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Compsognathidae

May 02, 2024

Compsognathidae is a family of coelurosaurian theropod dinosaurs. Compsognathids were small carnivores, generally conservative in form, hailing from the Jurassic and Cretaceous Periods. The bird-like features of these species, along with other dinosaurs such as Archaeopteryx inspired the idea for the connection between dinosaur reptiles and modern-day avian species.[5] Compsognathid fossils preserve diverse integument — skin impressions are known from four genera commonly placed in the group, Compsognathus, Sinosauropteryx, Sinocalliopteryx, and Juravenator.[6] While the latter three show evidence of a covering of some of the earliest primitive feathers over much of the body, Juravenator and Compsognathus also show evidence of scales on the tail or hind legs. "Ubirajara jubatus", informally described in 2020, had elaborate integumentary structures on its back and shoulders superficially similar to the display feathers of a standardwing bird-of-paradise, and unlike any other non-avian dinosaur currently described.

Compsognathidae
Temporal range: Late JurassicEarly Cretaceous, 151.5–108 Ma Possible Late Cretaceous record
Compsognathid skeletons to scale
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Clade: Neocoelurosauria
Family: Compsognathidae
Cope, 1871
Type species
Compsognathus longipes
Wagner, 1861
Genera[3][4]
Synonyms
  • Sinosauropterygidae Ji & Ji, 1996

The first member of the group, Compsognathus, was discovered in 1861, after Johann A. Wagner published his description of the taxon.[7][8][9] The family was created by Edward Drinker Cope in 1875.[10] This classification was accepted by Othniel Charles Marsh in 1882, and added to the Coelurosauria clade by Friedrich von Huene in 1914 after additional fossils had been found.[7] With further discoveries, fossils have been uncovered across three different continents, in Asia,[11][7][8][9][6] Europe,[12] and South America.[8][10] Assignment to Compsognathidae is usually determined through examination of the metacarpal, which is used to separate Compsognathidae from other dinosaurs.[13] However, classification is still complicated due to similarities to the body of several other theropod dinosaurs, as well as the lack of unifying, diagnostic features that are shared by all compsognathids.[10][14] Some authors have proposed that Compsognathidae is not a monophyletic group, and at least some compsognathids represent juvenile specimens of larger tetanuran theropods, such as carnosaurs and tyrannosaurs.[15][16][17]

History of discovery edit

 
The holotype of Compsognathus longipes.

The first significant fossil specimen of Compsognathidae was found in the Bavaria region of Germany (BSP AS I 563) and given to collector Joseph Oberndorfer in 1859.[18] The finding was initially significant because of the small size of the specimen. In 1861, after an initial period of review, Johann A. Wagner presented his analysis of the specimen to the public and named the fossil Compsognathus longipes ("elegant jaw").[19] In 1868, Thomas Henry Huxley, an early supporter of Charles Darwin and his theory of evolution, used Compsognathus in a comparison to similar feathered dinosaur Archaeopteryx in order to propose the origin of birds. Huxley noticed that these dinosaurs shared a similar layout to birds and proposed an exploration of the similarities. He is credited as being the first person to do so.[20] This initial comparison sparked the interest into the origin of birds and feathers. In 1882, Othniel Charles Marsh named a new family of dinosaurs for this species Compsognathidae and officially recognized the species as part of Dinosauria.[21]

Notable Specimens edit

 
Size comparison of the Juravenator specimen to human.

In 1971, a second nearly complete specimen of Composgnathus longipes was found in the area of Canjuers, which is located in the southeast of France near Nice.[7] This specimen was much larger than the original German specimen, but similarities led to experts categorizing the fossil as an adult Compsognathus longipes and leading to the further classification of the German specimen as a juvenile.[22] This specimen also contained a lizard in the digestive region, further solidifying the theory that compsognathids consumed small vertebrate species.

The holotype of Juravenator is the only known specimen of the species. Though Juravenator has previously been accepted as a member of Compsognathidae, recent research has led some experts to believe that Juravenator does not belong in this group. This is due to the fact that Juravenator could also be classified into a similar group within Coelurosauria, Maniraptoriformes. Maniraptoriforms share many similarities with compsognathids and due to the fact that there has been only one verified specimen of Juravenator, experts have disagreed on exactly where to place this genus. Since 2013, Juravenator is still commonly classified as a coelurosaur, but near the group Maniraptoriformes instead of Compsognathidae.[23]

A compsognathid specimen consisting of a single finger bone has been described from Late Jurassic (Tithonian Age, about 150 million years ago) sediments at Port Waikato, New Zealand. It is the first and so far, only dinosaur specimen known from Jurassic New Zealand, as well as being the first New Zealand dinosaur fossil to have been found outside of the Cretaceous marine sediments at Mangahouanga Stream. Possible coprolites have been referred to this specimen, however it is still not an officially classified species.

Description edit

Compsognathids share a variety of characteristics. The genera in this family demonstrate traits that are characteristic of theropods, such as smaller forelimbs than hind legs. Size, feathers, and metacarpal size are among the most important classifying common characteristics.

Size edit

 
Comparison of German (green) and French (orange) Compsognathus longipes specimen

Compsognathids are considered to be among the smallest dinosaurs ever discovered. Compsognathus longipes was formerly the smallest known dinosaur. It was around the size of a chicken when fully grown: around 1 m (3 ft 3 in) long and weighing 2.5 kg (5.5 lb).[24] However, recently discovered adult specimens of other dinosaurs are smaller than Compsognathus, including Caenagnathasia, Microraptor, and Parvicursor, all of which are estimated to be less than 1 m long.[25] However, most of these specimens are incomplete, so these sizes remain estimates.

The other genera in this family are slightly larger than Compsognathus longipes, but generally similar in size. The largest compsognathid is Huaxiagnathus, which is estimated from its holotype to be around 1.8 m (5 ft 11 in) long,[26] while Sinocalliopteryx measures around 2.4 m (7 ft 10 in) long.[27] Sinosauropteryx is the most similar to Compsognathus, measuring at most 1.07 m (3 ft 6 in) long.[28]

Feathers edit

 
Artistic recreation of Sinosauropteryx with feathers

The phylogeny of Compsognathidae organizes this family near the development of feathers in dinosaurs. In 1998, evidence of filamentous protofeathers was presented in a study on Sinosauropteryx, marking the first time that any sort of feather structure was found outside of birds and their related species.[29] After this, more evidence of feather structure was found in other genera of Compsognathidae. Evidence of protofeathers bearing resemblance to Sinosauropteryx was found on Sinocalliopteryx specimens, including on the foot of the specimen.[30] There have been signs of basic feather structures on Juravenator, but evidence of this is still not definite. Samples of Juravenator skin show scales instead of feathers, leading into debates about Juravenator’s place within the family Compsognathidae.[31] However, a 2010 examination of Juravenator under UV light showed filaments similar to those seen on other compsognathid specimens, indicating that it is likely that these dinosaurs had some sort of feathering.[32] A 2020 study concluded the "scales" were actually adipocere, though the same study defended Juravenator was a megalosauroid and not a compsognathid.[33]

Metacarpals edit

Another way of classification of Compsognathidae is shared metacarpal morphology. A 2007 study found similarities between compsognathid genera in certain metacarpal I morphologies. The conclusion of this study found that Composgnathidae had a distinct manual morphology where, like theropods, the first digit of the manus is larger than the other digits, but with a distinct metacarpal I morphology where the metacarpal is stocky and short. Compsognathidae also has a projection from the manus that is on this metacarpal.[13]

Classification edit

The Compsognathidae are a group of mostly small dinosaurs from the late Jurassic and early Cretaceous periods of China, Europe and South America.[34] For many years, Compsognathus was the only member known, but in recent decades paleontologists have discovered several related genera. The clade includes Aristosuchus,[35] Huaxiagnathus,[36] Mirischia,[37] Sinosauropteryx,[38][39] and perhaps Juravenator[40] and Scipionyx.[41] At one time, Mononykus was proposed as a member of the family, but this was rejected by Chen and coauthors in a 1998 paper; they considered the similarities between Mononykus and the compsognathids to be an example of convergent evolution.[42] The position of Compsognathidae within the coelurosaur group is uncertain. Some, such as theropod expert Thomas Holtz Jr. and co-authors Ralph Molnar and Phil Currie in the landmark 2004 text Dinosauria, hold the family as the most basal of the coelurosaurs,[43] while others as part of the Maniraptora.[44][45]

Below is a simplified cladogram showing Compsognathidae by Senter et al. in 2012.[46]

A number of authors have suggested that Compsognathidae is not a monophyletic group as currently defined, and that at least some "compsognathids" represent the juveniles of other tetanurans, including carnosaurs and tyrannosaurs.[15][16][17]

Here is a simplified version of Cau (2024), which does recovers Compsognathidae as a polyphyletic group. Putative compsognathid specimens are in bold.

Palaeobiology edit

Diet edit

Compsognathids were carnivores and certain specimens have contained the remains of their diet. The German specimen of Compsognathus included remains in the digestive region, which was initially thought to be an unborn embryo.[47] However, further analysis found that the remains belong to a lizard with an elongated tail and stretched legs.[21][48] Other compsognathids, such as Sinosauropteryx, have been shown to eat lizards.[28]

References edit

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May 02, 2024
compsognathidae, family, coelurosaurian, theropod, dinosaurs, compsognathids, were, small, carnivores, generally, conservative, form, hailing, from, jurassic, cretaceous, periods, bird, like, features, these, species, along, with, other, dinosaurs, such, archa. Compsognathidae is a family of coelurosaurian theropod dinosaurs Compsognathids were small carnivores generally conservative in form hailing from the Jurassic and Cretaceous Periods The bird like features of these species along with other dinosaurs such as Archaeopteryx inspired the idea for the connection between dinosaur reptiles and modern day avian species 5 Compsognathid fossils preserve diverse integument skin impressions are known from four genera commonly placed in the group Compsognathus Sinosauropteryx Sinocalliopteryx and Juravenator 6 While the latter three show evidence of a covering of some of the earliest primitive feathers over much of the body Juravenator and Compsognathus also show evidence of scales on the tail or hind legs Ubirajara jubatus informally described in 2020 had elaborate integumentary structures on its back and shoulders superficially similar to the display feathers of a standardwing bird of paradise and unlike any other non avian dinosaur currently described CompsognathidaeTemporal range Late Jurassic Early Cretaceous 151 5 108 Ma PreꞒ Ꞓ O S D C P T J K Pg N Possible Late Cretaceous record Compsognathid skeletons to scale Scientific classification Domain Eukaryota Kingdom Animalia Phylum Chordata Clade Dinosauria Clade Saurischia Clade Theropoda Clade Neocoelurosauria Family CompsognathidaeCope 1871 Type species Compsognathus longipesWagner 1861 Genera 3 4 Aniksosaurus 1 Aristosuchus 2 Beipiaognathus Calamosaurus Compsognathus Haplocheirus Huaxiagnathus Juravenator Mirischia 2 Sinocalliopteryx Sinosauropteryx Scipionyx Sciurumimus Xunmenglong Synonyms Sinosauropterygidae Ji amp Ji 1996 The first member of the group Compsognathus was discovered in 1861 after Johann A Wagner published his description of the taxon 7 8 9 The family was created by Edward Drinker Cope in 1875 10 This classification was accepted by Othniel Charles Marsh in 1882 and added to the Coelurosauria clade by Friedrich von Huene in 1914 after additional fossils had been found 7 With further discoveries fossils have been uncovered across three different continents in Asia 11 7 8 9 6 Europe 12 and South America 8 10 Assignment to Compsognathidae is usually determined through examination of the metacarpal which is used to separate Compsognathidae from other dinosaurs 13 However classification is still complicated due to similarities to the body of several other theropod dinosaurs as well as the lack of unifying diagnostic features that are shared by all compsognathids 10 14 Some authors have proposed that Compsognathidae is not a monophyletic group and at least some compsognathids represent juvenile specimens of larger tetanuran theropods such as carnosaurs and tyrannosaurs 15 16 17 Contents 1 History of discovery 1 1 Notable Specimens 2 Description 2 1 Size 2 2 Feathers 2 3 Metacarpals 3 Classification 4 Palaeobiology 4 1 Diet 5 ReferencesHistory of discovery edit nbsp The holotype of Compsognathus longipes The first significant fossil specimen of Compsognathidae was found in the Bavaria region of Germany BSP AS I 563 and given to collector Joseph Oberndorfer in 1859 18 The finding was initially significant because of the small size of the specimen In 1861 after an initial period of review Johann A Wagner presented his analysis of the specimen to the public and named the fossil Compsognathus longipes elegant jaw 19 In 1868 Thomas Henry Huxley an early supporter of Charles Darwin and his theory of evolution used Compsognathus in a comparison to similar feathered dinosaur Archaeopteryx in order to propose the origin of birds Huxley noticed that these dinosaurs shared a similar layout to birds and proposed an exploration of the similarities He is credited as being the first person to do so 20 This initial comparison sparked the interest into the origin of birds and feathers In 1882 Othniel Charles Marsh named a new family of dinosaurs for this species Compsognathidae and officially recognized the species as part of Dinosauria 21 Notable Specimens edit nbsp Size comparison of the Juravenator specimen to human In 1971 a second nearly complete specimen of Composgnathus longipes was found in the area of Canjuers which is located in the southeast of France near Nice 7 This specimen was much larger than the original German specimen but similarities led to experts categorizing the fossil as an adult Compsognathus longipes and leading to the further classification of the German specimen as a juvenile 22 This specimen also contained a lizard in the digestive region further solidifying the theory that compsognathids consumed small vertebrate species The holotype of Juravenator is the only known specimen of the species Though Juravenator has previously been accepted as a member of Compsognathidae recent research has led some experts to believe that Juravenator does not belong in this group This is due to the fact that Juravenator could also be classified into a similar group within Coelurosauria Maniraptoriformes Maniraptoriforms share many similarities with compsognathids and due to the fact that there has been only one verified specimen of Juravenator experts have disagreed on exactly where to place this genus Since 2013 Juravenator is still commonly classified as a coelurosaur but near the group Maniraptoriformes instead of Compsognathidae 23 A compsognathid specimen consisting of a single finger bone has been described from Late Jurassic Tithonian Age about 150 million years ago sediments at Port Waikato New Zealand It is the first and so far only dinosaur specimen known from Jurassic New Zealand as well as being the first New Zealand dinosaur fossil to have been found outside of the Cretaceous marine sediments at Mangahouanga Stream Possible coprolites have been referred to this specimen however it is still not an officially classified species Description editCompsognathids share a variety of characteristics The genera in this family demonstrate traits that are characteristic of theropods such as smaller forelimbs than hind legs Size feathers and metacarpal size are among the most important classifying common characteristics Size edit nbsp Comparison of German green and French orange Compsognathus longipes specimen Compsognathids are considered to be among the smallest dinosaurs ever discovered Compsognathus longipes was formerly the smallest known dinosaur It was around the size of a chicken when fully grown around 1 m 3 ft 3 in long and weighing 2 5 kg 5 5 lb 24 However recently discovered adult specimens of other dinosaurs are smaller than Compsognathus including Caenagnathasia Microraptor and Parvicursor all of which are estimated to be less than 1 m long 25 However most of these specimens are incomplete so these sizes remain estimates The other genera in this family are slightly larger than Compsognathus longipes but generally similar in size The largest compsognathid is Huaxiagnathus which is estimated from its holotype to be around 1 8 m 5 ft 11 in long 26 while Sinocalliopteryx measures around 2 4 m 7 ft 10 in long 27 Sinosauropteryx is the most similar to Compsognathus measuring at most 1 07 m 3 ft 6 in long 28 Feathers edit nbsp Artistic recreation of Sinosauropteryx with feathers The phylogeny of Compsognathidae organizes this family near the development of feathers in dinosaurs In 1998 evidence of filamentous protofeathers was presented in a study on Sinosauropteryx marking the first time that any sort of feather structure was found outside of birds and their related species 29 After this more evidence of feather structure was found in other genera of Compsognathidae Evidence of protofeathers bearing resemblance to Sinosauropteryx was found on Sinocalliopteryx specimens including on the foot of the specimen 30 There have been signs of basic feather structures on Juravenator but evidence of this is still not definite Samples of Juravenator skin show scales instead of feathers leading into debates about Juravenator s place within the family Compsognathidae 31 However a 2010 examination of Juravenator under UV light showed filaments similar to those seen on other compsognathid specimens indicating that it is likely that these dinosaurs had some sort of feathering 32 A 2020 study concluded the scales were actually adipocere though the same study defended Juravenator was a megalosauroid and not a compsognathid 33 Metacarpals edit Another way of classification of Compsognathidae is shared metacarpal morphology A 2007 study found similarities between compsognathid genera in certain metacarpal I morphologies The conclusion of this study found that Composgnathidae had a distinct manual morphology where like theropods the first digit of the manus is larger than the other digits but with a distinct metacarpal I morphology where the metacarpal is stocky and short Compsognathidae also has a projection from the manus that is on this metacarpal 13 Classification editThe Compsognathidae are a group of mostly small dinosaurs from the late Jurassic and early Cretaceous periods of China Europe and South America 34 For many years Compsognathus was the only member known but in recent decades paleontologists have discovered several related genera The clade includes Aristosuchus 35 Huaxiagnathus 36 Mirischia 37 Sinosauropteryx 38 39 and perhaps Juravenator 40 and Scipionyx 41 At one time Mononykus was proposed as a member of the family but this was rejected by Chen and coauthors in a 1998 paper they considered the similarities between Mononykus and the compsognathids to be an example of convergent evolution 42 The position of Compsognathidae within the coelurosaur group is uncertain Some such as theropod expert Thomas Holtz Jr and co authors Ralph Molnar and Phil Currie in the landmark 2004 text Dinosauria hold the family as the most basal of the coelurosaurs 43 while others as part of the Maniraptora 44 45 Below is a simplified cladogram showing Compsognathidae by Senter et al in 2012 46 Coelurosauria Tyrannosauroidea nbsp Compsognathidae Sinocalliopteryx nbsp Huaxiagnathus nbsp Sinosauropteryx nbsp Compsognathus nbsp Juravenator nbsp Scipionyx nbsp Maniraptoriformes nbsp A number of authors have suggested that Compsognathidae is not a monophyletic group as currently defined and that at least some compsognathids represent the juveniles of other tetanurans including carnosaurs and tyrannosaurs 15 16 17 Here is a simplified version of Cau 2024 which does recovers Compsognathidae as a polyphyletic group Putative compsognathid specimens are in bold Tetanurae Siamraptor Siamotyrannus Orionides Streptospondylus Xuanhanosaurus Poekilopleuron Piveteausaurus Piatnitzkysaurus Marshosaurus Leshansaurus Eustreptospondylus Condorraptor Asfaltovenator Sciurumimus Nedcolbertia Magnosaurus Duriavenator Afrovenator Compsognathus longipes Compsognathus corallestris Torvosaurus tanneri Torvosaurus gurneyi Megalosaurus Scipionyx Wiehenvenator Iberospinus Baryonychinae Spinosaurinae Avetheropoda Allosauroidea Incl Juravenator at an indeterminate position Coelurosauria Sinosauropteryx Sinocalliopteryx Mirischia Huaxiagnathus Zuolong Tyrannoraptora Maniraptoromorpha NGMC 2124 Tanycolagreus Stokesosaurus Juratyrant EutyrannosauriaPalaeobiology editDiet edit Compsognathids were carnivores and certain specimens have contained the remains of their diet The German specimen of Compsognathus included remains in the digestive region which was initially thought to be an unborn embryo 47 However further analysis found that the remains belong to a lizard with an elongated tail and stretched legs 21 48 Other compsognathids such as Sinosauropteryx have been shown to eat lizards 28 References edit nbsp Dinosaurs portal J N Choiniere J M Clark C A Forster and X Xu 2010 A basal coelurosaur Dinosauria Theropoda from the Late Jurassic Oxfordian of the Shishugou Formation in Wucaiwan People s Republic of China Journal of Vertebrate Paleontology 30 6 1773 1796 a b Holtz Thomas R Jr 2012 Dinosaurs The Most Complete Up to Date Encyclopedia for Dinosaur Lovers of All Ages Winter 2011 Appendix Hendrickx C Hartman S A amp Mateus O 2015 An Overview of Non Avian Theropod Discoveries and Classification PalArch s Journal of Vertebrate Palaeontology 12 1 1 73 Hartman Scott Mortimer Mickey Wahl William R Lomax Dean R Lippincott Jessica Lovelace David M 2019 A new paravian dinosaur from the Late Jurassic of North America supports a late acquisition of avian flight PeerJ 7 e7247 doi 10 7717 peerj 7247 PMC 6626525 PMID 31333906 Etnier Michael A Neptune s Ark From Ichthyosaurs to Orcas 2008 25 a b Xu Xing Palaeontology Scales feathers and dinosaurs Nature 440 7082 2006 287 288 a b c d Peyer Karin A reconsideration of Compsognathus from the Upper Tithonian of Canjuers southeastern France Journal of vertebrate Paleontology 26 4 2006 879 896 a b c Sales Marcos AF Paulo Cascon and Cesar L Schultz Note on the paleobiogeography of Compsognathidae Dinosauria Theropoda and its paleoecological implications Anais da Academia Brasileira de Ciencias 86 1 2014 127 134 a b Wagner A Neue Beitrage zur Kenntnis der urweltlichen Fauna des lithographischen Schiefers V Compsognathus longipes Wagner Abhandlungen der Bayerischen Akademie der Wissenschaften 9 1861 30 38 a b c Naish Darren David M Martill and Eberhard Frey Ecology systematics and biogeographical relationships of dinosaurs including a new theropod from the Santana Formation Albian Early Cretaceous of Brazil Historical Biology 16 2 4 2004 57 70 Shu an Ji et al New material of Sinosauropteryx Theropoda Compsognathidae from western Liaoning China Acta Geologica Sinica English Edition 81 2 2007 177 182 Dal Sasso C Maganuco S Scipionyx samniticus Theropoda Compsognathidae from the Lower Cretaceous of Italy osteology ontogenetic assessment phylogeny soft tissue anatomy taphonomy and palaeobiology Memorie XXXVI I 2011 1 283 a b Gishlick Alan D and Jacques A Gauthier On the manual morphology of Compsognathus longipes and its bearing on the diagnosis of 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