Palaeomerycidae

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Palaeomerycidae
Temporal range: Early Miocene–Late Miocene
Palaeomeryx-Tianjin Natural History Museum.jpg
Palaeomeryx, Tianjin Natural History Museum
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Artiodactyla
Infraorder: Pecora
Clade: Giraffomorpha
Superfamily: Palaeomerycoidea
Ríos, Sánchez & Morales, 2017
Family: Palaeomerycidae
Lydekker, 1883
Type genus
Palaeomeryx
von Meyer, 1834
Genera

See text

The Palaeomerycidae is an extinct family of Neogene ruminants belonging to the infraorder Pecora. Palaeomerycids lived in Europe and Asia exclusively during the Miocene, coevolving with cervids, bovids, moschids, and tragulids there as part of a dramatic radiation of ruminants by the early Miocene.

Contents

Dromomerycids are sometimes considered to be subfamilies of the Palaeomerycidae, but recent research brought doubt to this, arguing that the dromomerycids lack the sutures on the skull roof that giraffomorphs (Giraffidae, Palaeomerycidae, Climacoceratidae) have for ossicone features. The similar resemblances of the two families could be the result of parallel evolution. [1] [2]

Description

Reconstruction of Ampelomeryx ginsburgi Ampelomeryx ginsburgi MHNT.PAL.2006.0.36 - Reconstitution 3D grandeur nature.jpg
Reconstruction of Ampelomeryx ginsburgi

Palaeomerycids were a group of horned, long-legged and massive ruminants that could attain a weight of 350 to 500 kg (770 to 1,100 lb).

One of the first known members of this group, Palaeomeryx , was thought to be a hornless form distantly related to the Giraffidae before paleontologist Miguel Crusafont found remains of Triceromeryx in middle Miocene Spain. This Palaeomeryx-like form carried two ossicones over its orbits that were straight and short, similar to those of true giraffids. However, the most striking feature of Triceromeryx was the third, Y-shaped appendage that prolonged the occipital bone at the back of the skull. Discoveries during the 1980s and 1990s showed a surprising variety in these occipital appendages.

Ampelomeryx , a genus of palaeomerycids found at the early Miocene site of Els Casots, Valles-Penedes Basin, Spain, had a three-horned system of appendages similar to those of Triceromeryx. These appendages were, however, quite different, with the paired appendages extending laterally over the orbits, flat and wide, forming an eye-shade, while the third spectacular posterior appendage was about 20 cm (7.9 in) long.

Another species of Triceromeryx, T. conquensis found in La Retama in Spain, showed an even more spectacular appendage  instead of a Y-shaped structure, its posterior appendage was T-shaped with the lateral branches expanding toward the front.

In primitive members of the group (e.g. Ampelomeryx), this appendage was a posterior expansion of the occipital bone lying close to the powerful muscles supporting the skull in a normal position, thus suggesting that this appendage was actually used for fighting between males during the breeding season. The reduced shapes of the flat and laterally oriented appendages of later species suggests that these were not used in active fighting, instead forming a function of passive display.

As a group, the palaeomerycids appear to have formed a successful part of an independent radiation of horned ruminants that diversified into a variety of forms during the early to middle Miocene, with a geographic range reaching from Spain to China. [3]

Taxonomy

Xenokeryx restoration Xenokeryx amidalae restoration.jpg
Xenokeryx restoration

The Palaeomerycidae were named by Lydekker (1883). The type genus is Palaeomeryx. The family was assigned to the Artiodactyla by Hulbert and Whitmore (2006), and to Cervoidea by Carroll (1988), Sach and Heizmann (2001) and Prothero and Liter (2007). [4] [5]

Classification

Related Research Articles

<span class="mw-page-title-main">Ungulate</span> Group of animals that walk on the tips of their toes or hooves

Ungulates are members of the diverse clade Euungulata, which primarily consists of large mammals with hooves. Once part of the clade "Ungulata" along with the clade Paenungulata, "Ungulata" has since been determined to be a polyphyletic and thereby invalid clade based on molecular data. As a result, true ungulates had since been reclassified to the newer clade Euungulata in 2001 within the clade Laurasiatheria while Paenungulata has been reclassified to a distant clade Afrotheria. Living ungulates are divided into two orders: Perissodactyla including equines, rhinoceroses, and tapirs; and Artiodactyla including cattle, antelope, pigs, giraffes, camels, sheep, deer, and hippopotamuses, among others. Cetaceans such as whales, dolphins, and porpoises are also classified as artiodactyls, although they do not have hooves. Most terrestrial ungulates use the hoofed tips of their toes to support their body weight while standing or moving. Two other orders of ungulates, Notoungulata and Litopterna, both native to South America, became extinct at the end of the Pleistocene, around 12,000 years ago.

<span class="mw-page-title-main">Artiodactyl</span> Order of mammals

Artiodactyls are placental mammals belonging to the order Artiodactyla. Typically, they are ungulates which bear weight equally on two of their five toes: the third and fourth, often in the form of a hoof. The other three toes are either present, absent, vestigial, or pointing posteriorly. By contrast, most perissodactyls bear weight on an odd number of the five toes. Another difference between the two is that many artiodactyls digest plant cellulose in one or more stomach chambers rather than in their intestine as perissodactyls do. The advent of molecular biology, along with new fossil discoveries, found that cetaceans fall within this taxonomic branch, being most closely related to hippopotamuses. Some modern taxonomists thus apply the name Cetartiodactyla to this group, while others opt to include cetaceans within the existing name of Artiodactyla. Some researchers use "even-toed ungulates" to exclude cetaceans and only include terrestrial artiodactyls, making the term paraphyletic in nature.

<i>Probainognathus</i> Extinct genus of cynodonts

Probainognathus meaning “progressive jaw” is an extinct genus of cynodonts that lived around 235 to 221.5 million years ago, during the Late Triassic in what is now Argentina. Together with the genus Bonacynodon from Brazil, Probainognathus forms the family Probainognathidae. Probainognathus was a relatively small, carnivorous or insectivorous cynodont. Like all cynodonts, it was a relative of mammals, and it possessed several mammal-like features. Like some other cynodonts, Probainognathus had a double jaw joint, which not only included the quadrate and articular bones like in more basal synapsids, but also the squamosal and surangular bones. A joint between the dentary and squamosal bones, as seen in modern mammals, was however absent in Probainognathus.

<span class="mw-page-title-main">Giraffidae</span> Family of mammals belonging to even-toed ungulates

The Giraffidae are a family of ruminant artiodactyl mammals that share a common ancestor with deer and bovids. This family, once a diverse group spread throughout Eurasia and Africa, presently comprises only two extant genera, the giraffe and the okapi. Both are confined to sub-Saharan Africa: the giraffe to the open savannas, and the okapi to the dense rainforest of the Congo. The two genera look very different on first sight, but share a number of common features, including a long, dark-coloured tongue, lobed canine teeth, and horns covered in skin, called ossicones.

<i>Galesaurus</i> Extinct genus of cynodonts from the Triassic of South Africa

Galesaurus is an extinct genus of carnivorous cynodont therapsid that lived between the Induan and the Olenekian stages of the Early Triassic in what is now South Africa. It was incorrectly classified as a dinosaur by Sir Richard Owen in 1859.

<span class="mw-page-title-main">Pecora</span> Infraorder of mammals

Pecora is an infraorder of even-toed hoofed mammals with ruminant digestion. Most members of Pecora have cranial appendages projecting from their frontal bones; only two extant genera lack them, Hydropotes and Moschus. The name "Pecora" comes from the Latin word pecus, which means "cattle". Although most pecorans have cranial appendages, only some of these are properly called "horns", and many scientists agree that these appendages did not arise from a common ancestor, but instead evolved independently on at least two occasions. Likewise, while Pecora as a group is supported by both molecular and morphological studies, morphological support for interrelationships between pecoran families is disputed.

<span class="mw-page-title-main">Antilocapridae</span> Family of mammals belonging to even-toed ungulates

The Antilocapridae are a family of ruminant artiodactyls endemic to North America. Their closest extant relatives are the giraffids. Only one species, the pronghorn, is living today; all other members of the family are extinct. The living pronghorn is a small ruminant mammal resembling an antelope.

<i>Prolibytherium</i> Genus of extinct artiodactyl mammals from the early Miocene

Prolibytherium is an extinct genus of prolibytheriid artiodactyl ungulate native to Middle Miocene North Africa and Pakistan, from around 16.9 to 15.97 million years ago. Fossils of Prolibytherium were found in the Marada Formation of Libya, Vihowa Formation of Pakistan, and the Moghara Formation of Egypt.

<span class="mw-page-title-main">Ossicone</span> Horn-like structure of giraffes, okapi, and extinct relatives

Ossicones are columnar or conical skin-covered bone structures on the heads of giraffes, male okapi, and some of their extinct relatives. Ossicones are distinguished from the superficially similar structures of horns and antlers by their unique development and a permanent covering of skin and fur.

<span class="mw-page-title-main">Protoceratidae</span> Extinct family of mammals

Protoceratidae is an extinct family of herbivorous North American artiodactyls that lived during the Eocene through Pliocene. While early members of the group were hornless, in later members males developed elaborate cranial ornamentation. They are variously allied with Ruminantia or Tylopoda.

<span class="mw-page-title-main">Dromomerycidae</span> Extinct family of pecorans

The Dromomerycidae is an extinct family of Neogene ruminants belonging to the infraorder Pecora. Dromomerycids, known by two subfamilies, were endemic to North America from the later early Miocene up to the early Pliocene, leaving no descendants. Dromomerycidae has a long history of uncertain taxonomic affiliations due to its superficial resemblances with the Eurasian Neogene Palaeomerycidae and were traditionally classified as subfamilies within the family. However, recent research differentiates the dromomerycids from the Giraffomorpha by the lack of sutures on the skull roof that typically make up the ossicones of the later clade. The similar resemblances of the appendages therefore could be the result of parallel evolution.

Zambiasaurus is an extinct genus of dicynodonts that was discovered in the Middle Triassic (Anisian) Ntawere Formation of Zambia, southern Africa. It was a large dicynodont, reconstructed using several fossil fragments, in majority belonging to probably a juvenile Zambiasaurus submersus.

<i>Palaeomeryx</i> Extinct genus of deer

Palaeomeryx is an extinct genus of Artiodactyla, of the family Palaeomerycidae, endemic to Europe and Asia from the Miocene epoch, 16.9 – 7.25 Ma, existing for approximately 9.65 million years.

Huskerpeton is an extinct genus of recumbirostran from the Early Permian period. They belong to the order Microsauria, which was established in 1863 by Dawson, and was quickly expanded to include many different small taxa. They lived in what is now Nebraska and Kansas. The holotype of Huskerpeton was uncovered at the Eskridge formation in Nebraska, which is part of how it got its name.

<span class="mw-page-title-main">Cainotheriidae</span> Extinct family of mammals

Cainotheriidae is an extinct family of artiodactyls known from the Late Eocene to Middle Miocene of Europe. They are mostly found preserved in karstic deposits.

Surameryx is an extinct genus of herbivorous artiodactyls originally described as belonging to the extinct family Palaeomerycidae. A single species, S. acrensis, was described from the Late Miocene of the Madre de Dios Formation, South America. It was originally interpreted as one of the few northern mammals that entered South America before the Pliocene. However, both its identification as a member of the family Palaeomerycidae and claims about its Miocene age were subsequently challenged.

<i>Regaliceratops</i> Extinct genus of dinosaurs

Regaliceratops is a monospecific genus of chasmosaurine ceratopsid dinosaur from Alberta, Canada that lived during the Late Cretaceous in what is now the St. Mary River Formation. The type and only species, Regaliceratops peterhewsi, is known only from an adult individual with a nearly complete skull lacking the lower jaw, which was nicknamed "Hellboy". Regaliceratops was named in 2015 by Caleb M. Brown and Donald M. Henderson. Regaliceratops has an estimated length of 5 metres (16 ft) and body mass of 2 metric tons. The skull of Regaliceratops displays features more similar to centrosaurines, which suggests convergent evolution in display morphology in ceratopsids.

<i>Tranatocetus</i> Extinct genus of mammals

Tranatocetus is an extinct genus of mysticete from the late Miocene (Tortonian) of Jutland, Denmark. The type and only species is Tranatocetus argillarius.

<i>Xenokeryx</i> Extinct genus of mammals

Xenokeryx is an extinct genus of ruminant known from the Miocene of Europe. The type species, Xenokeryx amidalae, was recovered from central Spain and bears a unique T-shaped protrusion from the top of the head. The specific epithet amidalae is in reference to the character Padmé Amidala from the Star Wars films "due to the striking resemblance that the occipital appendage of Xenokeryx bears to one of the hairstyles that the aforementioned character shows in The Phantom Menace feature film."

<span class="mw-page-title-main">Giraffomorpha</span> Clade of superfamilies of mammals

Giraffomorpha is a clade of pecoran ruminants containing the superfamilies Palaeomerycoidea (Palaeomerycidae) and Giraffoidea, of which the giraffe and okapi of the Giraffidae are the only extant members of the once-diverse clade as a result of a decline in diversity after the Miocene as a result of declines in temperatures. The clade is defined by the presence of ossicones, suggesting that the feature was developed as a result of basal, related evolutions between the two superfamilies rather than as an instance of parallel evolution. Giraffomorpha is also characterized by a lack of articular fossettes (hollows) in metatarsal bones III-IV.

References

  1. Sánchez, Israel M.; Cantalapiedra, Juan L.; Ríos, María; Quiralte, Victoria (2015). "Systematics and Evolution of the Miocene Three-Horned Palaeomerycid Ruminants (Mammalia, Cetartiodactyla)". PLOS ONE. 10 (12): 10.1371/journal.pone.0143034. Bibcode:2015PLoSO..1043034S. doi: 10.1371/journal.pone.0143034 . PMC   4668073 . PMID   26630174.
  2. Mennecart, Bastien; Dziomber, Laura; Aiglstorfer, Manuela; Bibi, Faysal; DeMiguel, Daniel; Fujita, Masaki; Kubo, Mugino O.; Laurens, Flavie; Meng, Jin; Métais, Grégoire; Müller, Bert; Rios, Maria; Rössner, Gertrud E.; Sánchez, Israel M.; Schulz, Georg; Wang, Shiqi; Costeur, Loïc (2022). "Ruminant inner ear shape records 35 million years of neutral evolution". Nature Communications. 13 (1): 7222. Bibcode:2022NatCo..13.7222M. doi: 10.1038/s41467-022-34656-0 . hdl: 10362/151348 . PMC   9726890 . PMID   36473836.
  3. Jordi Agustí (2005). Mammoths, sabertooths, and hominids: 65 million years of mammalian evolution in Europe. Columbia University Press. pp. 116–8. ISBN   0-231-11641-1.
  4. R. C. Hulbert and F. C. Whitmore. 2006. Late Miocene mammals from the Mauvilla Local Fauna, Alabama. Bulletin of the Florida Museum of Natural History 46(1):1-28
  5. V. J. Sach and E. P. J. Heizmann. 2001. Stratigraphy and mammal faunas of the Brackwassermolasse in the surroundings of Ulm (Southwest Germany). Stuttgarter Beiträge zur Naturkunde, Serie B (Geologie und Paläontologie) 310:1-95
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