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''Utahraptor'' (meaning "Utah's thief") is a genus of large dromaeosaurid dinosaur that lived in North America during the Early Cretaceous Geological period, period. It was a heavy-built, ground-dwelling, bipedal carnivore. It contains a single species, ''Utahraptor ostrommaysi'', which is one of the largest-known members of the family Dromaeosauridae, measuring long and weighing .
The first specimens of ''Utahraptor'' were found in 1975 by James A. Jensen, Jim Jensen in the Dalton Wells Quarry in east-central Utah, near the town of Moab, Utah, Moab, but did not receive much attention. After a find of a large foot-claw by Carl Limone in October 1991, James I. Kirkland, James Kirkland, Robert Gaston, and Donald Burge uncovered further remains of ''Utahraptor'' in 1991 in the Gaston Quarry in Grand County, Utah, Grand County, Utah, within the Yellow Cat and Poison Strip members of the Cedar Mountain Formation. The holotype of ''Utahraptor'', CEUM 184v.86 consists of a second pedal ungual, with potentially assigned elements from other specimens: pedal ungual CEUM 184v.294, tibia CEUM 184v.260 and premaxilla CEUM 184v.400. The holotype is housed in the paleontology collections of the USU Eastern Prehistoric Museum, Prehistoric Museum at Utah State University Eastern. Brigham Young University, the depository of Jensen's finds, currently houses the largest collection of ''Utahraptor'' fossils
The Type (biology), type species, ''Utahraptor ostrommaysi'', was named by Kirkland, Gaston, and Burge in June 1993. The genus name ''Utahraptor'' is in reference to Utah, where the remains were found. The Specific name (zoology), specific name, ''ostrommaysi'', is in honor to John Ostrom for his investigations on ''Deinonychus'' and its bird relationships, and Chris Mays, who helped in the research of ''Utahraptor'' by founding Dinamation. From his description, Kirkland stated the meaning of genus name to be "Utah's predator," but the Latin word ''raptor'' translates to 'robber' or 'plunderer' not 'predator'. Earlier, it had been intended to name the species "''U. spielbergi''" after film director Steven Spielberg, in exchange for funding paleontological research, but no agreement could be reached on the amount of financial assistance.
In 2000, the specific name was emended by George Olshevsky to the plural genitive ''ostrommaysorum''. However, Thiago Vernaschi V. Costa and Normand David in 2019 criticized the use of the species name ''U. ostrommaysorum'' since it has no clear justification or explanation. Although this spelling has been largely used by other authors, the genus ''Utahraptor'' was originally coined with the type species ''U. ostrommaysi'' and given that the International Code of Zoological Nomenclature offers no provision for forming a genitive form from two persons with different names, Costa and David conclude that the original spelling ''ostrommaysi'' has to be regarded as an arbitrary combination of letters and not a correctly formed genitive form. Under this reasoning, ''ostrommaysorum'' has no valid use and the original spelling ''ostrommaysi'' does not need an emendation. Other alternative and also invalid spellings were used in scientific literature, such as ''ostromaysi'', ''ostromaysorum'', ''ostromayssorum'', ''ostromayorum'' and ''ostrommaysori''.
For instance, some elements were wrongly referred to the genus; the lacrimal bone of the specimen CEUM 184v.83 turned out to be a postorbital from the ankylosaur ''Gastonia (dinosaur), Gastonia''. Britt ''et al.'' also suggested that the previously identified manual unguals of the specimens M184v.294, BYU 9438 and BYU 13068 are indeed pedal unguals. This suggestion was confirmed by Senter in 2007.
The largest described ''U. ostrommaysi'' specimen (BYUVP 15465, referred by Erickson ''et al.'' 2009) is estimated to have reached up to long and somewhat less than in weight, comparable to a polar bear in weight. In 2012, the paleontologist Thomas R. Holtz Jr. proposed that its weight might be comparable to a grizzly bear.Supplementary Information 2012
/ref> However, the 2001 Kirkland discovery indicates the species may be far heavier than previously estimated. In 2016 Rubén Molina-Pérez and Asier Larramendi estimated the largest specimen (BYU 15465) at long, tall at the hips and in weight; they claim the larger estimates are due to nine specimens of various ages being mixed. The 2016 measurement by Gregory S. Paul was close to this new estimate, measuring up to in length and weighing up to .
Although feathers have never been found in association with ''Utahraptor'' specimens, there is strong phylogenetic evidence suggesting that all dromaeosaurids possessed them. The genus ''Microraptor'' is one of the oldest-known dromaeosaurids, and is phylogenetically more primitive than ''Utahraptor''. Since ''Microraptor'' and other dromaeosaurids possessed feathers, it is reasonable to assume that this trait was present in all of Dromaeosauridae. Feathers were very unlikely to have evolved more than once, so assuming that any given dromaeosaurid, such as ''Utahraptor'', lacked feathers would require positive evidence that they did not have them. So far, there is nothing to suggest that feathers were lost in larger, more derived species of dromaeosaurs. The presence of quill knobs in ''Dakotaraptor'' evidenced that even larger dromaeosaurids had feathers.
According to Kirkland ''et al.'' in 1993, ''Utahraptor'' can be recognized by the following autapomorphies: claws on the hand that are more specialized as cutting blades than in other dromaeosaurids; a lacrimal bone with distinctly parallel mesial and outer sides, giving it an elongate subrectangular appearance in top view, and a base of nasal opening on the premaxilla parallel to the premaxillary tooth row. In the revised diagnosis conducted by Turner ''et al.'' in 2012, ''Utahraptor'' differs from other dromaeosaurids in: an elongate nasal process of the premaxilla; a distal end of metatarsal III that is smooth, not ginglymoid; an L-shaped quadratojugal without a posterior process; the presence of a well-developed notch between the lesser trochanter and greater trochanter; and dorsal vertebrae that lack pleurocoels. Like other dromaeosaurids, ''Utahraptor'' had large curved claws on their second toes. The second pedal ungual is preserved at in length and is estimated to reach restored.
The cladogram below is the result of a cladistic analysis conducted by Cau ''et al.'' in 2017.
Kirkland ''et al.'' noted that given the huge size of ''Utahraptor'', it was not fast as ''Deinonychus'' and ''Velociraptor'', instead, it would have had a similar speed to the contemporary iguanodonts, and being faster than sauropods. Additionally, the thickness of the tibia indicates that the animal had a significant leg force in order to kill prey. It was also suggested that dromaeosaurids such as ''Velociraptor'' and ''Deinonychus'', relied on their hand claws to handle prey and retain balance while kicking it, contrary to this, ''Utahraptor'' with much greater weight, may have been able to deliver kicks without the risk of losing balance, freeing the hands and using them to dispatch prey.
According to paleontologist Gregory S. Paul, ''Utahraptor'' was not particularly fast and would have been an ambush hunter that preyed on large dinosaurs such as the contemporary iguanodonts and therizinosaurs it shared its environment with. Its robust build and large sickle claw indicate it was well suited to hunting such prey. Like other Dromaeosaurinae, dromaeosaurine dromaeosaurids, it may have also relied heavily on its jaws to dispatch prey—more so than other types of dromaeosaurids, such as Velociraptorinae, velociraptorines.
''Utahraptor'' was unearthed from the Yellow Cat Member, which during the Berriasian to Late Valanginian was a semiarid area with floodplain prairies, riverine forests, and open woodlands predominated by conifers (Pinophyta), ferns (Polypodiopsida), hornworts (Anthocerotophyta) and other vascular plants. During the description of ''Mierasaurus'', it was interpreted that there was also a waterlogged bog-like environment. There is believed to have been a short wet season. This is supported by the presence of charred spores and other carbonized plant debris in the pollen maceral that indicate the occurrence of ancient wildfires ignited during periods of low precipitation.
Fauna, Paleofauna that were contemporaneous with the dromaeosaurid in the upper Yellow Cat Member included numerous dinosaurs, such as the medium-sized iguanodonts ''Hippodraco'' and ''Cedrorestes'', the other theropods ''Martharaptor'' and ''Nedcolbertia'', the nodosaurid ''Gastonia (dinosaur), Gastonia'', and the sauropods ''Cedarosaurus'' and ''Moabosaurus''. The only known mammal from the Upper Yellow Cat Member is ''Cifelliodon''.
Other non-dinosaur taxa known from the Member include the fish ''Ceratodus'' and ''Semionotus'', the turtles ''Glyptops'' and ''Trinitichelys'', Bird ichnology#Footprints, Aquatilavipes (fossilized bird tracks), the rhynchocephalian ''Toxolophosaurus'', and the indeterminate remains of hybodontid and polyacrodontid sharks.
Additional Fauna, paleofauna was recovered, most of it being unnamed and/or indeterminate, including an isolated Mesoeucrocodylian skull that measures in length. A Neochoristodere unearthed from the Upper Yellow Cat Member, represented by a partial left femur, shows that aquatic paleofauna was present and diverse during the Early Cretaceous of the Cedar Mountain Formation. A large sail-backed iguanodont represented by large vertebrae and fragmentary remains, and an indeterminate eudromaeosaur known from a caudal vertebra and fragmented tail (UMNH VP 20209) were also present.
''Utahraptor'' Project page
at Facebook
''Utahraptor'' skeletal reconstruction
by Scott Hartman
3D ''Utahraptor'' skeletal reconstruction
at Sketchfab {{Taxonbar, from=Q131193 Early Cretaceous dinosaurs of North America Eudromaeosaurs Extinct animals of Utah Fossil taxa described in 1993 Taxa named by James I. Kirkland Paleontology in Utah Valanginian life Apex predators
Discovery and naming
The first specimens of ''Utahraptor'' were found in 1975 by James A. Jensen, Jim Jensen in the Dalton Wells Quarry in east-central Utah, near the town of Moab, Utah, Moab, but did not receive much attention. After a find of a large foot-claw by Carl Limone in October 1991, James I. Kirkland, James Kirkland, Robert Gaston, and Donald Burge uncovered further remains of ''Utahraptor'' in 1991 in the Gaston Quarry in Grand County, Utah, Grand County, Utah, within the Yellow Cat and Poison Strip members of the Cedar Mountain Formation. The holotype of ''Utahraptor'', CEUM 184v.86 consists of a second pedal ungual, with potentially assigned elements from other specimens: pedal ungual CEUM 184v.294, tibia CEUM 184v.260 and premaxilla CEUM 184v.400. The holotype is housed in the paleontology collections of the USU Eastern Prehistoric Museum, Prehistoric Museum at Utah State University Eastern. Brigham Young University, the depository of Jensen's finds, currently houses the largest collection of ''Utahraptor'' fossilsThe Type (biology), type species, ''Utahraptor ostrommaysi'', was named by Kirkland, Gaston, and Burge in June 1993. The genus name ''Utahraptor'' is in reference to Utah, where the remains were found. The Specific name (zoology), specific name, ''ostrommaysi'', is in honor to John Ostrom for his investigations on ''Deinonychus'' and its bird relationships, and Chris Mays, who helped in the research of ''Utahraptor'' by founding Dinamation. From his description, Kirkland stated the meaning of genus name to be "Utah's predator," but the Latin word ''raptor'' translates to 'robber' or 'plunderer' not 'predator'. Earlier, it had been intended to name the species "''U. spielbergi''" after film director Steven Spielberg, in exchange for funding paleontological research, but no agreement could be reached on the amount of financial assistance.
In 2000, the specific name was emended by George Olshevsky to the plural genitive ''ostrommaysorum''. However, Thiago Vernaschi V. Costa and Normand David in 2019 criticized the use of the species name ''U. ostrommaysorum'' since it has no clear justification or explanation. Although this spelling has been largely used by other authors, the genus ''Utahraptor'' was originally coined with the type species ''U. ostrommaysi'' and given that the International Code of Zoological Nomenclature offers no provision for forming a genitive form from two persons with different names, Costa and David conclude that the original spelling ''ostrommaysi'' has to be regarded as an arbitrary combination of letters and not a correctly formed genitive form. Under this reasoning, ''ostrommaysorum'' has no valid use and the original spelling ''ostrommaysi'' does not need an emendation. Other alternative and also invalid spellings were used in scientific literature, such as ''ostromaysi'', ''ostromaysorum'', ''ostromayssorum'', ''ostromayorum'' and ''ostrommaysori''.
For instance, some elements were wrongly referred to the genus; the lacrimal bone of the specimen CEUM 184v.83 turned out to be a postorbital from the ankylosaur ''Gastonia (dinosaur), Gastonia''. Britt ''et al.'' also suggested that the previously identified manual unguals of the specimens M184v.294, BYU 9438 and BYU 13068 are indeed pedal unguals. This suggestion was confirmed by Senter in 2007.
Description
The largest described ''U. ostrommaysi'' specimen (BYUVP 15465, referred by Erickson ''et al.'' 2009) is estimated to have reached up to long and somewhat less than in weight, comparable to a polar bear in weight. In 2012, the paleontologist Thomas R. Holtz Jr. proposed that its weight might be comparable to a grizzly bear.Supplementary Information 2012/ref> However, the 2001 Kirkland discovery indicates the species may be far heavier than previously estimated. In 2016 Rubén Molina-Pérez and Asier Larramendi estimated the largest specimen (BYU 15465) at long, tall at the hips and in weight; they claim the larger estimates are due to nine specimens of various ages being mixed. The 2016 measurement by Gregory S. Paul was close to this new estimate, measuring up to in length and weighing up to .
Although feathers have never been found in association with ''Utahraptor'' specimens, there is strong phylogenetic evidence suggesting that all dromaeosaurids possessed them. The genus ''Microraptor'' is one of the oldest-known dromaeosaurids, and is phylogenetically more primitive than ''Utahraptor''. Since ''Microraptor'' and other dromaeosaurids possessed feathers, it is reasonable to assume that this trait was present in all of Dromaeosauridae. Feathers were very unlikely to have evolved more than once, so assuming that any given dromaeosaurid, such as ''Utahraptor'', lacked feathers would require positive evidence that they did not have them. So far, there is nothing to suggest that feathers were lost in larger, more derived species of dromaeosaurs. The presence of quill knobs in ''Dakotaraptor'' evidenced that even larger dromaeosaurids had feathers.
According to Kirkland ''et al.'' in 1993, ''Utahraptor'' can be recognized by the following autapomorphies: claws on the hand that are more specialized as cutting blades than in other dromaeosaurids; a lacrimal bone with distinctly parallel mesial and outer sides, giving it an elongate subrectangular appearance in top view, and a base of nasal opening on the premaxilla parallel to the premaxillary tooth row. In the revised diagnosis conducted by Turner ''et al.'' in 2012, ''Utahraptor'' differs from other dromaeosaurids in: an elongate nasal process of the premaxilla; a distal end of metatarsal III that is smooth, not ginglymoid; an L-shaped quadratojugal without a posterior process; the presence of a well-developed notch between the lesser trochanter and greater trochanter; and dorsal vertebrae that lack pleurocoels. Like other dromaeosaurids, ''Utahraptor'' had large curved claws on their second toes. The second pedal ungual is preserved at in length and is estimated to reach restored.
Classification
''Utahraptor'' is a member of the family (biology), family Dromaeosauridae, a cladistics, clade of Theropoda, theropod dinosaurs commonly known as "raptors". ''Utahraptor'' is the largest genus in the family, and belongs to the same clade of dinosaurs such as ''Velociraptor'', ''Deinonychus'' or ''Dromaeosaurus''. It is classified in the subfamily Dromaeosaurinae, which is found in the clade Eudromaeosauria. In 2015, ''Utahraptor'' was found to be closely related to the smaller ''Dromaeosaurus'' and the giant Mongolian and North American dromaeosaurid genera ''Achillobator'' and ''Dakotaraptor'':
The cladogram below is the result of a cladistic analysis conducted by Cau ''et al.'' in 2017.
Paleobiology
Predatory behavior
Kirkland ''et al.'' noted that given the huge size of ''Utahraptor'', it was not fast as ''Deinonychus'' and ''Velociraptor'', instead, it would have had a similar speed to the contemporary iguanodonts, and being faster than sauropods. Additionally, the thickness of the tibia indicates that the animal had a significant leg force in order to kill prey. It was also suggested that dromaeosaurids such as ''Velociraptor'' and ''Deinonychus'', relied on their hand claws to handle prey and retain balance while kicking it, contrary to this, ''Utahraptor'' with much greater weight, may have been able to deliver kicks without the risk of losing balance, freeing the hands and using them to dispatch prey.
According to paleontologist Gregory S. Paul, ''Utahraptor'' was not particularly fast and would have been an ambush hunter that preyed on large dinosaurs such as the contemporary iguanodonts and therizinosaurs it shared its environment with. Its robust build and large sickle claw indicate it was well suited to hunting such prey. Like other Dromaeosaurinae, dromaeosaurine dromaeosaurids, it may have also relied heavily on its jaws to dispatch prey—more so than other types of dromaeosaurids, such as Velociraptorinae, velociraptorines.
Social behavior
In 2001, Kirkland ''et al,'' pursued a graduate student's discovery of a bone protruding from a 9-ton fossil block of sandstone in eastern Utah. It was determined to contain the bones of at least seven individuals, including an adult measuring about , four juveniles and a hatchling about long. Also fossilized with the predators are the remains of at least one possible Iguanodontia, iguanodont herbivore. Kirkland speculated that the ''Utahraptor'' pack attempted to scavenge carrion or attack helpless prey mired in quicksand, and were themselves mired in the attempt to attack the herbivore. Similar sites such as the Cleveland-Lloyd Dinosaur Quarry, Cleveland-Lloyd Quarry and California's La Brea Tar Pits house such predator traps. Examination of the fossils are ongoing after a decade of excavation, but if Kirkland is correct, it may be one of the best-preserved predator traps ever discovered. The fossils may further reveal aspects into the behavior of ''Utahraptor'', such as whether it might have hunted in groups like ''Deinonychus'' was believed to have done. Whether all the ''Utahraptor'' individuals were mired simultaneously or were drawn in, one-by-one is unclear. Further examination of the block suggests that the number of ''Utahraptor'' remains maybe double the amount previously assumed. While dinosaur behavior can only be theorized, it was later discovered in 2020 that ''Deinonychus'' may not have had complex social behavior seen in some pack-hunting animals alive in the modern era, based on differing dietary preferences in adults and juveniles indicating they did not live in long-term family groups. It is unknown if this lack of complex, cooperative social behavior also extended to ''Utahraptor''.Paleoenvironment
''Utahraptor'' lived in the lower part of the Cedar Mountain Formation, a bed known as the Yellow Cat Member. According to the authors of its description, ''Utahraptor'' had an important Biological interaction, ecological role as a major carnivore of the paleofauna of the present-day Arches National Park, Arches region during the Early Cretaceous, and could probably attack prey larger than itself. Group hunting of individuals of at least and , if proven, could have killed prey of a weight of . Additionally, sauropods ranging between may have been an important part of its diet. The paleontologist Thomas R. Holtz estimated that ''Utahraptor'' existed between 130 million and 125 million years ago. In multiple occasions, the Yellow Cat Member has been dated to Barremian-Aptian ages. Sames and Schudack 2010 proposed a reassignment of the estimated age, compromising Berriasian to Valanginian stages, however, this interpretation was not followed by most authors. Using advanced methods of radiometric and palynological dating, Joeckel et al. 2019 concluded that the Yellow Cat Member is indeed older that previous estimations. The deposition occurred between 139 ± 1.3 million to 134.6 ± 1.7 million years ago, or, Berriasian to Late Valanginian stages. Based on the presence of new palynoflora, Middle Berriasian–Early Hauterivian ages were provisionally assigned. However, the Yellow Cat Member is divided into distinct "lower" and "upper" layers, and ''Utahraptor'' are only found within the upper Yellow Cat Member.
''Utahraptor'' was unearthed from the Yellow Cat Member, which during the Berriasian to Late Valanginian was a semiarid area with floodplain prairies, riverine forests, and open woodlands predominated by conifers (Pinophyta), ferns (Polypodiopsida), hornworts (Anthocerotophyta) and other vascular plants. During the description of ''Mierasaurus'', it was interpreted that there was also a waterlogged bog-like environment. There is believed to have been a short wet season. This is supported by the presence of charred spores and other carbonized plant debris in the pollen maceral that indicate the occurrence of ancient wildfires ignited during periods of low precipitation.
Fauna, Paleofauna that were contemporaneous with the dromaeosaurid in the upper Yellow Cat Member included numerous dinosaurs, such as the medium-sized iguanodonts ''Hippodraco'' and ''Cedrorestes'', the other theropods ''Martharaptor'' and ''Nedcolbertia'', the nodosaurid ''Gastonia (dinosaur), Gastonia'', and the sauropods ''Cedarosaurus'' and ''Moabosaurus''. The only known mammal from the Upper Yellow Cat Member is ''Cifelliodon''.
Other non-dinosaur taxa known from the Member include the fish ''Ceratodus'' and ''Semionotus'', the turtles ''Glyptops'' and ''Trinitichelys'', Bird ichnology#Footprints, Aquatilavipes (fossilized bird tracks), the rhynchocephalian ''Toxolophosaurus'', and the indeterminate remains of hybodontid and polyacrodontid sharks.
Additional Fauna, paleofauna was recovered, most of it being unnamed and/or indeterminate, including an isolated Mesoeucrocodylian skull that measures in length. A Neochoristodere unearthed from the Upper Yellow Cat Member, represented by a partial left femur, shows that aquatic paleofauna was present and diverse during the Early Cretaceous of the Cedar Mountain Formation. A large sail-backed iguanodont represented by large vertebrae and fragmentary remains, and an indeterminate eudromaeosaur known from a caudal vertebra and fragmented tail (UMNH VP 20209) were also present.
Cultural significance
''Raptor Red'' was published in 1995, and features the fictionalized story of a female ''Utahraptor''. Written by paleontologist Robert T. Bakker, it was positively regarded by mainstream reviewers, though updates to the science have rendered some of the story line facts presented untrue and the paleontology community was critical of fossil record inaccuracies. Bakker's anthropomorphosis of the titular Red was particularly praised. In 2018, it was proposed that ''Utahraptor'' be the Utah List of U.S. state dinosaurs, state dinosaur, an act that was approved by the Utah State Senate, Senate. Initially ''Utahraptor'' would have replaced another dinosaur, ''Allosaurus'', as the List of U.S. state fossils, state's official fossil, but it was decided that ''Utahraptor'' would be another symbol of the state. In 2021, Steve Eliason successfully created a proposal for Utahraptor State Park where the block was discovered. It was approved by the state House.See also
* Timeline of dromaeosaurid researchReferences
External links
* *''Utahraptor'' Project page
at Facebook
''Utahraptor'' skeletal reconstruction
by Scott Hartman
3D ''Utahraptor'' skeletal reconstruction
at Sketchfab {{Taxonbar, from=Q131193 Early Cretaceous dinosaurs of North America Eudromaeosaurs Extinct animals of Utah Fossil taxa described in 1993 Taxa named by James I. Kirkland Paleontology in Utah Valanginian life Apex predators