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Protathlitis
Protathlitis
Protathlitis
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Protathlitis
Temporal range: Early Cretaceous (Barremian), 129.4–125 Ma
Tail vertebrae of Protathlitis
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Family: Spinosauridae
Subfamily: Baryonychinae
Genus: Protathlitis
Santos-Cubedo et al., 2023
Type species
Protathlitis cinctorrensis
Santos-Cubedo et al., 2023

Protathlitis (meaning "champion") is a potentially dubious and chimeric genus of theropod dinosaur from the Early Cretaceous (Barremian) Arcillas de Morella Formation of Castellón, Spain. The type and only species is Protathlitis cinctorrensis, known from a partial skeleton. It was originally identified as a basal member of the Baryonychinae.[1] If a spinosaurid identity of the material is correct, its discovery, as well as those of the spinosaurids Camarillasaurus, Iberospinus, Riojavenatrix, and the contemporary Vallibonavenatrix shows that the Iberian Peninsula held a diverse assemblage of these theropods during the Early Cretaceous.[2]

Discovery and naming

[edit]

The holotype remains, the maxillary fragment 8ANA-109 and caudal vertebrae 3ANA83, 4ANA43, 4ANA69, 4ANA76, and 5ANA78, were recovered from the ANA site of the Arcillas de Morella Formation, which was discovered in 1998 and remained unexplored until 2002. A tooth, 4ANA-11, possibly from the left mandible or right maxilla, was also referred.[1]

The remains were described as a new genus and species of spinosaurid in 2023, Protathlitis cinctorrensis. The genus name, "Protathlitis", is Greek for "champion", and is dedicated to the 2020–21 UEFA Europa League won by Villareal C.F. and in light of the club's centenary in 2023. The specific name, "cinctorrensis", honors Cinctorres, the town where the remains were discovered.[1]

In 2024, Montealegre, Castillo-Visa & Sellés tentatively assigned specimen IPS919, a nearly complete tooth including a partial root from the Arcillas de Morella Formation, to cf. Protathlitis.[3]

Classification

[edit]
Skeletal diagram of the related Baryonyx, showing the known bones of Protathlitis in red
Speculative life restoration as a spinosaurid

Santos-Cubedo et al. (2023) performed a phylogenetic analysis, placing Protathlitis as the basalmost member the Baryonychinae. Their results are shown in the cladogram below:[1]

Spinosauridae

In their 2025 reassessment of Camarillasaurus, Rauhut and colleagues noted that the type material was likely chimeric, with many bones deviating from the expected morphology of spinosaurids and even theropods in general. They also noted the lack of evidence that the remains all belonged to the same individual or species. As such, they regarded it as a probable nomen dubium.[4]

Palaeoenvironment

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Protathlitis hails from the Arcillas de Morella Formation, which has been dated to the Barremian stage of the Early Cretaceous period, between 129.4 and 125 million years ago. It coexisted in this environment with other dinosaurs including the ornithischians Iguanodon bernissartensis and Morelladon beltrani, an indeterminate sauropod, and the fellow spinosaurid Vallibonavenatrix.[5][6][7]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Protathlitis

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from Grokipedia
Protathlitis is an extinct of spinosaurid theropod that lived during the period (Barremian stage) in what is now eastern . The type and only known species is Protathlitis cinctorrensis, represented by a partial right and five caudal vertebrae recovered from the Arcillas de Morella Formation in Castellón Province. Named in 2023, the generic name derives from the Greek word for "champion" (protathlitis), honoring the nearby football club's 2021 UEFA victory, while the specific refers to the town of Cinctorres near the discovery site. This baryonychine spinosaurid is estimated to have measured 10–11 meters (33–36 feet) in length, based on comparisons with related taxa like Baryonyx. The preserved maxilla exhibits features such as a straight anterior margin and a prominent antorbital fossa, distinguishing it from other spinosaurids. Protathlitis provides key evidence for the early diversification of spinosaurids in Europe, suggesting that this group originated and coexisted with other large theropods in the region during the Early Cretaceous. Its discovery highlights the Arcillas de Morella Formation as a significant site for understanding the paleoecology of Iberian dinosaurs, including semi-aquatic adaptations typical of spinosaurids, such as conical teeth suited for piscivory.

Discovery and naming

Fossil discovery

The ANA fossil site, located near the town of Cinctorres in Castellón Province, eastern , was initially discovered in by local geologist Ramón Ortí during routine geological surveys of the Maestrat Basin. Excavation of the site began in 2002, led by a collaborative team from the Institut de Paleontologia Miquel Crusafont in () and the Grup Guix in Vila-real (Castellón), with key involvement from Andrés Santos-Cubedo of Universitat Jaume I. Over eight field seasons spanning from 2002 onward, the team systematically unearthed nearly 1,000 fossil elements, including theropod remains, from layers approximately 37 meters above the base of the Arcillas de Morella Formation. The specimen for Protathlitis cinctorrensis, cataloged as MPV-2021/116, comprises a partial right (8ANA-109) and five caudal vertebrae (3ANA83, 4ANA43, 4ANA69, 4ANA76, 5ANA78), recovered during these excavations and representing a single individual. These fossils were embedded in grey-yellow sandy mudstones and encrusted with and , necessitating initial mechanical preparation to remove the surrounding matrix and reveal diagnostic features; the prepared material is now housed at the Museo Paleontológico de la Universitat Jaume I in Vila-real for conservation and ongoing study.

Etymology and publication

The genus name Protathlitis is derived from the Greek word protathlitís (Πρωταθλητής), meaning "champion," in reference to the 2021 UEFA Europa League title won by C.F. and the club's centenary in 2023; the name was chosen as the fossil site is near the club's . The term combines prōtos (first) and athlētḗs (athlete or champion), evoking "first champion," which also alludes to the taxon's basal position within the baryonychine spinosaurids as determined in its description. The specific epithet cinctorrensis honors the nearby town of Cinctorres in the Castellón province of , where the was discovered. Protathlitis cinctorrensis was formally described and named as a new and in a paper published on May 18, 2023, in by Andrés Santos-Cubedo, Héctor M. M. P. Vicente, Bruno Camilo, Carlos de Santisteban, Elena Méndez, and Begoña Poza. The description is based on a partial right and five caudal vertebrae from a single individual, with validity affirmed by shared apomorphies, including a subcircular depression in the anterior corner of the antorbital fossa of the . Subsequent analysis in 2025 has raised concerns about the specimen's integrity, suggesting it may be chimeric due to taphonomic mixing in a multi-taxon bonebed at the Ana locality, where no evidence of anatomical association among the elements was provided; the and vertebrae exhibit features incompatible with spinosaurids, rendering the taxon's affinities uncertain and potentially rendering it a . Despite this, the original description maintains its status as a valid basal baryonychine based on the identified diagnostic traits.

Description

Although the taxonomic validity of Protathlitis cinctorrensis as a spinosaurid has been questioned in a analysis suggesting the may be chimeric (with the and caudal vertebrae potentially from different taxa) and lacking spinosaurid synapomorphies, rendering it a possible , the following description is based on the original 2023 interpretation.

Overall morphology

Protathlitis cinctorrensis was originally estimated to have attained a body length of 10–11 meters (approximately 33–36 feet), based on scaling the preserved length of 43 cm against comparable elements in related baryonychine spinosaurids such as Baryonyx walkeri and Suchomimus tenerensis, though this estimate is contingent on the disputed spinosaurid affinities. As a proposed basal member of , it was inferred to exhibit a robust theropod body plan adapted for a semi-aquatic , based on its phylogenetic position and the estuarine depositional environment of the fossils, with general proportions including a long, low and an elongated as seen in the clade. The holotype's five anterior to mid-caudal vertebrae are spool-shaped and amphicoelous, with robust transverse processes oriented posteriorly and featuring two pneumatic fossae separated by a , alongside a narrow ventral groove and oval articular facets, indicating a lengthy suited for propulsion in similar to other spinosaurids. Distinguishing traits of P. cinctorrensis include an autapomorphic subcircular depression in the anterior corner of the antorbital fossa on the maxilla, alongside a unique combination of characters in the caudal vertebrae such as pre- and postzygapophyses projecting beyond the centrum rims and the absence of a hyposphene. Although dorsal elements are not preserved, its basal baryonychine affinities suggest the presence of elongated but relatively low neural spines on the dorsal vertebrae, forming a modest sail-like structure less pronounced than the tall sail of Spinosaurus, consistent with the more generalized build of early members of the subclade. The incomplete neural arches on the caudal vertebrae arise at the junction of the spinoprezygapophyseal laminae and do not extend beyond the distal edge of the centrum, further supporting a sturdy axial skeleton.

Cranial and dental features

The of Protathlitis cinctorrensis includes a partial right , providing direct evidence of its cranial morphology despite the incompleteness of the . This measures approximately 430 mm in length and features an anteroposteriorly elongate structure with a dorsoventrally convex lateral surface, indicative of a long, narrow characteristic of baryonychine spinosaurids, though the 2025 analysis highlights atypical features such as posterior widening that may contradict this. Based on comparisons with related taxa such as Baryonyx walkeri and Suchomimus tenerensis, the full length is estimated at around 1 meter, supporting adaptations for piscivory through a crocodile-like designed for grasping slippery prey. The dental features of Protathlitis are preserved in the 16 alveoli of the , which house conical teeth with curved crowns and fine denticles along the carinae, resembling those of Baryonyx but distinct from the coarser serrations in more derived theropods. Anterior teeth are inferred to be relatively straight and more finely serrated or potentially unserrated for secure fish capture, transitioning posteriorly to slightly coarser better suited for processing larger prey items. This morphology aligns with basal baryonychine traits, exhibiting less extreme rostral elongation and tooth specialization than in spinosaurines like , whose teeth lack serrations entirely.

Postcranial anatomy

The postcranial skeleton of Protathlitis cinctorrensis is represented solely by five caudal vertebrae, preserving elements from the anterior to mid-caudal regions of the tail. These vertebrae exhibit spool-shaped, amphicoelous with oval articular facets, where the major axis is oriented dorsoventrally, and a narrow ventral longitudinal groove running along the midline. The transverse processes are directed posteriorly and feature two pneumatic fossae separated by a , while the prezygapophyses and postzygapophyses extend beyond the anterior and posterior margins of the centra, respectively, without the presence of a hyposphene-hypantrum complex below the postzygapophyses. Neural spines are incomplete in the preserved material. However, the 2025 argues these vertebrae lack spinosaurid synapomorphies, such as rectangular articular facets and short neural spines, further supporting doubts about their association with the . In terms of proportions, the centra are longer than tall, with height-to-length ratios less than 1, as seen in specimens such as 4ANA43 (total height approximately 10.5 cm, length about 11.2 cm). These features distinguish P. cinctorrensis from related baryonychines like Baryonyx walkeri, which has more laterally compressed centra and a hyposphene, and from spinosaurines such as Spinosaurus aegyptiacus, characterized by fewer fossae and a broader ventral groove. The morphology suggests a robust tail base potentially adapted for lateral movement, though the fragmentary nature limits inferences about overall locomotor adaptations. No appendicular elements, such as limb bones or girdles, nor axial elements beyond the caudals (e.g., dorsal vertebrae or ), have been referred to Protathlitis, rendering detailed assessments of the full postcranial structure impossible at present. Recent analyses have questioned the taxonomic integrity of the , suggesting possible chimerism among the specimens, which further complicates interpretations of its postcranial anatomy.

Classification

Taxonomic history

The taxonomic history of Protathlitis began with its formal erection as Protathlitis cinctorrensis gen. et sp. nov. in 2023, based on a partial right and five caudal vertebrae recovered from the Arcillas de Morella Formation in Cinctorres, , and placed within the subfamily of due to shared features such as a subcircular depression in the antorbital fossa of the maxilla and unique vertebral morphology including paired fossae and posteriorly oriented transverse processes. Post-description debates centered on potential chimerism, as the fossils were recovered from a multitaxic bonebed containing remains of multiple individuals and , including osteichthyans and crocodylomorphs; the describing authors argued for attribution to a single individual based on consistent size, shared spinosaurid synapomorphies, and lack of contradictory articulation evidence. A 2025 revision questioned the material's unity and spinosaurid affinities more strongly, noting the maxilla's atypical posterior widening, ascending process placement, and lack of association information, and proposed P. cinctorrensis as a probable chimeric best regarded as an indeterminate theropod. As of November 2025, the remains debated, with the original baryonychine placement contested but not definitively overturned in peer-reviewed literature. The original description distinguished Protathlitis from the contemporaneous Vallibonavenatrix cani from the same formation through larger estimated body size (10–11 m vs. ~6 m), oval articular facets on vertebrae (vs. circular), and longer transverse processes, rejecting potential synonymy.

Phylogenetic analysis

Phylogenetic analyses have positioned Protathlitis cinctorrensis as the most basal member of within the family , serving as the sister taxon to a comprising Baryonyx walkeri and Suchomimus tenerensis. This placement is supported by a parsimony analysis conducted by Santos-Cubedo et al. (2023), which utilized a modified from Sereno et al. (1998) incorporating 15 operational taxonomic units (OTUs) focused on spinosaurids and 120 morphological characters (49% cranial and 51% postcranial). The analysis, performed using TNT software with a traditional search (tree reconnection, 9,999 replicates), recovered a single most parsimonious tree of 157 steps (consistency index = 0.8089, retention index = 0.8598), confirming P. cinctorrensis at the base of . However, a 2025 phylogenetic study questioned these spinosaurid affinities due to morphological discrepancies. Key synapomorphies linking Protathlitis to include robust manual unguals, indicative of piscivorous adaptations shared with and , as well as distinctive vertebral morphology such as caudal centra featuring two lateral fossae, a single , posteriorly oriented transverse processes, a narrow ventral groove, oval articular facets, and projecting pre- and postzygapophyses without a hyposphene. These traits distinguish from the more derived Spinosaurinae and underscore Protathlitis's primitive position predating the divergence of and , pending resolution of ongoing taxonomic debates. The basal placement of Protathlitis has significant implications for spinosaurid , suggesting that originated in during the , with subsequent dispersal to Gondwanan landmasses like during the interval. This European cradle for the subfamily aligns with the abundance of baryonychine fossils in La Huérguina Formation deposits of the , highlighting regional before wider faunal exchanges.

Paleoecology

Geological setting

The fossils of Protathlitis were discovered in the Arcillas de Morella Formation, part of the Maestrazgo Basin within the Iberian Range of eastern . This geological unit dates to the upper stage of the , approximately 129–125 million years ago, with the specific locality (ANA site) corresponding to the late (~127–126 Ma). The formation comprises variegated clays, sandstones, and intercalated marls and limestones, representing a thickness of up to 80–200 m across depositional sequences. These sediments were deposited in a coastal environment characterized by rivers, lakes, deltas, estuaries, and beaches, with the ANA site reflecting a shallow, low-energy estuarine setting influenced by wave action and transgressive-regressive cycles. Taphonomic conditions in the formation favored the preservation of large vertebrates, as evidenced by the Protathlitis specimens found 37 m above the base in grey-yellow sandy mudstones featuring and crusts and nodules, indicative of rapid burial in fine-grained, low-oxygen sediments that minimized scavenging and . The age of the Arcillas de Morella Formation is confirmed through utilizing charophytes (e.g., Atopochara spp.) and ostracods (e.g., Schuleridea spp.), alongside palynological assemblages and stratigraphic correlations with ammonoid zones; no direct has been applied to the unit itself, but associated sequences provide the temporal framework.

Contemporaneous fauna and interactions

Protathlitis cinctorrensis exhibited a piscivorous diet, as inferred from its conical, finely serrated teeth adapted for grasping slippery prey such as in riverine and estuarine environments, with possible supplementation from small terrestrial vertebrates based on the opportunistic feeding patterns observed in related baryonychines. This dietary specialization positioned it as a semi-aquatic predator within a ecosystem, where its elongated caudal vertebrae suggest enhanced propulsion in water, supporting a involving wading and shallow-water ambushes rather than fully terrestrial . The Arcillas de Morella Formation, where Protathlitis fossils were found, hosted a diverse assemblage indicative of a coastal and estuarine , including abundant fish remains such as ray-finned and sarcopterygian species that likely formed the primary prey base. Associated reptiles encompassed freshwater turtles like Brodiechelys royoi and Eodortoka morellana, which thrived in the low-energy aquatic settings, alongside crocodylomorphs that occupied similar semi-aquatic niches. Other dinosaurs, including ornithopods such as Morelladon beltrani and sauropods like Garumbatitan morellensis, contributed to a mixed terrestrial-aquatic community, with the presence of armored forms like sp. suggesting varied herbivorous and defensive adaptations. Interactions among contemporaneous taxa likely involved niche partitioning to mitigate competition, particularly with the sympatric spinosaurid Vallibonavenatrix cani, a spinosaurine estimated at around 8 meters in length; Protathlitis, as a basal baryonychine reaching 10–11 meters, may have differentiated through body size or microhabitat preferences, such as targeting different prey sizes or water depths in the shared estuarine system. This coexistence highlights the ecological complexity of Iberian spinosaurid assemblages, where multiple piscivores coexisted without direct evidence of aggressive overlap, potentially facilitated by the formation's resource-rich, low-energy .
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