Adapiformes

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

Adapiformes
Temporal range: Early Eocene–Miocene
Notharctus tenebrosus
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Primates
Suborder: Strepsirrhini
Infraorder: Adapiformes
Hoffstetter, 1977
Families
Synonyms

Strepsirrhini

Adapiforms are known from the fossil record only, and it is unclear whether they form a monophyletic or paraphyletic group. When assumed to be a clade, they are usually grouped under the "wet-nosed" taxon Strepsirrhini, which would make them more closely related to the lemurs and less so to the "dry-nosed" Haplorhini taxon that includes monkeys and apes.[3]

In 2009, Franzen and colleagues placed the newly described genus Darwinius in the "Adapoidea group of early primates representative of early haplorhine diversification" so that, according to these authors, the adapiforms would not be within the Strepsirrhini lineage as hitherto assumed but qualify as a stem "missing link" between Strepsirrhini and Haplorrhini.[4] However, subsequent analysis on the Darwinius fossil by Erik Seiffert and colleagues rejects this "missing link" idea, classifying Darwinius and other adapiforms within the Strepsirrhini.[5]

Boyer et al. found that the crown Strepsirrhini likely emerged deep in the Adapiformes tree, possibly as sister of a group which include e.g. Aframonius and Notharctidae.[6] The Adapiformes are thus found not to be literally extinct (in the sense of having no living descendants), and becomes a junior synonym to the Strepsirrhini. Below is a simplified cladogram.

Primates

Haplorrhini

Strepsirrhini/

Donrussellia provincialis


Crown Strepsirrhini

Adapiformes

A 2018 study puts Donrussellia as sister to crown primates.[7]

Classification

Adapiforms belong to the infraorder Adapiformes, which contains a single superfamily, Adapoidea.[8] The group also is sometimes treated as a superfamily (Adapoidea) alongside the other living strepsirrhine superfamilies, Lemuroidea (lemurs) and Lorisoidea (lorises and galagos).[9]

Rose (1995) suggests that early adapiformes and omoyiformes shared a common ancestor dating to the Thanetian age.[10]

gollark: Also, almost entirely significant, but `let` and not `var`/`const`/`whatever`.
gollark: ```rustrkgrea pengr gbxvb;hfr gbxvb::ceryhqr::*;hfr gbxvb::vb::pbcl;hfr gbxvb::arg::GpcYvfgrare;sa znva() { // Ovaq gur freire'f fbpxrg. yrg nqqe = "127.0.0.1:12345".cnefr().hajenc(); yrg yvfgrare = GpcYvfgrare::ovaq(&nqqe) .rkcrpg("hanoyr gb ovaq GPC yvfgrare"); // Chyy bhg n fgernz bs fbpxrgf sbe vapbzvat pbaarpgvbaf yrg freire = yvfgrare.vapbzvat() .znc_ree(|r| rcevagya!("npprcg snvyrq = {:?}", r)) .sbe_rnpu(|fbpx| { // Fcyvg hc gur ernqvat naq jevgvat cnegf bs gur // fbpxrg. yrg (ernqre, jevgre) = fbpx.fcyvg(); // N shgher gung rpubf gur qngn naq ergheaf ubj // znal olgrf jrer pbcvrq... yrg olgrf_pbcvrq = pbcl(ernqre, jevgre); // ... nsgre juvpu jr'yy cevag jung unccrarq. yrg unaqyr_pbaa = olgrf_pbcvrq.znc(|nzg| { cevagya!("jebgr {:?} olgrf", nzg) }).znc_ree(|ree| { rcevagya!("VB reebe {:?}", ree) }); // Fcnja gur shgher nf n pbapheerag gnfx. gbxvb::fcnja(unaqyr_pbaa) }); // Fgneg gur Gbxvb ehagvzr gbxvb::eha(freire);}```
gollark: Also, `tungstenite` for a websockets library.
gollark: Also, less important, but names allowing ridiculous bad puns are ideal:- Rust allows `oxide` and `steel` and other such stuff
gollark: (well i-am)

References

  1. Dunn, Rachel H. (2016). "New euprimate postcrania from the early Eocene of Gujarat, India, and the strepsirrhine–haplorhine divergence". Journal of Human Evolution. 99: 25–51. doi:10.1016/j.jhevol.2016.06.006. PMID 27650579.
  2. Twenty-five little bones tell a puzzling story about early primate evolution
  3. Callum Ross, Richard F. Kay, Anthropoid origins: new visions, Springer, 2004, ISBN 978-0-306-48120-8, p. 100
  4. Franzen, Jens L.; et al. (2009). Hawks, John (ed.). "Complete Primate Skeleton from the Middle Eocene of Messel in Germany: Morphology and Paleobiology". PLoS ONE. 4 (5): e5723. Bibcode:2009PLoSO...4.5723F. doi:10.1371/journal.pone.0005723. PMC 2683573. PMID 19492084.
  5. Ritter, M. (October 21, 2009). "Primate fossil called only a distant relative". Associated Press. Retrieved 2012-01-12.
  6. Boyer, Doug M.; Maiolino, Stephanie A.; Holroyd, Patricia A.; Morse, Paul E.; Bloch, Jonathan I. (2018-09-01). "Oldest evidence for grooming claws in euprimates". Journal of Human Evolution. 122: 1–22. doi:10.1016/j.jhevol.2018.03.010. ISSN 0047-2484. PMID 29935935.
  7. Holroyd, Patricia A.; Silcox, Mary T.; López-Torres, Sergi (2018-09-22). "New omomyoids (Euprimates, Mammalia) from the late Uintan of southern California, USA, and the question of the extinction of the Paromomyidae (Plesiadapiformes, Primates)". Palaeontologia Electronica. 21 (3): 1–28. doi:10.26879/756. ISSN 1094-8074.
  8. Fleagle 2013, p. 415.
  9. Rose 2009, p. 286.
  10. Ross, Callum; Kay, Richard F, eds. (2004). Anthropoid Origins: New Visions. Springer Science & Business Media. p. 713. ISBN 978-1461347002.

Sources

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