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Biography
pp-move-indefabout|the dinosaur|the Dutch doom metal group|Deinonychus (band)Italic titlespeciesbox| name = Deinonychus | fossil_range = Early Cretaceous , fossil range|115|108| image = FMNH Deinonychus.JPG| image_width = 250px| image_caption = Mounted skeleton, Field Museum of Natural History|Field Museum | genus = Deinonychus| species = antirrhopus| authority = Ostrom, 1969| parent_authority = John Ostrom|Ostrom , 1969| synonyms = Velociraptor antirrhopus (Ostrom, 1969) Gregory S. Paul|Paul , 1988 Deinonychus (IPAc-en|icon|d|a?|'|n|?|n|?|k|?|srespell|dy|NON|i-k?s; lang-el| de???? , 'terrible' and lang|el|???? , genitive lang|el|?????? 'claw') is a genus of carnivore|carnivorous dromaeosauridae|dromaeosaurid dinosaur s. There is one described species, Deinonychus antirrhopus . These dinosaurs could grow up to 3.4& nbsp;meters (11& nbsp;ft) long and lived during the early Cretaceous Period (geology)|Period , about 115–108& nbsp; Mya (unit)|million years ago (from the mid- Aptian to early Albian faunal stage|stages ). Fossils have been recovered from the U.S. state s of Montana , Wyoming , and Oklahoma , in rocks of the Cloverly Formation and Antlers Formation , though teeth that may belong to Deinonychus have been found much farther east in Maryland .
Paleontology|Paleontologist John Ostrom 's study of Deinonychus in the late 1960s revolutionized the way scientists thought about dinosaurs, leading to the " dinosaur renaissance " and igniting the debate on whether dinosaurs were endothermy|warm-blooded or ectothermy|cold blooded . Before this, the popular conception of dinosaurs had been one of plodding, reptilian giants. Ostrom noted the small body, sleek, horizontal posture, ratite -like spine, and especially the enlarged raptorial claws on the feet, which suggested an active, agile predator.cite journal|last=Ostrom|first=J. H.|year=1970|title=Stratigraphy and paleontology of the Cloverly Formation (Lower Cretaceous) of the Bighorn Basin area, Wyoming and Montana |journal=Bulletin of the Peabody Museum of Natural History|volume=35|pages=1–234
"Terrible claw" refers to the unusually large, sickle-shaped talon on the second toe of each hind foot. The fossil YPM 5205 preserves a large, strongly curved ungual . In life, archosaurs have a horny sheath over this bone which extends the length. Ostrom looked at crocodile and bird claws and reconstructed the claw for YPM 5205 as over convert|120|mm|in long. The species name antirrhopus means "counter balance", which refers to Ostrom's idea about the function of the tail. As in other dromaeosaurids, the tail vertebrae have a series of ossified tendons and super-elongated bone Process (anatomy)|processes . These features seemed to make the tail into a stiff counterbalance, but a fossil of the very closely related Velociraptor|Velociraptor mongoliensis ( IGM 100/986) has an articulated tail skeleton that is curved laterally in a long S–shape. This suggests that, in life, the tail could bend to the sides with a high degree of flexibility.cite_journal |last=Norell |first=Mark A. |coauthors=& Makovicky, Peter J. |year=1999 |title=Important features of the dromaeosaurid skeleton II: information from newly collected specimens of Velociraptor mongoliensis |journal=American Museum Novitates |volume=3282 |pages=1–45 |url= http://hdl.handle.net/2246/3025
In both the Cloverly and Antlers formations, Deinonychus remains have been found closely associated with those of the ornithopod Tenontosaurus . Teeth discovered associated with Tenontosaurus specimens imply they were hunted or at least scavenged upon by Deinonychus .
Description
Based on the largest known specimens, Deinonychus could reach at least convert|3.4|m|ftin|0 in length, with a skull length of convert|410|mm|in|1|abbr=on, a hip height of convert|0.87|m|ftin|0, and an estimated weight of convert|73|kg|lb|lk=on.cite book |last=Paul |first=G.S. |year=1988 |title=Predatory Dinosaurs of the World |location=New York |publisher=Simon and Schuster |pages=366–369 |isbn=0-671-61946-2 The skull was equipped with powerful jaws lined with around seventy curved, blade-like teeth. Studies of the skull have progressed a great deal over the decades. Ostrom reconstructed the partial, imperfectly preserved skulls that he had as triangular, broad, and fairly similar to Allosaurus . Additional Deinonychus skull material and closely related species found with good three-dimensional preservationcite journal |last=Maxwell |first=W. D. |last2=Witmer |first2=L. M. |lastauthoramp=yes |year=1996 |title=New Material of Deinonychus (Dinosauria, Theropoda) |journal=Journal of Vertebrate Paleontology |volume=16 |issue=3 |pages=51A |doi= show that the palate was more vaulted than Ostrom thought, making the snout far narrower, while the jugal s flared broadly, giving greater stereoscopic vision. The skull of Deinonychus was different from that of Velociraptor , however, in that it had a more robust skull roof like that of Dromaeosaurus , and did not have the depressed nasals of Velociraptor .Cite journal |last=Witmer |first=Lawrence M. |lastauthoramp=yes |last2=Maxwell |first2=William D. |year=1996 |title=The skull of Deinonychus (Dinosauria:Theropoda): New insights and implications |journal=Journal of Vertebrate Paleontology |volume=16 |issue=3 |pages=73A |doi= Both the skull and the lower jaw had Fenestra (anatomy)|fenestra e (skull openings) which reduced the weight of the skull. In Deinonychus , the antorbital fenestra , a skull opening between the eye and nostril, was particularly large.
Deinonychus possessed large "hands" ( Manus (zoology)|manus ) with three claws on each forelimb. The first digit was shortest and the second was longest. Each hind foot bore a sickle-shaped claw on the second digit, which was probably used during predation.
No skin impressions have ever been found in association with fossils of Deinonychus . Nonetheless, the evidence suggests that the Dromaeosauridae , including Deinonychus , had feathers.Cite journal |last=Xu |first=X. |last2=Zhou |first2=Z. |last3=Wang |first3=X. |last4=Kuang |first4=X. |last5=Zhang |first5=F. |lastauthoramp=yes |last6=Du |first6=X. |year=2003 |title=Four-winged dinosaurs from China |journal= Nature (journal)|Nature |pmid=12540892 |volume=421 |issue=6921 |pages=335–340 |doi=10.1038/nature01342 The genus Microraptor is both older geologically and more primitive phylogenetically than Deinonychus , and within the same family.Cite journal |last=Hwang |first=S. H. |last2=Norell |first2=M. A. |last3=Ji |first3=Q. |lastauthoramp=yes |last4=Gao |first4=K. |year=2002 |title=New Specimens of Microraptor zhaoianus (Theropoda: Dromaeosauridae) from Northeastern China |journal=American Museum Novitates |volume=3381 |issue= |pages=44 |url= http://research.amnh.org/%7Esunny/hwang.et al.2002.pdf Multiple fossils of Microraptor preserve pennaceous, vaned feathers like those of modern birds on the arms, legs, and tail, along with covert and contour feathers. Velociraptor is geologically younger than Deinonychus , but even more closely related (within the subfamily velociraptorinae, see Classification, below). A specimen of Velociraptor has been found with quill knobs on the ulna. Quill knobs are where the follicular ligaments attached, and are a direct indicator of feathers of modern aspect.cite journal |last=Turner |first=A.H. |coauthors=Makovicky, P.J.; Norell, M.A. |year=2007 |title=Feather quill knobs in the dinosaur Velociraptor |journal=Science |volume=317 |issue=5845 |pages=1721|doi=10.1126/science.1145076 |pmid=17885130
Classification
Deinonychus antirrhopus is one of the best-known dromaeosauridae|dromaeosaurid species,cite book|title=The Dinosauria |edition=2nd |year=2004 |chapter= Dromaeosauridae |editor=Weishampel, D.B., Dodson, P., Osmólska, H. |author=Norell, M.A., Makovicky, P.J. |pages=196–210| location=Berkeley|publisher=University of California Press|isbn= 0-520-24209-2 and is a close relative of the smaller Velociraptor , found in younger, Late Cretaceous–age rock formations in Central Asia.cite journal| last=Norell |first=M.A. |coauthors=Clark, J.M., Turner, A.H., Makovicky, P.J., Barsbold, R., and Rowe, T.|year=2006|title=A new dromaeosaurid theropod from Ukhaa Tolgod (Ömnögov, Mongolia) |journal=American Museum Novitates |volume=3545 |pages=1–51 |url= http://digitallibrary.amnh.org/dspace/bitstream/2246/5823/1/N3545.pdf |format=PDF|accessdate=2007-07-07|doi=10.1206/0003-0082(2006)35451:ANDTFU2.0.CO;2cite journal |last=Turner |first=A.S. |coauthors=Hwang, S.H.; and Norell, M.A. |year=2007 |title=A small derived theropod from Öösh, Early Cretaceous, Baykhangor Mongolia |journal=American Museum Novitates |volume=3557 |pages=1–27 |url= http://digitallibrary.amnh.org/dspace/bitstream/2246/5845/1/N3557.pdf |format=PDF|accessdate=2007-03-29 |doi=10.1206/0003-0082(2007)35571:ASDTFS2.0.CO;2 The clade they form is called Velociraptorinae. The subfamily name Velociraptorinae was first coined by Rinchen Barsbold in 1983cite journal|last = Barsbold |first = R. |year = 1983 |title = Carnivorous Dinosaurs from the Cretaceous of Mongolia |journal = The Joint Soviet–Mongolian Palaeontological Expedition, Transactions | volume = 19| pages =1–117 and originally contained the single genus Velociraptor . Later Phil Currie included most of the dromaeosaurids.cite journal |doi=10.1080/02724634.1995.10011250 |last=Currie |first=P. J. |year=1995 |title=New information on the anatomy and relationships of Dromaeosaurus albertensis (Dinosauria: Theropoda) |journal=Journal of Vertebrate Paleontology |volume=15 |issue=3 |pages=576–591 (https://www.vertpaleo.org/publications/jvp/15-576-591.cfm abstract) Two Late Cretaceous genera, Tsaagan from Mongolia and the North American Saurornitholestes , may also be close relatives, but the latter is poorly known and hard to classify. Velociraptor and its allies are regarded as using their claws more than their skulls as killing tools, as opposed to dromaeosaurids like Dromaeosaurus with stockier skulls.cite book|last=Paul|first=G.S.|year=1988|title=Predatory dinosaurs of the world : a complete illustrated guide|location=New York|publisher=Simon and Schuster|pages=358| isbn=0-671-61946-2 Together with the Troodontidae|troodontids , the dromaeosaurids form the Deinonychosauria clade which is a sister taxon of birds|aves . Phylogenetics|Phylogenetically , the Deinonychosauria represent the group of non-avian dinosaurs most closely related to birds.cite book| last =Benton| first =M.J.| authorlink =| coauthors =| title =Vertebrate Palaeontology (Third Edition)| publisher =Blackwell Publishing| year =2004| location =| pages =472| url = http://palaeo.gly.bris.ac.uk/benton/vertclass.html| doi =| id = | isbn =978-0-632-05637-8
Discovery and naming
Fossilized remains of Deinonychus have been recovered from the Cloverly Formation of Montana and Wyoming and in the roughly contemporary Antlers Formation of Oklahoma ,cite journal|last=Brinkman|first=D. L.|coauthors=R. L. Cifelli, and N. J. Czaplewski |year=1998 |title=First occurrence of Deinonychus antirrhopus (Dinosauria: Theropoda) from the Antlers Formation (Lower Cretaceous: Aptian–Albian) of Oklahoma |journal=Oklahoma Geological Survey Bulletin|volume=146|pages=1–27 in North America . The Cloverly formation has been dated to the late Aptian through early Albian stages of the early Cretaceous , about 115 to 108 Ma.cite journal | last1 = Chen | first1 = Z.-Q. | last2 = Lubin | first2 = S. | year = 1997 | title = A fission track study of the terrigenous sedimentary sequences of the Morrison and Cloverly Formations in northeastern Bighorn Basin, Wyoming | url = | journal = The Mountain Geologist | volume = 34 | issue = | pages = 51–62 cite journal | last1 = Burton | first1 = D. | last2 = Greenhalgh | first2 = B.W. | last3 = Britt | first3 = B.B. | last4 = Kowallis | first4 = B.J. | last5 = Elliott | first5 = W.S. | last6 = Barrick | first6 = R. | year = 2006 | title = New radiometric ages from the Cedar Mountain Formation, Utah and the Cloverly Formation, Wyoming: implications for contained dinosaur faunas | url = | journal = Geological Society of America Abstracts with Programs | volume = 38 | issue = 7| page = 52 Additionally, teeth found in the Arundel Formation|Arundel Clay Facies (mid-Aptian), of the Potomac Formation on the Atlantic Coastal Plain of Maryland may be assigned to the genus.cite book|last=Lipka|first=T. R. |year=1998 |chapter=The Affinities of the Enigmatic Theropods of the Arundel Clay Facies (Aptian), Potomac Formation, Atlantic Coastal Plain of Maryland |title=Lower and Middle Cretaceous Terrestrial Ecosystems| editor=Lucas, S.G., Kirkland, J.I. and Estep, J.W.|publisher= New Mexico Museum of Natural History and Science |location=Albuquerque |series=New Mexico Museum of Natural History and Science Bulletin, 14|pages=229–234| oclc=40283894
The first remains were uncovered in 1931 in southern Montana near the town of Billings, Montana|Billings . The team leader, paleontologist Barnum Brown , was primarily concerned with excavating and preparing the remains of the ornithopod dinosaur Tenontosaurus , but in his field report from the dig site to the American Museum of Natural History , he reported the discovery of a small carnivorous dinosaur close to a Tenontosaurus skeleton, "but encased in lime difficult to prepare."cite journal|last=Grellet-Tinner|first=G.|coauthors=and Makovicky, P. |year=2006 |title=A possible egg of the dromaeosaur Deinonychus antirrhopus : phylogenetic and biological implications |journal=Canadian Journal of Earth Sciences |volume=43 |issue=6 |pages=705–719 |doi=10.1139/E06-033 He informally called the animal "Daptosaurus agilis" and made preparations for describing it and having the skeleton, specimen AMNH 3015, put on display, but never finished this work.cite book |last=Norell |first=M. A. |coauthors=Gaffney, E. S.; and Dingus, L. |title=Discovering Dinosaurs in the American Museum of Natural History |publisher=Knopf |location=New York |year=1995 |pages=126–130 |isbn=0-679-43386-4 Brown brought back from the Cloverly Formation the skeleton of a smaller theropod with seemingly oversized teeth that he informally named "Megadontosaurus". John Ostrom , reviewing this material decades later, realized that the teeth came from Deinonychus , but the skeleton came from a completely different animal. He named this skeleton Microvenator .
A little more than thirty years later, in August 1964, paleontologist John Ostrom led an expedition from Yale University’s Peabody Museum which discovered more skeletal material near Bridger, Montana|Bridger . Expeditions during the following two summers uncovered more than 1000 bones, among which were at least three individuals. Since the association between the various recovered bones was weak, making the exact number of individual animals represented impossible to determine properly, the Type (zoology)|type specimen (YPM 5205) of Deinonychus was restricted to the complete left foot and partial right foot that definitely belonged to the same individual. The remaining specimens were catalogued in fifty separate entries at Yale University|Yale 's Peabody Museum of Natural History . Later study by Ostrom and Grant E. Meyer analyzed their own material as well as Brown's "Daptosaurus" in detail and found them to be the same species. Ostrom first published his findings in February 1969, giving all the referred remains the new name of Deinonychus antirrhopus . The specific name (zoology)|specific name " antirrhopus ", from Greek ??t????p??, means "counterbalancing" and refers to the likely purpose of a stiffened tail.Ostrom, J.H., 1969, "A new theropod dinosaur from the Lower Cretaceous of Montana", Postilla 128 : 1-17 In July 1969 Ostrom published a very extensive monograph on Deinonychus .cite journal|last=Ostrom|first=J. H.|year=1969|title=Osteology of Deinonychus antirrhopus , an unusual theropod from the Lower Cretaceous of Montana |journal=Peabody Museum of Natural History Bulletin |volume=30 |pages=1–165 |url= http://www.biodiversitylibrary.org/page/10658785#7
Though a myriad of bones was available by 1969, many important ones were missing or hard to interpret. There were few postorbital skull elements, no femurs, no sacrum, no furcula or sternum, missing vertebrae, and (Ostrom thought) only a tiny fragment of a coracoid. Ostrom’s skeletal reconstruction of Deinonychus included a very unusual pelvic bone& nbsp;– a pubis which was trapezoidal and flat, unlike that of other theropods, but which was the same length as the ischium and which was found right next to it.
Further findings
In 1974 Ostrom published another monograph on the shoulder of Deinonychus in which he realized that the pubis that he had described was actually a coracoid& nbsp;– a shoulder element.cite journal | last1 = Ostrom | first1 = John H. | year = 1974 | title = The Pectoral Girdle and Forelimb Function of Deinonychus (Reptilia: Saurischia) : A Correction | url = | journal = Postilla, Peabody Museum of Natural History Bulletin | volume = 165 | issue = | pages = 1–11 In that same year, another specimen of Deinonychus , MCZ 4371, was excavated in Montana by a Harvard University expedition headed by Farish Jenkins. This discovery added several new elements; well preserved femurs, pubes, a sacrum, and better ilia, as well as elements of the pes and metatarsus. Ostrom described this specimen and revised his skeletal restoration of Deinonychus . This time it showed the very long pubis, and Ostrom began to suspect that they may have even been a little retroverted like those of birds.cite journal|last=Ostrom|first=J.H. |year=1976 |title= On a new specimen of the Lower Cretaceous theropod dinosaur Deinonychus antirrhopus |journal=Breviora|volume=439 |pages=1–21 |url= http://www.biodiversitylibrary.org/page/3189704#51
A skeleton of Deinonychus including bones from the original (and most complete) AMNH 3015 specimen can be seen on display at the American Museum of Natural History,cite web | author = American Museum of Natural History | title = Deinonychus | work = http://www.amnh.org | publisher = American Museum of Natural History | year = 2007 | url = http://www.amnh.org/exhibitions/expeditions/treasure_fossil/Fossils/Specimens/deinonychus.html | accessdate = 2007-07-13 with another specimen on display at the Museum of Comparative Zoology at Harvard University . The American Museum and Harvard specimens are from a different locality than the Yale specimens. Even these two skeletal mounts are lacking elements including the sterna, sternal ribs, furcula, and gastralia.
Even after all of Ostrom’s work, several small blocks of lime-encased material remained unprepared in storage at the American Museum. These consisted mostly of isolated bones and bone fragments, including the original matrix, or surrounding rock in which the specimens were initially buried. An examination of these unprepared blocks by Gerald Grellet-Tinner and Peter Makovicky in 2000 revealed an interesting, overlooked feature. Several long, thin bones identified on the blocks as ossified tendons (structures which helped stiffen the tail of Deinonychus ) turned out to actually represent Gastralium|gastralia (abdominal ribs). More significantly, a large number of previously unnoticed fossilized eggshells were discovered in the rock matrix which had surrounded the original Deinonychus specimen.cite book|last=Makovicky|first=P. J. |coauthors= Grellet-Tinner, G. |year=2000 |chapter=Association between a specimen of Deinonychus antirrhopus and theropod eggshell |editor= Bravo, A.M. and T. Reyes|title= First international symposium on dinosaur eggs and babies,Isona i Conca Dellà Catalonia, Spain, 23–26 September 1999| pages=123–128
In a subsequent, more detailed report on the eggshells, Grellet-Tinner and Makovicky concluded that the Egg (biology)|egg almost certainly belonged to Deinonychus , representing the first dromaeosaurid egg to be identified. Moreover, the external surface of one eggshell was found in close contact with the gastralia suggesting that Deinonychus might have Avian incubation|brooded its eggs. This implies that Deinonychus used body heat transfer as a mechanism for egg incubation, and indicates an endothermy similar to modern birds.cite journal|doi=10.1590/S0031-10492006000100001|last=Grellet-Tinner|first=Gerard|year=2006|title=Oology And The Evolution Of Thermophysiology In Saurischian Dinosaurs: Homeotherm And Endotherm Deinonychosaurians? |journal=Papeis Avulsos de Zoologia |volume=46 |issue=1 |pages=1–10| url= http://www.scielo.br/scielo.php? pid=S0031-10492006000100001& script=sci_arttext| accessdate=2007-07-07 Further study by Gregory Erickson and colleagues finds that this individual was 13 or 14 years old at death and its growth had plateaued. Unlike other theropods in their study of specimens found associated with eggs or nests, it had finished growing at the time of its death.cite journal |last=Erickson |first=Gregory M. |authorlink=Gregory M. Erickson |coauthors=Curry Rogers, Kristina; Varricchio, David J.; Norell, Mark A.; and Xu, Xing |year=2007 |title=Growth patterns in brooding dinosaurs reveals the timing of sexual maturity in non-avian dinosaurs and genesis of the avian condition |journal=Biology Letters |pmid=17638674 |volume=3 |url= http://www.journals.royalsoc.ac.uk/content/6508252h00612424/fulltext.pdf |pmc=2396186 |format=pdf |issue=5 |doi=10.1098/rsbl.2007.0254 |accessdate=2007-07-26 |pages=558–61
Implications
The description in 1969 by Ostrom of Deinonychus has been described as the most important single discovery of dinosaur paleontology in the mid-20th century.cite book|author=Fastovsky, D.E., Weishampel, D.B. |title=The Evolution and Extinction of the Dinosaurs|edition= 2nd| year=2005 |chapter=Theropoda I: Nature Red in Tooth and Claw |editor=Fastovsky, D.E., Weishampel, D.B. |pages=265–299|location= Cambridge |publisher=Cambridge University Press|isbn=0-521-81172-4 The discovery of this clearly active, agile predator did much to change the scientific (and popular) conception of dinosaurs and opened the door to speculation that dinosaurs may have been warm-blooded . This development has been termed the dinosaur renaissance . Several years later, Ostrom noted similarities between the forefeet of Deinonychus and that of birds, an observation which led him to revive the hypothesis that birds are descended from dinosaurs.cite journal|last=Ostrom|first=J. H. |year=1976 |title= Archaeopteryx and the origin of birds |journal=Biological Journal of the Linnean Society |volume=8 |pages=91–182 |doi=10.1111/j.1095-8312.1976.tb00244.x|issue=2 Forty years later, this idea is almost universally accepted.
Because of its extremely bird-like anatomy and close relationship to other dromaeosaurids, paleontologists hypothesize that Deinonychus was probably covered in feathers.cite book |last=Bakker|first=R.T.|authorlink=Robert T. Bakker |year=1986 |title= The Dinosaur Heresies |publisher= Kensington Books|Kensington Publishing |isbn=0-8065-2260-7 |page=310 cite book |author= John A. Long|Long, J.A. ; Schouten, P. |year=2008 |title=Feathered Dinosaurs: The Origin of Birds |publisher= Oxford University Press |isbn=0-19-537266-2 |chapter=Deinonychus|pages=142–143 cite book |last=Dixon|first=Dougal|authorlink=Dougal Dixon |year=2007 |title=The Illustrated Encyclopedia of Dinosaurs |publisher=Lorenz Books|isbn=0-7548-1573-0 |chapter=Fast Hunters|pages=160–161 Clear fossil evidence of modern avian-style feathers exists for several related dromaeosaurids, including Velociraptor and Microraptor , though no direct evidence is yet known for Deinonychus itself.cite journal |last=Turner |first=A.H. |coauthors=Makovicky, P.J.; and Norell, M.A. |year=2007 |title=Feather quill knobs in the dinosaur Velociraptor |journal=Science |volume=317 |issue=5845 |pages=1721|url= http://www.sciencemag.org/cgi/reprint/317/5845/1721.pdf |format=pdf |doi=10.1126/science.1145076 |pmid=17885130 When conducting studies of such areas as range of motion in the forelimbs, paleontologists like Phil Senter have taken the likely presence of Flight feather#Remiges|wing feathers (as present in all known dromaeosaurs with skin impressions) into consideration.
Paleobiology and paleoecology
Geological evidence suggests that Deinonychus inhabited a floodplain or swamp like habitat. The paleoenvironment of both the upper Cloverly Formation and the Antlers Formation , in which remains of Deinonychus have been found, consisted of tropical or sub-tropical forests, River delta|deltas and lagoons, not unlike today's Louisiana .cite journal | last1 = Forster | first1 = C. A. | year = 1984 | title = The paleoecology of the ornithopod dinosaur Tenontosaurus tilletti from the Cloverly Formation, Big Horn Basin of Wyoming and Montana | url = | journal = The Mosasaur | volume = 2 | issue = | pages = 151–163 Other animals Deinonychus shared its world with include herbivorous dinosaurs such as the armored Sauropelta and the ornithopods Zephyrosaurus and Tenontosaurus . In Oklahoma, the ecosystem of Deinonychus also included the large theropod Acrocanthosaurus , the huge sauropod Sauroposeidon , the crocodilian Goniopholis , and the gar Lepisosteus .cite journal|last=Wedel|first=M. J. |coauthors=Cifelli, R. L. |year=2005 |title= Sauroposeidon : Oklahoma's Native Giant |journal=Oklahoma Geology Notes |volume=65| issue=2 |pages=40–57 |url= http://sauroposeidon.net/Wedel-Cifelli_2005_native-giant-plus-cover.pdf |format=PDF| accessdate=2007-07-07 If the teeth found in Maryland are those of Deinonychus , then its neighbors would include Astrodon and a nodosaur (called Priconodon ) only known from teeth. The middle portion of the Cloverly Formation ranges in age from 115 ± 10& nbsp;Ma near the basecite journal |last=Chen |first=Z.-Q. |coauthors=and Lubin, S. |year=1997 |title=A fission track study of the terrigenous sedimentary sequences of the Morrison and Cloverly Formations in northeastern Bighorn Basin, Wyoming |journal=The Mountain Geologist |volume=34 |pages=51–62 to 108.5 ± 0.2& nbsp;Ma near the top.cite journal |last=Burton |first=D. |coauthors=Greenhalgh, B.W.; Britt, B.B.; Kowallis, B.J.; Elliott, W.S.; and Barrick, R. |year=2006 |title=New radiometric ages from the Cedar Mountain Formation, Utah and the Cloverly Formation, Wyoming: implications for contained dinosaur faunas |journal=Geological Society of America Abstracts with Programs |volume=38 |issue=7 |page=52 In a 2001 study conducted by Bruce Rothschild and other paleontologists, 43 hand bones and 52 foot bones referred to Deinonychus were examined for signs of stress fracture , but none were found.Rothschild, B., Tanke, D. H., and Ford, T. L., 2001, Theropod stress fractures and tendon avulsions as a clue to activity: In: Mesozoic Vertebrate Life, edited by Tanke, D. H., and Carpenter, K., Indiana University Press, p. 331-336.
Predatory behavior
Deinonychus teeth found in association with fossils of the ornithopod dinosaur Tenontosaurus are quite common in the Cloverly Formation. Two quarries have been discovered that preserve fairly complete Deinonychus fossils near Tenontosaurus fossils. The first, the Yale quarry in the Cloverly of Montana, includes numerous teeth, four adult Deinonychus and one juvenile Deinonychus . The association of this number of Deinonychus skeleton s in a single quarry suggests that Deinonychus may have fed on that animal, and perhaps hunted it. Ostrom and Maxwell have even used this information to speculate that Deinonychus might have lived and hunted in packs.cite journal|doi=10.1080/02724634.1995.10011256|last=Maxwell|first=W. D. |coauthors=Ostrom, J.H. |year=1995 |title=Taphonomy and paleobiological implications of Tenontosaurus – Deinonychus associations|journal=Journal of Vertebrate Paleontology |volume=15 |issue=4 |pages=707–712 ( http://www.vertpaleo.org/publications/jvp/15-707-712.cfm abstract) The second such quarry is from the Antlers Formation of Oklahoma. The site contains six partial skeletons of Tenontosaurus of various sizes, along with one partial skeleton and many teeth of Deinonychus . One tenontosaur humerus even bears what might be Deinonychus tooth marks. Brinkman et al. (1998) point out that Deinonychus had an adult mass of 70–100 kilograms, whereas adult tenontosaurs were 1–4 metric tons. A solitary Deinonychus could not kill an adult tenontosaur, suggesting that pack hunting is possible.
A 2007 study by Roach and Brinkman has called into question the cooperative pack hunting behavior of Deinonychus , based on what is known of modern carnivore hunting and the taphonomy of tenontosaur sites. Modern archosaur s ( bird s and crocodile s) and komodo dragon s display little cooperative hunting; instead, they are usually either solitary hunters, or are drawn to previously killed carcasses, where much conflict occurs between individuals of the same species. For example, in situations where groups of komodo dragons are eating together, the largest individuals eat first and will attack smaller komodos that attempt to feed; if the smaller animal is killed, it is cannibalism (zoology)|cannibalized . When this information is applied to the tenontosaur sites, it appears that what is found is consistent with Deinonychus having a komodo- or crocodile-like feeding strategy. Deinonychus skeletal remains found at these sites are from subadults, with missing parts consistent with having been eaten by other Deinonychus .cite journal|last=Roach|first=B. T.|coauthors=D. L. Brinkman |year=2007 |title=A reevaluation of cooperative pack hunting and gregariousness in Deinonychus antirrhopus and other nonavian theropod dinosaurs|journal=Bulletin of the Peabody Museum of Natural History |volume=48 |issue=1 |pages=103–138 |doi=10.3374/0079-032X(2007)48103:AROCPH2.0.CO;2 On the other hand, a paper by Li et al. describes track sites with similar foot spacing and parallel trackways, implying gregarious packing behavior instead of uncoordinated feeding behavior.cite journal|last=Li|first=Rihui|doi=10.1007/s00114-007-0310-7|title=Behavioral and faunal implications of Early Cretaceous deinonychosaur trackways from China |journal=Naturwissenschaften|pmid=17952398 |volume=95 |issue=3|year=2007|last2=Lockley|first2=Martin G.|last3=Makovicky|first3=Peter J.|last4=Matsukawa|first4=Masaki|last5=Norell|first5=Mark A.|last6=Harris|first6=Jerald D.|last7=Liu|first7=Mingwei|pages=185–91
In 2011, Denver Fowler and colleagues suggested a new method by which Deinonychus and other dromaeosaurs may have captured and restrained prey. This model, known as the "raptor prey restraint" (RPR) model of predation, proposes that Deinonychus killed its prey in a manner very similar to extant Accipitridae|accipitrid birds of prey : by leaping onto its quarry, pinning it under its body weight, and gripping it tightly with the large, sickle-shaped claws. Like accipitrids, the dromaeosaur would then begin to feed on the animal while still alive, until it eventually died from blood loss and organ failure. This proposal is based primarily on comparisons between the morphology and proportions of the feet and legs of dromaeosaurs to several groups of extant birds of prey with known predatory behaviors. Fowler found that the feet and legs of dromaeosaurs most closely resemble those of eagle s and hawk s, especially in terms of having an enlarged second claw and a similar range of grasping motion. The short Tarsometatarsus|metatarsus and foot strength, however, would have been more similar to that of owl s. The RPR method of predation would be consistent with other aspects of Deinonychus s anatomy, such as their unusual jaw and arm morphology. The arms were likely covered in long feathers, and may have been used as flapping stabilizers for balance while atop a struggling prey animal, along with the stiff counterbalancing tail. The jaws, thought to have had a comparatively weak bite force, would have been useful for eating prey alive but not as useful for quick, forceful dispatch of the prey (since modern animals that do this have unique specializations that dromaeosaurs lacked). These predatory adaptations working together may also have implications for the Origin of avian flight|origin of flapping in paravian s.
Bite force
Bite force estimates for Deinonychus were first produced in 2005, based on reconstructed jaw musculature. This study concluded that Deinonychus likely had a maximum bite force only 15% that of the modern American Alligator .Therrien, F., Henderson, D.M. and Huff, C.B. (2005). "Bite me: biomechanical models of theropod mandibles and implications for feeding behavior." Pp. 179–237 in Carpenter, K. (ed.), The Carnivorous Dinosaurs . Indianapolis: Indiana University Press. A 2010 study by Paul Gignac and colleagues attempted to estimate the bite force based directly on newly discovered Deinonychus tooth puncture marks in the bones of a Tenontosaurus . These puncture marks came from a large individual, and provided the first evidence that large Deinonychus could bite through bone. Using the tooth marks, Gignac's team were able to determine that the bite force of Deinonychus was significantly higher than earlier studies had estimated by biomechanical studies alone. They found the bite force of Deinonychus to be between 4,100 and 8,200 Newton (unit)|newtons , greater than living carnivorous mammals including the hyena , and equivalent to a similarly sized alligator.
Gignac and colleagues also noted, however, that bone puncture marks from Deinonychus are relatively rare, and unlike larger theropods with many known puncture marks like Tyrannosaurus , Deinonychus probably did not frequently bite through or eat bone. Instead, they probably used their high bite force in defense or prey capture, rather than feeding.cite journal | last1 = Gignac | first1 = P.M. | last2 = Makovicky | first2 = P.J. | last3 = Erickson | first3 = G.M. | last4 = Walsh | first4 = R.P. | year = 2010 | title = A description of Deinonychus antirrhopus bite marks and estimates of bite force using tooth indentation simulations | url = | journal = Journal of Vertebrate Paleontology | volume = 30 | issue = 4| pages = 1169–1177 | doi = 10.1080/02724634.2010.483535
Limb function
Despite being the most distinctive feature of Deinonychus , the shape and curvature of the sickle claw varies between specimens. The type specimen described by Ostrom in 1969 has a strongly curved sickle claw, while a newer specimen described in 1976 had a claw with much weaker curvature, more similar in profile with the 'normal' claws on the remaining toes.cite journal |last=Ostrom |first=J. H. |year=1976 |title=On a new specimen of the Lower Cretaceous theropod dinosaur Deinonychus antirrhopus |url= http://biostor.org/reference/4109 |journal=Breviora |volume=439 |pages=1–21 Ostrom suggested that this difference in the size and shape of the sickle claws could be due to individual, sexual, or age-related variation, but admitted he could not be sure.
There is anatomical and trackwaycite journal |last=Li |first=Rihui |last2=Lockley |first2=Martin G. |last3=Makovicky |first3=Peter J. |last4=Matsukawa |first4=Masaki |last5=Norell |first5=Mark A. |last6=Harris |first6=Jerald D. |last7=Liu |first7=Mingwei |year=2007 |title=Behavioral and faunal implications of deinonychosaur trackways from China |journal=Naturwissenschaften |volume= 95|issue= 3|pages= 185–91|doi=10.1007/s00114-007-0310-7 |pmid=17952398 evidence that this talon was held up off the ground while the dinosaur walked on the third and fourth toes.
Ostrom suggested that Deinonychus could kick with the sickle claw to cut and slash at its prey. Some researchers even suggested that the talon was used to disembowel large ceratopsian dinosaurs.Adams, Dawn (1987) "The bigger they are, the harder they fall: Implications of ischial curvature in ceratopsian dinosaurs" pg 1–6 in Currie, Philip J. and Koster, E. (eds) Fourth symposium on mesozoic terrestrial ecosystems. Tyrrell Museum, Drumheller, Canada Other studies have suggested that the sickle claws were not used to slash but rather to deliver small stabs to the victim.cite journal |last=Carpenter |first=K. |year=1998| title=Evidence of predatory behavior by carnivorous dinosaurs |journal=Gaia |volume=15 |pages=135–144 Manning et al. (2005) ran tests on a robotic replica that precisely matched the anatomy of Deinonychus and Velociraptor , and used hydraulic rams to make the robot strike a pig carcass. In these tests the talons made only shallow punctures and could not cut or slash. The authors suggested that the talons would have been more effective in climbing than in dealing killing blows.cite journal |last=Manning |first=Phil L. |last2=Payne |first2=David |last3=Pennicott |first3=John |last4=Barrett |first4=Paul M. |last5=Ennos |first5=Roland A.|year=2006 |title=Dinosaur killer claws or climbing crampons? |journal=Biology Letters |volume=2 |issue= 1 |pages=110–112 |doi=10.1098/rsbl.2005.0395 |pmid=17148340 |pmc=1617199
Ostrom compared Deinonychus to the ostrich and cassowary . He noted that the bird species can inflict serious injury with the large claw on the second toe. The cassowary has claws up to convert|125|mm|in long.cite book |last=Davies |first=S. J. J. F. |year=2002 |title=Ratites and Tinamous |publisher=Oxford University Press |location=New York |isbn=0-19-854996-2 Ostrom cited Gilliard (1958) in saying that they can sever an arm or disembowel a man.cite book |last=Gilliard |first=E. T. |year=1958 |title=Living birds of the world |publisher=Doubleday |location=Garden City, NY Kofron (1999 and 2003) studied 241 documented cassowary attacks and found that one human and two dogs had been killed, but no evidence that cassowary|cassowaries can disembowel or dismember other animals.Kofron, Chhristopher P. (1999) "Attacks to humans and domestic animals by the southern cassowary ( Casuarius casuarius johnsonii ) in Queensland, Australiacite journal | last1 = Kofron | first1 = Christopher P. | year = 2003 | title = Case histories of attacks by the southern cassowary in Queensland | url = | journal = Memoirs of the Queensland Museum | volume = 49 | issue = 1| pages = 335–338 cassowary|Cassowaries use their claws to defend themselves, to attack threatening animals, and in agonistic displays such as the Bowed Threat Display. The seriema also has an enlarged second toe claw, and uses it to tear apart small prey items for swallowing.cite journal | last1 = Redford | first1 = Kent H. | last2 = Peters | first2 = Gustav | year = | title = Notes on the biology and song of the red-legged seriema (cariama cristata) | url = | journal = Journal of Field Ornithology | volume = 57 | issue = 4| pages = 261–269 In 2011, a study suggested that the sickle claw would likely had been used to pin down prey while biting it, rather than as a slashing weapon.Cite doi|10.1371/journal.pone.0028964 Biomechanical studies by Kenneth Carpenter|Ken Carpenter in 2002 confirmed that the most likely function of the forelimbs in predation was grasping, as their great lengths would have permitted longer reach than for most other theropods. The rather large and elongated coracoid , indicating powerful muscles in the forelimbs, further strengthened this interpretation.cite journal |last=Carpenter |first=K. |year=2002 |title=Forelimb biomechanics of nonavian theropod dinosaurs in predation |journal= Senckenbergiana Lethaea |volume=82 |pages=59–76 |doi=10.1007/BF03043773 Carpenter's biomechanical studies using bone casts also showed that Deinonychus could not fold its arms against its body like a bird ("avian folding"), contrary to what was inferred from the earlier 1985 descriptions by Jacques Gauthier cite conference |last=Gauthier |first=J. |coauthors=Padian, K. |year=1985 |title=Phylogenetic, Functional, And Aerodynamic Analyses Of The Origin Of Birds And Their Flight |editor=M.K. Hecht, J.H. Ostrom, G. Viohl, & P. Wellnhofer (eds)|conference=The Beginnings Of Birds| booktitle=proceedings of the International Archaeopteryx Conference, Eichstätt, 1984| location=Eischtatt |publisher=Freunde des Jura-Museums Eichstätt|pages=185–197| id=isbn 3-9801178-0-4 and Gregory S. Paul in 1988.
Studies by Phil Senter in 2006 indicated that Deinonychus forelimbs could be used not only for grasping but also for clutching objects towards the chest. If Deinonychus had feathered fingers and wings, the feathers would have limited the range of motion of the forelimbs to some degree. For example, when Deinonychus extended its arm forward, the 'palm' of the hand automatically rotated to an upward-facing position. This would have caused one wing to block the other if both forelimbs were extended at the same time, leading Senter to conclude that clutching objects to the chest would have only been accomplished with one arm at a time. The function of the fingers would also have been limited by feathers; for example, only the third digit of the hand could have been employed in activities such as probing crevices for small prey items, and only in a position perpendicular to the main wing.cite journal |last=Senter |first=P. |year=2006 |title=Comparison of Forelimb Function Between Deinonychus And Bambiraptor (Theropoda: Dromaeosauridae)|journal=Journal of Vertebrate Paleontology |volume=26 |issue=4 |pages=897–906| doi=10.1671/0272-4634(2006)26897:COFFBD2.0.CO;2 Alan Gishlick , in a 2001 study of Deinonychus forelimb mechanics, found that even if large wing feathers were present, the grasping ability of the hand would not have been significantly hindered; rather, grasping would have been accomplished perpendicular to the wing, and objects likely would have been held by both hands simultaneously in a "bear hug" fashion, findings which have been supported by the later forelimb studies by Carpenter and Senter.cite book|title=New Perspectives on the Origin and Early Evolution of Birds |edition= |year=2001 |chapter= The function of the manus and forelimb of Deinonychus antirrhopus and its importance for the origin of avian flight |editor=Gauthier, J. and Gall, L.F. |author=Gishlick, A.D. |pages=301–318| location=New Haven|publisher=Yale Peabody Museum|isbn=
Parsons and Parsons have shown that juvenile and sub-adult specimens of Deinonychus display some morphological differences with the adults. For instance, the arms of the younger specimens were proportionally longer than those of the adults, a possible indication of difference in behavior between young and adults.cite journal |last=Parsons |first=W. |coauthors=and Parsons, K. |year=2006 |title=Morphology and size of an adult specimen of Deinonychus antirrhopus , (Saurischia, Theropoda) |journal=Journal of Vertebrate Paleontology |volume=26 |issue=3 sup. |page=109A Another example of this could be the function of the pedal claws. Parsons and Parsons have suggested that the claw curvature (which Ostrom 1976 had already shown was different between specimens) maybe was greater for juvenile Deinonychus , as this could help it climb in trees, and that the claws became straighter as the animal became older and started to live solely on the ground.cite journal |last=Parsons |first=W. L. |coauthors=and Parsons, K. M. |year=2009 |title=Further descriptions of the osteology of Deinonychus antirrhopus (Saurischia, Theropoda) |journal=Bulletin of the Buffalo Society of Natural Sciences |volume=38 |pages=43–54 |url= http://www.sciencebuff.org/content/files/science-staff/Parsons,%20Bill/Further%20Descriptions%20of%20the%20Osteology%20of%20Deinonychus%20Antirrhopus.pdf This was based on the hypothesis that some small dromaeosaurids used their pedal claws for climbing.
Speed
Dromaeosaurids, especially Deinonychus , are often depicted as unusually fast-running animals in the popular media, and Ostrom himself speculated that Deinonychus was fleet-footed in his original description. However, when first described, a complete leg of Deinonychus had not been found, and Ostrom's speculation about the length of the femur (upper leg bone) later proved to have been an overestimate. In a later study, Ostrom noted that the ratio of the femur to the tibia (lower leg bone) is not as important in determining speed as the relative length of the foot and lower leg. In modern, fleet-footed birds like the ostrich , the foot-tibia ratio is .95. In unusually fast-running dinosaurs like Struthiomimus , the ratio is .68, but in Deinonychus , the ratio is .48. Ostrom stated that the "only reasonable conclusion" is that Deinonychus was not particularly fast compared to other dinosaurs, and certainly not as fast as modern flightless birds.
The low foot to lower leg ratio in Deinonychus is due partly to an unusually short metatarsus (upper foot bones). The ratio is actually larger in smaller individuals than in larger ones. Ostrom suggested that the short metatarsus may be related to the function of the sickle claw, and used the fact that it appears to get shorter as individuals aged as support for this. He interpreted all these features& nbsp;– the short second toe with enlarged claw, short metatarsus, etc.& nbsp;– as support for the use of the hind leg as an offensive weapon, where the sickle claw would strike downwards and backwards, and the leg pulled back and down at the same time, slashing and tearing at the prey. Ostrom suggested that the short metatarsus reduced overall stress on the leg bones during such an attack, and interpreted the unusual arrangement of muscle attachments in the Deinonychus leg as support for his idea that a different set of muscles were used in the predatory stroke than in walking or running. Therefore, Ostrom concluded that the legs of Deinonychus represented a balance between running adaptations needed for an agile predator, and stress-reducing features to compensate for its unique foot weapon.
In his 1981 study of Canadian dinosaur footprints, Richard Kool produced rough walking speed estimates based on several trackways made by different species in the Gething Formation of British Columbia . Kool estimated one of these trackways, representing the Ichnotaxon|ichnospecies Irenichnites gracilis (which may have been made by Deinonychus ), to have a walking speed of 10.1 kilometers per hour (6 miles per hour).cite journal | last1 = Kool | first1 = R. | year = 1981 | title = The walking speed of dinosaurs from the Peace River Canyon, British Columbia, Canada | url = | journal = Canadian Journal of Earth Science | volume = 18 | issue = 4| pages = 823–825 | doi = 10.1139/e81-077
Eggs
The identification in 2000 of a probable Deinonychus egg associated with one of the original specimens allowed comparison with other theropod dinosaurs in terms of egg structure, nesting, and reproduction. In their 2006 examination of the specimen, Grellet-Tinner and Makovicky examined the possibility that the dromaeosaurid had been feeding on the egg, or that the egg fragments had been associated with the Deinonychus skeleton by coincidence. They dismissed the idea that the egg had been a meal for the theropod, noting that the fragments were sandwiched between the belly ribs and forelimb bones, making it impossible that they represented contents of the animal's stomach. In addition, the manner in which the egg had been crushed and fragmented indicated that it had been intact at the time of burial, and was broken by the fossilization process. The idea that the egg was randomly associated with the dinosaur was also found to be unlikely; the bones surrounding the egg had not been scattered or disarticulated, but remained fairly intact relative to their positions in life, indicating that the area around and including the egg was not disturbed during preservation. The fact that these bones were belly ribs ( gastralium|gastralia ), which are very rarely found articulated, supported this interpretation. All the evidence, according to Grellet-Tinner and Makovicky, indicates that the egg was intact beneath the body of the Deinonychus when it was buried. It is possible that this represents brooding or nesting behavior in Deinonychus similar to that seen in the related troodontid s and oviraptorid s, or that the egg was in fact inside the oviduct when the animal died.
Examination of the Deinonychus egg's microstructure confirms that it belonged to a theropod, since it shares characteristics with other known theropod eggs and shows dissimilarities with ornithischia n and sauropod eggs. Compared to other maniraptora n theropods, the egg of Deinonychus is more similar to those of oviraptorid s than to those of troodontid s, despite studies which show the latter are more closely related to dromaeosaurids like Deinonychus . While the egg was too badly crushed to accurately determine its size, Grellet-Tinner and Makovicky estimated a diameter of about 7& nbsp;cm (2.7& nbsp;in) based on the width of the pelvic canal through which the egg had to have passed. This size is similar to the 7.2& nbsp;cm diameter of the largest Citipati (an oviraptorid) eggs; Citipati and Deinonychus also shared the same overall body size, supporting this estimate. Additionally, the thicknesses of Citipati and Deinonychus eggshells are almost identical, and since shell thickness correlates with egg volume, this further supports the idea that the eggs of these two animals were about the same size.
Pathology
See also|Theropod paleopathologyThe second phalanx of the second toe in the specimen YPM 5205 has a healed fracture.Molnar, R. E., 2001, Theropod paleopathology: a literature survey: In: Mesozoic Vertebrate Life, edited by Tanke, D. H., and Carpenter, K., Indiana University Press, p. 337-363.
