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Shonisaurus

Shonisaurus is a of gigantic ichthyosaurs, an extinct group of marine reptiles superficially resembling dolphins and sharks, that lived during the period approximately 235 to 220 million years ago. The type and best-known species, Shonisaurus popularis, was formally named in 1976 by paleontologist Charles L. Camp based on multiple specimens discovered in the Luning Formation of the Mountains in central , , where at least 37 partial skeletons form a notable bonebed. These were among the largest known ichthyosaurs, with S. popularis reaching lengths of 13.5 to 15 meters (44 to 49 feet) and estimated body masses of 21.6 to 29.7 metric tons, comparable to a modern . A second species, Shonisaurus sikanniensis, described in 2004 from the Pardonet Formation in northeastern , , is even larger, with the type specimen estimated at 21 meters (69 feet) long. Anatomically, Shonisaurus species featured a long, slender body with about 60 presacral vertebrae, a proportionally large up to 2.75 meters long, and unusually equal-sized fore- and hind flippers, lacking a and exhibiting traits such as a sharp bend in the region formed by wedge-shaped vertebral . The bonebed, preserved at Berlin-Ichthyosaur and designated as 's state fossil in 1977, has revealed evidence of grouping , including what appears to be a recurring birthing ground where pregnant females and neonates gathered, akin to modern whale calving sites.

Taxonomy

Classification

Shonisaurus is classified within the kingdom Animalia, phylum Chordata, class Reptilia, superorder , order , family , and genus Shonisaurus. The genus was formally established by in 1976 based on specimens from the Upper of . Phylogenetically, Shonisaurus occupies a basal position within the , a family of large ichthyosaurs, and is part of the broader Merriamosauria. It shares close relationships with genera such as and Callawayia, forming a successive to Besanosaurus, based on common features including elongated snouts, reduced hind limbs, and adaptation to open-ocean environments. These affinities highlight Shonisaurus as part of a radiation of giant shastasaurids during the , though the exact of remains debated, with some analyses questioning whether Shonisaurus and other large ichthyosaurs form a cohesive distinct from more basal forms. The initial taxonomic placement of Shonisaurus by in 1976 emphasized its distinction from other ichthyosaurs through postcranial morphology, but subsequent revisions, such as those by Maisch and Matzke in 2000, refined its position within while challenging the family's and proposing closer ties to in vertebral structure. These debates stem from varying interpretations of shared derived traits among large ichthyosaurs, influencing broader understandings of evolution. Key diagnostic traits at the genus level include the absence of forefin hyperphalangy, a robust supporting an elongated body, and sectorial characterized by conical teeth suited for grasping prey, features that differentiate Shonisaurus from more derived ichthyosaurs.

Species

The genus Shonisaurus contains two recognized species, though the validity of the second remains debated among paleontologists. The type species is Shonisaurus popularis, designated by Camp in 1976 based on the holotype specimen UCMP 28614, a partial skeleton recovered from the Luning Formation in . This species is known from at least 37 incomplete specimens, primarily from mass-death assemblages at the Berlin-Ichthyosaur site, with no established synonyms. The second species, Shonisaurus sikanniensis, was described by Nicholls and Manabe in 2004 from a nearly complete skeleton ( LACM 128319) collected from the Norian-age Pardonet Formation in northeastern , . It differs from S. popularis in several key traits used for species distinction, including a higher presacral vertebral count (approximately 86 versus about 60), proportionally longer and narrower skull with a more elongated rostrum, and distinct limb morphology such as a fan-shaped and relatively longer humeral facets. However, its taxonomic status is contentious: a 2011 phylogenetic analysis by Sander et al. reassigned it to Shastasaurus sikanniensis due to shared derived features like reduced and vertebral proportions more aligned with that genus than Shonisaurus, while a subsequent study by Ji et al. in 2013 retained it within Shonisaurus based on reexamination of cranial and postcranial synapomorphies supporting of the genus. Fragmentary remains from the Norian Hound Island locality in southeastern have been tentatively attributed to Shonisaurus based on shastasaurid affinities in vertebral and humeral , but they remain unassigned to level due to their incompleteness.

Description

Physical characteristics

Shonisaurus exhibited a streamlined, dolphin-like adapted for life, characterized by a long, narrow , elongated , and a powerful for . The overall form featured four flipper-like limbs, with the fore- and hind flippers of similar length and robustness, supporting efficient through undulation and paddling. This , shared across known , reflects early ichthyosaur adaptations for open-ocean environments, with reduced digits in the limbs indicating over terrestrial ancestry. The of Shonisaurus was notably long and narrow, comprising a substantial portion of the total body length, with a short temporal region relative to the extended rostrum. The formed long, straight, and robust mandibles with a deep , suited for capturing prey, while the orbits were large, suggesting enhanced vision in low-light conditions typical of deeper waters. Teeth, when present, were small, conical, and set in sockets rather than grooves—a trait among ichthyosaurs—though they appear limited to juvenile s, with adults being edentulous or nearly so, implying a reliant on or grasping rather than . The axial skeleton was elongated and flexible, consisting of approximately 60 presacral vertebrae that supported a deep rib cage formed by broad, slightly curved ribs, contributing to a robust torso. The tail included over 90 caudal vertebrae, with some centra near the 97th vertebra wedge-shaped to facilitate a downturned tail bend, from which a bilobed tail fluke is inferred based on the tall neural spines and overall skeletal proportions. This configuration allowed for strong lateral movements essential for propulsion. In the , the was large and sturdy, anchoring a long, slender with a small proximal head and straight shaft. The and were subequal in length, with the slightly longer, leading to forefins with no more than three primary but lacking hyperphalangy (excessive phalanges per ), distinguishing Shonisaurus from more derived ichthyosaurs. The hindfins were similar in length to the forefins, featuring no more than three primary , emphasizing the forelimbs' role in and stability. Fossil evidence, including the deep-bodied and , suggests the presence of a thick layer in Shonisaurus, providing and control similar to modern cetaceans, though direct soft-tissue preservation is absent in known specimens. This inference aligns with broader ichthyosaur , where such features supported endothermy and prolonged dives.

Size and mass estimates

Shonisaurus popularis, the , is estimated to have measured 13.5 to 15 meters in , derived from composite skeletal reconstructions of multiple specimens from the Luning Formation in . In contrast, the larger species Shonisaurus sikanniensis reached up to 21 meters in , based on the proportions of its specimen (TMP 1999.52.1), a partial including vertebrae, elements, and other postcranial bones from the Pardonet Formation in . These estimates account for the elongated body plan typical of shastasaurid ichthyosaurs, with variations arising from differences in vertebral counts and limb proportions between species. Body mass estimates for Shonisaurus popularis range from 21.6 to 29.7 metric tons, calculated using three-dimensional volumetric models constructed from skeletal mounts and scaled to account for envelopes similar to those in extant cetaceans. For Shonisaurus sikanniensis, mass is approximated at 81.5 metric tons, obtained by volumetric models of S. popularis to the larger skeletal elements of the , incorporating hydrodynamic adjustments for body shape. These figures position Shonisaurus among the largest reptiles, comparable in scale to modern whales, though with a more build. Size and mass estimations primarily rely on scaling methods applied to preserved skeletal elements, such as vertebral centrum diameters for axial length and or lengths for overall proportions, often benchmarked against complete skeletons of smaller ichthyosaurs and modern cetaceans like whales for soft tissue reconstruction. Uncertainties stem from the fragmentary nature of most specimens, including incomplete vertebral columns and absent hind limbs, leading to potential over- or underestimation by up to 10-20% depending on the assumed body depth and tail fin configuration. Bonebeds preserving multiple Shonisaurus popularis individuals, such as those at Berlin-Ichthyosaur State Park, contain specimens ranging from juveniles with small vertebral centra (under 10 cm in diameter) to mature adults, indicating representation across ontogenetic stages and suggesting rapid somatic growth to reach maturity within a decade or less. This growth pattern is inferred from the size variability in monospecific assemblages, consistent with high metabolic rates observed in ichthyosaur histology.

Discovery and research

Initial discovery

The fossils of Shonisaurus were first noted in the late by prospectors in the Mining District (also known as the Mining District) of the Shoshone Mountains, central , where large bones eroding from the Luning Formation were occasionally collected and even used as fuel for campfires. These remains, to the Carnian-Norian stages of the (approximately 237–227 million years ago), were embedded in marine sedimentary rocks of the Luning Formation, but their significance went unrecognized amid the area's focus on silver and lead mining that began in 1863 with the establishment of small camps like . The region's mining boom, peaking in the 1890s with the founding of the town of , reflected a broader of resource extraction on traditional lands, where Native American communities had utilized the landscape for millennia; this historical overlay later complicated paleontological access due to private claims and remote terrain. In 1928, during fieldwork for his Ph.D. dissertation, geologist Siemon W. Muller became the first to identify the exposed bones near West Union Canyon as belonging to giant ichthyosaurs, distinguishing them from other marine fossils like ammonites and bivalves that had been noted earlier in the area. Muller's assessment highlighted the extraordinary size of the specimens—vertebrae up to 14 inches in diameter—but no formal excavations followed immediately, partly due to the site's isolation in the arid desert. The fossils gained renewed attention in the early 1950s when local ethnographer Margaret Wheat, based in , reported the site to the Museum of Paleontology (UCMP), prompting director Charles L. Camp to organize a expedition in 1953. In the 1954 field season, Camp and colleague Samuel P. Welles conducted preliminary surveys, confirming the bones' ichthyosaur affinity and documenting a dense concentration of articulated skeletons across multiple quarries, though the remote location—requiring rugged overland travel—and the fragility of the weathered, disarticulated remains posed significant logistical challenges. These early efforts laid the groundwork for later systematic work, emphasizing the site's potential as a key window into .

Major excavations and specimens

Major excavations of Shonisaurus fossils took place at the Bone Hill in the Shoshone Mountains of , now part of Berlin-Ichthyosaur State Park. From 1954 to 1961, paleontologists Charles L. Camp and Samuel P. Welles of the University of California Museum of Paleontology directed fieldwork that uncovered parts of 37 partial skeletons of S. popularis, including several articulated skulls and vertebral columns. These efforts involved teams of students, volunteers, and staff, with most specimens left for preservation after initial documentation. Key specimens from the Bone Hill site include the , a partial comprising limb elements and vertebrae that served as the basis for the species description. The site's fossils form the core of the park's exhibit, where a composite reconstructed from multiple individuals measures approximately 13.7 m in length, representing one of the largest known Shonisaurus reconstructions. Additional notable specimens consist of disarticulated but associated bones from juveniles and adults, providing insights into ontogenetic variation. Beyond Nevada, significant discoveries include the 1999 excavation of the S. sikanniensis from the Norian-aged Pardonet Formation in northeastern , , conducted by a joint team from the Royal Tyrrell Museum of Palaeontology and the Fukui Prefectural Dinosaur Museum; this partial skeleton, estimated at 21 m long, represents the largest known ichthyosaur specimen. Fragmentary remains suggestive of large shastasaurids akin to Shonisaurus have been reported from paleontological surveys in during the 2010s, including isolated vertebrae and limb bones from deposits, marking the northernmost records of the group. Recent research has focused on the taphonomic processes at the Bone Hill bonebed, with a 2022 study by Kelley et al. analyzing the site's sedimentary and bone to interpret depositional and assemblage formation. Shonisaurus popularis was designated Nevada's state fossil in 1977, with the designation amended in 1989 to specify the species. at Berlin-Ichthyosaur , established in 1957, involves protection under a dedicated quarry shelter erected in 1966, along with periodic site mapping and stabilization. Preservation challenges persist due to the fragmentary nature of most specimens, with no complete skeletons recovered, which complicates detailed anatomical reconstructions. The exposed Bone Hill quarry faces ongoing from , while historical and potential illegal collecting has threatened similar unprotected ichthyosaur sites in the region, underscoring the importance of the park's protective measures.

Paleoecology

Habitat and distribution

Shonisaurus lived during the epoch, specifically from the latest to the stages, approximately 237 to 208 million years ago. Fossils of the genus are primarily associated with epicontinental seaways along the western margin of , in warm, tropical marine environments characterized by high productivity and low faunal diversity. The type species, Shonisaurus popularis, is known from the Luning Formation in , , a latest deposit (~237–227 Ma) representing a moderately deep-water distal ramp setting below fair-weather wave base but above storm wave base. Sedimentary features in this formation, including silty wackestones, calcareous shales, and pure limestones up to 700 meters thick, indicate a productive with fluctuating productivity levels, as evidenced by geochemical signatures of organic carbon and phosphate, along with abundant invertebrate and vertebrate remains. The Pardonet Formation in northeastern , Canada, yields Shonisaurus sikanniensis from middle strata (~218 Ma), deposited in deeper offshore settings on a distally steepened carbonate ramp or medial to distal slope, below both fair-weather and storm wave bases. This formation consists of hemipelagic suspension deposits intercalated with event beds such as turbidites and debrites, reflecting continuous sedimentation in a low-energy, deep marine environment on the northwestern Pangaean margin. Geographically, Shonisaurus fossils are documented from central (e.g., West Union Canyon and Pilot Mountains), northeastern (e.g., area), and referred specimens from , , southeastern , and possibly northern , spanning a regional distribution within a partially restricted seaway across about 30° of paleolatitude. Bonebeds in these deposits, including mass mortality assemblages, suggest episodes of high-energy events like storms in otherwise stable, oxygenated tropical seas without evidence of anoxic conditions or major volcanic disruptions. The presence of similar shastasaurid ichthyosaurs in comparable marine deposits supports an inferred broader range across western .

Diet and behavior

Shonisaurus was a macrophagous predator that primarily fed on fish and cephalopods, as evidenced by coprolite fossils containing partially digested remains of coelacanths (family Whiteiidae) and coiled nautiloid cephalopods such as Cenoceras. These findings confirm direct consumption of vertebrate and soft-bodied invertebrate prey, aligning with earlier inferences of a diet consisting of fishes and cephalopods. Robust, carinate teeth set in sockets, preserved in multiple ontogenetic stages, indicate adaptations for grasping and puncturing large prey, supporting a raptorial feeding strategy involving pursuit or ambush in open marine waters. Fossil bonebeds, including the notable assemblage of at least 37 individuals of S. popularis at , suggest gregarious , with dense aggregations likely representing schooling or site-specific gatherings rather than mass mortality events. The spatial clustering of skeletons, parallel alignments, and varying states of in Quarry 2 further indicate natural grouping, possibly philopatric, spanning over 100,000–600,000 years across a broad stratigraphic interval. A bimodal size distribution in these assemblages—dominated by large adults (11–16 m) and embryos/neonates, with few intermediates—points to reproductive congregations, akin to modern calving grounds. As a viviparous , like all known ichthyosaurs, Shonisaurus gave live birth, with direct evidence from embryonic and neonatal specimens preserved in the bonebeds. The presence of head-first oriented fetuses in related ichthyosaur taxa supports internal development and live birth as the ancestral reproductive mode for the group, enabling fully aquatic lifestyles without returning to land. Growth was likely rapid to support attainment of gigantic adult sizes, inferred from the early onset of large body dimensions in the shastasaurid lineage and the histological patterns observed in contemporaneous ichthyosaurs. In its , Shonisaurus occupied the niche, preying on coelacanths and cephalopods while coexisting with smaller ichthyosaurs such as Macgowania, which occupied lower trophic levels in the same habitats. Potential niche overlap with other shastasaurids, including , may have involved competition for large prey resources in the open marine environment of the Panthalassic Ocean.

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