Outer taxonomy Traditionally, the odd-toed ungulates were classified with other mammals such as
artiodactyls,
hyraxes,
elephants and other "ungulates". A close family relationship with hyraxes was suspected based on similarities in the construction of the ear and the course of the
carotid artery. Molecular genetic studies, however, have shown the ungulates to be
polyphyletic, meaning that in some cases the similarities are the result of
convergent evolution rather than
common ancestry. Elephants and hyraxes are now considered to belong to
Afrotheria, so are not closely related to the perissodactyls. These in turn are in the
Laurasiatheria, a superorder that had its origin in the former supercontinent
Laurasia. Molecular genetic findings suggest that the cloven
Artiodactyla (containing the
cetaceans as a deeply nested subclade) are the sister taxon of the Perissodactyla; together, the two groups form the
Euungulata. More distant are the
bats (Chiroptera) and
Ferae (a common taxon of carnivorans,
Carnivora, and pangolins,
Pholidota). In a discredited alternative scenario, a close relationship exists between perissodactyls, carnivorans, and bats, this assembly comprising the
Pegasoferae. According to studies published in March 2015, odd-toed ungulates are in a close family relationship with at least some of the so-called
Meridiungulata, a very diverse group of mammals living from the Paleocene to the Pleistocene in South America, whose systematic unity is largely unexplained. Some of these were classified based on their paleogeographic distribution. However, a close relationship can be worked out to perissodactyls by
protein sequencing and comparison with fossil collagen from remnants of phylogenetically young members of the Meridiungulata (specifically
Macrauchenia from the
Litopterna and
Toxodon from the
Notoungulata). Both kinship groups, the odd-toed ungulates and the Litopterna-Notoungulata, are now in the higher-level taxon of
Panperissodactyla. This kinship group is included among the Euungulata, which also contains the even-toed ungulates (Artiodactyla). The separation of the Litopterna-Notoungulata group from the perissodactyls probably took place before the
Cretaceous–Paleogene extinction event. "Condylarths" can probably be considered the starting point for the development of the two groups, as they represent a heterogeneous group of primitive ungulates that mainly inhabited the northern hemisphere in the
Paleogene.
Modern members Odd-toed ungulates comprise three living families with around 17 species—in horses, however, the exact count is still controversial. Rhinos and tapirs are more closely related to each other than to horses. According to molecular genetic analysis, the separation of horses from other perissodactyls took place in the
Paleocene some 56 million years ago, while the rhinos and tapirs split off in the lower-middle
Eocene, about 47 million years ago. •
Order Perissodactyla •
Suborder Hippomorpha •
Family Equidae: horses and allies, seven species in one genus •
Wild horse,
Equus ferus •
Tarpan,
†Equus ferus ferus •
Przewalski's horse,
Equus ferus przewalskii • Domestic
horse,
Equus ferus caballus •
African wild ass,
Equus africanus •
Nubian wild ass,
Equus africanus africanus •
Somali wild ass,
Equus africanus somaliensis • Domesticated ass (
donkey),
Equus africanus asinus •
Atlas wild ass,
†Equus africanus atlanticus •
Onager or Asiatic wild ass,
Equus hemionus •
Mongolian wild ass,
Equus hemionus hemionus •
Turkmenian kulan,
Equus hemionus kulan •
Persian onager,
Equus hemionus onager •
Indian wild ass,
Equus hemionus khur •
Syrian wild ass,
†Equus hemionus hemippus •
Kiang or Tibetan wild ass,
Equus kiang • Western kiang,
Equus kiang kiang • Eastern kiang,
Equus kiang holdereri • Southern kiang,
Equus kiang polyodon •
Plains zebra,
Equus quagga •
Quagga,
†Equus quagga quagga •
Burchell's zebra,
Equus quagga burchellii •
Grant's zebra,
Equus quagga boehmi •
Maneless zebra,
Equus quagga borensis •
Chapman's zebra,
Equus quagga chapmani •
Crawshay's zebra,
Equus quagga crawshayi •
Selous' zebra,
Equus quagga selousi •
Mountain zebra,
Equus zebra •
Cape mountain zebra,
Equus zebra zebra •
Hartmann's mountain zebra,
Equus zebra hartmannae •
Grévy's zebra,
Equus grevyi •
Suborder Ceratomorpha •
Family Tapiridae: tapirs, five species in one genus •
Brazilian tapir,
Tapirus terrestris •
Mountain tapir,
Tapirus pinchaque •
Baird's tapir,
Tapirus bairdii •
Malayan tapir,
Tapirus indicus •
Kabomani tapir,
Tapirus kabomani •
Family Rhinocerotidae: rhinoceroses, five species in four genera •
Black rhinoceros,
Diceros bicornis •
Southern black rhinoceros,
†Diceros bicornis bicornis •
North-eastern black rhinoceros,
†Diceros bicornis brucii •
Chobe black rhinoceros,
Diceros bicornis chobiensis •
Uganda black rhinoceros,
Diceros bicornis ladoensis •
Western black rhinoceros,
†Diceros bicornis longipes •
Eastern black rhinoceros,
Diceros bicornis michaeli •
South-central black rhinoceros,
Diceros bicornis minor •
South-western black rhinoceros,
Diceros bicornis occidentalis •
White rhinoceros,
Ceratotherium simum •
Southern white rhinoceros,
Ceratotherium simum simum •
Northern white rhinoceros,
Ceratotherium simum cottoni •
Indian rhinoceros,
Rhinoceros unicornis •
Javan rhinoceros,
Rhinoceros sondaicus • Indonesian Javan rhinoceros,
Rhinoceros sondaicus sondaicus • Vietnamese Javan rhinoceros,
Rhinoceros sondaicus annamiticus •
Indian Javan rhinoceros,
†Rhinoceros sondaicus inermis •
Sumatran rhinoceros,
Dicerorhinus sumatrensis • Western Sumatran rhinoceros,
Dicerorhinus sumatrensis sumatrensis •
Eastern Sumatran rhinoceros,
Dicerorhinus sumatrensis harrissoni •
Northern Sumatran rhinoceros,
†Dicerorhinus sumatrensis lasiotis Prehistoric members '', a
palaeothere genus first formally described in 1804
Anisodon grande (formerly
Chalicotherium grande) There are many perissodactyl fossils of multivariant form. The major lines of development include the following groups: •
Paraceratherium, one of the largest land mammals to have ever existedBrontotherioidea were among the earliest known large mammals, consisting of the families of
Brontotheriidae (synonym Titanotheriidae), the most well-known representative being
Megacerops and the more basal family
Lambdotheriidae. They were generally characterized in their late phase by a bony horn at the transition from the nose to the frontal bone and flat molars suitable for chewing soft plant food. The Brontotheroidea, which were almost exclusively confined to North America and Asia, died out at the beginning of the Upper
Eocene. •
Equoidea also developed in the Eocene.
Palaeotheriidae are known mainly from Europe. In contrast, the horse family (
Equidae) flourished and spread. Over time this group saw a reduction in toe number, extension of the limbs, and the progressive adjustment of the teeth for eating hard grasses. •
Chalicotherioidea represented another characteristic group, consisting of the families
Chalicotheriidae and
Lophiodontidae. The Chalicotheriidae developed claws instead of hooves and considerable extension of the forelegs. The best-known genera include
Chalicotherium and
Moropus. Chalicotherioidea died out in the
Pleistocene. • Rhinocerotoidea (rhino relatives) included a large variety of forms from the Eocene up to the Oligocene, including dog-size leaf feeders, semiaquatic animals, and also huge long-necked animals. Only a few had horns on the nose. The
Amynodontidae were hippo-like, aquatic animals.
Hyracodontidae developed long limbs and long necks that were most pronounced in the
Paraceratherium (formerly known as
Baluchitherium or
Indricotherium), the second largest known land mammal ever to have lived (after
Palaeoloxodon namadicus). The rhinos (Rhinocerotidae) emerged in the Middle Eocene; five species survive to the present day. •
Tapiroidea reached their greatest diversity in the Eocene, when several families lived in Eurasia and North America. They retained a primitive physique and were noted for developing a trunk. The extinct families within this group include the
Helaletidae. • Several mammal groups traditionally classified as
condylarths, long-understood to be a
wastebasket taxon, such as
hyopsodontids and
phenacodontids, are now understood to be part of the odd-toed ungulate assemblage. Phenacodontids seem to be stem-perissodactyls, while hyopsodontids are closely related to horses and brontotheres, despite their more primitive overall appearance. •
Desmostylia and
Anthracobunidae have traditionally been placed among the
afrotheres, but they may actually represent stem-perissodactyls. They are an early lineage of mammals that took to the water, spreading across semi-aquatic to fully marine niches in the
Tethys Ocean and the northern
Pacific. However, later studies have shown that, while anthracobunids are definite perissodactyls, desmostylians have enough mixed characters to suggest that a position among the Afrotheria is not out of the question. •
Order Perissodactyla • †
Pachynolophidae •
Superfamily Equoidea • †
Indolophidae • †
Palaeotheriidae (might be a basal perissodactyl grade instead) •
Clade Tapiromorpha • †
Isectolophidae • †
Eoletidae (sometimes recognized as a subfamily of lophialetids) • †
Anthracobunidae (a family of stem-perissodactyls; from the Early to Middle Eocene epoch) • †
Phenacodontidae The names Hippomorpha and Ceratomorpha were introduced in 1937 by Horace Elmer Wood, in response to criticism of the name "Solidungula" that he proposed three years previously. It had been based on the grouping of horses and Tridactyla and on the rhinoceros/tapir complex. The extinct brontotheriidae were also classified under Hippomorpha and therefore possess a close relationship to horses. Some researchers accept this assignment because of similar dental features, but there is also the view that a very basal position within the odd-toed ungulates places them rather in the group of
Titanotheriomorpha. Originally, the
Chalicotheriidae were seen as members of Hippomorpha, and presented as such in 1941. William Berryman Scott thought that, as claw-bearing perissodactyls, they belong in the new suborder Ancylopoda (where Ceratomorpha and Hippomorpha as odd-toed ungulates were combined in the group of Chelopoda). The term Ancylopoda, coined by
Edward Drinker Cope in 1889, had been established for chalicotheres. However, further morphological studies from the 1960s showed a middle position of Ancylopoda between Hippomorpha and Ceratomorpha.
Leonard Burton Radinsky saw all three major groups of odd-toed ungulates as peers, based on the extremely long and independent phylogenetic development of the three lines. In the 1980s, Jeremy J. Hooker saw a general similarity between Ancylopoda and Ceratomorpha based on dentition, especially in the earliest members, leading to the unification in 1984 of the two submissions in the interim order,
Tapiromorpha. At the same time, he expanded the Ancylopoda to include the
Lophiodontidae. The name "Tapiromorpha" goes back to Ernst Haeckel, who coined it in 1873, but it was long considered synonymous to Ceratomorpha because Wood had not considered it in 1937 when Ceratomorpha were named, since the term had been used quite differently in the past. Also in 1984, Robert M. Schoch used the conceptually similar term Moropomorpha, which today applies synonymously to Tapiromorpha. Included within the Tapiromorpha are the now extinct Isectolophidae, a sister group of the Ancylopoda-Ceratomorpha group and thus the most primitive members of this relationship complex. ==Evolutionary history==