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Chilantaisaurus
Chilantaisaurus
Chilantaisaurus
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Chilantaisaurus
Temporal range: Late Cretaceous,
 ?Santonian–Campanian (younger than ~92 Ma[1])
Skeleton reconstruction of Chilantaisaurus tashuikouensis with a speculative skull
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Clade: Avetheropoda
Genus: Chilantaisaurus
Hu, 1964
Species:
C. tashuikouensis
Binomial name
Chilantaisaurus tashuikouensis
Hu, 1964

Chilantaisaurus ("Jilantai Salt Lake [zh] lizard"[2]) is a genus of large theropod dinosaur, possibly a neovenatorid or a primitive coelurosaur, from the Late Cretaceous Ulansuhai Formation of China. The type species, C. tashuikouensis, was described by Hu in 1964.

Description

[edit]
Speculative life restoration as an allosauroid

Chilantaisaurus was a large theropod, measuring 11 metres (36 ft) long and weighing 2.5–4 metric tons (2.8–4.4 short tons).[3][4][5] While Brusatte et al. (2010) estimated that Chilantaisaurus might have weighed about 6 metric tons (6.6 short tons) based on femur length similar to that of Tyrannosaurus,[6] Persons et al. (2020) argued that greater femoral circumference indicates the greater capacity to withstand greater locomotor loads, not greater body mass.[7]

Classification

[edit]
Skeletal diagram showing known elements of C. tashuikouensis as a megaraptoran

Hu considered Chilantaisaurus to be a carnosaur related to Allosaurus,[2] though some subsequent studies suggested that it may be a spinosauroid, possibly a primitive member of the spinosaurid family (Sereno, 1998; Chure, 2000; Rauhut, 2001) because it had large claws on the forelimbs thought to be unique to that group. Other studies suggested that it could be a member of an alternate offshoot of neotetanuran theropods, with some similarities to allosauroids, spinosauroids, and coelurosaurians.[8]

A 2009 study noted that it was difficult to rule out the possibility that Chilantaisaurus was the same animal as the carnosaur Shaochilong, which was thought to be from the same geological formation (a later study indicated that the latter genus actually derives from the Early Cretaceous Miaogou Formation[9]). However, they did note an enormous size difference between the two.[10] Further study by Benson, Carrano and Brusatte found that it was not as closely related to Shaochilong as first thought, but that it was a carnosaur (of the family Neovenatoridae), closely related to Allosaurus as Hu had initially thought.[3] Phylogenetic analysis published by Porfiri et al. in 2018 recovered Chilantaisaurus as a primitive coelurosaurian.[11]

Manual ungual from the holotype, Tianjin Natural History Museum

Several species have been described based on very poor remains. The species "Chilantaisaurus" sibiricus (previously informally known as either Allosaurus? sibiricus or Antrodemus? sibiricus) is based on a single distal metatarsal discovered in 1915 in the Turginskaya Svita of the Buryat Autonomous Soviet Socialist Republic, Russia, dating to the Early Cretaceous period (Berriasian to Hauterivian stages).[12][13][14] It is poorly described, so its relationships cannot be accurately determined (Chure, 2000) and its placement as a species of Chilantaisaurus is highly questionable. "Chilantaisaurus" maortuensis was reclassified as Shaochilong maortuensis in 2009.[10]

An additional species named in 1979, "Chilantaisaurus" zheziangensis, based on bones from the foot and a partial tibia,[15] is actually a therizinosaur taxon.[16][17]

The cladogram below follows a 2016 analysis by Sebastián Apesteguía, Nathan D. Smith, Rubén Juarez Valieri, and Peter J. Makovicky based on the dataset of Carrano et al. (2012).[18]

Allosauroidea

References

[edit]
[edit]
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Chilantaisaurus

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Chilantaisaurus is a genus of large neovenatorid theropod dinosaur from the Cretaceous Ulansuhai Formation of Inner Mongolia, China, with the formation's age uncertain but likely Late Cretaceous (?Santonian–Campanian, younger than approximately 92 million years ago). The type species, C. tashuikouensis, was described in 1964 based on a partial postcranial skeleton including a humerus, manual ungual, partial ilium, femora, tibiae, fibula, and metatarsals. This specimen indicates a bipedal carnivore with robust limbs, an enlarged first manual ungual measuring 250 mm, and a humerus-to-femur length ratio of 0.49, suggesting a body length of around 11–13 meters and a mass of 2.5–4 metric tons. The systematic position of Chilantaisaurus has been debated since its description, initially classified as a carnosaur akin to Allosaurus, but later analyses support its placement within Neovenatoridae, a clade of allosauroid theropods characterized by features such as a wedge-shaped third metatarsal and a low astragalar facet on the tibia. Notable anatomical traits include a massive, elongate humerus with a subrectangular deltopectoral crest and a reduced fourth trochanter on the femur, distinguishing it from spinosauroids despite some shared features like a preacetabular fossa on the ilium. As one of the largest Asian theropods, Chilantaisaurus likely occupied an apex predatory niche in its ecosystem, coexisting with armored dinosaurs like Gobisaurus in a fluvial or lacustrine environment. The genus may include additional material referred to C. maortuensis, though its validity remains uncertain.

Discovery and naming

Etymology

The genus name Chilantaisaurus derives from "Chilantai," referring to the Chilantai Mountains and adjacent in Alanshan, , , where fossils were discovered, combined with the sauros (σαῦρος), meaning "lizard" or "reptile." The , C. tashuikouensis, honors the Tashuikou locality near Dashuigou in the Ulansuhai Formation, where the was found. Hu established the and in his original description of carnosaurian remains from the region. A second , C. maortuensis, was also named by Hu but has been reassigned to the separate Shaochilong.

Fossil material and research history

The holotype specimen of Chilantaisaurus tashuikouensis (IVPP V.2884), consisting of a partial postcranial skeleton including a right humerus, a manual ungual phalanx, a fragment of the left ilium, left and right femora, a right tibia and partial left tibia, a partial left fibula, and right metatarsals II–IV and left metatarsals III–IV, was discovered in 1964 by Chinese paleontologist Hu Shu-yang in the Ulansuhai Formation near Alashan, Inner Mongolia, China. Hu formally described and named the species that same year, interpreting it as a carnosaur related to Megalosaurus. Subsequent research identified additional fragmentary material initially referred to the genus. In 1964, Hu also named Chilantaisaurus maortuensis based on cranial and axial elements from the same formation, but this was reassigned to the new genus Shaochilong as S. maortuensis in 2009 due to its carcharodontosaurid affinities. Similarly, a proximal tibia and partial pes from the Chaochuan Formation in Zhejiang Province, described as Chilantaisaurus zheziangensis in 1979, was reclassified as a therizinosaur in 2010, outside the genus Chilantaisaurus. Key studies have refined the understanding of the . Benson and Xu provided a detailed redescription in 2008, emphasizing its neotetanuran features and questioning allosauroid placement while noting similarities to spinosauroids. Novas et al.'s 2013 analysis of theropod evolution further contextualized Chilantaisaurus within basal tetanuran diversification, supporting its position as a large-bodied non-coelurosaurian theropod. A 2018 phylogenetic analysis by Porfiri et al. recovered Chilantaisaurus as a basal coelurosaur, challenging prior interpretations and highlighting its enigmatic status. As of 2025, known material remains limited to the holotype's incomplete postcrania, with no major new discoveries reported since 2018; ongoing debates focus on its exact affinities amid sparse fossil evidence.

Description

Size and general build

Chilantaisaurus was a large bipedal theropod characterized by robust hindlimbs adapted for terrestrial locomotion, with overall proportions comparable to those of Allosaurus but scaled up based on limb bone dimensions. The holotype's femur length of 1.19 meters and humerus length of 0.58 meters—nearly twice that of Allosaurus—support estimates of a total body length of 11–13 meters (36–43 ft), though the incomplete skeleton limits precision in reconstructing exact posture and build. Body mass estimates for Chilantaisaurus range from 2.5 to 4 metric tons (2.8–4.4 short tons), based on volumetric modeling applied to limb measurements. These figures position it as comparable in scale to large carcharodontosaurians like , with its robust build suggesting a powerful, adapted to mid-Cretaceous environments in . Earlier assessments, drawing on rough scaling to theropods with similar femur dimensions such as , proposed masses up to 6 metric tons (6.6 short tons), but more refined volumetric approaches have revised this downward.

Skeletal features

The forelimbs are exceptionally robust, featuring large manual unguals on digits I–III. The first ungual is enlarged and strongly curved, measuring 250 mm in length and equipped with prominent vascular grooves along its lateral and medial surfaces. These robust arms suggest a functional role in prey manipulation or grappling. The pelvic girdle preserves a partial left ilium with a thin blade-like structure (6–7 mm thick) and a preacetabular fossa featuring a prominent medial shelf; the ilium resembles that of but possesses a straighter shaft and a weakly developed anteroventral process. The hindlimbs are supported by a robust measuring 1.19 m in length, adapted for weight-bearing in a large-bodied theropod. Some details of the foot are preserved, including metatarsals II–IV, with the third metatarsal exhibiting a wedge-shaped cross-section. No phalanges or pedal unguals are known.

Classification

Taxonomic history

Chilantaisaurus was first described and classified in 1964 by Hu Shu-ying based on a partial postcranial skeleton from the Ulansuhai Formation in , ; Hu placed it within as a carnosaurid theropod closely related to . During the and , the taxonomic assignment of Chilantaisaurus became debated, with several studies proposing affinities to Spinosauroidea due to its large manual claws, which were compared to those of and other spinosauroids; this interpretation was supported in phylogenetic analyses that recovered it as a derived spinosauroid. By 2009–2010, revisions shifted the classification toward Allosauroidea; Benson, Carrano, and Brusatte erected Neovenatoridae within Allosauroidea and included Chilantaisaurus based on shared postcranial traits such as elongate manual phalanges and a reduced olecranon process. Concurrently, the species "Chilantaisaurus maortuensis* (originally described by Hu in 1964) was reassigned to the new genus Shaochilong as a carcharodontosaurid, distinct from C. tashuikouensis due to differences in cranial and axial morphology. Post-2009 analyses further refined the ; Rauhut's 2003 review questioned spinosauroid links by highlighting plesiomorphic tetanuran features in the and pectoral , favoring basal allosauroid placement instead. Additionally, the "Chilantaisaurus sibiricus* (originally Allosaurus sibiricus Riabinin, 1915) was considered a nomen dubium based on its fragmentary metatarsal material that lacks diagnostic traits beyond incertae sedis (e.g., Rauhut, 2003).

Phylogenetic position

The phylogenetic position of Chilantaisaurus remains debated, with cladistic analyses placing it either as a basal coelurosaur or within the allosauroid clade Neovenatoridae. A 2018 phylogenetic analysis incorporating over 100 morphological characters recovered Chilantaisaurus as a primitive coelurosaur positioned on the stem outside , supported by features such as the suprastragalar buttress on the astragalus—a ridge-like structure along the medial margin of the ascending process that aligns with coelurosaurian synapomorphies. Alternative hypotheses favor an allosauroid affinity, specifically as a neovenatorid, based on earlier analyses emphasizing shared traits like a robust and elongated manual unguals with spinosauroid-like proportions (enlarged first manual ungual approximately three times the height of its proximal articular surface). However, recent parsimony-based trees have rejected strong spinosauroid alignment for these unguals, attributing them instead to convergence among large-bodied tetanurans. In allosauroid-focused matrices, Chilantaisaurus clusters near Asian taxa such as maortuensis (formerly "Chilantaisaurus maortuensis"), potentially as a sister taxon within Neovenatoridae, though this placement shows instability with low nodal support (Bremer indices below 2 in comparable analyses). As of 2025, no major cladistic revisions have emerged since the 2018 analysis, perpetuating the debate due to the fragmentary nature of the material (IVPP V.2884), which limits resolution in broader theropod phylogenies. The Ulansuhai Formation is dated to the , at least younger than 92 Ma ( stage or later), based on .

Paleoecology

Geological setting

The fossils of Chilantaisaurus were recovered from the Ulansuhai Formation (also known as the Wulansuhai or Ejin Horo Formation), which forms part of the Upper sequence in the Ordos Basin of , . This formation consists primarily of red to purple sandstones, siltstones, mudstones, and conglomerates, reflecting continental deposition in a tectonically active basin influenced by the closure of the Mongol-Okhotsk Ocean and early stages of the . The age of the Ulansuhai Formation is assigned to the early , younger than 92 million years ago (post-Turonian), constrained by biostratigraphic correlations involving ostracods and other , as well as of underlying basalts indicating a post-Cenomanian onset. The precise stage remains debated, with earlier assessments placing the unit in the stage of the , but subsequent stratigraphic revisions, including unconformable relationships with older formations like the Saihan and recent analyses suggesting Santonian– ages, support the updated assignment. The of the Ulansuhai Formation encompasses fluvial and lacustrine systems, characterized by riverine floodplains, meandering channels, and episodic lakes within an arid to , as evidenced by the prevalence of redbeds indicative of oxidized, well-drained soils and seasonal patterns. Sediments record margins transitioning to braided and meandering river deposits, with periodic overbank flooding contributing to fine-grained accumulation. Taphonomic preservation of Chilantaisaurus specimens occurs mainly in coarse sandstones and interbedded mudstones, suggesting rapid entombment by high-energy fluvial events such as channel avulsions or flash floods, which minimized and in the dynamic setting. This mode of burial aligns with the formation's overall record of moderate taphonomic bias favoring larger remains in proximal riverine .

Contemporaneous biota

The Ulansuhai Formation preserves a moderately diverse assemblage of dinosaurs contemporaneous with Chilantaisaurus tashuikouensis during the early Late Cretaceous, reflecting a floodplain environment conducive to a variety of terrestrial and semi-aquatic vertebrates. Known theropod dinosaurs include the basal coelurosaur or allosauroid Chilantaisaurus itself, the carcharodontosaurid Shaochilong maortuensis, the dromaeosaurid Linheraptor exquisitus, and the ornithomimid Sinornithomimus dongi, suggesting a range of predatory and omnivorous niches occupied by carnivorous dinosaurs of varying sizes. Herbivorous ornithischians are represented by unnamed iguanodontians (basal hadrosauroids) and the ankylosaurid Gobisaurus domoculus, indicating the presence of mid- to large-bodied grazers and browsers in the ecosystem. Non-dinosaurian from the formation is less abundant but includes representatives of several aquatic and semi-aquatic groups, consistent with the depositional setting of fluvial channels, lakes, and wetlands. such as Aspideretes alashanensis (a pan-trionychid) are known, alongside fragmentary remains of crocodilians and amiiform , which point to permanent water bodies supporting fish-eating and amphibious reptiles. remains are rare, with only isolated elements reported, while and fossils are scarce, limited to small, unnamed fragments that suggest minor diversification of these groups in the local community. Ecologically, Chilantaisaurus likely functioned as an in this wetland-dominated landscape, targeting large herbivores like iguanodontians and ankylosaurs amid a community where ornithischians formed the bulk of the vertebrate . Smaller theropods such as Linheraptor and Sinornithomimus may have occupied overlapping but distinct niches, scavenging or preying on smaller prey, while the prevalence of aquatic taxa underscores a productive, riverine with ample resources for a balanced . The overall diversity, encompassing at least seven named taxa across major clades, highlights a thriving in mid-Cretaceous , though the formation's fossil record remains fragmentary compared to more prolific sites.

References

  1. https://doi.org/10.1139/cjes-2020-0190
  2. https://www.researchgate.net/publication/240464398_The_anatomy_and_systematic_position_of_the_theropod_dinosaur_Chilantaisaurus_tashuikouensis_Hu_1964_from_the_Early_Cretaceous_of_Alanshan_People%27s_Republic_of_China
  3. https://www.nature.com/articles/ncomms3827
  4. https://www.cambridge.org/core/journals/geological-magazine/article/anatomy-and-systematic-position-of-the-theropod-dinosaur-chilantaisaurus-tashuikouensis-hu-1964-from-the-early-cretaceous-of-alanshan-peoples-republic-of-china/BF0FFA9779AFEC0C22B8C755F0A42959
  5. https://scholar.google.com/scholar_lookup?title=Carnosaurian+remains+from+Alashan%2C+Inner+Mongolia&author=Hu+S.-Y.&publication_year=1964&journal=Vertebrata+PalAsiatica&volume=8&pages=42-63
  6. https://www.sciencedirect.com/science/article/abs/pii/S0195667113000608
  7. https://dinoanimals.com/dinosaurs/chilantaisaurus-one-of-the-largest-theropods/
  8. https://www.researchgate.net/publication/285907258_The_interrelationships_and_evolution_of_basal_theropod_dinosaurs
  9. https://www.sciencedirect.com/science/article/abs/pii/S0195667118300806
  10. https://pubmed.ncbi.nlm.nih.gov/19826771/
  11. https://repository.si.edu/bitstream/handle/10088/8609/paleo_Benson_10_supplemental_data.pdf?sequence=2&isAllowed=y
  12. https://www.lyellcollection.org/doi/10.1144/jgs2023-109
  13. https://www.sciencedirect.com/science/article/pii/S0169136823002044
  14. https://ivpp.cas.cn/sourcedb/zw/rck/yszj/202311/P020140313378901982319.pdf
  15. https://pubs.geoscienceworld.org/cjes/article/608359/Description-and-revised-diagnosis-of-Asia-s-first
  16. https://www.sciencedirect.com/science/article/pii/S016913682500112X
  17. https://www.researchgate.net/publication/237174447_Depositional_environments_and_fades_transitions_of_dinosaur-bearing_Upper_Cretaceous_redbeds_at_Bayan_Mandahu_Inner_Mongolia_People%27s_Republic_of_China
  18. https://www.app.pan.pl/archive/published/app53/APP53-567.pdf
  19. https://www.biotaxa.org/Zootaxa/article/view/zootaxa.2334.1.1
  20. https://www.app.pan.pl/archive/published/app48/app48-235.pdf
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