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Chirostenotes

December 15, 2023

Chirostenotes (/ˌkrstɪˈntz/ KY-roh-stin-OH-teez; named from Greek 'narrow-handed') is a genus of oviraptorosaurian dinosaur from the late Cretaceous (about 76.5 million years ago) of Alberta, Canada. The type species is Chirostenotes pergracilis.[1]

Chirostenotes
Temporal range: Late Cretaceous, 76.5 Ma
Skeletal diagram showing known elements
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Family: Caenagnathidae
Genus: Chirostenotes
Gilmore, 1924
Type species
Chirostenotes pergracilis
Gilmore, 1924
Synonyms
  • Macrophalangia canadensis Sternberg, 1932
  • Caenagnathus sternbergi? Cracraft, 1971

History of discovery edit

 
Holotype hands

Chirostenotes has a confusing history of discovery and naming. The first fossils of Chirostenotes, a pair of hands, were in 1914 found by George Fryer Sternberg near Little Sandhill Creek in the Campanian Dinosaur Park Formation of Canada, which has yielded the most dinosaurs of any Canadian formation. The specimens were studied by Lawrence Morris Lambe who, however, died before being able to formally name them. In 1924, Charles Whitney Gilmore adopted the name he found in Lambe's notes and described and named the type species Chirostenotes pergracilis. The generic name is derived from Greek cheir, "hand", and stenotes, "narrowness". The specific name means "throughout", per~, "gracile", gracilis, in Latin. The holotype is NMC 2367, the pair of hands.[1] Another fossil connected to Chirostenotes is specimen CMN 8776, a set of jaws with strange teeth, which were originally referred by Gilmore to Chirostenotes pergracilis. Now that it is known that Chirostenotes was a toothless oviraptorosaur, the jaws have been renamed Richardoestesia and are from an otherwise unknown dinosaur, likely a dromaeosaurid.[2]

Chirostenotes was but the first name assigned. Feet were then found, specimen CMN 8538, and in 1932 Charles Mortram Sternberg gave them the name Macrophalangia canadensis, meaning 'large toes from Canada'.[3] Sternberg correctly recognized them as part of a meat-eating dinosaur but thought they belonged to an ornithomimid. In 1936, its lower jaws, specimen CMN 8776, were found by Raymond Sternberg near Steveville and in 1940 he gave them the name Caenagnathus collinsi. The generic name means 'recent jaw' from Greek kainos, "new", and gnathos, "jaw"; the specific name honours William Henry Collins. The toothless jaws were first thought to be those of a bird.[4]

Slowly the precise relationship between the finds became clear. In 1960 Alexander Wetmore concluded that Caenagnathus was not a bird but an ornithomimid.[5] In 1969 Edwin Colbert and Dale Russell suggested that Chirostenotes and Macrophalangia were one and the same animal.[6] In 1976 Halszka Osmólska described Caenagnathus as an oviraptorosaurian.[7] In 1981 the announcement of Elmisaurus, an Asian form of which both hand and feet had been preserved, showed the soundness of Colbert and Russell's conjecture.

 
Pelvic elements of assigned specimen TMP 1979.020.0001

In 1988, a specimen from storage since 1923 was discovered and studied by Philip J. Currie and Dale Russell. This fossil helped link the other discoveries into a single dinosaur. Since the first name applied to any of these remains was Chirostenotes, this were the only name that was recognized as valid.[8]

Currie and Russell also addressed the complicating issue of a possible second form being present in the material. In 1933 William Arthur Parks had named Ornithomimus elegans, based on specimen ROM 781, another foot from Alberta.[9] In 1971, Joël Cracraft, still under the assumption Caenagnathus was a bird, had named a second species of Caenagnathus: Caenagnathus sternbergi, based on specimen CMN 2690, a small lower jaw. In 1988 Russell and Currie concluded that these fossils might present a more gracile morph of Chirostenotes pergracilis. In 1989 however, Currie thought that they represented a separate smaller species, and named this as a second species of the closely related Elmisaurus: Elmisaurus elegans.[10] In 1997, this was renamed to Chirostenotes elegans by Hans-Dieter Sues.[11] The species was moved to the new genus Leptorhynchos in 2013.[12]

Several larger skeletons from the early Maastrichtian Horseshoe Canyon Formation of Alberta and the late Maastrichtian Hell Creek Formation of Montana and South Dakota have been referred to Chirostenotes in the past, though more recent studies concluded that they represent several new species.[13] The Horseshore Canyon formation specimen was renamed Epichirostenotes in 2011, while the Hell Creek Formation specimens have been referred to the genus Anzu.[14]

In 2007 a cladistic study by Philip Senter cast doubt on the idea that all of the large Dinosaur Park Formation fossils belonged to the same creature. Coding the original hand and jaw specimens separately showed that while the Caenagnathus holotype remained in the more basal position in the Caenagnathidae commonly assigned to it, the Chirostenotes pergracilis holotype was placed as an advanced oviraptorosaurian and an oviraptorid.[15] Subsequent studies found that the Caenagnathus jaws did in fact group together with other traditional caenagnathids, but not necessarily Chirostenotes.[14] New specimens described by Funston et al. (2015) and Funston & Currie (2020) indicated that Chirostenotes is a distinct form from Caenagnathus.[16]

Description edit

 
Life restoration

Chirostenotes was characterized by long arms ending in slender relatively straight claws, and long powerful legs with slender toes. In 2016 Paul estimated its length at 2.5 metres (8.2 ft) and its weight at 100 kg (220 lbs).[17]

Classification edit

The cladogram below follows an analysis by Funston & Currie in 2016, which found Elmisaurus within Caenagnathidae.[18]

Paleobiology edit

 
Mandible of Caenagnathus (left) compared to that of Chirostenotes (right)

Chirostenotes was probably an omnivore or herbivore, based on evidence from the beaks of related species like Anzu wyliei and Caenagnathus collinsi.[19]

In 2005 Phil Senter and J. Michael Parrish published a study on the hand function of Chirostenotes and found that its elongated second finger with its unusually straight claw may have been an adaptation to crevice probing. They suggested that Chirostenotes may have fed on soft-bodied prey that could be impaled by the second claw, such as grubs, as well as unarmored amphibians, reptiles, and mammals.[20] However, if Chirostenotes possessed the large primary feathers on its second finger that have been found in other oviraptorosaurs such as Caudipteryx, it would not have been able to engage in such behavior.[21]

Paleopathology edit

In 2001, Bruce Rothschild and others published a study examining evidence for stress fractures and tendon avulsions in theropod dinosaurs and the implications for their behavior. They found that only one of the 17 Chirostenotes foot bones checked for stress fractures actually had them.[22]

See also edit

References edit

  1. ^ a b Gilmore, C.W. (1924). "A new coelurid dinosaur from the Belly River Cretaceous of Alberta". Canada Department of Mines Geological Survey Bulletin (Geological Series). 38 (43): 1–12.
  2. ^ Currie, P.J., Rigby, Jr., J.K., and Sloan, R.E. (1990). Theropod teeth from the Judith River Formation of southern Alberta, Canada. In: Carpenter, K., and Currie, P.J. (eds.). Dinosaur Systematics: Perspectives and Approaches. Cambridge University Press:Cambridge, 107-125. ISBN 0-521-36672-0.
  3. ^ Sternberg, C.M. (1932). "Two new theropod dinosaurs from the Belly River Formation of Alberta". Canadian Field-Naturalist. 46 (5): 99–105.
  4. ^ Sternberg, R.M. (1940). "A toothless bird from the Cretaceous of Alberta". Journal of Paleontology. 14 (1): 81–85.
  5. ^ Wetmore, A. 1960. A classification for the birds of the world. Smithsonian Miscellaneous Collections 139 (11): 1–37
  6. ^ E.H. Colbert and D.A. Russell, 1969, "The small Cretaceous dinosaur Dromaeosaurus", Amer. Mus. Novit., No. 2380, pp. 1-49
  7. ^ Osmólska, H. (1976). "New light on the skull anatomy and systematic position of Oviraptor". Nature. 262 (5570): 683–684. Bibcode:1976Natur.262..683O. doi:10.1038/262683a0. S2CID 4180155.
  8. ^ Currie, P.J.; Russell, D.A. (1988). "Osteology and relationships of Chirostenotes pergracilis (Saurischia, Theropoda) from the Judith River (Oldman) Formation of Alberta, Canada". Canadian Journal of Earth Sciences. 25 (7): 972–986. Bibcode:1988CaJES..25..972C. doi:10.1139/e88-097.
  9. ^ Parks, W.A. (1933). "New species of dinosaurs and turtles from the Upper Cretaceous formations of Alberta". University of Toronto Studies, Geological Series. 34: 1–33.
  10. ^ Currie, P.J. (1989). "The first records of Elmisaurus (Saurischia, Theropoda) from North America". Canadian Journal of Earth Sciences. 26 (6): 1319–1324. Bibcode:1989CaJES..26.1319C. doi:10.1139/e89-111.
  11. ^ Sues, H.D. (1997). "On Chirostenotes, a Late Cretaceous oviraptorosaur (Dinosauria: Theropoda) from Western North America". Journal of Vertebrate Paleontology. 17 (4): 698–716. doi:10.1080/02724634.1997.10011018.
  12. ^ Longrich, N. R.; Barnes, K.; Clark, S.; Millar, L. (2013). "Caenagnathidae from the Upper Campanian Aguja Formation of West Texas, and a Revision of the Caenagnathinae". Bulletin of the Peabody Museum of Natural History. 54: 23–49. doi:10.3374/014.054.0102. S2CID 128444961.
  13. ^ Robert M. Sullivan, Steven E. Jasinski and Mark P.A. Van Tomme (2011). "A new caenagnathid Ojoraptorsaurus boerei, n. gen., n. sp. (Dinosauria, Oviraptorosauria), from the Upper Ojo Alamo Formation (Naashoibito Member), San Juan Basin, New Mexico" (PDF). Fossil Record 3. New Mexico Museum of Natural History and Science Bulletin. 53: 418–428.
  14. ^ a b Lamanna, M. C.; Sues, H. D.; Schachner, E. R.; Lyson, T. R. (2014). "A New Large-Bodied Oviraptorosaurian Theropod Dinosaur from the Latest Cretaceous of Western North America". PLOS ONE. 9 (3): e92022. Bibcode:2014PLoSO...992022L. doi:10.1371/journal.pone.0092022. PMC 3960162. PMID 24647078.
  15. ^ Senter, P (2007). "A new look at the phylogeny of Coelurosauria (Dinosauria: Theropoda)". Journal of Systematic Palaeontology. 5 (4): 429–463. doi:10.1017/s1477201907002143. S2CID 83726237.
  16. ^ Funston, G. F.; Persons, W. S.; Bradley, G. J.; Currie, P. J. (2015). "New material of the large-bodied caenagnathid Caenagnathus collinsi from the Dinosaur Park Formation of Alberta, Canada". Cretaceous Research. 54: 179–187. doi:10.1016/j.cretres.2014.12.002.
  17. ^ Paul, Gregory S. (2016). The Princeton Field Guide to Dinosaurs 2nd Edition. New Jersey: Princeton University Press. p. 176.
  18. ^ Gregory F. Funston and Philip J. Currie (2016). "A new caenagnathid (Dinosauria: Oviraptorosauria) from the Horseshoe Canyon Formation of Alberta, Canada, and a reevaluation of the relationships of Caenagnathidae". Journal of Vertebrate Paleontology. 36 (4): e1160910. doi:10.1080/02724634.2016.1160910. S2CID 131090028.
  19. ^ Funston, Gregory F.; Currie, Philip J. (February 2014). "A previously undescribed caenagnathid mandible from the late Campanian of Alberta, and insights into the diet of Chirostenotes pergracilis (Dinosauria: Oviraptorosauria)". Canadian Journal of Earth Sciences. 51 (2): 156–165. doi:10.1139/cjes-2013-0186. ISSN 0008-4077.
  20. ^ Senter, P.; Parrish, J.M. (2005). "Functional analysis of the hands of the theropod dinosaur Chirostenotes pergracilis: evidence for an unusual paleoecological role". PaleoBios. 25: 9–19.
  21. ^ Naish, D. (2007). Feathers and Filaments of Dinosaurs, Part II 2010-06-13 at the Wayback Machine Tetrapod Zoology, April 23, 2011.
  22. ^ 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.

December 15, 2023
chirostenotes, stin, teez, named, from, greek, narrow, handed, genus, oviraptorosaurian, dinosaur, from, late, cretaceous, about, million, years, alberta, canada, type, species, pergracilis, temporal, range, late, cretaceous, preꞒ, skeletal, diagram, showing, . Chirostenotes ˌ k aɪ r oʊ s t ɪ ˈ n oʊ t iː z KY roh stin OH teez named from Greek narrow handed is a genus of oviraptorosaurian dinosaur from the late Cretaceous about 76 5 million years ago of Alberta Canada The type species is Chirostenotes pergracilis 1 ChirostenotesTemporal range Late Cretaceous 76 5 Ma PreꞒ Ꞓ O S D C P T J K Pg N Skeletal diagram showing known elementsScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClade DinosauriaClade SaurischiaClade TheropodaFamily CaenagnathidaeGenus ChirostenotesGilmore 1924Type speciesChirostenotes pergracilisGilmore 1924SynonymsMacrophalangia canadensis Sternberg 1932 Caenagnathus sternbergi Cracraft 1971 Contents 1 History of discovery 2 Description 3 Classification 4 Paleobiology 4 1 Paleopathology 5 See also 6 ReferencesHistory of discovery edit nbsp Holotype handsChirostenotes has a confusing history of discovery and naming The first fossils of Chirostenotes a pair of hands were in 1914 found by George Fryer Sternberg near Little Sandhill Creek in the Campanian Dinosaur Park Formation of Canada which has yielded the most dinosaurs of any Canadian formation The specimens were studied by Lawrence Morris Lambe who however died before being able to formally name them In 1924 Charles Whitney Gilmore adopted the name he found in Lambe s notes and described and named the type species Chirostenotes pergracilis The generic name is derived from Greek cheir hand and stenotes narrowness The specific name means throughout per gracile gracilis in Latin The holotype is NMC 2367 the pair of hands 1 Another fossil connected to Chirostenotes is specimen CMN 8776 a set of jaws with strange teeth which were originally referred by Gilmore to Chirostenotes pergracilis Now that it is known that Chirostenotes was a toothless oviraptorosaur the jaws have been renamed Richardoestesia and are from an otherwise unknown dinosaur likely a dromaeosaurid 2 Chirostenotes was but the first name assigned Feet were then found specimen CMN 8538 and in 1932 Charles Mortram Sternberg gave them the name Macrophalangia canadensis meaning large toes from Canada 3 Sternberg correctly recognized them as part of a meat eating dinosaur but thought they belonged to an ornithomimid In 1936 its lower jaws specimen CMN 8776 were found by Raymond Sternberg near Steveville and in 1940 he gave them the name Caenagnathus collinsi The generic name means recent jaw from Greek kainos new and gnathos jaw the specific name honours William Henry Collins The toothless jaws were first thought to be those of a bird 4 Slowly the precise relationship between the finds became clear In 1960 Alexander Wetmore concluded that Caenagnathus was not a bird but an ornithomimid 5 In 1969 Edwin Colbert and Dale Russell suggested that Chirostenotes and Macrophalangia were one and the same animal 6 In 1976 Halszka Osmolska described Caenagnathus as an oviraptorosaurian 7 In 1981 the announcement of Elmisaurus an Asian form of which both hand and feet had been preserved showed the soundness of Colbert and Russell s conjecture nbsp Pelvic elements of assigned specimen TMP 1979 020 0001In 1988 a specimen from storage since 1923 was discovered and studied by Philip J Currie and Dale Russell This fossil helped link the other discoveries into a single dinosaur Since the first name applied to any of these remains was Chirostenotes this were the only name that was recognized as valid 8 Currie and Russell also addressed the complicating issue of a possible second form being present in the material In 1933 William Arthur Parks had named Ornithomimus elegans based on specimen ROM 781 another foot from Alberta 9 In 1971 Joel Cracraft still under the assumption Caenagnathus was a bird had named a second species of Caenagnathus Caenagnathus sternbergi based on specimen CMN 2690 a small lower jaw In 1988 Russell and Currie concluded that these fossils might present a more gracile morph of Chirostenotes pergracilis In 1989 however Currie thought that they represented a separate smaller species and named this as a second species of the closely related Elmisaurus Elmisaurus elegans 10 In 1997 this was renamed to Chirostenotes elegans by Hans Dieter Sues 11 The species was moved to the new genus Leptorhynchos in 2013 12 Several larger skeletons from the early Maastrichtian Horseshoe Canyon Formation of Alberta and the late Maastrichtian Hell Creek Formation of Montana and South Dakota have been referred to Chirostenotes in the past though more recent studies concluded that they represent several new species 13 The Horseshore Canyon formation specimen was renamed Epichirostenotes in 2011 while the Hell Creek Formation specimens have been referred to the genus Anzu 14 In 2007 a cladistic study by Philip Senter cast doubt on the idea that all of the large Dinosaur Park Formation fossils belonged to the same creature Coding the original hand and jaw specimens separately showed that while the Caenagnathus holotype remained in the more basal position in the Caenagnathidae commonly assigned to it the Chirostenotes pergracilis holotype was placed as an advanced oviraptorosaurian and an oviraptorid 15 Subsequent studies found that the Caenagnathus jaws did in fact group together with other traditional caenagnathids but not necessarily Chirostenotes 14 New specimens described by Funston et al 2015 and Funston amp Currie 2020 indicated that Chirostenotes is a distinct form from Caenagnathus 16 Description edit nbsp Life restorationChirostenotes was characterized by long arms ending in slender relatively straight claws and long powerful legs with slender toes In 2016 Paul estimated its length at 2 5 metres 8 2 ft and its weight at 100 kg 220 lbs 17 Classification editThe cladogram below follows an analysis by Funston amp Currie in 2016 which found Elmisaurus within Caenagnathidae 18 Caenagnathidae Microvenator celerunnamed Gigantoraptor erlianensisunnamed Hagryphus giganteusEpichirostenotes currieiAnzu wylieiCaenagnathus collinsiElmisaurinae Caenagnathasia martinsoniChirostenotes pergracilisCitipes elegansApatoraptor pennatusElmisaurus rarusPaleobiology edit nbsp Mandible of Caenagnathus left compared to that of Chirostenotes right Chirostenotes was probably an omnivore or herbivore based on evidence from the beaks of related species like Anzu wyliei and Caenagnathus collinsi 19 In 2005 Phil Senter and J Michael Parrish published a study on the hand function of Chirostenotes and found that its elongated second finger with its unusually straight claw may have been an adaptation to crevice probing They suggested that Chirostenotes may have fed on soft bodied prey that could be impaled by the second claw such as grubs as well as unarmored amphibians reptiles and mammals 20 However if Chirostenotes possessed the large primary feathers on its second finger that have been found in other oviraptorosaurs such as Caudipteryx it would not have been able to engage in such behavior 21 Paleopathology edit In 2001 Bruce Rothschild and others published a study examining evidence for stress fractures and tendon avulsions in theropod dinosaurs and the implications for their behavior They found that only one of the 17 Chirostenotes foot bones checked for stress fractures actually had them 22 See also edit nbsp Dinosaurs portalTimeline of oviraptorosaur researchReferences edit a b Gilmore C W 1924 A new coelurid dinosaur from the Belly River Cretaceous of Alberta Canada Department of Mines Geological Survey Bulletin Geological Series 38 43 1 12 Currie P J Rigby Jr J K and Sloan R E 1990 Theropod teeth from the Judith River Formation of southern Alberta Canada In Carpenter K and Currie P J eds Dinosaur Systematics Perspectives and Approaches Cambridge University Press Cambridge 107 125 ISBN 0 521 36672 0 Sternberg C M 1932 Two new theropod dinosaurs from the Belly River Formation of Alberta Canadian Field Naturalist 46 5 99 105 Sternberg R M 1940 A toothless bird from the Cretaceous of Alberta Journal of Paleontology 14 1 81 85 Wetmore A 1960 A classification for the birds of the world Smithsonian Miscellaneous Collections 139 11 1 37 E H Colbert and D A Russell 1969 The small Cretaceous dinosaur Dromaeosaurus Amer Mus Novit No 2380 pp 1 49 Osmolska H 1976 New light on the skull anatomy and systematic position of Oviraptor Nature 262 5570 683 684 Bibcode 1976Natur 262 683O doi 10 1038 262683a0 S2CID 4180155 Currie P J Russell D A 1988 Osteology and relationships of Chirostenotes pergracilis Saurischia Theropoda from the Judith River Oldman Formation of Alberta Canada Canadian Journal of Earth Sciences 25 7 972 986 Bibcode 1988CaJES 25 972C doi 10 1139 e88 097 Parks W A 1933 New species of dinosaurs and turtles from the Upper Cretaceous formations of Alberta University of Toronto Studies Geological Series 34 1 33 Currie P J 1989 The first records of Elmisaurus Saurischia Theropoda from North America Canadian Journal of Earth Sciences 26 6 1319 1324 Bibcode 1989CaJES 26 1319C doi 10 1139 e89 111 Sues H D 1997 On Chirostenotes a Late Cretaceous oviraptorosaur Dinosauria Theropoda from Western North America Journal of Vertebrate Paleontology 17 4 698 716 doi 10 1080 02724634 1997 10011018 Longrich N R Barnes K Clark S Millar L 2013 Caenagnathidae from the Upper Campanian Aguja Formation of West Texas and a Revision of the Caenagnathinae Bulletin of the Peabody Museum of Natural History 54 23 49 doi 10 3374 014 054 0102 S2CID 128444961 Robert M Sullivan Steven E Jasinski and Mark P A Van Tomme 2011 A new caenagnathid Ojoraptorsaurus boerei n gen n sp Dinosauria Oviraptorosauria from the Upper Ojo Alamo Formation Naashoibito Member San Juan Basin New Mexico PDF Fossil Record 3 New Mexico Museum of Natural History and Science Bulletin 53 418 428 a b Lamanna M C Sues H D Schachner E R Lyson T R 2014 A New Large Bodied Oviraptorosaurian Theropod Dinosaur from the Latest Cretaceous of Western North America PLOS ONE 9 3 e92022 Bibcode 2014PLoSO 992022L doi 10 1371 journal pone 0092022 PMC 3960162 PMID 24647078 Senter P 2007 A new look at the phylogeny of Coelurosauria Dinosauria Theropoda Journal of Systematic Palaeontology 5 4 429 463 doi 10 1017 s1477201907002143 S2CID 83726237 Funston G F Persons W S Bradley G J Currie P J 2015 New material of the large bodied caenagnathid Caenagnathus collinsi from the Dinosaur Park Formation of Alberta Canada Cretaceous Research 54 179 187 doi 10 1016 j cretres 2014 12 002 Paul Gregory S 2016 The Princeton Field Guide to Dinosaurs 2nd Edition New Jersey Princeton University Press p 176 Gregory F Funston and Philip J Currie 2016 A new caenagnathid Dinosauria Oviraptorosauria from the Horseshoe Canyon Formation of Alberta Canada and a reevaluation of the relationships of Caenagnathidae Journal of Vertebrate Paleontology 36 4 e1160910 doi 10 1080 02724634 2016 1160910 S2CID 131090028 Funston Gregory F Currie Philip J February 2014 A previously undescribed caenagnathid mandible from the late Campanian of Alberta and insights into the diet of Chirostenotes pergracilis Dinosauria Oviraptorosauria Canadian Journal of Earth Sciences 51 2 156 165 doi 10 1139 cjes 2013 0186 ISSN 0008 4077 Senter P Parrish J M 2005 Functional analysis of the hands of the theropod dinosaur Chirostenotes pergracilis evidence for an unusual paleoecological role PaleoBios 25 9 19 Naish D 2007 Feathers and Filaments of Dinosaurs Part II Archived 2010 06 13 at the Wayback Machine Tetrapod Zoology April 23 2011 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 Retrieved from https en wikipedia org w index php title Chirostenotes amp oldid 1125345029, wikipedia, wiki, book, books, library,

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