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Information about Artiodactyla

Even-toed ungulates
Fossil range: Early Eocene - Recent
Enlarge picture
Right-rear foot of a Masai Giraffe (Giraffa camelopardalis tippelskirchi) at the San Diego Zoo

Right-rear foot of a Masai Giraffe (Giraffa camelopardalis tippelskirchi) at the San Diego Zoo
Scientific classification
Kingdom:Animalia
Phylum:Chordata
Class:Mammalia
Infraclass:Eutheria
Superorder:Laurasiatheria
Order:Artiodactyla*
Owen, 1848
Families


Antilocapridae
Bovidae
Camelidae
Cervidae
Giraffidae
Hippopotamidae
Moschidae
Suidae
Tayassuidae
Tragulidae
Leptochoeridae
Dichobunidae
Cebochoeridae †
Entelodontidae
Anoplotheriidae †
Anthracotheriidae
Cainotheriidae
Agriochoeridae †
Merycoidodontidae
Leptomerycidae †
Protoceratidae
Xiphodontidae †
Amphimerycidae †
Helohyidae †
Gelocidae †
Dromomerycidae †
Raoellidae
Choeropotamidae †
Sanitheriidae †
Climacoceratidae


The even-toed ungulates form the mammal order Artiodactyla. They are ungulates whose weight is borne about equally by the third and fourth toes, rather than mostly or entirely by the third as in perissodactyls. There are about 220 artiodactyl species, including many that are of great economic importance to humans.

History

As with many animal groups, even-toed ungulates first appeared during the Early Eocene (about 54 million years ago). In form they were rather like today's chevrotains: small, short-legged creatures that ate leaves and the soft parts of plants. By the Late Eocene (46 million years ago), the three modern suborders had already developed: Suina (the pig group); Tylopoda (the camel group); and Ruminantia (the goat and cattle group). Nevertheless, artiodactyls were far from dominant at that time: the odd-toed ungulates (ancestors of today's horses and rhinos) were much more successful and far more numerous. Even-toed ungulates survived in niche roles, usually occupying marginal habitats, and it is presumably at that time that they developed their complex digestive systems, which allowed them to survive on lower-grade feed.

The appearance of grasses during the Eocene and their subsequent spread during the Miocene (about 20 million years ago) saw a major change: grasses are very difficult to eat and the even-toed ungulates with their highly-developed stomachs were better able to adapt to this coarse, low-nutrition diet, and soon replaced the odd-toed ungulates as the dominant terrestrial herbivores.

The artiodactyls fall into two groups which, despite underlying similarities, are rather different. The Suina (pigs, hippos, and peccaries) retain four toes, have simpler molars, short legs, and their canine teeth are often enlarged to form tusks. In general, they are omnivores and have a simple stomach (the two hippopotamus species and the babirusa are exceptions). It is possible that Suina is not a natural group. In particular, recent research suggests that the Hippopotamidae (which are likely derived from among the extinct group known as anthracotheres) may be more closely related to the ruminants than to the pigs.

The camelids and the Ruminantia, on the other hand, tend to be longer-legged, to have only two toes, to have more complex cheek teeth well-suited to grinding up tough grasses, and multi-chambered stomachs. Not only are their digestive systems highly developed, they have also evolved the habit of chewing cud: regurgitating partly-digested food to chew it again and extract the maximum possible benefit from the end.

Lastly a group of artiodactyls, which molecular biology suggests were most closely related to Hippopotamidae, returned to the sea to become whales. The conclusion is that Artiodactyla, if it excludes Cetacea, is a paraphyletic group. For this reason, the term Cetartiodactyla was coined to refer to the group containing both artiodactyls and whales.[1]

Classification

See also

Bibliography

References

1. ^ Boisserie, Jean-Renaud; Fabrice Lihoreau and Michel Brunet (February 2005). "The position of Hippopotamidae within Cetartiodactyla". Proceedings of the National Academy of Sciences 102 (5): 1537-1541. Retrieved on 2007-06-09. 

External links

    [ e]
Extant mammal orders by subclass
The Eocene epoch (55.8 ± 0.2 - 33.9 ± 0.1 Ma) is a major division of the geologic timescale and the second epoch of the Palaeogene period in the Cenozoic era. The Eocene spans the time from the end of the Paleocene epoch to the beginning of the Oligocene epoch.
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G. c. tippelskirchi

Trinomial name
Giraffa camelopardalis tippelskirchi

Masai Giraffe range


The Masai Giraffe, also known as the Kilimanjaro Giraffe
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The San Diego Zoo in Balboa Park, San Diego, California is one of the largest, most progressive zoos in the world with over 4,000 animals of more than 800 species. It is privately operated by the nonprofit Zoological Society of San Diego on 100 acres of parkland leased from
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Scientific classification or biological classification is a method by which biologists group and categorize species of organisms. Scientific classification also can be called scientific taxonomy, but should be distinguished from folk taxonomy, which lacks scientific basis.
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Chordata
Bateson, 1885

Typical Classes

See below

Chordates (phylum Chordata) are a group of animals that includes the vertebrates, together with several closely related invertebrates.
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Mammalia
Linnaeus, 1758

Subclasses & Infraclasses
  • Subclass †Allotheria*
  • Subclass Prototheria
  • Subclass Theria

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Eutheria

Orders[1]
  • Bobolestes
  • Eomaia
  • Maelestes
  • Montanalestes
  • Murtoilestes
  • Prokennalestes
  • Placentalia
  • Superorder

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Laurasiatheria

Orders
  • Erinaceomorpha
  • Soricomorpha
  • Chiroptera
  • Cetartiodactyla
  • Cetacea
  • Artiodactyla
  • Perissodactyla

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In phylogenetics, a group of organisms is said to be paraphyletic (Greek para = near and phyle = race) if the group contains its most recent common ancestor, but does not contain all the descendants of that ancestor.
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Sir Richard Owen KCB (July 20 1804–December 18 1892) was an English biologist, comparative anatomist and palaeontologist. He was widely regarded as malicious and dishonest but he was also one of the most brilliant and influential biologists of his time.
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Antilocapridae
Owen, 1841

Genera

See text.
Antilocapridae is a family of artiodactyls endemic to North America. Only one species, the pronghorn (Antilocapra americana), is living today; all other members of the family are extinct.
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Bovidae
Gray, 1821

Subfamilies

Bovinae
Cephalophinae
Hippotraginae
Antilopinae
Caprinae
Reduncinae
Aepycerotinae
Peleinae
Alcelaphinae
Panthalopinae

A bovid
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Tylopoda

Family: Camelidae
Gray, 1821

Map of the world showing distribution of camelids. Solid black lines indicate possible migration routes.

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Cervidae
Goldfuss, 1820

Subfamilies

Capreolinae/Odocoileinae
Cervinae
Hydropotinae
Muntiacinae

A deer is a ruminant mammal belonging to the family Cervidae.
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Giraffidae
Gray, 1821

Species

Okapia
  • Okapia johnstoni
''Giraffa
  • Giraffa camelopardalis


The biological family Giraffidae contains just two living members, the giraffe and the okapi.
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Hippopotamidae
Gray, 1821

Genera

Hippopotamus
Hexaprotodon
Archaeopotamus
Choeropsis
Saotherium

Hippopotamuses (colloquially also "Hippopotami") are the members of the family
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Moschidae
(Gray, 1821)

Genus: Moschus
(Linnaeus, 1758)

Species
  • Moschus chrysogaster - Himalayan Musk Deer
  • Moschus moschiferus - Siberian Musk Deer
  • Moschus berezovskii

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Suidae
Gray, 1821

Genera

Babirusas, Babyrousa
Giant forest hogs, Hylochoerus
Warthogs, Phacochoerus
Bushpigs, Potamochoerus
Pigs, Sus
Suidae
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Tayassuidae
Palmer, 1897

Species

Tayassu
  • Tayassu tajacu
  • Tayassu pecari
''Catagonus
  • Catagonus wagneri
The peccaries (also known by its Spanish name, javali or
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Tragulidae
Milne-Edwards, 1864

Genera
  • Hyemoschus
  • Moschiola
  • Tragulus
The four species of chevrotain, also known as mouse deer (not to be confused with deer mice, Peromyscus
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extinction is the cessation of existence of a species or group of taxa, reducing biodiversity. The moment of extinction is generally considered to be the death of the last individual of that species (although the capacity to breed and recover may have been lost before this point).
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Dichobunidae
Turner, 1849

Genera

Paraphenacodus
Dulcidon
Chorlakkia
Pakibune
Mouillacitherium
Hyperdichobune
Aumelasia
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Entelodontidae
Lydekker, 1883

Genera
  • Archaeotherium
  • Brachyhyops
  • Cypretherium
  • Daeodon
  • Entelodon
  • Eoentelodon
  • Paraentelodon
Synonyms
  • Elotheridae

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Anthracotheriidae ?

Genera
  • Anthracotherium (type genus)
  • Brachyodus
  • Bothriogenys
  • Elomeryx
  • Libycosaurus
  • Merycopotamus

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Cainotherium

Species: C. commune

Binomial name
Cainotherium commune
Bravard, 1828

Cainotherium commune
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Merycoidodontidae

Subfamilies
  • Oreonetinae
  • Leptaucheniinae
  • Oreodontinae (Merycoidodontinae)
  • Miniochoerinae
  • Desmatochoerinae
  • Promerycochoerinae
  • Merychyinae
  • Eporeodontinae
  • Phenacocoelinae
  • Ticholeptinae

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Tylopoda

Family: Protoceratidae

Genera
  • Protoceras
  • Syndyoceras
  • Synthetoceras
Protoceratidae
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Raoellidae

Genera
  • Haqueina
  • Indohyus
  • Khirtharia
  • Kunmunella
  • Raoella
  • Metkatius


Previously grouped with Helohyidae, Raoellidae was now a family in the Suborder Suina.
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Climacoceras
MacInnes, 1936

Species
  • C. africanus (type) MacInnes, 1936
  • C. gentryi Hamilton, 1978


Climacoceras
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