Odd-toed ungulate

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Odd-toed ungulates Temporal range: 56–0 Ma PreЄ Є O S D C P T J K Pg N Ypresian-Holocene See below for possible Paleocene members.
Clockwise from left: plains zebra (Equus quagga), Indian rhinoceros (Rhinoceros unicornis) and South American tapir (Tapirus terrestris)
Scientific classification
Kingdom:	Animalia
Phylum:	Chordata
Class:	Mammalia
Subclass:	Theria
Infraclass:	Eutheria
Magnorder:	Boreoeutheria
Superorder:	Laurasiatheria
(unranked):	Scrotifera
Order:	Perissodactyla Owen, 1848

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The white rhinoceros is the largest living perissodactyl

Perissodactyls, otherwise known as odd-toed ungulates, compose an order of mammals characterized by an odd number of toes and being hindgut fermenters with somewhat simple stomachs. As large grazers they digest plant cellulose in their intestines rather than in one or more stomach chambers, unlike the even-toed ungulates. The order includes three extant families: Equidae, including horses, donkeys, and zebras, Rhinocerotidae, rhinos and Tapiridae, tapirs, with a total of about 17 species. In spite of their very different appearance they were recognized by the zoologist Richard Owen, who also coined the term, as related families, in the 19th century.

Anatomy

As an adaptation to different habitats and lifestyles, the odd-toed ungulates have developed distinct differences in their build. Common features are in the construction of the limbs and teeth. Rhinos are the largest members to be classified into this group. The extinct Paraceratherium, a hornless rhino from the Oligocene, is even considered the largest land mammal of all time. An original, now extinct, member of the order is the prehistoric horse Hyracotherium who were quite small with only 20 centimetres (7.9 in) shoulder height. Apart from dwarf varieties of the domestic horse and the donkey, perissodactyls reach a body length 180–420 centimetres (71–165 in) and a weight of 150 to 3,500 kilograms (330 to 7,720 lb). While rhinos are only sparsely hairy and exhibit a thick epidermis, tapirs and horses are provided with a dense, short coat. Most species are gray or brown, zebras however carry a typical stripe dress, and young tapirs have white longitudinal stripes.

Limb

The main axis of both the front and the rear feet passes through the center beam, and the third toe is accordingly in all species, the largest. The remaining rays have been reduced to varying degrees, at least with the tapirs. These animals have on their forefeet four toes, to adapt to the soft ground of their habitat, and the hind feet have three. Today's rhinos have three toes on the front and hind feet. When the horses reduction of the side beams is most advanced, these animals possess only a single toe. The feet are equipped with hooves, however, which cover the toe almost completely; rhinos and tapirs only have a hoof covering their leading edge, and the bottom is soft - rhinos also have a soft sole pillow.

Within the legs of horses are the ulna and the fibula reduced, and these bones are in the lower half even spoke or shin grown. An autapomorphy (a common feature that clearly distinguishes this group from other groups) is the saddle-shaped ankle between the anklebone (talus) and scaphoid (navicular) - which greatly restricts the mobility. The thigh is relatively short, and the clavicle is missing.

• 

  Horses support themselves on one toe

• 

  Rhinos are supported on three toes

• 

  Tapirs are supported on three toes

Skull and teeth

South American tapirs are among the few species of extant perissodactyl with a trunk

Odd-toed ungulates have an elongated head, for which a long upper jaw (maxilla) is responsible. The various forms of snout between families go on differences in the construction of the intermediate jaw bone (premaxilla). The lacrimal gland has projecting cusps in the eye sockets; an autapomorphy is the wide contact between lacrimal bone and nasal bone. Characteristics are still massive, especially at the grass-eating species. The TMJ is high and the mandible is enlarged.

Rhinos have one or two horns made of agglutinated keratin, unlike the horns of even-toed ungulates which are bone.

Number and construction of teeth vary according to diet. Incisors and canines can be very small or completely absent (as in the two African species of rhinoceros; the horses, usually only males possess canines). They have a diastema between the front teeth due to the elongated upper jaw. The surface shape and height of the molars (rear molars) is heavily dependent on whether soft leaves or hard grass makes up the main component of their diet. Three or four molars and premolars are present per half of the jaw, so that the dental formula of odd-toed ungulates is:

Internal anatomy

Perissodactyla are similar to rodents in that digestion largely occurs in the colon. The stomach of perissodactyls is simply built; the fermentation takes place in the huge cecum (accommodating up to 90 litres (24 US gal) in horses). The intestine is very long (up to 26 metres (85 ft) in horses). The food utilization is relatively low, which probably explains why there are no small odd-toed ungulates; for large animals nutritional requirements per kilogram of body weight are lower and the surface-to-volume ratio is smaller (which is better for the heat balance).

Distribution

Like the Indian rhinoceros, the area of distribution of most species has declined in recent decades.

In most species, like the rhinoceros, the area of distribution has declined in recent decades. Today's distribution area of odd-toed ungulates consists only of a small part of a once larger range, nearly comprising the entire earth (on land). Members of this group are now found in Central and South America, in Eastern and Southern Africa and in the central, south and southeast Asia. During the "heyday" of the odd-toed ungulates, from the Eocene to in the Oligocene, the distribution area was covered with a large variety of species over much of the globe except Australia and Antarctica; horses and tapirs arrived to the South American continent after the formation of the Isthmus of Panama in the Pliocene around 3 million years ago. In North America, they died out around 10,000 years ago; in Europe, the tarpans disappeared in the 19th century. Hunting and restriction of habitat have led to the present-day species often to occur only in fragmented relic populations. In contrast, domestic horses and donkeys, as livestock, gained a worldwide distribution; feral animals of both species are now also available in regions where no perissodacylt were originally located, as in Australia.

Lifestyle and diet

Depending on the habitat, the different types of odd-toed ungulates lead different lifestyles. There are more crepuscular or nocturnal animals. Tapirs are solitary and inhabit mainly tropical rain-forests. Rhinos also tend to live alone in rather dry savannas and, in Asia, wet marsh or forest areas. Horses inhabit open areas such as grasslands, steppes, or semi-deserts and live together in groups. Odd-toed ungulates are exclusively herbivores that feed in varying degrees of grasses, leaves and other plant parts. There are usually grazers (White Rhinoceros, equines) and foliage-eating (tapirs, rhinos other) between the predominantly herbivorous forms.

All perissodactyls are hindgut fermenters. Hindgut fermenters, in contrast to the ruminants, store digested food that has left the stomach in an enlarged cecum, where the food is digested by bacteria. No gallbladder is present.^[1]

Reproduction and development

A young South American tapir

Odd-toed ungulates are characterized by a long gestation period and a small litter size, usually a single baby is delivered. The gestation period is 330–500 days, the longest with the rhinos. Newborn perissodactyls are precocial, young horses and rhinos can follow the mother after a few hours; only Tapir babies spend their first days of life in a protected storage.

The pups are nursed for a relatively long period of time, often into their second year, reaching sexual maturity at around eight or ten. These animals are long-lived with several species reaching an age of almost 50 years in captivity.

Taxonomy

Outer taxonomy

Traditionally, the odd-toed ungulates were classified with other mammals such as artiodactyls, hyraxes, mammals with a proboscis and other "ungulates". A close family relationship was particularly suspected with hyraxes, proven by similarities in the construction of the ear, and the course of the carotid artery.

Richard Owen, who coined the expression odd-toed ungulate

Due to molecular genetic studies, however, serious doubts about the relationship of the ungulates were significantly raised in recent times, probably making this a polyphyletic group, which means that the similarities only on convergent evolution is based, not on a common ancestry. Elephant and hyraxes are now mostly in the superiority of the Afrotheria, are therefore are not closely related with the perissodactyls. These, in turn, are in the Laurasiatheria, a superorder that had its origin in the extinct continent Laurasia. The molecular genetic findings suggests that the sister taxon of the Perissodactyla, Cetartiodactyla, formed, in which the cloven (Artiodactyla) and the whales (Cetacea) are included; both groups together form the Euungulata.^[2][3] Next outside are the bats (Chiroptera) and ferae (a common taxon of predators (Carnivora) and pangolins (Pholidota)).^[4] Pegasoferae is in an alternative scenario, which states a greater unity between the perissodactyls and the predators.^[5]

According to studies that were published in March 2015, odd-toed ungulates are in a close family relationship with at least some of the so-called Meridiungulata, one from the Paleocene to Pleistocene in South America, occurring from a very diverse group of mammals whose systematic unity was largely unexplained. Some of these were the basis of their paleogeographic distribution. Afrotheria associated what some anatomical features such as the construction of the spine or the talus. However, it was by means of protein sequencing and the comparison with fossil collagen that they gained remnants of some phylogenetically young members of "Meridiungulata" (specifically Macrauchenia from the group of litopterna and Toxodon from the group of notoungulata), a close relationship can be worked out to perissodactyls. Both kinship groups, the odd-toed ungulates and litopterna-notoungulata are now in the higher-level taxon the Panperissodactyla. This kinship group stands within the Euungulata and the even-toed ungulates and whales (Cetartiodactyla). The separation of litopterna-notoungulata group of the perissodactyls took place probably before the Cretaceous-Paleogene extinction event. As a starting point for the development of the two groups probably can "condylarths" be taken into consideration, which represent a heterogeneous group of primitive ungulates that, in the Paleogene mainly, inhabited the northern hemisphere.^[6][7]

Modern members

Odd-toed ungulates (Perissodactyla) consists of three living families with around 17 species - in the horse the exact count is still controversial. Rhinos and tapirs are more closely related to each other and are offset by the horses. The separation of horses from the rest perissodactyls carried out according molecular genetic analysis in the Paleocene before about 56 million years ago, while the rhinos and tapirs in the lower middle Eocene split before about 47 million years.

• Order Perissodactyla
  • Suborder Hippomorpha
    • Family Equidae: horses and allies, seven species in one genus
      • 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
      • 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 hemippe
      • 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
      • Grevy'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

Live reconstruction of Chalicotherium Anisodon grande (formerly Chalicotherium grande)

Fossils of perissodactyls occurred in a high speed, and multi-variant forms; the major lines of development include the following groups:

• The Brontotherioidea were among the earliest known large mammals, consisting of the families of brontotheriidae (synonym Titanotheriidae); its most famous representative megacerops is, and the more basal group of Lambdotheriidae. They were generally characterized mainly in their late phase by a bony horn at the transition from the nose to the frontal bone and flat, suitable for soft plant food molars. At the beginning of the Upper Eocene the Brontotheroidea that were almost exclusively confined to North America and Asia died from.
• The Equoidea (equine) also developed in the Eocene. The palaeotheriidae known mainly from Europe, and its most famous member is Hyracotherium which went extinct in the Oligocene. The horses (Equidae) flourished and spread. While developing this group saw the reduction of toe numbers, the extension of the limbs and the progressive adjustment of the teeth for eating hard grass based on fossil discoveries.
• The Chalicotherioidea represented another characteristic group consisting of the families of Chalicotheriidae and Lophiodontidae existed. Within the Chalicotheriidae it came to the development of claws instead of hooves and a drastic extension of the forelegs. The best-known genera include Chalicotherium and Moropus. The Chalicotherioidea died only in the Pleistocene of.
• The Rhinocerotoidea (rhino relatives) came from the Eocene to in the Oligocene with a large variety of forms before, there was dog large leaves eaters, semiaquatic (partially aquatic) animals and also huge, long-necked animals - horns on the nose had the least of it. The Amynodontidae were hippo-like, aquatic animals. The Hyracodontidae developed long limbs and long necks, is most pronounced in Paraceratherium (formerly known as *Baluchitherium or Indricotherium), the largest known land mammal ever. The rhinos (Rhinocerotidae) emerged in the Middle Eocene, and five species survive to the present day.
• The Tapiroidea (Tapirartigen) reached their greatest diversity in the Eocene, as more than one class in Eurasia and North America were situated. They kept most likely at a primitive build, remarkably, only the development of a proboscis. Among the extinct families include the Helaletidae.
• Several mammal groups traditionally classified under Condylartha - 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, in spite of their more primitive overall appearance.
• Desmostylia^[11] and Anthracobunidae have traditionally been placed among afrotheres, but may actually represent stem-perissodactyls. They are an early lineage of mammals to have taken to the water, spreading across semi-aquatic to fully marine niches in the Tethys Ocean and the northern Pacific.
• Order Perissodactyla ^[12][13]
  • †Suborder Titanotheriomorpha
    • †Brontotheriidae
  • Suborder Hippomorpha
    • †Hyopsodontidae^[14]
    • †Pachynolophidae
    • Superfamily Equoidea
      • †Indolophidae
      • †Palaeotheriidae (might be a basal perissodactyl grade instead)
  • †Suborder Ancylopoda
    • †Isectolophidae (basal ancylopodans and ceratomorphs)
    • †Lophiodontidae
    • Superfamily Chalicotherioidea
      • †Eomoropidae (basal grade of chalicotheriods)
      • †Chalicotheriidae
  • Suborder Ceratomorpha
    • Superfamily Rhinocerotoidea
      • †Amynodontidae
      • †Hyracodontidae
    • Superfamily Tapiroidea
      • †Deperetellidae
      • †Rhodopagidae (sometimes recognized as a subfamily of deperetellids)
      • †Lophialetidae
      • †Eoletidae (sometimes recognized as a subfamily of lophialetids)
  • †Anthracobunidae^[15] (a family of stem-perissodactyls; from the Early to Middle Eocene epoch)
  • †Phenacodontidae^[15] (a clade of stem-perissodactyls; from the Early Palaeocene to the Middle Eocene epoch)

Higher classification of perissodactyls

The relations of the large group of odd-toed ungulates among themselves are not fully understood. Initially, after the establishment of the concept Perissodactyla by Richard Owen in 1848, the present-day representatives were considered equal. In the first half of the 20th century began with the involvement of a stronger systematic differentiation of odd-toed ungulates, thereby placing them in two major suborders: Hippomorpha and Ceratomorpha. The Hippomorpha comprises today's horses and their extinct members (Equoidea), and Ceratomorpha consist of tapirs and rhinos plus their extinct members (Tapiroidea and Rhinocerotoidea).^[17] The names Hippomorpha and Ceratomorpha were introduced in 1937 by Horace Elmer Wood, whereby it so responded to the criticism that was previously proposed by his three-year name Solidungula which had come for the grouping of horses and Tridactyla and for the rhinoceros/tapir complex.^[18][19] The extinct brontotheriidae were also classified under Hippomorpha and therefore possess a close relationship to horses. Some researchers see this assignment because of similar dental features, but there is also the view of a very basal position within the odd-toed ungulates, which they then belong to the group of Titanotheriomorpha.^[16][20][21]

Originally, the Chalicotheriidae were seen as members of Hippomorpha, presented in 1941. William Berryman Scott thought that as a claw-bearing perissodactyls, they were opposite and he pointed it into the new suborder Ancylopoda (where Ceratomorpha and Hippomorpha as odd-toed ungulates in the group of Chelopoda were combined).^[22] The term Ancylopoda, in 1889, coined by Edward Drinker Cope, 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, which he, inter alia, with the extremely long and independent phylogenetic reasoned development of the three lines.^[23] In the 1980s, Jeremy J. Hooker in Zahnbau saw a general similarity of Ancylopoda to Ceratomorpha, especially in the earliest members, leading to the unification of the two submissions in the interim order, in 1984, Tapiromorpha (at the same time he expanded the Ancylopoda the Lophiodontidae ). The name Tapiromorpha goes back to Ernst Haeckel, who coined it in 1873; but he has long been considered synonymous to Ceratomorpha because Wood had not noticed him in 1937 with the establishment of Ceratomorpha due to its highly different use in the past.^[24] Also in 1984, Robert M. Schoch used the conceptually similar term Moropomorpha which today applies to Tapiromorpha as synonymous.^[25] Within the Tapiromorpha are the now extinct Isectolophidae which is a sister group of the Ancylopoda-Ceratomorpha group and are thus the most primitive members to look at this relationship complex.^[21][26]

Evolutionary history

Origins

The development history of the Perissodactyla is comparatively well through fossils handed down; numerous findings leave this earlier form much richer and more widespread recognized group. As one of the oldest relatives of odd-toed ungulates in part is Radinskya from the late Paleocene of East Asia is considered.^[27] The only, slightly more than 8 centimetres (3.1 in), measured skull belongs to a very small and original animal that on the easy π-shaped design of the enamel the rear molars similarities to perissodactyls and their relatives, especially the rhinos.^[28] The origins of odd-toed ungulates are unclear, often suspects are found in formations in Asia. Finds from the western India could confirm this and the creation of the center in the South Asia Filter. From the Cambay shale formation, which the Lower Eocene antedates 54.5 million years come remains of Cambaytherium and Kalitherium which the family of Cambaytheriidae form.^[29][30] Their teeth show comparable to Radinskya similarities to the early perissodactyls and Tethytherien.^[31][32] Among other things, the saddle-shaped collection of Naviculargelenks, the bottom of the talus, and the mesaxonische design of the front and hind feet - the main axis of the foot went through the center beam (beam III) - for a close relationship with the perissodactyls. However, since the feet were deviating from the earliest perissodactyls that Cambaytherien today is considered its sister group. Perhaps the ancestors arrived on an island bridge from the Afro-Arab landmass on the Indian subcontinent drifting, which was an island and then north towards Asia.^[33]

Phylogeny

Hyracotherium, an early relative of the horse, is one of the oldest known perissodactyls

The Perissodactyla appear relatively abruptly at the beginning of the Lower Eocene before about 56 million years ago, both in North America and Asia.^[34] The oldest finds originate among others from sifrhippus, an ancestor of the horses from the Willswood lineup in northwestern Wyoming.^[35][36] The distant ancestors of tapirs appeared not too long after that in the Ghazij lineup in Balochistan, such as Ganderalophus, next also Litolophus which in the line of development of Chalicotheriidae stands, or Eotitanops from the group brontotheriidae.^[37][38] Initially, the members of the different lineages still looked quite similar with an arched back and generally four toes on the front and three on the hind feet. Hyracotherium, which is considered member of the horse family, resembled outwardly example very hyrachyus, the first member of rhinos and tapirs.^[39] All were small when compared to later forms and lived as fruit and foliage eaters in cramped forests. The first if the mega-fauna emerged with the Brontotherien already in Middle and Upper Eocene, the known megacerops from North America reached 2.5 metres (8.2 ft) shoulder level and could've weighed just over 3 metric tons (3.3 short tons). The decline of Brontotherien at the end of the Eocene stands in connection with the advent of competition from other herbivores.^[12][40]

More successful lines of odd-toed ungulates emerged at the end of the Eocene when the cramped jungles gave way to steppe, such as Chalicotheriidae and the rhinos and their immediate relatives; their development also started with very small forms. Paraceratherium, the biggest mammal ever to walk the earth, evolved during this era.^[41][42] They weighed up to 20 metric tons (22 short tons) and lived throughout the Oligocene in Eurasia. With the onset of the Miocene, the perissodactyls reached, before about 20 million years ago, the first time the connection of Africa with Eurasia. However, passed through the now following faunal groups of animals in the ancient settlement areas of odd-toed ungulates, such as the mammoths, whose competition also led to the extinction of some odd-toed ungulate lines. Even the rise of ruminants that have similar ecological niches occupied, and had a much more efficient digestive system, is associated with the decline in diversity of odd-toed ungulates. But a significant share of the decline of perissodactyls was due to climate changes during the Miocene towards a cooler and dryer climate, which was accompanied by the spread of open landscapes. However, some lines flourished as with those of horses and rhinos, by adapting numerous members by anatomical modifications to the tougher grass food. This resulted in open land forms that populated the newly created types of landscape. With the emergence of the Isthmus of Panama in the Pliocene, perissodactyls, as well as other mega-fauna, were given access to the one habitable remote continent: South America.^[43][44] However, many perissodactyls went extinct at the end of the ice ages, as with American horses and the Elasmotherium, which was common among most mega-fauna. Whether over-hunting by humans (overkill hypothesis) or climatic changes, or a combination of both factors were responsible for the extinction of ice age mega-fauna, is controversial.^[12]

Research history

Linnaeus (1707-1778) presented in 1758 in his seminal work Systema Naturae the horse (Equus) to the side of hippos (Hippopotamus). These contained, at that time, also the tapirs (Tapirus), precisely the tapir, which in Europe was the only known Tapir art at that time; Linnaeus considered Hippopotamus as terrestrial. Both genera referred to the group of Linnaeus Belluae. He united against the rhinos being paired with the glires, a group now consisting of the lagomorphs and rodents. Only Mathurin Jacques Brisson (1723-1806) severed, in 1762, the introduction of the concept of the tapir and the hippos, and also divided the rhinos from the rodents, but didn't united the three families as the odd-toed ungulates. In the transition to the 19th century, the individual perissodactyl genera with various other groups, associated with the proboscidean and even-toed ungulates, saw the establishment of the term "pachyderm" (Pachydermata); Étienne Geoffroy Saint-Hilaire (1772- 1844) and Georges Cuvier (1769-1832), in 1795, introduced the rhinos and elephants, the hippos, pigs, peccaries, tapirs and hyrax as pachyderms.^{[17][21][45][46]} The horses were but largely as a of the other mammals separated group and were often classified under the name Solidungula.^[47][48]

Henri Marie Ducrotay de Blainville (1777-1850), in 1861, classified ungulates by the structure of the feet, and so, animals differed with an even number of toes from those with an odd number of toes. He pushed the horses as solidungulate near the tapirs and rhinos as multungulate animals and referred all together as onguligrades. Richard Owen (1804-1892) invoked in his study fossil mammals of the Isle of Wight on Blainville and introduced the name Perissodactyla.^[17][21]

Othniel Charles Marsh (1831-1899), in 1884, came up with the concept Mesaxonia. This comprises the present members of the odd-toed ungulates, including their extinct relatives, of which the hyrax was explicitly closed. Mesaxonia is now considered synonymous to Perissodactyla. He still used subordination terms (rhinos, horses, tapirs), while Perissodactyla stood as a designation for the entire order, including the hyrax. The assumption that the hyrax were part of Perissodactyla remained well into the 20th century.^[49] Only with the advent of molecular genetic research methods had it been recognized that the hyrax is not closely related to the perissodactyls but more with the elephants and manatees.^[3][50]

Interactions with humans

The quagga went extinct by the end of the 19th century.

The domestic horse and the donkey are especially used for transportation, working and pack animals and play an important role in human history. The domestication of both species began several millennia ago. Due to the motorisation of agriculture and the spread of the automobile traffic, such use has declined sharply in Western industrial countries; riding is usually operated more as a hobby or sport. In the less developed regions of the world, the use of these animals, however, is still widespread. To a lesser extent, horses and donkeys are also kept for their meat and their milk.

In contrast, the stocks of almost all other species of odd-toed ungulates have declined dramatically by hunting and habitat destruction. The quagga is extinct, and the Przewalski's Horse is considered extinct in the wild.

Present threat levels, according to IUCN (2012):^[51]

• Four species are threatened with extinction (Critically Endangered): the Javan rhino, the Sumatran rhinoceros, the black rhino and African donkeys.
• Six species are endangered (Endangered): the mountain tapir, the Central American tapir, the Malayan tapir, the wild horse, the Asian asses and Grevy's zebra.
• Three species are endangered (vulnerable): the rhinoceros, the tapir and the Mountain Zebra.
• Only Near Threatened (near threatened) is currently the white rhinoceros, however, the northern subspecies, Ceratotherium simum cottoni (Northern White Rhinoceros), is close to extinction.
• Not at risk (least concern) are the Burchell's Zebra and the Kiang.

References

Further reading

• Martin S. Fischer: Mesaxonia (Perissodactyla) Perissodactyla. In: Wilfried Westheide, Reinhard Rieger (eds.): Systematic Zoology. Part 2: Vortex or craniotes. Spektrum Akademischer Verlag, Heidelberg and Berlin 2004, pp 646–655, ISBN 3-8274-0307-3.
• Ronald M. Nowak: Walker's Mammals of the World. 6th edition. Johns Hopkins University Press, Baltimore 1999, ISBN 0-8018-5789-9.
• Thomas S. Kemp:. The Origin & Evolution of Mammals Oxford University Press, Oxford, 2005. ISBN 0-19-850761-5.
• AH Müller: Textbook of Paleozoology, Volume III: vertebrates, Part 3: Mammalia. 2nd edition. Gustav Fischer Verlag, Jena and Stuttgart 1989. ISBN 3-334-00223-3.
• Don E. Wilson, DeeAnn M. Reeder (eds.): Mammal Species of the World. 3rd edition. The Johns Hopkins University Press, Baltimore 2005 ISBN 0-8018-8221-4.
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• ITIS
• Odd-toed ungulate at the Encyclopedia of Life