Parapithecidae

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Parapithecidae
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Primates
Suborder: Haplorhini
Infraorder: Simiiformes
Superfamily: Parapithecoidea
Family: Parapithecidae
Schlosser, 1911
Genera

See text

Parapithecidae is an now extinct family of primates which lived in the Eocene and Oligocene periods in Egypt. Eocene fossils from Myanmar are sometimes included in the family in addition. They showed certain similarities in dentition to Condylarthra, but had short faces and jaws shaped like those of tarsiers. They are part of the superfamily Parapithecoidea, perhaps equally related to Ceboidea and Cercopithecoidea plus Hominoidea - but the placement of Parapithecoidea is substantially uncertain.

Contents

The most commonly found fossil species of parapithecid is Apidium phiomense, found like many of the species in the Jebel Qatrani Formation in Egypt. It appears to have been arboreal, diurnal and frugivorous and lived in social groups, and its postcranial skeleton is similar to that of extant species of pronograde leapers, indicating its likely form of locomotion. [1]

Fossil evidence presented in 2020 suggests a parapithecid rafted across the Atlantic in the Paleogene and at least briefly colonized South America. Ucayalipithecus remains dating from the Early Oligocene of Amazonian Peru are deeply nested within the Parapithecidae, and have dental features markedly different from those of platyrrhines. Qatrania wingi of lower Oligocene Fayum deposits is considered the closest known relative of Ucayalipithecus. [2] The absence of later finds from this group in South America indicates they were outcompeted by platyrrhines, which descend from a parallel anthropoid colonization of South America.

Classification issues

Fleagle and Kay (1987) comment on the difficulty in adequately classifying Parapithecidae - they note various attempts over many years to classify them as a 'sister' taxon of Old World monkeys, all other Old World anthropoids, platyrrhines or all other higher primates. They concluded that, given the number of features they lacked that anthropoids have, they should be considered 'the most primitive higher primates'. [3]

Williams, Kay and Kirk (2010) note previous research by Jaeger et al. that placed Parapithecoidea as stem catarrhines (i.e. simians (aka anthropoids) that are closely related to Old World Monkeys), but consider the evidence from Seiffert et al. (2005) that they are instead stem simians to be stronger. [4]

Seiffert et al. (2010) propose that Parapithecoidea arose during the Bartonian (middle Eocene), with a split between Biretia and the Parapithecidae occurring early in the Priabonian (late Eocene). They note that Simons originally placed Serapia within the Parapithecidae, but in 2001 transferred Serapia to the Proteopithecidae, a view supported by Gunnell and Miller (2001), Beard (2002) and Seiffert et al. (2004 & 2005a). The examination of the dentistry of Arsinoea by Seiffert et al. led them to consider that Arsinoea may or may not be a parapithecid, although certainly parapithecoidal, and suggest that Arsinoea kallimos be treated as 'incertae sedis' within parapithecoidea. They separate the genus Qatrania into two, Abuqatrania for Qatrania basiodontos and Qatrania for the remaining species, and offer some support for Simons 2001 suggestion that Qatrania/Abuqatrania basiodontos may be ancestral to all other Parapithecidae, in particular noting that the fossils are 1 million years older than the next oldest parapithecid, Qatrania wingi. [1]

Kay and Williams (2013, edited by Feagle and Kay), look at possible hypotheses about Parapithecidae:
- that they and Propliopithecidae are closely related, with their common ancestor being related to Oligopithecus and the common ancestor of all three being related to the platyrrhines with more recent catarrhines (i.e. Cercopithecoidea and Hominoidea) being descended from the Propliopithecidae;
- or that Parapithecidae and Propliopithecidae are closely related but their common ancestor is closely related to the platyrrhines and the common ancestor of all three being related to Oligopithecus with more recent catarrhines again being descended from the Propliopithecidae;
- or that Propliopithecidae and Oligopithecus are closely related, and Parapithecicae are related to the common ancestor of both and the common ancestor of all three is related to the platyrrhines, with Cercopithecoidea being descended from the Parapithecidae and Hominoidea being descended from Propliopithecidae. [5]

Kay and Williams recognise two subfamilies within Parapithecidae - Parapithcinae (Apidium, Parapithecus and Simonsius), which have dental features that indicate they are related, and Qatraniinae (Arsinoea, Qatrania, Serapia), which also share similar dental features to each other, but they are more primitive and the similarity may be because of shared lineage rather than being closely related. [6]

Genera

Related Research Articles

<span class="mw-page-title-main">New World monkey</span> Parvorder of mammals

New World monkeys are the five families of primates that are found in the tropical regions of Mexico, Central and South America: Callitrichidae, Cebidae, Aotidae, Pitheciidae, and Atelidae. The five families are ranked together as the Ceboidea, the only extant superfamily in the parvorder Platyrrhini.

<span class="mw-page-title-main">Old World monkey</span> Family of mammals

Old World monkeys are primates in the family Cercopithecidae. Twenty-four genera and 138 species are recognized, making it the largest primate family. Old World monkey genera include baboons, red colobus and macaques. Common names for other Old World monkeys include the talapoin, guenon, colobus, douc, vervet, gelada, mangabey, langur, mandrill, surili (Presbytis), patas, and proboscis monkey.

<span class="mw-page-title-main">Catarrhini</span> Group of Old World monkeys and apes

The parvorder Catarrhini consists of the Cercopithecoidea and apes (Hominoidea). In 1812, Geoffroy grouped those two groups together and established the name Catarrhini, "Old World monkeys",. Its sister in the infraorder Simiiformes is the parvorder Platyrrhini. There has been some resistance to directly designate apes as monkeys despite the scientific evidence, so "Old World monkey" may be taken to mean the Cercopithecoidea or the Catarrhini. That apes are monkeys was already realized by Georges-Louis Leclerc, Comte de Buffon in the 18th century. Linnaeus placed this group in 1758 together with what we now recognise as the tarsiers and the New World monkeys, in a single genus "Simia". The Catarrhini are all native to Africa and Asia. Members of this parvorder are called catarrhines.

<span class="mw-page-title-main">Haplorhini</span> Suborder of primates

Haplorhini, the haplorhines or the "dry-nosed" primates is a suborder of primates containing the tarsiers and the simians, as sister of the Strepsirrhini ("moist-nosed"). The name is sometimes spelled Haplorrhini. The simians include catarrhines, and the platyrrhines.

<span class="mw-page-title-main">Simian</span> Infraorder of primates

The simians, anthropoids, or higher primates are an infraorder of primates containing all animals traditionally called monkeys and apes. More precisely, they consist of the parvorders Platyrrhini and Catarrhini, the latter of which consists of the family Cercopithecidae and the superfamily Hominoidea.

<i>Aegyptopithecus</i> Extinct single-species genus of primate

Aegyptopithecus is an early fossil catarrhine that predates the divergence between hominoids (apes) and cercopithecids. It is known from a single species, Aegyptopithecus zeuxis, which lived around 38-29.5 million years ago in the early part of the Oligocene epoch. It likely resembled modern-day New World monkeys, and was about the same size as a modern howler monkey, which is about 56 to 92 cm long. Aegyptopithecus fossils have been found in the Jebel Qatrani Formation of modern-day Egypt. Aegyptopithecus is believed to be a stem-catarrhine, a crucial link between Eocene and Miocene fossils.

<span class="mw-page-title-main">Adapiformes</span> Extinct order of primates

Adapiformes is a group of early primates. Adapiforms radiated throughout much of the northern continental mass, reaching as far south as northern Africa and tropical Asia. They existed from the Eocene to the Miocene epoch. Some adapiforms resembled living lemurs.

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

The genus Apidium is that of at least three extinct primates living in the early Oligocene, from 30 to 28 million years ago. Apidium fossils are common in the Fayoum deposits of Egypt. Fossils of the earlier species, Apidium moustafai, are rare; fossils of the later species Apidium phiomense are fairly common.

Oligopithecidae is an extinct basal Catarrhine family from the late Eocene of Egypt as sister of the rest of the Catarrhines. Its members were probably insectivorous due to their simple molars and cusp arrangement.

<i>Catopithecus</i> Genus of primates

Catopithecus is an early catarrhine fossil. It is known from more than 16 specimens of a single species, Catopithecus browni, found in the Jebel Qatrani Formation of the Fayum Province, Egypt. The Jebel Qatrani Formation has been divided into two main faunal zones based on the fact that the fauna found in the lower portion of the quarry appear to be more primitive than those found in the upper section. The upper zone has been dated to older than 31 ± 1 myr based on the dating of a basalt layer that lies immediately above the formation and Nicolas Steno’s Law of Superposition. The lower zone contains the late Eocene green shale unit called Locality-41 (L-41) in which all the specimens of Catopithecus browni have been found. The relative dating of L-41 based on paleomagnetic correlations places it at 36 Myr according to Simons et al (1999), but Seiffert (2006) suggests this should be revised to 34.8-33.9 Myr.

Biretia is an extinct genus of Old World monkey belonging to the extinct family Parapithecidae. Fossils are found from Late Eocene strata in Egypt.

<i>Saadanius</i> Extinct genus of primates

Saadanius is a genus of fossil primates dating to the Oligocene that is closely related to the common ancestor of the Old World monkeys and apes, collectively known as catarrhines. It is represented by a single species, Saadanius hijazensis, which is known only from a single partial skull tentatively dated between 29 and 28 million years ago. It was discovered in 2009 in western Saudi Arabia near Mecca and was first described in 2010 after comparison with both living and fossil catarrhines.

<i>Parapithecus</i> Extinct genus of primates

Parapithecus is an extinct genus of primate that lived during the Late Eocene-Earliest Oligocene in what is now Egypt. Its members are considered to be basal anthropoids and the genus is closely related to Apidium. There are two known species. They lived about 40 to 33 million years ago.

Azibiidae is an extinct family of fossil primate from the late early or early middle Eocene from the Glib Zegdou Formation in the Gour Lazib area of Algeria. They are thought to be related to the living toothcombed primates, the lemurs and lorisoids, although paleoanthropologists such as Marc Godinot have argued that they may be early simians. It includes the genera Azibius and Algeripithecus, the latter of which was originally considered the oldest known simian, not a strepsirrhine.

<i>Afrasia djijidae</i> Eocene fossil primate from Myanmar

Afrasia djijidae is a fossil primate that lived in Myanmar approximately 37 million years ago, during the late middle Eocene. The only species in the genus Afrasia, it was a small primate, estimated to weigh around 100 grams (3.5 oz). Despite the significant geographic distance between them, Afrasia is thought to be closely related to Afrotarsius, an enigmatic fossil found in Libya and Egypt that dates to 38–39 million years ago. If this relationship is correct, it suggests that early simians dispersed from Asia to Africa during the middle Eocene and would add further support to the hypothesis that the first simians evolved in Asia, not Africa. Neither Afrasia nor Afrotarsius, which together form the family Afrotarsiidae, is considered ancestral to living simians, but they are part of a side branch or stem group known as eosimiiforms. Because they did not give rise to the stem simians that are known from the same deposits in Africa, early Asian simians are thought to have dispersed from Asia to Africa more than once prior to the late middle Eocene. Such dispersals from Asia to Africa also were seen around the same time in other mammalian groups, including hystricognathous rodents and anthracotheres.

<span class="mw-page-title-main">Evolution of primates</span> Origin and diversification of primates through geologic time

The evolutionary history of the primates can be traced back 57-90 million years. One of the oldest known primate-like mammal species, Plesiadapis, came from North America; another, Archicebus, came from China. Other similar basal primates were widespread in Eurasia and Africa during the tropical conditions of the Paleocene and Eocene. Purgatorius is the genus of the four extinct species believed to be the earliest example of a primate or a proto-primate, a primatomorph precursor to the Plesiadapiformes, dating to as old as 66 million years ago.

Propliopithecoidea is a superfamily of catarrhine primates that inhabited Africa and Arabia during the Early Oligocene about 32 to 29 million years ago. Fossils have been found in Egypt, Oman and Angola. They are one of the earliest known families of catarrhines.

Parapithecoidea is an extinct superfamily of primates which lived in the Eocene and Oligocene periods in Egypt. In some classifications all Parapithecoidea are placed within the family Parapithecidae. Seiffert et al. (2010) propose that Parapithecoidea arose during the Bartonian, with a split between Biretia and the Parapithecidae occurring early in the Priabonian.

Proteopithecidae is an extinct family of primates which lived in the Priabonian and probably early Oligocene periods. Fossils that have been found are in the Jebel Qatrani Formation in Egypt. Currently two genera are recognised, each with a single species, those being Proteopithecus sylviae and Serapia eocaena.

References

  1. 1 2 Seiffert, Erik & Simons, Elwyn & Fleagle, John & Godinot, Marc. (2010). Paleogene Anthropoids. pages 369-392. In 'Cenozoic Mammals of Africa' (editors Lars Wardelin and William Sanders) University of California Press 6 August 2010 ISBN   978-0520257214
  2. Seiffert, E.R.; Tejedor, M.F.; Fleagle, J.G.; Novo, N.M.; Cornejo, F.M.; Bond, M.; de Vries, D.; Campbell, K.E. (2020). "A parapithecid stem anthropoid of African origin in the Paleogene of South America". Science. 368 (6487): 194–197. Bibcode:2020Sci...368..194S. doi:10.1126/science.aba1135. PMID   32273470. S2CID   215550773.
  3. Fleagle, John G; Kay, Richard F (September 1987). "The phyletic position of the Parapithecidae". Journal of Human Evolution. 16 (6): 483–532. doi:10.1016/0047-2484(87)90036-4.
  4. Williams, Blythe A; Kay, Richard F; Kirk, E Christopher (January 2010). Walker, Alan (ed.). "New perspectives on anthropoid origins". PNAS . 107 (11): 4797–4804. Bibcode:2010PNAS..107.4797W. doi: 10.1073/pnas.0908320107 . PMC   2841917 . PMID   20212104.
  5. Richard F. Kay, Blythe A Williams Anthropoid Origins: New Visions (Developments in Primatology: Progress and Prospects), Springer, 2013, ISBN   978-1461347002 page=365
  6. Richard F. Kay, Blythe A Williams Anthropoid Origins: New Visions (Developments in Primatology: Progress and Prospects), Springer, 2013, ISBN   978-1461347002 page=409
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