''Stenonychosaurus'' (meaning "narrow claw lizard") is a genus of troodontid dinosaur from the Late Cretaceous Dinosaur Park Formation of Alberta, Canada, as well as possibly the Two Medicine Formation. The type and only species, ''S. inequalis'', was named by Charles Mortram Sternberg in 1932, based on a foot, fragments of a hand, and some caudal vertebrae from the Late Cretaceous of Alberta. ''S. inequalis'' was reassigned in 1987 by Phil Currie to the genus '' Troodon'', which was reverted by the recognition of ''Stenonychosaurus'' as a separate genus from the possibly dubious ''Troodon'' in 2017 by Evans ''et al.'' and also later in the same year by Van der Reest and Currie.

History of discovery

The first specimens currently assigned to ''Troodon'' that were not teeth were both found by Sternberg in 1928, in the Dinosaur Park Formation of Alberta. The first was named ''Stenonychosaurus inequalis'' by Sternberg in 1932, based on a foot, fragments of a hand, and some tail vertebrae. A remarkable feature of these remains was the enlarged claw on the second toe, which is now recognized as characteristic of early

paravians Paraves are a widespread group of theropod dinosaurs that originated in the Middle Jurassic period. In addition to the extinct dromaeosaurids, troodontids, anchiornithids, and possibly the scansoriopterygids, the group also contains the avia ...

. Sternberg initially classified ''Stenonychosaurus'' as a member of the family Coeluridae. The second, a partial lower jaw bone, was described by Gilmore (1932) as a new species of lizard which he named ''

Polyodontosaurus ''Polyodontosaurus'' (meaning "many-toothed lizard") is a potentially dubious genus of troodontid dinosaur named in 1932 by Charles W. Gilmore for a left dentary from the Dinosaur Park Formation. Gilmore, C. W. (1932). A new fossil lizard from th ...

grandis''. Later, in 1951, Sternberg recognized ''P. grandis'' as a possible synonym of ''Troodon'', and speculated that since ''Stenonychosaurus'' had a "very peculiar

pes Pes (Latin for "foot") or the acronym PES may refer to: Pes * Pes (unit), a Roman unit of length measurement roughly corresponding with a foot * Pes or podatus, a * Pes (rural locality), several rural localities in Russia * Pes (river), a river ...

" and ''Troodon'' "equally unusual teeth", they may be closely related. Unfortunately, no comparable specimens were available at that time to test the idea. The holotype of ''Stenonychosaurus inequalis'', CMN 8539, is a partial skeleton consisting of six caudal vertebrae, hand bones, the distal end of the left tibia and astragalus, and a complete left foot. A couple of cranial specimens were also referred to the genus: UALVP 52611 (a nearly complete skull roof) and TMP 1986.036.0457 (a partial braincase). Stenonychosaurus head neck NHM

A more complete skeleton of ''Stenonychosaurus'' was described by Dale Russell in 1969 from the Dinosaur Park Formation, which eventually formed the scientific foundation for a famous life-sized sculpture of ''Stenonychosaurus'' accompanied by its fictional,

humanoid A humanoid (; from English ''human'' and ''-oid'' "resembling") is a non-human entity with human form or characteristics. The earliest recorded use of the term, in 1870, referred to indigenous peoples in areas colonized by Europeans. By the 20t ...

descendant, the "dinosauroid". ''Stenonychosaurus'' became a well-known theropod in the 1980s, when the feet and braincase were described in more detail. Along with '' Saurornithoides'', it formed the family Saurornithoididae. Based on differences in tooth structure, and the extremely fragmentary nature of the original ''Troodon formosus'' specimens, saurornithoidids were thought to be close relatives while ''Troodon'' was considered a dubious possible relative of the family. Phil Currie, reviewing the pertinent specimens in 1987, showed that supposed differences in tooth and jaw structure among troodontids and saurornithoidids were based on age and position of the tooth in the jaw, rather than a difference in species. He reclassified ''Stenonychosaurus inequalis'' as well as ''Polyodontosaurus grandis'' and '' Pectinodon bakkeri'' as junior synonyms of ''Troodon formosus''. Currie also made Saurornithoididae a junior synonym of Troodontidae. In 1988, Gregory S. Paul went farther and included ''Saurornithoides mongoliensis'' in the genus ''Troodon'' as ''T. mongoliensis'', but this reclassification, along with many other unilateral synonymizations of well known genera, was not adopted by other researchers. Currie's classification of all North American troodontid material in the single species ''Troodon formosus'' became widely adopted by other paleontologists, and all of the specimens once called ''Stenonychosaurus'' were referred to as ''Troodon'' in the scientific literature through the early 21st century. However, the concept that all Late Cretaceous North American troodontids belong to one species began to be questioned soon after Currie's 1987 paper was published, including by Currie himself. Currie and colleagues (1990) noted that, while they believed the Judith River troodontids were all ''T. formosus'', troodontid fossils from other formations, such as the Hell Creek Formation and Lance Formation, might belong to different species. In 1991, George Olshevsky assigned the Lance formation fossils, which had first been named ''Pectinodon bakkeri'' but later synonymized with ''Troodon formosus'' to the species ''Troodon bakkeri'', and several other researchers (including Currie) reverted to keeping the Dinosaur Park Formation fossils separate as ''Troodon inequalis''.Currie, P. (2005). "Theropods, including birds." in Currie and Koppelhus (eds). ''Dinosaur Provincial Park, a spectacular ecosystem revealed, Part Two, Flora and Fauna from the park.'' Indiana University Press, Bloomington. Pp 367–397. In 2011, Zanno and colleagues reviewed the convoluted history of troodontid classification in Late Cretaceous North America. They followed Longrich (2008) in treating ''Pectinodon bakkeri'' as a valid genus, and noted that it is likely the numerous Late Cretaceous specimens currently assigned to ''Troodon formosus'' almost certainly represent numerous new species, but that a more thorough review of the specimens is required. Because the holotype of ''T. formosus'' is a single tooth, this may render ''Troodon'' a

nomen dubium In binomial nomenclature, a ''nomen dubium'' (Latin for "doubtful name", plural ''nomina dubia'') is a scientific name that is of unknown or doubtful application. Zoology In case of a ''nomen dubium'' it may be impossible to determine whether a s ...

. In 2017, Evans and colleagues, building on the work of Zanno and others, confirmed the currently undiagnostic nature of the holotype of ''Troodon formosus'' and suggested that ''Stenonychosaurus'' be used for troodontid skeletal material from the Dinosaur Park Formation. Later in 2017, Van der Reest and Currie found ''Stenonychosaurus'' to be a valid genus, but reassigned much of the known material to the new genus '' Latenivenatrix''. Many Dinosaur Park troodontid specimens once referred to '' Troodon'' have recently been referred to ''Stenonychosaurus'' and ''Latenivenatrix''. The specimens now referred to ''Stenonychosaurus'' include several frontals (UALVP 5282, TMP 1986.078.0040, TMP 1988.050.0088, TMP 1991.036.0690), a partial dentary (TMP 1982.019.0151), and the distal portion of a left metatarsal III (TMP 1998.068.0090). In 2021, a more comprehensive re-analysis of the morphology and stratigraphic positions of known skeletal material assigned to ''Stenonychosaurus'' and ''Latenivenatrix'' determined that several characters described as diagnostic of ''Latenivenatrix'' are in fact individually variable, that both taxa overlap stratigraphically, and that ''Latenivenatrix mcmasterae'' is a junior synonym of ''Stenonychosaurus inequalis''. This leaves ''S. inequalis'' as the only valid troodontid taxon currently identified from the Dinosaur Park Formation.

The "Dinosauroid"

In 1982, Dale A. Russell, then curator of vertebrate fossils at the National Museum of Canada in Ottawa, conjectured a possible evolutionary path for ''Stenonychosaurus'', if it had not perished in the Cretaceous–Paleogene extinction event, suggesting that it could have evolved into intelligent beings similar in body plan to humans. Over geologic time, Russell noted that there had been a steady increase in the encephalization quotient or EQ (the relative brain weight when compared to other species with the same body weight) among the dinosaurs. Russell had discovered the first Troodontid skull, and noted that, while its EQ was low compared to humans, it was six times higher than that of other dinosaurs. Russell suggested that if the trend in ''Stenonychosaurus'' evolution had continued to the present, its brain case could by now measure , comparable to that of a human. Troodontids had semi-manipulative fingers, able to grasp and hold objects to a certain degree, and binocular vision. Russell proposed that his "Dinosauroid", like members of the troodontid family, would have had large eyes and three fingers on each hand, one of which would have been partially opposed. Russell also speculated that the "Dinosauroid" would have had a toothless beak. As with most modern reptiles (and birds), he conceived of its genitalia as internal. Russell speculated that it would have required a navel, as a placenta aids the development of a large brain case. However, it would not have possessed mammary glands, and would have fed its young, as some birds do, on regurgitated food. He speculated that its language would have sounded somewhat like

bird song Bird vocalization includes both bird calls and bird songs. In non-technical use, bird songs are the bird sounds that are melodious to the human ear. In ornithology and birding, songs (relatively complex vocalizations) are distinguished by func ...

.Naish, D. (2006)
Dinosauroids Revisited
Darren Naish: Tetrapod Zoology, April 23, 2011. However, Russell's thought experiment has been met with criticism from other paleontologists since the 1980s, many of whom point out that his Dinosauroid is overly anthropomorphic. Gregory S. Paul (1988) and

Thomas R. Holtz, Jr. Thomas Richard Holtz Jr. (born September 13, 1965) is an American vertebrate palaeontologist, author, and principal lecturer at the University of Maryland's Department of Geology. He has published extensively on the phylogeny, morphology, ecomorp ...

, consider it "suspiciously human" and Darren Naish has argued that a large-brained, highly intelligent troodontid would retain a more standard theropod body plan, with a horizontal posture and long tail, and would probably manipulate objects with the snout and feet in the manner of a bird, rather than with human-like "hands".

Description

''Stenonychosaurus'' was a small dinosaur, up to in length and in body mass. The largest specimens are comparable in size to '' Deinonychus'' and '' Unenlagia''. They had very long, slender hind limbs, suggesting that these animals were able to run quickly. They had large, retractable, sickle-shaped claws on the second toes, which were raised off the ground when running. Their eyes were very large (perhaps suggesting a partially

nocturnal Nocturnality is an animal behavior characterized by being active during the night and sleeping during the day. The common adjective is "nocturnal", versus diurnal meaning the opposite. Nocturnal creatures generally have highly developed sens ...

lifestyle), and slightly forward facing, giving ''Stenonychosaurus'' some degree of

depth perception Depth perception is the ability to perceive distance to objects in the world using the visual system and visual perception. It is a major factor in perceiving the world in three dimensions. Depth perception happens primarily due to stereopsis an ...

Brain and inner ear

''Stenonychosaurus'' had one of the largest known brains of any dinosaur, relative to its body mass (comparable to modern birds). This has been calculated as a cerebrum-to-brain-volume ratio 31.5% to 63% of the way from a non-avian reptile proportion to a truly avian one. Additionally, it had bony cristae supporting their tympanic membranes that were ossified at least in their top and bottom regions. The rest of the cristae were either cartilaginous or too delicate to be preserved. The metotic strut of ''Stenonychosaurus'' was enlarged from side-to-side, similar to '' Dromaeosaurus'' and primitive birds like ''

Archaeopteryx ''Archaeopteryx'' (; ), sometimes referred to by its German name, "" ( ''Primeval Bird''), is a genus of bird-like dinosaurs. The name derives from the ancient Greek (''archaīos''), meaning "ancient", and (''ptéryx''), meaning "feather" ...

'' and '' Hesperornis''.Larsson, H. C. E. 2001. Endocranial anatomy of Carcharodontosaurus saharicus (Theropoda: Allosauroidea) and its implications for theropod brain evolution. pp. 19–33. In: Mesozoic Vertebrate Life. Ed.s Tanke, D. H., Carpenter, K., Skrepnick, M. W. Indiana University Press.

Paleobiology

''Stenonychosaurus'' are thought to have been predators, a view supported by its sickle claw on the foot and apparently good binocular vision. ''Stenonychosaurus'' teeth, however, are different from most other theropods. One comparative study of the feeding apparatus suggests that ''Stenonychosaurus'' could have been an

omnivore An omnivore () is an animal that has the ability to eat and survive on both plant and animal matter. Obtaining energy and nutrients from plant and animal matter, omnivores digest carbohydrates, protein, fat, and fiber, and metabolize the nutr ...

.Holtz, Thomas R., Brinkman, Daniel L., Chandler, Chistine L. (1998) Denticle Morphometrics and a Possibly Omnivorous Feeding Habit for the Theropod Dinosaur Troodon. Gaia number 15. December 1998. pp. 159–166. The jaws met in a broad, U-shaped symphysis similar to that of an iguana, a lizard species adapted to a plant-eating lifestyle. Additionally, the teeth of ''Stenonychosaurus'' bore large serrations, each of which is called a

denticle A denticle is any small tooth-like or bristle-like structure. "Denticle" may refer to: * Denticle (tooth feature), serrations on the teeth of dinosaurs, lizards, sharks, and mammals * Dermal denticles or placoid scales, in cartilaginous fishes * ...

. There are pits at the intersections of the denticles, and the points of the denticles point towards the tip, or apex, of each tooth. The teeth show wear facets on their sides. Holtz (1998) also noted that characteristics used to support a predatory habit for ''Stenonychosaurus'' – the grasping hands, large brain, and stereoscopic vision – are all characteristics shared with herbivorous or omnivorous primates and omnivorous '' Procyon'' (raccoon). Age determination studies performed on the

Two Medicine Two Medicine is the collective name of a region located in the southeastern section of Glacier National Park, in the U.S. state of Montana. It has a campground alongside Two Medicine Lake. From the period starting in the late 1890s until the co ...

troodont using growth ring counts suggest that this dinosaur reached its adult size probably in 3–5 years. A partial skeleton has been discovered with preserved puncture marks, possibly inflicted by a predator.Jacobsen, A. R. 2001. Tooth-marked small theropod bone: An extremely rare trace. p. 58-63. In: ''Mesozoic Vertebrate Life''. Ed.s Tanke, D. H., Carpenter, K., Skrepnick, M. W. Indiana University Press.

Reproduction

Dinosaur eggs and nests were discovered by

John R. Horner John is a common English name and surname: * John (given name) * John (surname) John may also refer to: New Testament Works * Gospel of John, a title often shortened to John * First Epistle of John, often shortened to 1 John * Second E ...

in 1983 in the Two Medicine Formation of Montana. Varriccho et al. (2002) have described eight of these nests found to date. These are all in the collection of the

Museum of the Rockies Museum of the Rockies is a museum in Bozeman, Montana. Originally affiliated with Montana State University in Bozeman, and now also, the Smithsonian Institution, the museum is largely known for its paleontological collections. The Museum houses ...

and their accession numbers are MOR 246, 299, 393, 675, 676, 750, 963, 1139. Horner (1984) found isolated bones and partial skeletons of the hypsilophodont ''Orodromeus'' very near the nests in the same horizon and described the eggs as those of '' Orodromeus''.Horner, John R. (1984) "The nesting behavior of dinosaurs". "Scientific American", 250:130–137. Horner and Weishampel (1996) reexamined the embryos preserved in the eggs and determined that they were those of ''Troodon'', not ''Orodromeus''.Horner, John R., Weishampel, David B. (1996) "A comparative embryological study of two ornithischian dinosaurs – a correction." "Nature" 383:256–257. Varricchio et al. (1997) made this determination with even more certainty when they described a partial skeleton of an adult ''Troodon'' (MOR 748) in contact with a clutch of at least five eggs (MOR 750), probably in a brooding position. Van der Reest and Currie considered it possible that the Two Medicine troodont was the same species as ''Stenonychosaurus''. Varricchio et al. (1997) described the exact structure of the nests. They were built from sediments, they were dish shaped, about in internal diameter, and with a pronounced raised rim encircling the eggs. The more complete nests had between 16 (minimum number in MOR 246) and 24 (MOR 963) eggs. The eggs are shaped like elongated teardrops, with the more tapered ends pointed downwards and embedded about halfway in the sediment. The eggs are pitched at an angle so that, on average, the upper half is closer to the center of the nest. There is no evidence that plant matter was present in the nest. Varricchio et al.(1997) were able to extract enough evidence from the nests to infer several characteristics of troodont reproductive biology. The results are that they appear to have had a type of reproduction that is intermediate between crocodiles and birds, as phylogeny would predict. The eggs are statistically grouped in pairs, which suggests that the animal had two functional oviducts, like crocodiles, rather than one, as in birds. Crocodiles lay many eggs that are small proportional to adult body size. Birds lay fewer, larger, eggs. The Two Medicine troodont was intermediate, laying an egg of about for a adult. This is 10 times larger than reptiles of the same mass, but two troodont eggs are roughly equivalent to the egg predicted for a bird. Varricchio et al. also found evidence for iterative laying, where the adult might lay a pair of eggs every one or two days, and then ensured simultaneous hatching by delaying brooding until all eggs were laid. MOR 363 was found with 22 empty (hatched) eggs, and the embryos found in the eggs of MOR 246 were in very similar states of development, implying that all of the young hatched approximately simultaneously. The embryos had an advanced degree of skeletal development and empty eggs were relatively uncrushed, implying that hatchlings were precocial. The authors estimated 45 to 65 total days of adult nest attendance for laying, brooding, and hatching. Varricchio et al. (2008) examined the bone histology of Two Medicine troodont specimen MOR 748 and found that it lacked the bone resorption patterns that would indicate it was an egg-laying female. They also measured the ratio of the total volume of eggs in clutches to the body mass of the adult. They graphed correlations between this ratio and the type of parenting strategies used by extant birds and crocodiles and found that the ratio in the troodont was consistent with that in birds where only the adult male broods the eggs. From this they concluded that troodont females likely did not brood eggs, that the males did, and this may be a character shared between maniraptoran dinosaurs and basal birds. However, a later analysis of avian clutch mass found that the type of parental care cannot be determined using conventional allometric methods such as the one used by Varricchio et al.

Paleoecology

''Stenonychosaurus inequalis'' is known from the Dinosaur Park Formation of southern Alberta, Canada, which at the time was a warm coastal floodplain covered by temperate forests. Apex predators included tyrannosaurids such as '' Daspletosaurus'' and '' Gorgosaurus''. Herbivores included

hadrosaurid Hadrosaurids (), or duck-billed dinosaurs, are members of the ornithischian family Hadrosauridae. This group is known as the duck-billed dinosaurs for the flat duck-bill appearance of the bones in their snouts. The ornithopod family, which inclu ...

s such as '' Lambeosaurus'', '' Corythosaurus'', and '' Prosaurolophus'';

ceratopsids Ceratopsidae (sometimes spelled Ceratopidae) is a family of ceratopsian dinosaurs including ''Triceratops'', ''Centrosaurus'', and ''Styracosaurus''. All known species were quadrupedal herbivores from the Upper Cretaceous. All but one species are k ...

such as ''

Styracosaurus ''Styracosaurus'' ( ; meaning "spiked lizard" from the Ancient Greek / "spike at the butt-end of a spear-shaft" and / "lizard") is a genus of herbivorous ceratopsian dinosaur from the Cretaceous Period (Campanian stage), about 75.5 to 74.5&nbs ...

'', '' Centrosaurus'', and '' Chasmosaurus'';

ankylosaurs Ankylosauria is a group of herbivorous dinosaurs of the order Ornithischia. It includes the great majority of dinosaurs with armor in the form of bony osteoderms, similar to turtles. Ankylosaurs were bulky quadrupeds, with short, powerful limbs. ...

such as '' Scolosaurus'', '' Euoplocephalus'', and '' Edmontonia''; and pachycephalosaurs such as '' Stegoceras'' and '' Foraminacephale''.

References

{{Taxonbar, from=Q35640969 Troodontids Late Cretaceous dinosaurs of North America Campanian life Fossil taxa described in 1932 Taxa named by Charles Mortram Sternberg