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Chelidae

May 04, 2023

For the Star Wars Resistance characters, see The Chelidae.

Chelidae is one of three living families of the turtle suborder Pleurodira, and are commonly called Austro-South American side-neck turtles.[2] The family is distributed in Australia, New Guinea, parts of Indonesia, and throughout most of South America. It is a large family of turtles with a significant fossil history dating back to the Cretaceous. The family is entirely Gondwanan in origin, with no members found outside Gondwana, either in the present day or as a fossil.[3]

Chelidae
Temporal range: Albian-Present
Chelus fimbriatus
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Order: Testudines
Suborder: Pleurodira
Family: Chelidae
Gray, 1831[1]
Genera

See text

Description

Like all pleurodirous turtles, the chelids withdraw their necks sideways into their shells, differing from cryptodires that fold their necks in the vertical plane. They are all highly aquatic species with webbed feet and the capacity to stay submerged for long periods of time. The snake-necked species (genera Chelus, Chelodina, and Hydromedusa) are largely strike-and-gape hunters or foragers feeding on fish, invertebrates, and gastropods. The short-necked forms are largely herbivorous or molluscivorous, but are also opportunistic, with several species having specialized to eating fruits.

The highly aquatic nature of the group is typified by the presence of cloacal breathing in some species of the genera Elseya and Rheodytes.[4] However, some species, such as the eastern long-neck turtle (Chelodina longicollis) from Australia spend significant periods of time on land and are considered highly terrestrial.

The smaller members of the family include the Macleay River turtle (Emydura macquarii) at around 16 cm,[5] twist-necked turtle (Platemys platycephala) at 18 cm and the western swamp turtle (Pseudemydura umbrina) at 15 cm, whereas the larger species such as the mata mata (Chelus fimbriata) and the white-throated snapping turtle (Elseya albagula) both exceed 45 cm in shell length.[6]

Chelids exhibit XX/XY genetic sex determination, in contrast to most other turtles, which have temperature-dependent sex determination.[7]

Shell morphology

Members of Chelidae have unique shell morphology. The carapace often has reduced surface exposure of neural bones, or even none at all.[8] This is due to less requirement for enlarged longissimus dorsi muscles in side-necked turtles.[9]

The inside of the carapace is often heavily buttressed. This has sometimes been seen as a defense mechanism, that is it increases the strength of the shell against biting force, however Thomson (2003)[9] demonstrated it is linked to feeding methods and the prevention of internal torsion of the shell. Chelids also lack mesoplastra, which separates them from the Pelomedusidae.

 
Scute and skeletal elements of the chelid carapace

The cervical scute is usually present, though it is absent in some species of Elseya and Myuchelys. Otherwise, the carapace has the usual complement of four costals, five vertebrals and twelve marginals (per side). Internally, the carapace is made of eight pleurals (per side), eleven peripherals (per side), a nuchal at the front and a suprapygal and pygal at the rear of the shell. As noted earlier, neurals, although always present, often exist as subsurface elements above the vertebral column.[8]

 
Scute and skeletal elements of the chelid plastron

The plastron of chelids does not contain any hinges as can appear in some cryptodire turtles. The scute pattern is a unique feature of the Pleurodira and can be used to immediately identify a shell as belonging to this suborder. All cryptodires have 12 plastral scutes, whereas pleurodires have thirteen. The extra scute is called the intergular. The rest of the scutes and the skeletal structure beneath them are the same as all turtles: paired gulars, humerals, pectorals, abdominals, and anals. The skeletal elements consist of a single entoplaston, as well as paired epiplastra, entoplastra, hyoplastra, hypoplastra and xiphiplastra (Pritchard & Trebbau, 1984).[10]

Evolutionary history

The oldest records of Pan-Chelidae (the clade containing Chelidae and all other species more closely related to Chelidae than other pleurodires) first appear in the mid Cretaceous in South America and Australia, represented by Prochelidella cerrobarcinae from the Cerro Barcino Formation of Argentina, which dates from 118 to 110 million years ago,[11][12] and indeterminate remains from the Griman Creek Formation, of New South Wales, Australia, dating to around 100 million years ago.[13][14]

Classification

 
A mata mata, Chelus fimbriatus

A number of theories of the relationships within the large chelid family have been posited. Using shared derived characters, an early attempt in the 1970s used strict parsimony to determine the three long-necked genera (Chelodina, Chelus, and Hydromedusa) were each other's closest relatives.[15] This was accepted for some time, but brought into scrutiny,[16] because the major differences between the genera showed they all appeared to have evolved independently of each other, hinging on the fact that although they had long necks, how they used them and their structures were different.

A number of additional data sets were developed that used electrophoresis and nuclear and mtDNA analysis; these all agreed on the independent evolution of the three long-necked clades.[17][18] This was culminated in a reanalysis of the morphological data which demonstrated the convergence of the clades on a sweep of distinctive features needed for their piscivorous diets,[19] Thomson, 2000.[20] The subfamilies within Chelidae show the monophyly of the majority of the South American species and all the Australian species, with the far more ancient Hydromedusa as sister taxon to both these other groups.

The family Chelidae contains about 60 species within around twenty genera:[17]

Taxonomy after TTWG 2021[21]

Phylogeny

 
Phrynops geoffroanus

Relationships of the living forms based on Georges et al., 2014.[37][citation needed]

    Chelidae    
                      Hydromedusinae          

  Hydromedusa

  Chelinae    
  Chelodininae    

The species in the Chelidae family are distributed across Australia, New Guinea, and South America. Over time they were required to disperse out of concerns of food shortage, habitat destruction, and weather disruptions. In all of these warmer climates, they can be found in turbid waters covered by muck and the root-mats of underwater vegetation. The waters that they are found in often lack large species of fish that would put them at risk of predation.

References

  1. ^ a b Gray, J. E. (1831). Synopsis Reptilium Or Short Descriptions of the Species of Reptiles. Part 1. Cataphracta, Tortoises, Crocodiles, and Enaliosaurians. London. 85 pp.
  2. ^ Obst, Fritz Jurgen (1998). Cogger, H. G.; Zweifel, R. G. (eds.). Encyclopedia of Reptiles and Amphibians. San Diego: Academic Press. pp. 111–112. ISBN 0-12-178560-2.
  3. ^ Georges, A. & Thomson, S. (2006). "Evolution and Zoogeography of Australian freshwater turtles". In: Merrick, J. R.; Archer, M.; Hickey, G. & Lee, M. (eds.) Evolution and Zoogeography of Australasian Vertebrates. Sydney: Australia.
  4. ^ Gordos, M. A.; Franklin, C. E. & Limpus, C. J. (2004). "Effect of water depth and water velocity upon the surfacing frequency of the bimodally respiring freshwater turtle, Rheodytes leukops". The Journal of Experimental Biology. 207: 3099-3107.
  5. ^ Cann, J. (2008). Freshwater Turtles: A Wild Australia Guide. Queensland, Australia: Steve Parish Publishing, p. 46.
  6. ^ Thomson, S.; Georges, A. & Limpus, C. (2006). "A New Species of Freshwater Turtle in the Genus Elseya (Testudines: Chelidae) from Central Coastal Queensland, Australia". Chelonian Conservation and Biology. 5 (1): 74-86.
  7. ^ Badenhorst, Daleen; Stanyon, Roscoe; Engstrom, Tag; Valenzuela, Nicole (2013-03-20). "A ZZ/ZW microchromosome system in the spiny softshell turtle, Apalone spinifera, reveals an intriguing sex chromosome conservation in Trionychidae". Chromosome Research. 21 (2): 137–147. doi:10.1007/s10577-013-9343-2. ISSN 0967-3849. PMID 23512312. S2CID 14434440.
  8. ^ a b Thomson, S. & Georges, A. (1996). "Neural bones in chelid turtles". Chelonian Conservation and Biology 2: 82-86.
  9. ^ a b Thomson S. (2003). "Long necks, flat heads and the evolution of piscivory". World Chelonian Trust.
  10. ^ Pritchard, Peter C. H. & Trebbau, Pedro (1984). The Turtles of Venezuela. Society for the Studies of Amphibians and Reptiles: 403 pp.
  11. ^ de la Fuente, Marcelo S.; Umazano, Aldo M.; Sterli, Juliana; Carballido, José L. (August 2011). "New chelid turtles of the lower section of the Cerro Barcino formation (Aptian-Albian?), Patagonia, Argentina". Cretaceous Research. 32 (4): 527–537. doi:10.1016/j.cretres.2011.03.007.
  12. ^ Krause, J. Marcelo; Ramezani, Jahandar; Umazano, Aldo M.; Pol, Diego; Carballido, José L.; Sterli, Juliana; Puerta, Pablo; Cúneo, N. Rubén; Bellosi, Eduardo S. (April 2020). "High-resolution chronostratigraphy of the Cerro Barcino Formation (Patagonia): Paleobiologic implications for the mid-cretaceous dinosaur-rich fauna of South America". Gondwana Research. 80: 33–49. Bibcode:2020GondR..80...33K. doi:10.1016/j.gr.2019.10.005. S2CID 210265289.
  13. ^ Smith, Elizabeth T. (September 2010). "Early Cretaceous chelids from Lightning Ridge, New South Wales". Alcheringa: An Australasian Journal of Palaeontology. 34 (3): 375–384. doi:10.1080/03115518.2010.488117. ISSN 0311-5518. S2CID 129726482.
  14. ^ Bell, Phil R.; Fanti, Federico; Hart, Lachlan J.; Milan, Luke A.; Craven, Stephen J.; Brougham, Thomas; Smith, Elizabeth (January 2019). "Revised geology, age, and vertebrate diversity of the dinosaur-bearing Griman Creek Formation (Cenomanian), Lightning Ridge, New South Wales, Australia". Palaeogeography, Palaeoclimatology, Palaeoecology. 514: 655–671. Bibcode:2019PPP...514..655B. doi:10.1016/j.palaeo.2018.11.020. hdl:11585/651841. S2CID 134264936.
  15. ^ Gaffney, E. S. (1977). "The side-necked turtle family Chelidae: a theory of relationships using shared derived characters". American Museum Novitates. 2620: 1-28.
  16. ^ Pritchard, P. C. H. (1984). "Piscivory in turtles, and evolution of the long-necked Chelidae". in Ferguson, M. W. (ed) The Structure, Development and Evolution of Reptiles. Zoological Society of London, Symposium. 52: 87-110.
  17. ^ a b Georges, A.; Birrell, J.; Saint, K. M.; McCord, W. & Donnellan, S. C. (1998). "A phylogeny for side-necked turtles (Chelonia: Pleurodira) based on mitochondrial and nuclear gene sequence variation". Biological Journal of the Linnean Society. 67: 213-246.
  18. ^ Seddon, J.; Georges, A.; Baverstock, P. & McCord, W. (1997). "Phylogenetic relationships of chelid turtles (Pleurodira: Chelidae) based on mitochondrial 12S rRNA gene sequence variation". Molecular Phylogenetics and Evolution. 7: 55-61.
  19. ^ Thomson S. (2003). "Long necks, flat heads and the evolution of piscivory". World Chelonian Trust
  20. ^ Thomson S. A. (2000). "On the identification of the holotype of Chelodina oblonga (Testudinata: Chelidae) with a discussion of the taxonomic implications". Chelonian Conservation and Biology. 3: 745-749.
  21. ^ Rhodin, Anders G.J.; Iverson, John B.; Bour, Roger; Fritz, Uwe; Georges Arthur; Shaffer, H. Bradley; van Dijk, Peter Paul (2021-12-01). "Turtles of the World: Annotated Checklist and Atlas of Taxonomy, Synonymy, Distribution, and Conservation Status (9th Ed.)" (PDF). Chelonian Research Monographs. 8: 1–472. doi:10.3854/crm.8.checklist.atlas.v9.2021. ISBN 9780991036837. S2CID 244279960.
  22. ^ a b c d Broin, F. de & de la Fuente, M. S. (2001). "Oldest world Chelidae (Chelonii, Pleurodira), from the Cretaceous Patagonia, Argentina". Palaeontology 333: 463-470.
  23. ^ Wieland, G. R. (1923). "A new Parana Pleurodiran". American Journal of Science. 5 (25): 1-15.
  24. ^ Baur, Georg (1893). "Notes on the classification of the Cryptodira". American Naturalist. 27 :672–674.
  25. ^ Megirian, D. & Murray, P. (1999). "Chelid turtles (Pleurodira, Chelidae) from the Miocene Camfield Beds, Northern Territory of Australia, with a description of a new genus and species". The Beagle (Records of the Museums and Art Galleries of the Northern Territory). 15: 75–130.
  26. ^ Gray, J. E. (1867). "Description of a new Australian tortoise (Elseya latisternum)". Annals and Magazine of Natural History. (3) 20: 43-45.
  27. ^ Cann, J. & Legler, J. M. (1994). "The Mary River Tortoise: a new genus and species of short-necked chelid from Queensland, Australia (Testudines; Pleurodira)". Chelonian Conservation and Biology. 1 (2): 81-96.
  28. ^ Le, M.; Reid, B. N.; McCord, W. P.; Naro-Maciel, E.; Raxworthy, C. J.; Amato, G. & Georges A. (2013). "Resolving the phylogenetic history of the short-necked turtles, genera Elseya and Myuchelys (Testudines: Chelidae) from Australia and New Guinea". Molecular Phylogenetics and Evolution. 68 (2013) 251–258.
  29. ^ Thomson, S. & Georges, A. (2009). "Myuchelys gen. nov. — a new genus for Elseya latisternum and related forms of Australian freshwater turtle (Testudines: Pleurodira: Chelidae)". Zootaxa. 2053: 32–42.
  30. ^ Legler, J. M. & Cann, J. (1980). "A new species of chelid turtle from Queensland, Australia". Contributions to Science, Natural History Museum of Los Angeles County. 324: 1-18.
  31. ^ Gray, John Edward (1825). "A synopsis of the genera of reptiles and amphibia, with a description of some new species". Annals of Philosophy. (2) 10: 193–217.
  32. ^ Gray, J. E. (1873). "Observations on chelonians, with descriptions of new genera and species". Annals and Magazine of Natural History. (4) 11: 289-308.
  33. ^ Baur, Georg. (1893). "Notes on the classification and taxonomy of the Testudinata". Proceedings of the American Philosophical Society. 31: 210–225.
  34. ^ Oriozabala, Carolina; Sterli, Juliana; de la Fuente, Marcelo S. (February 2020). "New species of the long-necked chelid Yaminuechelys from the Upper Cretaceous (Campanian–Maastrichtian) of Chubut, Argentina". Cretaceous Research. 106: 104197. doi:10.1016/j.cretres.2019.104197. S2CID 201336536.
  35. ^ Zhang, X.; Unmack, P. J.; Kuchling, G.; Wang, Y. & Georges, A. (October 2017). "Resolution of the enigmatic phylogenetic relationship of the critically endangered Western Swamp Tortoise Pseudemydura umbrina (Pleurodira: Chelidae) using a complete mitochondrial genome". Molecular Phylogenetics and Evolution. 115: 58-61.
  36. ^ Seibenrock, F. (1901). "Beschreibung einer neuen schildkrotengattung aus der familie Chelydidae aus Australien: Pseudemydura". Anzeiger der Akademie der Wissenschaften in Wien. 38: 248-251.
  37. ^ Georges, Arthur; Zhang, Xiuwen; Unmack, Peter; Reid, Brenden N.; Le, Minh; McCord, William P. (2014). "Contemporary genetic structure of an endemic freshwater turtle reflects Miocene orogenesis of New Guinea". Biological Journal of the Linnean Society. 111 (1): 192–208. doi:10.1111/bij.12176. ISSN 0024-4066. S2CID 4950570.

External links and further reading

 
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  • Gondwanan turtle site

May 04, 2023
chelidae, star, wars, resistance, characters, three, living, families, turtle, suborder, pleurodira, commonly, called, austro, south, american, side, neck, turtles, family, distributed, australia, guinea, parts, indonesia, throughout, most, south, america, lar. For the Star Wars Resistance characters see The Chelidae Chelidae is one of three living families of the turtle suborder Pleurodira and are commonly called Austro South American side neck turtles 2 The family is distributed in Australia New Guinea parts of Indonesia and throughout most of South America It is a large family of turtles with a significant fossil history dating back to the Cretaceous The family is entirely Gondwanan in origin with no members found outside Gondwana either in the present day or as a fossil 3 ChelidaeTemporal range Albian Present PreꞒ Ꞓ O S D C P T J K Pg NChelus fimbriatusScientific classificationKingdom AnimaliaPhylum ChordataClass ReptiliaOrder TestudinesSuborder PleurodiraFamily ChelidaeGray 1831 1 GeneraSee text Contents 1 Description 2 Shell morphology 3 Evolutionary history 4 Classification 5 Phylogeny 6 References 7 External links and further readingDescription EditLike all pleurodirous turtles the chelids withdraw their necks sideways into their shells differing from cryptodires that fold their necks in the vertical plane They are all highly aquatic species with webbed feet and the capacity to stay submerged for long periods of time The snake necked species genera Chelus Chelodina and Hydromedusa are largely strike and gape hunters or foragers feeding on fish invertebrates and gastropods The short necked forms are largely herbivorous or molluscivorous but are also opportunistic with several species having specialized to eating fruits The highly aquatic nature of the group is typified by the presence of cloacal breathing in some species of the genera Elseya and Rheodytes 4 However some species such as the eastern long neck turtle Chelodina longicollis from Australia spend significant periods of time on land and are considered highly terrestrial The smaller members of the family include the Macleay River turtle Emydura macquarii at around 16 cm 5 twist necked turtle Platemys platycephala at 18 cm and the western swamp turtle Pseudemydura umbrina at 15 cm whereas the larger species such as the mata mata Chelus fimbriata and the white throated snapping turtle Elseya albagula both exceed 45 cm in shell length 6 Chelids exhibit XX XY genetic sex determination in contrast to most other turtles which have temperature dependent sex determination 7 Shell morphology EditMembers of Chelidae have unique shell morphology The carapace often has reduced surface exposure of neural bones or even none at all 8 This is due to less requirement for enlarged longissimus dorsi muscles in side necked turtles 9 The inside of the carapace is often heavily buttressed This has sometimes been seen as a defense mechanism that is it increases the strength of the shell against biting force however Thomson 2003 9 demonstrated it is linked to feeding methods and the prevention of internal torsion of the shell Chelids also lack mesoplastra which separates them from the Pelomedusidae Scute and skeletal elements of the chelid carapace The cervical scute is usually present though it is absent in some species of Elseya and Myuchelys Otherwise the carapace has the usual complement of four costals five vertebrals and twelve marginals per side Internally the carapace is made of eight pleurals per side eleven peripherals per side a nuchal at the front and a suprapygal and pygal at the rear of the shell As noted earlier neurals although always present often exist as subsurface elements above the vertebral column 8 Scute and skeletal elements of the chelid plastron The plastron of chelids does not contain any hinges as can appear in some cryptodire turtles The scute pattern is a unique feature of the Pleurodira and can be used to immediately identify a shell as belonging to this suborder All cryptodires have 12 plastral scutes whereas pleurodires have thirteen The extra scute is called the intergular The rest of the scutes and the skeletal structure beneath them are the same as all turtles paired gulars humerals pectorals abdominals and anals The skeletal elements consist of a single entoplaston as well as paired epiplastra entoplastra hyoplastra hypoplastra and xiphiplastra Pritchard amp Trebbau 1984 10 Evolutionary history EditThe oldest records of Pan Chelidae the clade containing Chelidae and all other species more closely related to Chelidae than other pleurodires first appear in the mid Cretaceous in South America and Australia represented by Prochelidella cerrobarcinae from the Cerro Barcino Formation of Argentina which dates from 118 to 110 million years ago 11 12 and indeterminate remains from the Griman Creek Formation of New South Wales Australia dating to around 100 million years ago 13 14 Classification Edit A mata mata Chelus fimbriatus A number of theories of the relationships within the large chelid family have been posited Using shared derived characters an early attempt in the 1970s used strict parsimony to determine the three long necked genera Chelodina Chelus and Hydromedusa were each other s closest relatives 15 This was accepted for some time but brought into scrutiny 16 because the major differences between the genera showed they all appeared to have evolved independently of each other hinging on the fact that although they had long necks how they used them and their structures were different A number of additional data sets were developed that used electrophoresis and nuclear and mtDNA analysis these all agreed on the independent evolution of the three long necked clades 17 18 This was culminated in a reanalysis of the morphological data which demonstrated the convergence of the clades on a sweep of distinctive features needed for their piscivorous diets 19 Thomson 2000 20 The subfamilies within Chelidae show the monophyly of the majority of the South American species and all the Australian species with the far more ancient Hydromedusa as sister taxon to both these other groups The family Chelidae contains about 60 species within around twenty genera 17 Taxonomy after TTWG 2021 21 Stem group taxa Genus Bonapartemys Lapparent de Broin amp de la Fuente 2001 22 Bajo Barreal Formation Argentina Late Cretaceous Cenomanian Turonian Genus Linderochelys de la Fuente et al 2007 Rio Neuquen Subgroup Argentina Late Cretaceous Turonian Coniacian Genus Lomalatachelys Lapparent de Broin amp de la Fuente 2001 22 Bajo de la Carpa Formation Argentina Late Cretaceous Santonian Genus Palaeophrynops Lapparent de Broin amp de la Fuente 2001 22 Los Alamitos Formation Argentina Late Cretaceous late Campanian lower Maastrichtian Genus Prochelidella Lapparent de Broin amp de la Fuente 2001 22 Cerro Barcino Formation Argentina Early Cretaceous Aptian Albian Candeleros Formation Argentina Cenomanian Bajo Barreal Formation Argentina Cenomanian Turonian Portezuelo Formation late Turonian early Coniacian Genus Salamanchelys Bona 2006 Salamanca Formation Argentina Paleocene Danian Genus Parahydraspis Wieland 1923 23 Ituzaingo Formation Argentina Miocene Huayquerian Family Chelidae Gray 1831 1 Crown group Subfamily Chelodininae Baur 1893 24 Genus Birlimarr Megirian amp Murray 1999 25 Camfield Beds Northern Territory Australia Middle Miocene Genus Chelodina Fitzinger 1826 Australian snake necked turtles Genus Elseya Gray 1867 Australian snapping turtles 26 Genus Emydura Bonaparte 1836 Australian short necked turtles Genus Elusor Cann amp Legler 1994 27 Mary River turtle Genus Flaviemys Le et al 2013 28 yellow faced saw shelled turtles Genus Myuchelys Thomson amp Georges 2009 29 Australian saw shelled turtles Genus Rheodytes Legler amp Cann 1980 30 Fitzroy River turtles Subfamily Chelinae Gray 1825 31 Genus Chelus Dumeril 1806 matamata turtles Genus Acanthochelys Gray 1873 32 South American side necked swamp turtles Genus Mesoclemmys including gibba turtle Genus Phrynops toad headed turtles Genus Platemys Wagner 1830 twist necked turtles Genus Ranacephala McCord Joseph Ouni amp Lamar 2001 Hoge s side necked turtle Genus Rhinemys red headed side necked turtle Subfamily Hydromedusinae Baur 1893 33 Genus Hydromedusa Wagler 1830 South American snake necked turtles Genus Yaminuechelys de la Fuente et al 2001 Anacleto Formation Argentina Santonian Campanian La Colonia Formation Allen Formation Los Alamitos Formation Argentina Campanian Maastrichtian Salamanca Formation Roca Formation Argentina Paleocene Danian 34 Subfamily Pseudemydurinae Zhang et al 2017 35 Genus Pseudemydura Siebenrock 1901 36 western swamp tortoiseKey to Australasian Chelidae1 Forelimbs each with five claws gular scutes separated by the intergular intergular scute in broad contact with the anterior margin of the plastron 2 Forelimbs each with four claws gular scutes in contact intergular scute not in broad contact with the anterior margin of the plastron Chelodina2 Intergular scute not in contact with the pectoral scutes 3 Intergular scute contacts and partly separates the pectoral scutes Pseudemydura3 Suture between the second and third costal scutes contacting the seventh marginal scute suture between the third and fourth costal scutes contacting the ninth marginal scute 4 Suture between the second and third costal scutes contacting the sixth marginal scute suture between the third and fourth costal scutes contacting the eighth marginal scute Rheodytes4 Surface of the temporal region covered with distinct regular scales or low tubercles dorsal surface of the head with a prominent head shield which may be entire or fragmented cervical scute present or absent 5 Skin of the temporal region smooth sometimes broken into regular scales of low relief dorsal surface of head without a prominent head shield cervical scute present except as a rare variant Emydura5 Precloacal tail length greater than postcloacal length only in adult males tail round in cross section cloacal orifice round tail always shorter than half of carapace length 6 Tail distinctive and large precloacal length greater than postcloacal length at all ages in both sexes tail laterally compressed cloacal orifice a longitudinal slit tail up to 53 of carapace length in adult males Elusor6 Prominent alveolar ridge on the triturating surfaces of the mouth cervical scute absent except as a rare variant no prominent process of the head shield extending down the parietal ridge toward the tympanum Elseya Alveolar ridge absent cervical scute absent in Australian species except as a rare variant present in New Guinea species except as a rare variant posterior process of the head shield extends laterally down the parietal ridge toward the tympanum MyuchelysPhylogeny Edit Phrynops geoffroanus Relationships of the living forms based on Georges et al 2014 37 citation needed Chelidae Hydromedusinae Hydromedusa Chelinae Chelus Phrynops Rhinemys Mesoclemmys Platemys Acanthochelys Chelodininae Chelodina Pseudemydura Elusor Rheodytes Flaviemys Elseya Emydura MyuchelysThe species in the Chelidae family are distributed across Australia New Guinea and South America Over time they were required to disperse out of concerns of food shortage habitat destruction and weather disruptions In all of these warmer climates they can be found in turbid waters covered by muck and the root mats of underwater vegetation The waters that they are found in often lack large species of fish that would put them at risk of predation References Edit a b Gray J E 1831 Synopsis Reptilium Or Short Descriptions of the Species of Reptiles Part 1 Cataphracta Tortoises Crocodiles and Enaliosaurians London 85 pp Obst Fritz Jurgen 1998 Cogger H G Zweifel R G eds Encyclopedia of Reptiles and Amphibians San Diego Academic Press pp 111 112 ISBN 0 12 178560 2 Georges A amp Thomson S 2006 Evolution and Zoogeography of Australian freshwater turtles In Merrick J R Archer M Hickey G amp Lee M eds Evolution and Zoogeography of Australasian Vertebrates Sydney Australia Gordos M A Franklin C E amp Limpus C J 2004 Effect of water depth and water velocity upon the surfacing frequency of the bimodally respiring freshwater turtle Rheodytes leukops The Journal of Experimental Biology 207 3099 3107 Cann J 2008 Freshwater Turtles A Wild Australia Guide Queensland Australia Steve Parish Publishing p 46 Thomson S Georges A amp Limpus C 2006 A New Species of Freshwater Turtle in the Genus Elseya Testudines Chelidae from Central Coastal Queensland Australia Chelonian Conservation and Biology 5 1 74 86 Badenhorst Daleen Stanyon Roscoe Engstrom Tag Valenzuela Nicole 2013 03 20 A ZZ ZW microchromosome system in the spiny softshell turtle Apalone spinifera reveals an intriguing sex chromosome conservation in Trionychidae Chromosome Research 21 2 137 147 doi 10 1007 s10577 013 9343 2 ISSN 0967 3849 PMID 23512312 S2CID 14434440 a b Thomson S amp Georges A 1996 Neural bones in chelid turtles Chelonian Conservation and Biology 2 82 86 a b Thomson S 2003 Long necks flat heads and the evolution of piscivory World Chelonian Trust Pritchard Peter C H amp Trebbau Pedro 1984 The Turtles of Venezuela Society for the Studies of Amphibians and Reptiles 403 pp de la Fuente Marcelo S Umazano Aldo M Sterli Juliana Carballido Jose L August 2011 New chelid turtles of the lower section of the Cerro Barcino formation Aptian Albian Patagonia Argentina Cretaceous Research 32 4 527 537 doi 10 1016 j cretres 2011 03 007 Krause J Marcelo Ramezani Jahandar Umazano Aldo M Pol Diego Carballido Jose L Sterli Juliana Puerta Pablo Cuneo N Ruben Bellosi Eduardo S April 2020 High resolution chronostratigraphy of the Cerro Barcino Formation Patagonia Paleobiologic implications for the mid cretaceous dinosaur rich fauna of South America Gondwana Research 80 33 49 Bibcode 2020GondR 80 33K doi 10 1016 j gr 2019 10 005 S2CID 210265289 Smith Elizabeth T September 2010 Early Cretaceous chelids from Lightning Ridge New South Wales Alcheringa An Australasian Journal of Palaeontology 34 3 375 384 doi 10 1080 03115518 2010 488117 ISSN 0311 5518 S2CID 129726482 Bell Phil R Fanti Federico Hart Lachlan J Milan Luke A Craven Stephen J Brougham Thomas Smith Elizabeth January 2019 Revised geology age and vertebrate diversity of the dinosaur bearing Griman Creek Formation Cenomanian Lightning Ridge New South Wales Australia Palaeogeography Palaeoclimatology Palaeoecology 514 655 671 Bibcode 2019PPP 514 655B doi 10 1016 j palaeo 2018 11 020 hdl 11585 651841 S2CID 134264936 Gaffney E S 1977 The side necked turtle family Chelidae a theory of relationships using shared derived characters American Museum Novitates 2620 1 28 Pritchard P C H 1984 Piscivory in turtles and evolution of the long necked Chelidae in Ferguson M W ed The Structure Development and Evolution of Reptiles Zoological Society of London Symposium 52 87 110 a b Georges A Birrell J Saint K M McCord W amp Donnellan S C 1998 A phylogeny for side necked turtles Chelonia Pleurodira based on mitochondrial and nuclear gene sequence variation Biological Journal of the Linnean Society 67 213 246 Seddon J Georges A Baverstock P amp McCord W 1997 Phylogenetic relationships of chelid turtles Pleurodira Chelidae based on mitochondrial 12S rRNA gene sequence variation Molecular Phylogenetics and Evolution 7 55 61 Thomson S 2003 Long necks flat heads and the evolution of piscivory World Chelonian Trust Thomson S A 2000 On the identification of the holotype of Chelodina oblonga Testudinata Chelidae with a discussion of the taxonomic implications Chelonian Conservation and Biology 3 745 749 Rhodin Anders G J Iverson John B Bour Roger Fritz Uwe Georges Arthur Shaffer H Bradley van Dijk Peter Paul 2021 12 01 Turtles of the World Annotated Checklist and Atlas of Taxonomy Synonymy Distribution and Conservation Status 9th Ed PDF Chelonian Research Monographs 8 1 472 doi 10 3854 crm 8 checklist atlas v9 2021 ISBN 9780991036837 S2CID 244279960 a b c d Broin F de amp de la Fuente M S 2001 Oldest world Chelidae Chelonii Pleurodira from the Cretaceous Patagonia Argentina Palaeontology 333 463 470 Wieland G R 1923 A new Parana Pleurodiran American Journal of Science 5 25 1 15 Baur Georg 1893 Notes on the classification of the Cryptodira American Naturalist 27 672 674 Megirian D amp Murray P 1999 Chelid turtles Pleurodira Chelidae from the Miocene Camfield Beds Northern Territory of Australia with a description of a new genus and species The Beagle Records of the Museums and Art Galleries of the Northern Territory 15 75 130 Gray J E 1867 Description of a new Australian tortoise Elseya latisternum Annals and Magazine of Natural History 3 20 43 45 Cann J amp Legler J M 1994 The Mary River Tortoise a new genus and species of short necked chelid from Queensland Australia Testudines Pleurodira Chelonian Conservation and Biology 1 2 81 96 Le M Reid B N McCord W P Naro Maciel E Raxworthy C J Amato G amp Georges A 2013 Resolving the phylogenetic history of the short necked turtles genera Elseya and Myuchelys Testudines Chelidae from Australia and New Guinea Molecular Phylogenetics and Evolution 68 2013 251 258 Thomson S amp Georges A 2009 Myuchelys gen nov a new genus for Elseya latisternum and related forms of Australian freshwater turtle Testudines Pleurodira Chelidae Zootaxa 2053 32 42 Legler J M amp Cann J 1980 A new species of chelid turtle from Queensland Australia Contributions to Science Natural History Museum of Los Angeles County 324 1 18 Gray John Edward 1825 A synopsis of the genera of reptiles and amphibia with a description of some new species Annals of Philosophy 2 10 193 217 Gray J E 1873 Observations on chelonians with descriptions of new genera and species Annals and Magazine of Natural History 4 11 289 308 Baur Georg 1893 Notes on the classification and taxonomy of the Testudinata Proceedings of the American Philosophical Society 31 210 225 Oriozabala Carolina Sterli Juliana de la Fuente Marcelo S February 2020 New species of the long necked chelid Yaminuechelys from the Upper Cretaceous Campanian Maastrichtian of Chubut Argentina Cretaceous Research 106 104197 doi 10 1016 j cretres 2019 104197 S2CID 201336536 Zhang X Unmack P J Kuchling G Wang Y amp Georges A October 2017 Resolution of the enigmatic phylogenetic relationship of the critically endangered Western Swamp Tortoise Pseudemydura umbrina Pleurodira Chelidae using a complete mitochondrial genome Molecular Phylogenetics and Evolution 115 58 61 Seibenrock F 1901 Beschreibung einer neuen schildkrotengattung aus der familie Chelydidae aus Australien Pseudemydura Anzeiger der Akademie der Wissenschaften in Wien 38 248 251 Georges Arthur Zhang Xiuwen Unmack Peter Reid Brenden N Le Minh McCord William P 2014 Contemporary genetic structure of an endemic freshwater turtle reflects Miocene orogenesis of New Guinea Biological Journal of the Linnean Society 111 1 192 208 doi 10 1111 bij 12176 ISSN 0024 4066 S2CID 4950570 External links and further reading Edit Wikimedia Commons has media related to Chelidae Chelidae Gondwanan turtle site Retrieved from https en wikipedia org w index php title Chelidae amp oldid 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