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Baurusuchus
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Baurusuchus
Temporal range: Late Cretaceous, Turonian–Santonian
Skull of Baurusuchus salgadoensis
Skeletal reconstruction
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Archosauria
Clade: Pseudosuchia
Clade: Crocodylomorpha
Clade: Notosuchia
Family: Baurusuchidae
Subfamily: Baurusuchinae
Genus: Baurusuchus
Price, 1945
Type species
Baurusuchus pachecoi
Price, 1945
Other species
  • B. albertoi?
    Nascimento & Zaher, 2010
  • B. salgadoensis
    Carvalho et al., 2005
Skeletal diagram and size comparison showing some of the different Baurusuchus specimens in scientific literature (human: 175 cm tall). Several more specimens have been discovered and stored in museums

Baurusuchus is an extinct genus of baurusuchid mesoeucrocodylian, which lived in Brazil from 90 to 83.5 million years ago, in the Late Cretaceous period. It was a terrestrial predator, estimated to reach up to 113.4 kilograms (250 lb) in weight.[1] Baurusuchus lived during the Turonian to Santonian stages of the Late Cretaceous Period, in Adamantina Formation, Brazil.[2] It gets its name from the Brazilian Bauru Group ("Bauru crocodile"). It was related to the earlier-named Cynodontosuchus rothi, which was smaller, with weaker dentition.[3] The three species are B. pachecoi, named after Eng Joviano Pacheco, its discoverer,[4] B. salgadoensis (named after General Salgado County in São Paulo, Brazil)[5] and B. albertoi (named after Alberto Barbosa de Carvalho, Brazilian paleontologist).[2] The latter species is disputed (see phylogeny section). Its relatives include the similarly sized Stratiotosuchus from the Adamantina Formation, and Pabweshi, from the Pakistani Pab Formation.

Paleoecology

[edit]

B. salgadoensis is seen as a terrestrial predator, living in a hot and arid climate. The position of the external nares was unsuited for an amphibious lifestyle like in modern crocodilians and the snout and teeth are laterally compressed like in theropods. Both of this supports the terrestrial hypothesis. The hot environment hypothesis is based on the lifestyle of modern crocodilians and the stratigraphy of Baurusuchus. B. salgadoensis was found in fine massive sandstones which are interpreted as a floodplain area in a hot and arid climate. Baurusuchus was likely able to dig holes for finding water in dry seasons or, like modern alligators do, for thermoregulation. The occurrence of several complete skeletons and skulls of different ontogenetic stages in correlated stratigraphic levels supports this. Such a strategy would have made it less water-bound than most modern crocodiles, allowing it to live in more continental climate. The enlarged and strongly bent pterygoids allowed for attachment of powerful muscles that could close its jaw very quickly, with its altirostral skull being well adapted to ressist stresses, and produce a consideraly strong biteforce for its size (between 2542–3088 Newtons in B. salgadoensis), being comparable to that of the american alligator.[6] The skull and tooth morphology indicates that the biting strategies of Baurusuchus were similar to a Komodo dragon which include ambushing the prey, biting it and pulling back the serrated, blade-like teeth. Perhaps violently shaking prey with its jaws like modern crocodiles, helped by its enlarged cervical neural spines, which served as large muscle attachments.[7] Baurusuchus likely played an important role in its ecosystem, competing with the abelisaurids for food.[5]

Classification

[edit]

Baurusuchus is the type genus of the family Baurusuchidae, a family consisting of crocodilians with elongated and laterally compressed skulls.[4] Other members of that family from the Cretaceous of South America include Stratiotosuchus and Cynodontosuchus, but baurusuchids are also known from the Cretaceous of Asia (Pakistan) and the Tertiary of Europe.[5]

A study in 2011 erected a new subfamily called Baurusuchinae. Seven diagnostic features for the group were described which include the moderate size and the broad frontals. The paper referred only Stratiotosuchus maxhechti and Baurusuchus to the subfamily, making Stratiotosuchus Baurusuchus' closest relative so far.[8] However, a study in the year 2014 referred a new species called Aplestosuchus sordidus to the subfamily, but supported a closer relationship of Baurususchus with Stratiotosuchus than with it. The species B. albertoi is an exception. The paper does not support its affiliation to Baurusuchus and views it as a close relative of Aplestosuchus. This is the cladogram they presented:[9]

Sources

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References

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Baurusuchus

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Baurusuchus is an extinct of baurusuchid mesoeucrocodylian crocodyliforms, characterized by their terrestrial adaptations and hypercarnivorous , including ziphodont (serrated) teeth and hypertrophied canines in a dog-like with a short, laterally compressed rostrum and reduced tooth count. These predators, estimated to reach lengths of about 3.5 to 4 meters based on skeletal reconstructions, inhabited semi-arid environments in the Bauru Basin of southeastern during the to Santonian stages (approximately 93.9 to 83.6 million years ago). As apex predators in crocodyliform-dominated ecosystems, Baurusuchus exhibited cursorial limb morphologies suited for active terrestrial hunting, with features like straight long bones and a well-developed supraacetabular crest indicating an erect posture and parasagittal gait. Known include the B. pachecoi, B. salgadoensis, and B. albertoi, all represented by well-preserved skulls from formations such as the Adamantina and Vale do Rio do Peixe, highlighting their role in the diverse notosuchian radiation of . Fossil discoveries of Baurusuchus have provided insights into the evolutionary convergence between crocodyliforms and theropod dinosaurs, particularly in cranial and dental specializations for slicing flesh, as evidenced by the dorsoventrally high and strong cervical musculature that supported rapid head movements during predation. Paleobiological analyses suggest a bite force of around 600 Newtons, lower than that of modern crocodylians, implying reliance on slashing attacks rather than crushing grips to subdue prey such as smaller dinosaurs and mammals in their arid habitats. The genus's distribution within the Bauru Group underscores the biogeographic importance of South American notosuchians, with sympatric species indicating niche partitioning among terrestrial crocodyliforms during a time of faunal turnover in the . Ongoing research into reveals a relatively small compared to extant crocodilians, potentially linked to enhanced olfactory and auditory capabilities adapted for hunting in open terrains.

Discovery and Taxonomy

History of Discovery

The genus Baurusuchus was first established in 1945 based on the holotype specimen DGM 299-R, consisting of a partial skull and lower jaws collected by Llewellyn Ivor Price near Limeira in São Paulo state, Brazil, from the Adamantina Formation of the Bauru Group. Price formally described and named the type species B. pachecoi in the same year, honoring Brazilian geologist Carlos de Paula Pacheco, director of the Departamento Nacional da Produção Mineral. Subsequent discoveries expanded knowledge of the genus within the Bauru Basin. In 2005, B. salgadoensis was described by Ismar de Souza Carvalho, Antonio de Celso Arruda Campos, and Paulo Henrique Nobre from General Salgado County in São Paulo state, based on multiple specimens from the Adamantina Formation, including the holotype MPMA 62-0001-02 (a nearly complete skull and partial postcrania) and referred material such as UFRJ DG 285-R. In 2010, Paulo Miranda Nascimento and Hussam Zaher described B. albertoi from Peirópolis in Minas Gerais state, also from the Adamantina Formation, represented by a partial skull (holotype MZSP-PV 140) and the first complete postcranial skeleton known for the family Baurusuchidae; however, subsequent phylogenetic analyses have disputed its placement within Baurusuchus, suggesting it may warrant a distinct genus due to its basal position relative to other baurusuchids. Specimens of Baurusuchus are housed in key Brazilian institutions, including the Museu de Paleontologia de Limeira, which holds material from early São Paulo state discoveries, and collections at the Universidade Federal de Uberlândia, particularly those from the Peirópolis site associated with B. albertoi. Approximately five partial skeletons are known collectively for B. pachecoi and B. salgadoensis, comprising skulls, isolated postcranial elements, and associated osteoderms, primarily from the Adamantina Formation.

Etymology

The genus name Baurusuchus derives from "Bauru", the name of the city and the geological Bauru Group in São Paulo State, Brazil, where the initial fossils were discovered, combined with the suffix "suchus", from the Greek souchos (Σοῦχος), referring to the Egyptian crocodile god Sobek and commonly used in taxonomy for crocodile-like reptiles. The type species B. pachecoi has an epithet honoring Brazilian geologist Carlos de Paula Pacheco, who provided support for Llewellyn Ivor Price's paleontological expeditions in the region. The species B. salgadoensis is named for General Salgado County in São Paulo State, the locality of its holotype discovery. B. albertoi commemorates Alberto Bravo da Silva, the local fossil collector who discovered the specimen, although his institutional affiliation has been subject to dispute.

Valid Species

Baurusuchus is currently recognized as comprising two undisputed valid species, with a third under taxonomic debate. The type species, B. pachecoi, was originally described by Price in 1945 based on the holotype specimen DGM 299-R, consisting of a partial skull and lower jaws from the Upper Cretaceous Adamantina Formation of the Bauru Basin in São Paulo State, Brazil. This species is known from multiple additional specimens across the Bauru Basin, providing a robust basis for its validity within the genus. The second valid species, B. salgadoensis, was formally described in 2005 by Carvalho et al. from the holotype MPMA 62-0001-02, which preserves a complete skull and partial postcranial skeleton collected from the Adamantina Formation near General Salgado, São Paulo State, Brazil. This species is distinguished from B. pachecoi primarily by its larger overall size (with a skull length of approximately 430 mm), a straighter posterior skull border, the presence of an antorbital fenestra, double external nares separated by a bony septum, larger supratemporal fenestrae relative to the orbit, and more rounded, less crenulated teeth. A third species, B. albertoi, was described in 2010 by Nascimento and Zaher based on the MZSP-PV 140, an articulated partial skeleton including posterior skull elements, vertebrae, and limb bones from the Adamantina Formation in Peirópolis, state, . It differs from the other species in features such as a more excavated triangular depression on the jugal, a vertically oriented and thin retroarticular process, and variations in including differences in morphology and potentially reduced count in the posterior jaw. However, its taxonomic status remains debated, with some studies suggesting possible reclassification as a notosuchian or even a distinct due to these discrepancies and phylogenetic inconsistencies. Species differentiation within Baurusuchus generally relies on variations in rostrum length, with B. salgadoensis exhibiting a relatively longer and more robust rostrum, alongside differences in maxillary and dentary counts (typically 11–13 in B. pachecoi versus fewer in B. albertoi).

Description

Skull and Dentition

The of Baurusuchus is characterized by an elongated rostrum that is laterally compressed, measuring up to approximately 50 cm in length in adult specimens of B. salgadoensis, with the cranial table slightly depressed relative to the downward-tipping . This rostrum constitutes nearly half of the total length, which ranges from 30 to 50 cm across known specimens, with B. salgadoensis exhibiting larger than B. pachecoi. The dorsal surface of the is elevated and heavily ornamented with irregular ridges, while the zygomatic arches are robust, contributing to the overall structural strength. Key cranial features include large, triangular supratemporal fenestrae that exceed the size of the orbits, providing extensive attachment areas for the jaw adductor musculature. The is reduced to a small elliptical opening (approximately 30 mm long by 15 mm wide) on the , and mandibular fenestrae are similarly minimized, reflecting adaptations for a reinforced cranium suited to terrestrial predation. The features a notch that accommodates the enlarged fourth premaxillary , with the orbits positioned laterally and covered by paired supraorbital bones separated by an elliptical ; the external nares are double and frontally oriented, separated by a bony . The of Baurusuchus is ziphodont, consisting of laterally compressed crowns with serrated carinae on both mesial and distal edges, and it exhibits a reduced dental formula typical of baurusuchids: four premaxillary teeth, five maxillary teeth, and ten dentary teeth per side in both B. pachecoi and B. salgadoensis. The teeth are , with conical anterior teeth transitioning to more recurved posterior ones, and the fourth premaxillary is hypertrophied, with a corresponding notch in the for enhanced occlusion. crowns vary in size and serration density (2–5 denticles per mm), with some reaching up to 35 mm in height, such as the third maxillary . Jaw mechanics in Baurusuchus are supported by strong adductor musculature, with lever model analyses estimating a bite force of 2542–3088 Newtons at the posterior teeth for B. salgadoensis, indicating substantial crushing capability relative to its body size. This musculature, reconstructed digitally from cranial attachments, shows physiological cross-sectional areas comparable to those in , emphasizing efficient force generation for a terrestrial predator.

Postcranial Skeleton

Baurusuchus exhibited a robust postcranial skeleton adapted for , with an overall body length of 3.5–4 and estimated body mass ranging from 80 to 113 kg in large adults. The build was sturdy, featuring strong limb girdles and a balanced that supported an upright posture on land. The vertebral column consisted of approximately 20–22 presacral vertebrae, including an elongated cervical region with tall neural spines that provided robust support for the heavy . The three sacral vertebrae were fused, forming a rigid unit that enhanced stability during movement, while the tail included more than 30 caudal vertebrae, contributing to a long, muscular structure for counterbalance. Limb morphology emphasized terrestrial efficiency, with hindlimbs longer than forelimbs at a of about 1.3:1, facilitating a semi-erect posture. The femur measured 40–50 cm in larger individuals and was robustly constructed with an anteromedial crest and posteriorly positioned fourth , optimized for weight-bearing and propulsion. Feet showed reduced compared to aquatic crocodyliforms, along with sharp claws on the digits for improved traction and potential digging. The pectoral girdle featured broad scapulae that were anteroposteriorly expanded for extensive muscle attachment, paired with a bearing a posteroventral . Similarly, the pelvic girdle included wide ilia with a prominent lateral supra-acetabular crest and a deflected post-acetabular , bolstering anchorage and overall structural integrity.

Classification and Phylogeny

Family Placement

Baurusuchus belongs to the family Baurusuchidae, a of Gondwanan mesoeucrocodylians that flourished during the and is renowned for its terrestrial hypercarnivorous members adapted to continental environments across , , and . This family encompasses two recognized subfamilies: Baurusuchinae and Pissarrachampsinae, reflecting internal diversity in cranial and dental specializations for predation. Within Baurusuchinae, Baurusuchus is grouped alongside genera such as Stratiotosuchus, Cynodontosuchus, and Pabwehshi, united by synapomorphies including ziphodont dentition—characterized by serrated, laterally compressed teeth—and notably deep, robust snouts suited for delivering powerful bites to terrestrial prey. The broader family Baurusuchidae exhibits diagnostic features like elevated orbits for enhanced , reduced supratemporal and antorbital fenestrae that contribute to a more rigid , and postcranial adaptations supporting an upright, semi-erect posture indicative of locomotion. Baurusuchus itself occupies a basal position within Baurusuchinae, highlighting its foundational role in the subfamily's . Historically, Baurusuchidae was first classified within Notosuchia following its establishment by in 1945, but phylogenetic analyses from the onward—incorporating broader crocodyliform datasets—refined its placement as a derived lineage within Mesoeucrocodylia, distinct from more basal notosuchians yet sharing Gondwanan affinities. Close relatives include Stratiotosuchus as a taxon within Baurusuchinae and Notosuchus as a broader mesoeucrocodylian comparator from the Notosuchidae, underscoring shared terrestrial adaptations among Gondwanan crocodyliforms.

Phylogenetic Position

Baurusuchus is a genus of mesoeucrocodylian crocodyliforms within the family Baurusuchidae, which is nested in the clade Notosuchia. Phylogenetic analyses based on large morphological matrices consistently place Baurusuchidae as part of Sebecosuchia, with Baurusuchidae forming the sister group to Sebecidae in several studies, including those utilizing expanded datasets from the late 2010s and early 2020s. For example, a 2023 analysis incorporating 200+ characters across notosuchians recovered Baurusuchidae as a monophyletic group within Mesoeucrocodylia, positioned basal to more derived neosuchians but deeply embedded in the terrestrial notosuchian radiation. Alternative placements in older matrices sometimes positioned baurusuchids basal to Tethysuchia, but these are not supported by recent revisions emphasizing cranial and postcranial synapomorphies. Baurusuchidae remains firmly placed within Notosuchia as a monophyletic group of terrestrial hypercarnivores. Key synapomorphies supporting the phylogenetic position of Baurusuchus and its relatives include ziphodont , featuring labiolingually compressed crowns with finely serrated mesial and distal carinae, which facilitate a carnivorous, slicing bite adapted for terrestrial predation. These teeth, combined with a deep, short rostrum and hypertrophied caniniforms, are shared across baurusuchids and distinguish them from aquatic mesoeucrocodylians. Additional supporting features encompass limb adaptations, such as elongate hindlimbs and reduced webbing, indicating a fully terrestrial that aligns Baurusuchus with other Gondwanan notosuchians rather than forms. These traits are evident in cladistic analyses that score over 150 taxa, highlighting their role in resolving baurusuchid affinities within Mesoeucrocodylia. Within Baurusuchidae, Baurusuchus occupies a stem position in the subfamily Baurusuchinae, forming a with Stratiotosuchus that is more closely related to each other than to outgroups like Pissarrachampsa in Pissarrachampsinae. This intra-family topology is supported by shared derived features such as an expanded antorbital region of the jugal and specific patterns in arrangement, as recovered in phylogenetic matrices focused on baurusuchid interrelations. Recent analyses using Bayesian and parsimony methods confirm Baurusuchus pachecoi, B. salgadoensis, and B. albertoi as members of this , with B. albertoi positioned as sister to B. pachecoi + B. salgadoensis, and Stratiotosuchus branching more apically based on robust postcranial data. Overall, Baurusuchus is known from deposits dating to the Turonian-Santonian stages (approximately 93.9 to 83.6 million years ago) in the Bauru Basin of , during the , diversifying primarily in South American deposits before the family's extinction at the Cretaceous-Paleogene boundary, likely due to ecological shifts and mass extinction events.

Paleobiology

Locomotion and Burrowing

Baurusuchus exhibited a semi-erect posture, with its body elevated off the ground in contrast to the sprawling limb posture of modern crocodilians, as inferred from the robust and elongated limb bones and the overhanging that supported a limb-driven . This configuration, including dorsolaterally deflected sacral transverse processes and long cervical neural spines, facilitated a locomotion pattern suited for terrestrial environments, with the tail contributing to propulsion through anteroposterior movements. The forelimbs of Baurusuchus were robust, featuring a broad humeral head, well-developed deltopectoral crest, and strong condyles, which were adapted for stability and extensive anteroposterior motion rather than primary as in extant crocodylians. These skeletal proportions, combined with femoral features such as a medially offset head and posteriorly positioned fourth , indicate agility comparable to that of theropod dinosaurs or modern monitor lizards, emphasizing terrestrial predation without evident aquatic specializations like webbed feet or flattened tails. Burrowing adaptations in Baurusuchus are suggested by the robust forelimbs and claw-like manual phalanges, enabling the excavation of large depressions in soft substrates for sheltering. evidence from the Bauru Basin, including articulated skeletons in sedimentary contexts, supports the inference that baurusuchids like Baurusuchus constructed self-burrowing mounds, potentially for or nesting during seasonal dry periods.

Diet and Bite Mechanics

Baurusuchus exhibited a hypercarnivorous diet, primarily consisting of small to medium-sized terrestrial vertebrates such as dinosaurs, mammals, and other reptiles, consistent with its role as an in floodplain ecosystems of . Its ziphodont —laterally compressed teeth with serrated carinae—was specialized for slashing and tearing flesh, enabling efficient prey dismemberment without direct evidence of stomach contents, which is instead inferred from cranial morphology and associated . This feeding aligns with the arid to semi-arid conditions of the Bauru Basin, where seasonal aridity likely influenced opportunistic predation strategies. Its bite mechanics supported a puncture-and-tear feeding approach involving initial punctures followed by head-shaking or twisting motions to worsen wounds, facilitated by robust cervical musculature, with comparisons to the slice-and-pull-back strategy of modern Komodo dragons (Varanus komodoensis). Finite element analysis of the reveals efficient stress distribution during these non-orthal bites, with localized loading on the pterygoid flanges and quadrates to withstand lateral forces. Quantitative modeling indicates a substantial bite force at the jaw tip ranging from 2542 to 3088 N for B. salgadoensis, comparable to that of extant alligators and sufficient for subduing prey despite the animal's moderate body size of approximately 3.8–4 m in length. This force, combined with an oreinirostral morphology featuring an elevated and deep adductor chamber, optimized muscle leverage for rapid jaw closure and powerful tearing, distinguishing it from the crushing bites of crocodylians. Overall, these adaptations underscore Baurusuchus's specialization as a land-based , relying on and precise mechanics over sheer crushing power.

Paleoecology

Geological Context

Baurusuchus fossils are known exclusively from the Adamantina Formation, the lowermost unit of the Group in the Bauru Basin of southeastern , spanning the states of and . This formation consists primarily of reddish, well-sorted, very fine- to fine-grained sandstones with subordinate mudstones and siltstones, deposited in a distributive fluvial system characterized by ephemeral rivers and aeolian sand sheets under a . The reflect an oxidizing , with sediments organized into subcritical climbing dunes and through cross-stratification indicative of low-relief aeolian features and intermittent fluvial activity. The temporal range of the Adamantina Formation, and thus Baurusuchus, corresponds to the to Santonian stages of the , approximately 90 to 83.5 million years ago. Age constraints derive from biostratigraphic data, including charophyte and assemblages that align with these stages, as well as a maximum depositional age of 87.78 ± 0.12 Ma (late ) established by U-Pb on detrital zircons from the formation's sandstones. This radioisotopic dating represents the first direct numerical constraint for the Bauru Group, reconciling earlier biochronological estimates and correlating the unit with other Gondwanan continental deposits of similar age. Fossil occurrences of Baurusuchus are restricted to central-southeastern Brazil within the Bauru Basin, with no records from outside this region, underscoring its endemic distribution during the Late Cretaceous. The Adamantina Formation's exposures are concentrated in areas such as Presidente Prudente and Monte Alto in São Paulo State, where the semi-arid paleoenvironment preserved a diverse vertebrate assemblage through rapid burial in fluvial and aeolian settings.

Associated Fauna

Baurusuchus coexisted with a diverse assemblage in the Bauru Basin during the , including indeterminate titanosaurian sauropods, which were herbivores in the terrestrial ecosystems of the Adamantina Formation. Theropod dinosaurs, including abelisaurids and possible noasaurids, represented the primary large-bodied carnivores alongside baurusuchids, though theropod remains are less abundant in the fossil record. Other crocodyliforms, such as the sphagesaurid Armadillosuchus arrudai and the sphagesaurid Caipirasuchus spp., shared similar terrestrial habitats, contributing to a high diversity of notosuchians that dominated the carnivorous niches typically occupied by theropods elsewhere. Recent discoveries, including a new peirosaurid , further highlight this crocodyliform diversity. In the terrestrial of the Bauru Basin, Baurusuchus likely functioned as an apex or mid-level predator, preying on smaller vertebrates and potentially scavenging, while competing with sympatric notosuchians like Caipirasuchus for resources in a hypercarnivorous . This role is evidenced by its adaptations and ziphodont , which paralleled those of theropod dinosaurs, allowing baurusuchids to fill top predatory positions in an environment with reduced theropod diversity. The basin's arid to semi-arid conditions further shaped these interactions, favoring terrestrial hypercarnivores over aquatic forms. The broader fauna included lepidosaurians such as the iguanian lizard Brasiliguana prudentis and the teiid Boipeba tayasuensis, which occupied lower trophic levels as insectivores or small herbivores. Small mammals, represented by the dryolestid Brasilestes stardusti, were rare but indicative of a basal gondwanathere presence in the of this . Aquatic elements, including diverse fishes, are preserved in the fluvial deposits of the Adamantina Formation, suggesting systems that supported semi-aquatic communities amid the dominant terrestrial landscape. Taphonomic patterns in the Bauru Basin reveal that Baurusuchus fossils often occur in multi-taxonomic bonebeds, reflecting drought-induced mortality events in a seasonal, semi-arid paleoenvironment where concentrated vertebrates. These assemblages, classified by degrees of articulation and fragmentation, indicate rapid in fine-grained sandstones following mass die-offs, with well-preserved crocodyliform skeletons suggesting minimal post-mortem transport. The Baurusuchus-bearing fauna of the Bauru Basin shares similarities with the Gondwanan Kem Kem assemblage of , particularly in the prevalence of terrestrial notosuchian crocodyliforms as dominant predators alongside titanosaurian dinosaurs and spinosaurid theropods, highlighting convergent evolutionary patterns in fragmented Gondwanan ecosystems during the .

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