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Crurotarsal

April 10, 2024

A crurotarsal joint is one that’s situated between the bones of crus, i.e. shin (tibia and fibula) and the proximal tarsal bones, i.e. astragalus and calcaneum.[1][2]

Therian form of crurotarsal ankle. Adapted with permission from

The ankle joint of therian mammals (marsupials and placentals) is a crurotarsal joint, with the main joint of ankle bending between the tibia and the astragalus; the calcaneum has no contact with the tibia but forms a heel to which muscles can attach.

A group of archosauriform diapsids, Crurotarsi (including living crocodilians and their extinct relatives) is named after specialized crurotarsal joint in the skeletons of the members of this group, located between their fibula and calcaneum, with a hemicylindrical condyle on the calcaneum articulating against fibula.[3] This joint is present in the skeletons of suchians (including crocodilians) and phytosaurs, and was cited as one of the characters supporting uniting these two groups in a clade to the exclusion of avemetatarsalian archosaurs (birds and their extinct relatives). However, according to a study published in 2011, suchians are more closely related to Avemetatarsalia than to phytosaurs; there is, however, not enough information to find out whether the aforementioned crurotarsal joint evolved independently in suchians and in phytosaurs, or whether it was already present in the skeleton of their most recent common ancestor (and secondarily lost in avemetatarsalians).[4]

Crocodilian form of crurotarsal ankle. Adapted with permission from

The ankle joint of pseudosuchians (including crocodilians) and phytosaurs, passing between the astragalus and calcaneum, is also called crurotarsal joint in the literature.[5][6] In the skeletons of the phytosaurs and most of the pseudosuchians this joint bends around a peg on the astragalus which fits into a socket in the calcaneum (the “crocodile normal” tarsus); only in the skeletons of the ornithosuchid pseudosuchians a peg on the calcaneum fits into a socket in the astragalus (the “crocodile reversed” tarsus).[3] Strictly speaking this ankle is not a crurotarsal joint in the previously discussed sense, as it's situated between the two proximal tarsal bones. However, while calcaneum is not fixed to the fibula, the astragalus is fixed to the tibia by a suture and thus in practice it functions as an extension of the crus.[7]

References edit

  1. ^ Sidney Frederic Harmer & Arthur Everett Shipley (eds.) (1902). The Cambridge Natural History, vol. X: Mammalia. The Macmillan Company. p. 43. {{cite book}}: |author= has generic name (help)
  2. ^ Sidney Hugh Reynolds (1913). The Vertebrate Skeleton (Cambridge Zoological Series) (Second ed.). Cambridge University Press. p. 344.
  3. ^ a b Sereno, Paul (1991). "Basal archosaurs: phylogenetic relationships and functional implications". Journal of Vertebrate Paleontology. 11 (Suppl. 4): 1–51. doi:10.1080/02724634.1991.10011426.
  4. ^ Nesbitt, S.J. (2011). "The early evolution of archosaurs: relationships and the origin of major clades". Bulletin of the American Museum of Natural History. 352: 1–292. doi:10.1206/352.1. S2CID 83493714.
  5. ^ Dyke G.J. & Kaiser G.W. (eds.), Living Dinosaurs: The Evolutionary History of Modern Birds, John Wiley & Sons, London, 2011, p. 406.
  6. ^ "Glossary: crurotarsal - Palaeos".
  7. ^ Guillaume Lecointre & Hervé Le Guyader (2006). The Tree of Life: A Phylogenetic Classification. Harvard University Press. p. 386. ISBN 978-0-674-02183-9.

April 10, 2024
crurotarsal, crurotarsal, joint, that, situated, between, bones, crus, shin, tibia, fibula, proximal, tarsal, bones, astragalus, calcaneum, therian, form, crurotarsal, ankle, adapted, with, permission, from, palaeosthe, ankle, joint, therian, mammals, marsupia. A crurotarsal joint is one that s situated between the bones of crus i e shin tibia and fibula and the proximal tarsal bones i e astragalus and calcaneum 1 2 Therian form of crurotarsal ankle Adapted with permission from PalaeosThe ankle joint of therian mammals marsupials and placentals is a crurotarsal joint with the main joint of ankle bending between the tibia and the astragalus the calcaneum has no contact with the tibia but forms a heel to which muscles can attach A group of archosauriform diapsids Crurotarsi including living crocodilians and their extinct relatives is named after specialized crurotarsal joint in the skeletons of the members of this group located between their fibula and calcaneum with a hemicylindrical condyle on the calcaneum articulating against fibula 3 This joint is present in the skeletons of suchians including crocodilians and phytosaurs and was cited as one of the characters supporting uniting these two groups in a clade to the exclusion of avemetatarsalian archosaurs birds and their extinct relatives However according to a study published in 2011 suchians are more closely related to Avemetatarsalia than to phytosaurs there is however not enough information to find out whether the aforementioned crurotarsal joint evolved independently in suchians and in phytosaurs or whether it was already present in the skeleton of their most recent common ancestor and secondarily lost in avemetatarsalians 4 Crocodilian form of crurotarsal ankle Adapted with permission from PalaeosThe ankle joint of pseudosuchians including crocodilians and phytosaurs passing between the astragalus and calcaneum is also called crurotarsal joint in the literature 5 6 In the skeletons of the phytosaurs and most of the pseudosuchians this joint bends around a peg on the astragalus which fits into a socket in the calcaneum the crocodile normal tarsus only in the skeletons of the ornithosuchid pseudosuchians a peg on the calcaneum fits into a socket in the astragalus the crocodile reversed tarsus 3 Strictly speaking this ankle is not a crurotarsal joint in the previously discussed sense as it s situated between the two proximal tarsal bones However while calcaneum is not fixed to the fibula the astragalus is fixed to the tibia by a suture and thus in practice it functions as an extension of the crus 7 References edit Sidney Frederic Harmer amp Arthur Everett Shipley eds 1902 The Cambridge Natural History vol X Mammalia The Macmillan Company p 43 a href Template Cite book html title Template Cite book cite book a author has generic name help Sidney Hugh Reynolds 1913 The Vertebrate Skeleton Cambridge Zoological Series Second ed Cambridge University Press p 344 a b Sereno Paul 1991 Basal archosaurs phylogenetic relationships and functional implications Journal of Vertebrate Paleontology 11 Suppl 4 1 51 doi 10 1080 02724634 1991 10011426 Nesbitt S J 2011 The early evolution of archosaurs relationships and the origin of major clades Bulletin of the American Museum of Natural History 352 1 292 doi 10 1206 352 1 S2CID 83493714 Dyke G J amp Kaiser G W eds Living Dinosaurs The Evolutionary History of Modern Birds John Wiley amp Sons London 2011 p 406 Glossary crurotarsal Palaeos Guillaume Lecointre amp Herve Le Guyader 2006 The Tree of Life A Phylogenetic Classification Harvard University Press p 386 ISBN 978 0 674 02183 9 Retrieved from https en wikipedia org w index php title Crurotarsal amp oldid 1188160172, wikipedia, wiki, book, books, library,

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