Oxyaenidae

Oxyaenidae is a family of carnivorous mammals. Traditionally classified in Creodonta, this group may be related to pangolins.[1] The group contains four subfamilies comprising thirteen genera. North American oxyaenids were the first creodonts to appear during the late Paleocene, while smaller radiations of oxyaenids in Europe and Asia occurred during the Eocene.[2] They were superficially cat-like beasts that walked on flat feet, in contrast to modern cats, which walk or run on their toes. Anatomically, characteristic features include a short, broad skull, deep jaws, and teeth designed for crushing rather than shearing, as in the hyaenodonts or modern cats.

Oxyaenidae
Temporal range: 61.7–33.9 Ma Middle Paleocene to late Eocene
Part of a Palaeonictis occidentalis skull at the Museum für Naturkunde, Berlin
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Creodonta
Family: Oxyaenidae
Cope, 1877
Subfamilies

Oxyaenids were specialized carnivores that preyed on other terrestrial vertebrates, eggs and insects. They were capable of climbing trees, which is suggested by fossil evidence of their paws.

Classification and phylogeny

Taxonomy
Restoration of Patriofelis by Charles Knight
  • Order: †Oxyaenodonta (Van Valen, 1971)
    • Family: †Oxyaenidae (Cope, 1877)
      • Subfamily: †Machaeroidinae (Matthew, 1909)
        • Genus: †Apataelurus (Scott, 1937)
          • Apataelurus kayi (Scott, 1937)
          • Apataelurus pishigouensis (Tong & Lei, 1986)
        • Genus: †Isphanatherium (Lavrov & Averianov, 1998)
          • Isphanatherium ferganensis (Lavrov & Averianov, 1998)
        • Genus: †Machaeroides (Matthew, 1909)
          • Machaeroides eothen (Matthew, 1909)
          • Machaeroides simpsoni (Dawson, 1986)
      • Subfamily: †Oxyaeninae (Cope, 1877)
        • Genus: †Argillotherium (Cope, 1877)
          • Argillotherium toliapicum (Davies, 1884)
        • Genus: †Dipsalidictides (Denison, 1938)
          • Dipsalidictides transiens (Matthew & Granger, 1915)
        • Genus: †Dipsalidictis (Matthew & Granger, 1915) <−−−[paraphyletic genus]
          • Dipsalidictis aequidens (Matthew & Granger, 1915)
          • Dipsalidictis krausei (Gunnell & Gingerich, 1991)
          • Dipsalidictis platypus (Matthew & Granger, 1915)
        • Genus: †Malfelis (Stucky & Hardy, 2007)[3]
          • Malfelis badwaterensis (Stucky & Hardy, 2007)
        • Genus: †Oxyaena (Cope, 1874)
          • Oxyaena forcipata (Cope, 1874)
          • Oxyaena gulo (Matthew & Granger, 1915)
          • Oxyaena intermedia (Denison, 1938)
          • Oxyaena lupina (Cope, 1874)
          • Oxyaena pardalis (Matthew & Granger, 1915)
          • Oxyaena simpsoni (Van Valen, 1966)
          • Oxyaena woutersi (Lange-Badré & Godinot, 1982)
        • Genus: †Patriofelis (Leidy, 1870)
          • Patriofelis ferox (Marsh, 1872)
          • Patriofelis ulta (Leidy, 1870)
        • Genus: †Protopsalis (Cope, 1880)
          • Protopsalis tigrinus (Cope, 1880)
        • Genus: †Sarkastodon (Granger, 1938)
          • Sarkastodon henanensis (Tong & Lei, 1986)
          • Sarkastodon mongoliensis (Granger, 1938)
      • Subfamily: †Palaeonictinae (Denison, 1938)
        • Genus: †Ambloctonus (Cope, 1875)
          • Ambloctonus major (Denison, 1938)
          • Ambloctonus priscus (Matthew & Granger, 1915)
          • Ambloctonus sinosus (Cope, 1875)
        • Genus: †Dipsalodon (Jepsen, 1930) <−−−[paraphyletic genus]
          • Dipsalodon churchillorum (Rose, 1981)
          • Dipsalodon matthewi (Jepsen, 1930)
        • Genus: †Palaeonictis (de Blainville, 1842)
          • Palaeonictis gigantea (de Blainville, 1842)
          • Palaeonictis occidentalis (Osborn, 1892)
          • Palaeonictis peloria (Rose, 1981)
          • Palaeonictis wingi (Chester, 2010)
      • Subfamily: †Tytthaeninae (Gunnell & Gingerich, 1991)
        • Genus: †Tytthaena (Gingerich, 1980)
          • Tytthaena lichna (Rose, 1981)
          • Tytthaena parrisi (Gingerich, 1980)

Phylogeny

The phylogenetic relationships of family Oxyaenidae are shown in the following cladogram:[4][5][6][7][8][9]

 Ferae 

Pholidotamorpha

 Hyaenodonta 

Hyaenodonta (sensu stricto)

Altacreodus

Tinerhodon

 sensu lato 

Carnivoramorpha

 Oxyaenodonta 
 Oxyaenidae 
 Tytthaeninae 
 Tytthaena 

Tytthaena parrisi

Tytthaena lichna

 Oxyaeninae 
 Oxyaena 

Oxyaena intermedia

Oxyaena forcipata

Oxyaena gulo

Oxyaena lupina

Oxyaena simpsoni

Oxyaena pardalis

Oxyaena woutersi

Oxyaena sp.

 Argillotherium 

Argillotherium toliapicum

 ? 
 Sarkastodon 

Sarkastodon henanensis

Sarkastodon mongoliensis

 Malfelis 

Malfelis badwaterensis

 Protopsalis 

Protopsalis tigrinus

 Patriofelis 

Patriofelis ulta

Patriofelis ferox

 Dipsalidictides 

Dipsalidictides transiens

Dipsalidictis krausei

Dipsalidictis platypus

Dipsalidictis aequidens

 Dipsalidictis
 Machaeroidinae 
 Apataelurus 

Apataelurus kayi

Apataelurus pishigouensis

machaeroidinid sp. (CM 2386)

 Isphanatherium 

Isphanatherium ferganensis

 ? 
 Machaeroides 

Machaeroides eothen

Machaeroides simpsoni

 Palaeonictinae 

Dipsalodon churchillorum

Dipsalodon sp. (UM 71172)

 Dipsalodon

Dipsalodon matthewi

 Ambloctonus 

Ambloctonus major

Ambloctonus priscus

Ambloctonus sinosus

 Palaeonictis 

Palaeonictis peloria

Palaeonictis gigantea

Palaeonictis wingi

Palaeonictis occidentalis

References
  1. Halliday, Thomas J. D.; Upchurch, Paul; Goswami, Anjali (2015). "Resolving the relationships of Paleocene placental mammals" (PDF). Biological Reviews. 92: n/a–n/a. doi:10.1111/brv.12242. ISSN 1464-7931. PMC 6849585. PMID 28075073.
  2. Gunnel, Gregg F.; Gingerich, Philip D. (30 Sep 1991). "Systematics and evolution of late Paleocene and early Eocene Oxyaenidae (Mammalia, Creodonta) in the Clarks Fork Basin, Wyoming" (PDF). Contributions From the Museum of Paleontology. The University of Michigan. 28 (7): 141–180. Retrieved 2010-01-03.
  3. Stucky, R. K.; Hardy, T. G. (2007). "A new large hypercarnivorous oxyaenid (Mammalia, Creodonta) from the Middle Eocene of the Wind River Formation, Natrona County, Wyoming". Bulletin of Carnegie Museum of Natural History. 39: 57–65. doi:10.2992/0145-9058(2007)39[57:anlhom]2.0.co;2.
  4. Gunnel, Gregg F.; Gingerich, Philip D. (1991). "Systematics and evolution of late Paleocene and early Eocene Oxyaenidae (Mammalia, Creodonta) in the Clarks Fork Basin, Wyoming" (PDF). Contributions From the Museum of Paleontology. The University of Michigan. 28 (7): 141–180.
  5. Stephen G. B. Chester; Jonathan I. Bloch; Ross Secord; Doug M. Boyer (2010). "A new small bodied species of Palaeonictis (Creodonta, Oxyaenidae) from the Paleocene-Eocene thermal maximum". Journal of Mammalian Evolution. 17 (4): 227–243. doi:10.1007/s10914-010-9141-y.
  6. F. Solé, E. Gheerbrant, and M. Godinot. (2011.) "New data on the Oxyaenidae from the Early Eocene of Europe; biostratigraphic, paleobiogeographic and paleoecologic implications." Palaeontologia Electronica 14(2):13A:1-41
  7. Solé, F. & Ladevèze, S. (2017). "Evolution of the hypercarnivorous dentition in mammals (Metatheria, Eutheria) and its bearing on the development of tribosphenic molars." Evolution & Development, 19(2), 56–68.
  8. Prevosti, F. J., & Forasiepi, A. M. (2018). "Introduction. Evolution of South American Mammalian Predators During the Cenozoic: Paleobiogeographic and Paleoenvironmental Contingencies"
  9. Shawn P. Zack (2019). "A skeleton of a Uintan machaeroidine 'creodont' and the phylogeny of carnivorous eutherian mammals". Journal of Systematic Palaeontology. 17 (8): 653–689. doi:10.1080/14772019.2018.1466374.

Further reading
  • David Lambert and the Diagram Group. The Field Guide to Prehistoric Life. New York: Facts on File Publications, 1985. ISBN 0-8160-1125-7
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