 4–6 m and estimated mass of 200–500 kg, derived from comparisons to related rauisuchians. These estimates align with the robust build suited to a large, terrestrial predator in the continental environments.

Discovery History

Initial Discovery

In 1860, the German naturalist Sixt Friedrich Jakob von Kapff discovered a fossilized right in a at the Heslacher Wand near , , within the middle Stubensandstein Formation of the Upper Keuper Group. This specimen, cataloged as NHMUK PV OR 38646 and measuring approximately 245 mm in length with six preserved teeth, represented the of a large predatory . The following year, paleontologist Hermann von Meyer formally described and named the specimen as the Teratosaurus suevicus in a publication detailing reptiles from , distinguishing it from contemporary phytosaurs like Belodon based on its dental and jaw morphology. Von Meyer initially classified it among the Dinosauria, aligning it with early known carnivorous forms such as , which contributed to its significance as one of the earliest reported large predatory dinosaurs from . Recovered from sediments dated to the stage of the (approximately 216–204 Ma), the fossil was transported to the (now the Natural History Museum in ) for detailed study and has remained in its collections since. This discovery marked an early milestone in European Mesozoic , highlighting the rich diversity in the Germanic Basin.

Subsequent Studies

Following its initial description, Teratosaurus was generally classified as a throughout the late 19th and early 20th centuries, with limited subsequent studies owing to the availability of only the specimen. This misattribution persisted despite sparse analyses, as the fragmentary remains did not permit detailed comparisons until later discoveries in related taxa. During the 1980s, Peter M. Galton and Michael J. Benton independently proposed and confirmed Teratosaurus as a rauisuchian using comparative morphology and early cladistic analyses that incorporated postcranial and cranial features from better-known rauisuchians. Galton's 1985 study highlighted osteological details of the , while Benton's 1986 analysis integrated it into the , resolving its position as a non-dinosaurian predator through shared derived traits like the configuration of the jaw articulation. In the 2000s, Polish material from the of Krasiejów was referred to Teratosaurus as the new species T. silesiacus by Tomasz Sulej in , based on similarities in maxillary and dental morphology to the German . This referral was later revised, with the material erected as the distinct Polonosuchus by , Richard J. Butler, Tomasz Sulej, and Grzegorz Niedźwiedzki in 2009, following phylogenetic analysis that distinguished autapomorphic features in the Polish specimens. Post-2010 research has included phylogenetic updates placing Teratosaurus within rauisuchid trees, as in the analysis by Brusatte et al., which refined relationships using expanded character matrices. As of 2025, no major new Teratosaurus specimens have been reported, with studies continuing to rely on the and comparative material from related pseudosuchians.

Paleobiology

Locomotion and Posture

Teratosaurus, as a member of the , was primarily quadrupedal, with locomotion inferred from the group's characteristic limb proportions where hindlimbs exceeded forelimbs in length, facilitating a parasagittal . The pelvic girdle, featuring a deep and vertically oriented ilia, supported a transition from sprawling to semi-erect hindlimb posture, allowing for efficient terrestrial movement distinct from the fully sprawling of modern crocodylians. The animal's posture included a relatively low-slung body, with the ribcage positioned close to the ground and shoulders elevated by the semi-erect forelimbs, as evidenced by comparisons to well-preserved rauisuchian skeletons like those of Ticinosuchus. In related rauisuchians, the tail served as a counterbalance to maintain equilibrium during locomotion, contributing to the rigidity needed for an erect hindlimb stance. Biomechanical models of pseudosuchian trackways, such as Isochirotherium and Brachychirotherium attributed to rauisuchians, yield speed estimates of 10-15 km/h for walking gaits when applying dynamic similarity (v ≈ 0.25 g^{0.5} λ^{1.67} h^{-1.17}, where λ is stride length and h is hip height), based on femoral dimensions and stride data from related taxa. Relative to crocodylians, Teratosaurus displayed greater terrestrial adaptations through its more upright posture, yet it was less agile than theropod dinosaurs, which benefited from fully erect, bipedal locomotion.

Feeding and Predation

Teratosaurus possessed a carnivorous diet, as evidenced by its ziphodont featuring labio-lingually compressed, recurved, and serrated teeth suited for tearing flesh from prey. The maxilla preserves six large teeth up to 50 mm in length, with fine serrations consisting of approximately three denticles per millimeter along the carinae, indicating adaptations for puncturing and slicing rather than bone-crushing. These dental features align with those of other carnivorous rauisuchians and suggest Teratosaurus targeted medium-sized herbivores, such as the contemporaneous prosauropod gracilis, as well as smaller reptiles in the Norian floodplains of the Löwenstein Formation. In rauisuchians, enlarged temporal fenestrae imply robust adductor muscles that enhanced bite mechanics for subduing and dismembering prey through lever-like action of the jaws. Although direct evidence from coprolites or stable isotopes is absent, tooth morphology and wear patterns further support a hypercarnivorous niche, positioning Teratosaurus as an capable of exploiting the dominant herbivores in its ecosystem without competition from larger carnivores.

Paleoecology

Geological Context

The fossils of Teratosaurus are known exclusively from the Stubensandstein Member of the Löwenstein Formation, which forms part of the Upper Keuper Group within the Germanic Basin of southwestern Germany. This formation represents a continental sedimentary sequence deposited during the mid-Norian stage of the Late Triassic, approximately 215–210 million years ago. The depositional environment consisted primarily of fluvial and lacustrine systems, characterized by ephemeral rivers draining into playa lakes across a terminal alluvial plain with extensive riverine floodplains. Sedimentary facies include sand-dominated channel fills and overbank mudstones, reflecting low-gradient, anastomosing river networks in an intra-continental setting. Taphonomic preservation of Teratosaurus specimens, such as the , occurred in fine- to medium-grained sandstones derived from low-energy fluvial channels, where rapid burial in unconsolidated sands protected remains from extensive transport or prior to fossilization. The was exposed through natural processes in a now-filled quarry near , highlighting how quarry operations in these sandstones have revealed isolated cranial elements. Such preservation indicates minimal post-mortem disturbance, with fossils often occurring in monospecific or low-diversity assemblages within contexts. The paleoclimate of the Stubensandstein during Teratosaurus' time was semi-arid, dominated by a seasonal regime driven by orbital cycles, with wet phases linked to winter rainfall and prolonged dry summers. , including desiccation cracks, dissolution breccias, and cyclic mudstone-dolomite successions, record alternating humid flooding and evaporative drying in playa-margin settings. Associated floral evidence from palynomorphs and plant detritus further supports this interpretation, indicating periodic vegetation growth during moist intervals amid overall aridity.

Contemporaneous Biota

The Norian-aged deposits of the Löwenstein Formation (including the Stubensandstein Member) in the Germanic Basin of southwestern preserve a diverse assemblage that coexisted with Teratosaurus suevicus, reflecting a fluvial to lacustrine paleoenvironment influenced by the nearby Tethys Sea, which facilitated episodic marine incursions and shaped the regional biota. This ecosystem featured a mix of terrestrial and semi-aquatic vertebrates, with abundant herbivorous prosauropods dominating the large-bodied fauna, alongside smaller carnivores, armored herbivores, and aquatic forms. Among the primary herbivores were the basal sauropodomorph dinosaurs Plateosaurus gracilis and Efraasia minor, both reaching lengths of 4.5–6.5 meters and representing early radiation of long-necked, bipedal-to-quadrupedal browsers that grazed on low vegetation in floodplain settings. Fossils of Efraasia minor were initially misattributed to Teratosaurus as the species T. minor due to mixed skeletal elements from the same localities, a taxonomic error resolved through comparative anatomy showing distinct sauropodomorph traits like elongated hindlimbs. These prosauropods formed the bulk of the large terrestrial herbivore community, with bonebeds indicating gregarious behavior and periodic mass mortality events possibly linked to seasonal flooding. Other carnivorous or omnivorous taxa included smaller pseudosuchians and early dinosaurs, such as the coelophysoid theropod Procompsognathus triassicus (about 2 meters long), which likely scavenged or hunted small prey, and the sphenosuchian crocodylomorph Saltoposuchus connectens, a nimble, bipedal form adapted to riversides. Semi-aquatic predators like the long-snouted phytosaurs Mystriosuchus planirostris and Nicrosaurus kapffi occupied aquatic niches, preying on fish and amphibians in river systems, while aetosaurs such as Aetosaurus ferratus and Paratypothorax andressorum provided armored, herbivorous mid-sized grazers that coexisted without direct trophic overlap with the prosauropods. The aquatic component featured actinopterygian fishes, including semionotids like Semionotus bergeri, which thrived in freshwater lakes and rivers alongside such as crustaceans and conchostracans. Teratosaurus suevicus, as a large-bodied loricatan pseudosuchian reaching up to 6 meters in length, occupied the niche in this biota, exerting top-down control on populations through predation on juvenile or subadult prosauropods and smaller vertebrates. There is no paleontological evidence for significant ecological competition between Teratosaurus and contemporaneous theropod dinosaurs, as the latter were markedly smaller and likely specialized in different prey sizes or microhabitats. Temnospondyl amphibians like Cyclotosaurus posthumus and early turtles such as Proterochersis robusta further diversified the community, filling amphibious roles in the humid, vegetated lowlands.

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