Gibbon–human last common ancestor

Hylobatidae

, the gibbons, or "lesser apes".

The

Hylobatidae (gibbons) and Hominidae (great apes) families (also dubbed "gibbon–human last common ancestor", GHLCA^{[by whom?]}) is dated to the early Miocene, roughly 20 to 16 million years ago.^[1]

Hylobatidae has four gibbon genera (

human lineage

).

Evolutionary history
Main articles:
Hylobatidae, and Hominidae

A 2014 whole-genome molecular dating analysis indicated that the gibbon lineage diverged from that of
great apes (Hominidae) around 17 million years ago (16.8±0.9 Mya), based on certain assumptions about the generation time and mutation rate.^[1]

The extinct Bunopithecus sericus was a gibbon or gibbon-like ape.^[3] Adaptive divergence associated with chromosomal rearrangements led to rapid radiation of the four genera within the Hylobatidae lineage between about 7 to 5 Mya. Each genus comprises a distinct, well-delineated lineage, but the sequence and timing of divergences among these genera have been hard to resolve due to radiative speciations and extensive incomplete lineage sorting.^[1]^[2] Recent coalescent-based analysis of both the coding and noncoding parts of the genome suggests that the most likely sequence of species divergences in the Hylobatidae lineage is (Hylobates, (Nomascus, (Hoolock, Symphalangus))).^[2] Though other studies have also found different topology. ^[4]

Hominoidea
(hominoids, apes)

Hylobatidae

(gibbons)

Hylobates

Nomascus

Hoolock

Symphalangus

Hominidae (hominids, great apes)

Ponginae

(Orangutans)

Homininae

Gorillini

(Gorilla)

Hominini

Panina

(chimpanzees)

Hominina
(Humans)

Appearance and ecology

Because fossils are so scarce, it is not clear what GHLCA looked like. A 2019 study found that the species was "smaller than previously thought" and about the size of a gibbon.^[5]
It is unknown whether GHLCA was tailless and had a broad, flat rib cage like their descendants.^[6]^: 193 But it is likely that it was a small animal, probably weighing only 12 kilograms (26 lb). This contradicts previous theories that they were the size of chimpanzees and that apes moved to hang and to swing from trees to get off the ground because they were too big. There might have been an arms race in brachiating to reach the best food. Also, the Hominidae, which came later, were smaller than their ancestors, which is contrary to normal evolution where animals get larger over their evolutionary development.^[5]

References

^
PMID 25209798
.

^
PMID 29087487
.

S2CID 8394136
.

ISSN 1573-8604
.

^ ^a ^b "New Study Suggests that Last Common Ancestor of Humans and Apes was Smaller than Thought". American Museum of Natural History. Archived from the original on 9 December 2019. Retrieved 9 December 2019.

ISBN 9781629013725
.

See also

Evolution portal

Chimpanzee–human last common ancestor

Gorilla–human last common ancestor

Orangutan–human last common ancestor

History of hominoid taxonomy

List of human evolution fossils (with images)

Retrieved from "https://en.wikipedia.org/w/index.php?title=Gibbon–human_last_common_ancestor&oldid=1214581027"

[Carbone_et_al._2014-1] 
PMID 25209798
.

[Shi_and_Yang_2018-2] 
PMID 29087487
.

[Mootnick-3] S2CID 8394136
.

[4] ISSN 1573-8604
.

[Smaller-5] "New Study Suggests that Last Common Ancestor of Humans and Apes was Smaller than Thought". American Museum of Natural History. Archived from the original on 9 December 2019. Retrieved 9 December 2019.

[Human_Reason-6] ISBN 9781629013725
.

[1]

[3]

[2]

[4]

[5]

[6]