Hominidae

Not to be confused with Hominoidea.
"Great apes" and "Hominid" redirect here. For other uses, see Great apes (disambiguation) and Hominid (disambiguation).
Hominidae[1]
Temporal range: Miocene-Present, 23.03–0 Ma
Two hominids: A human (Homo sapiens) and a chimpanzee (Pan troglodytes)
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Primates
Suborder: Haplorhini
Superfamily: Hominoidea
Family: Hominidae
Gray, 1825
Type genus
Homo
Linnaeus, 1758
Subfamily
Synonyms
  • Pongidae Elliot, 1913

The Hominidae (/hɒˈmɪnd/), whose members are known as great apes[note 1] or hominids, are a taxonomic family of primates that includes seven extant species in four genera: Pongo, the Bornean and Sumatran orangutan; Gorilla, the eastern and western gorilla; Pan, the common chimpanzee and the bonobo; and Homo, the human (and though not extant, the near-human ancestors and relatives (e.g., the Neanderthal)).[1]

Several revisions in classifying the great apes have caused the use of the term "hominid" to vary over time. Its original meaning referred only to humans (Homo) and their closest non-extant relatives. That restrictive meaning has now been largely assumed by the term "hominin", which comprises all members of the human clade after the split from the chimpanzees (Pan). (See below, for a fuller discussion of related and very similar terms, at Terminology.) The current, 21st-century meaning of "hominid" refers to all the great apes including humans. Usage still varies, however, and some scientists and laypersons still use "hominid" in the original restrictive sense; the scholarly literature generally shows the traditional usage until around the turn of the 21st century.

Within the taxon Hominidae, a number of extant and known extinct, that is, fossil, genera are grouped with the humans, chimpanzees, and gorillas in the subfamily Homininae; others with orangutans in the subfamily Ponginae (see classification graphic below). The most recent common ancestor of all Hominidae lived roughly 14 million years ago,[2] when the ancestors of the orangutans speciated from the ancestral line of the other three genera.[3] Those ancestors of the family Hominidae had already speciated from the family Hylobatidae (the gibbons), perhaps 15 million to 20 million years ago.[3][4]

History

See also: Human evolution

In the early Miocene, about 22 million years ago, there were many species of arboreally adapted primitive catarrhines from East Africa; the variety suggests a long history of prior diversification. Fossils at 20 million years ago include fragments attributed to Victoriapithecus, the earliest Old World monkey. Among the genera thought to be in the ape lineage leading up to 13 million years ago are Proconsul, Rangwapithecus, Dendropithecus, Limnopithecus, Nacholapithecus, Equatorius, Nyanzapithecus, Afropithecus, Heliopithecus, and Kenyapithecus, all from East Africa.

At sites far distant from East Africa, the presence of other generalized non-cercopithecids, that is, non-monkey primates, of middle Miocene age—Otavipithecus from cave deposits in Namibia, and Pierolapithecus and Dryopithecus from France, Spain and Austria—is further evidence of a wide diversity of ancestral ape forms across Africa and the Mediterranean basin during the relatively warm and equable climatic regimes of the early and middle Miocene. The most recent of these far-flung Miocene apes (hominoids) is Oreopithecus, from the fossil-rich coal beds in northern Italy and dated to 9 million years ago.

Molecular evidence indicates that the lineage of gibbons (family Hylobatidae), the lesser apes, diverged from that of the great apes some 18–12 million years ago, and that of orangutans (subfamily Ponginae) diverged from the other great apes at about 12 million years. There are no fossils that clearly document the ancestry of gibbons, which may have originated in a still-unknown South East Asian hominoid population; but fossil proto-orangutans, dated to around 10 million years ago, may be represented by Sivapithecus from India and Griphopithecus from Turkey.[5]

Species close to the last common ancestor of gorillas, chimpanzees and humans may be represented by Nakalipithecus fossils found in Kenya and Ouranopithecus found in Greece. Molecular evidence suggests that between 8 and 4 million years ago, first the gorillas (genus Gorilla), and then the chimpanzees (genus Pan) split off from the line leading to the humans. Human DNA is approximately 98.4% identical to that of chimpanzees when comparing single nucleotide polymorphisms (see human evolutionary genetics). The fossil record, however, of gorillas and chimpanzees is limited; both poor preservation—rain forest soils tend to be acidic and dissolve bone—and sampling bias probably contribute most to this problem.

Other hominins probably adapted to the drier environments outside the African equatorial belt; and there they encountered antelope, hyenas, elephants and other forms becoming adapted to surviving in the East African savannas, particularly the regions of the Sahel and the Serengeti. The wet equatorial belt contracted after about 8 million years ago, and there is very little fossil evidence for the divergence of the hominin lineage from that of gorillas and chimpanzees—which split was thought to have occurred around that time. The earliest fossils argued by some to belong to the human lineage are Sahelanthropus tchadensis (7 Ma) and Orrorin tugenensis (6 Ma), followed by Ardipithecus (5.5–4.4 Ma), with species Ar. kadabba and Ar. ramidus.

Taxonomic history

Terminology

Humans are one of the four extant hominid genera.

The classification of the great apes has been revised several times in the last few decades; these revisions have led to a varied use of the word "hominid" over time. The original meaning of the term referred to only humans and their closest relatives—what is now the modern meaning of the term "hominin". And the meaning of the taxon Hominidae changed gradually, leading to a different (modern) usage of "hominid" that today includes all the great apes including humans.

The term hominid is easily confused with a number of very similar words:

(See below, a graphic of the taxonomic classifications at Evolutionary tree of the Hominoidea.)

Many scientists, including paleoanthropologists, continue to use the term "hominid" to mean humans and their direct and near-direct bipedal ancestors.

Extant and fossil relatives of humans

A model of a modern human hominid skull (or hominin skull)

As mentioned, Hominidae was originally the name given to the family of humans and their (extinct) close relatives, with the other great apes (that is, the orangutans, gorillas, and chimpanzees) all being placed in a separate family, the Pongidae. However, that definition eventually made Pongidae paraphyletic because at least one great ape species (the chimpanzees) proved to be more closely related to humans than to other great apes. Most taxonomists today encourage monophyletic groups—this would require, in this case, the use of Pongidae to be restricted to just one closely related grouping. Thus, many biologists now assign Pongo (as the subfamily Ponginae) to the family Hominidae. The taxonomy shown here follows the monophyletic groupings according to the modern understanding of human and great ape relationships.

Humans and close relatives including the tribes Hominini and Gorillini form the subfamily Homininae (see classification graphic below). (A few researchers go so far as to refer the chimpanzees and the gorillas to the genus Homo along with humans.) [6][7][8] But, it is those fossil relatives more closely related to humans than the chimpanzees that represent the especially close members of the human family, and without necessarily assigning subfamily or tribal categories.[9]

Many extinct hominids have been studied to help understand the relationship between modern humans and the other extant hominids. Some of the extinct members of this family include Gigantopithecus, Orrorin, Ardipithecus, Kenyanthropus, and the australopithecines Australopithecus and Paranthropus.[10]

The exact criteria for membership in the tribe Hominini under the current understanding of human origins are not clear, but the taxon generally includes those species that share more than 97% of their DNA with the modern human genome, and exhibit a capacity for language or for simple cultures beyond their 'local family' or band. The theory of mind concept—including such faculties as empathy, attribution of mental state, and even empathetic deception—is a controversial criterion; it distinguishes the adult human alone among the hominids. Humans acquire this capacity after about four years of age, whereas it has not been proven (nor has it been disproven) that gorillas or chimpanzees ever develop a theory of mind.[11] This is also the case for some New World monkeys outside the family of great apes, as, for example, the capuchin monkeys.

However, even without the ability to test whether early members of the Hominini (such as Homo erectus, Homo neanderthalensis, or even the australopithecines) had a theory of mind, it is difficult to ignore similarities seen in their living cousins. Orangutans have shown the development of culture comparable to that of chimpanzees,[12] and some say the orangutan may also satisfy those criteria for the theory of mind concept. These scientific debates take on political significance for advocates of great ape personhood.

Classification

Evolutionary tree

Extant

Skulls of an orangutan and a gorilla
Human and chimp skulls and brains (not to scale), as illustrated in Gervais' Histoire naturelle des mammifères

There are seven living species of great ape which are classified in four genera. The following classification is commonly accepted:[1]

Fossil

A reconstruction of Pierolapithecus catalaunicus

In addition to the extant species and subspecies, archaeologists, paleontologists, and anthropologists have discovered and classified numerous extinct great ape species as below, based on the taxonomy shown.[13]

Family Hominidae

Physical description

The great apes are large, tailless primates, with the smallest living species being the bonobo at 30–40 kilograms in weight, and the largest being the eastern gorillas, with males weighing 140–180 kilograms. In all great apes, the males are, on average, larger and stronger than the females, although the degree of sexual dimorphism varies greatly among species. Although most living species are predominantly quadrupedal, they are all able to use their hands for gathering food or nesting materials, and, in some cases, for tool use.[20]

Most species are omnivorous, but fruit is the preferred food among all but some human groups. Chimpanzees and orangutans primarily eat fruit. When gorillas run short of fruit at certain times of the year or in certain regions, they resort to eating shoots and leaves, often of bamboo, a type of grass. Gorillas have extreme adaptations for chewing and digesting such low-quality forage, but they still prefer fruit when it is available, often going miles out of their way to find especially preferred fruits. Humans, since the neolithic revolution, consume mostly cereals and other starchy foods, including increasingly highly processed foods, as well as many other domesticated plants (including fruits) and meat. Hominid teeth are similar to those of the Old World monkeys and gibbons, although they are especially large in gorillas. The dental formula is 2.1.2.32.1.2.3. Human teeth and jaws are markedly smaller for their size than those of other apes, which may be an adaptation to eating cooked food since the end of the Pleistocene.[21][22]

Gestation in great apes lasts 8–9 months, and results in the birth of a single offspring, or, rarely, twins. The young are born helpless, and require care for long periods of time. Compared with most other mammals, great apes have a remarkably long adolescence, not being weaned for several years, and not becoming fully mature for eight to thirteen years in most species (longer in humans). As a result, females typically give birth only once every few years. There is no distinct breeding season.[20]

The gorillas and the common chimpanzee live in family groups of around five to ten individuals, although much larger groups are sometimes noted. Chimpanzees live in larger groups that break up into smaller groups when fruit becomes less available. When small groups of female chimpanzees go off in separate directions to forage for fruit, the dominant males can no longer control them and the females often mate with other subordinate males. In contrast, groups of gorillas stay together regardless of the availability of fruit. When fruit is hard to find, they resort to eating leaves and shoots. Because gorilla groups stay together, the male is able to monopolize the females in his group. This fact is related to gorillas' greater sexual dimorphism than chimpanzees'. In both chimpanzees and gorillas, the groups include at least one dominant male, and females leave the group at maturity.

Due to the close genetic relationship between humans and other great apes, certain animal rights organizations, such as the Great Ape Project, argue that nonhuman great apes are persons and should be given basic human rights. Some countries have instituted a research ban to protect great apes from any kind of scientific testing.

On June 25, 2008, the Spanish parliament supported a new law that would make "keeping apes for circuses, television commercials or filming" illegal.[23]

On September 8, 2010, European Union banned the testing of great apes.[24]

Conservation

The following table lists the estimated number of great ape individuals living outside zoos.

Species Estimated
number
Refs
Sumatran orangutan 6,667 [25]
Bornean orangutan 61,234 [25]
Western gorilla 200,000 [26]
Eastern gorilla 6,000 [26]
Common chimpanzee 100,000 [27]
Bonobo 10,000 [27]
Human 7,327,650,000 [28]

See also

Notes

  1. "Great ape" is a common name rather than a taxonomic label, and there are differences in usage. It may or may not include humans.

References

  1. 1 2 3 4 Groves, C.P. (2005). Wilson, D.E.; Reeder, D.M., eds. Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Baltimore: Johns Hopkins University Press. pp. 181–184. OCLC 62265494. ISBN 0-801-88221-4.
  2. Andrew Hill; Steven Ward (1988). "Origin of the Hominidae: The Record of African Large Hominoid Evolution Between 14 My and 4 My". Yearbook of Physical Anthropology. 31 (59): 49–83. doi:10.1002/ajpa.1330310505.
  3. 1 2 Dawkins R (2004) The Ancestor's Tale.
  4. "Query: Hominidae/Hylobatidae". Time Tree. 2009. Retrieved December 2010. Check date values in: |access-date= (help)
  5. Srivastava (2009). Morphology Of The Primates And Human Evolution. PHI Learning Pvt. Ltd. p. 87. ISBN 978-81-203-3656-8. Retrieved 6 November 2011.
  6. Pickrell, John (20 May 2003). "Chimps Belong on Human Branch of Family Tree, Study Says". National Geographic Society. Retrieved 4 August 2007.
  7. Relationship Humans-Gorillas.
  8. Watson, E. E.; et al. (2001). "Homo genus: a review of the classification of humans and the great apes". In Tobias, P. V.; et al. Humanity from African Naissance to Coming Millennia. Florence: Firenze Univ. Press. pp. 311–323.
  9. Schwartz, J.H. (1986) Primate systematics and a classification of the order. Comparative primate biology volume 1: Systematics, evolution, and anatomy (ed. by D.R. Swindler, and J. Erwin), pp. 1-41, Alan R. Liss, New York.
  10. Schwartz, J.H. (2004b) Issues in hominid systematics. Zona Arqueología 4, 360–371.
  11. Heyes, C. M. (1998). "Theory of Mind in Nonhuman Primates". Behavioral and Brain Sciences. 21 (1). doi:10.1017/S0140525X98000703. bbs00000546.
  12. Van Schaik C.P.; Ancrenaz, M; Borgen, G; Galdikas, B; Knott, CD; Singleton, I; Suzuki, A; Utami, SS; Merrill, M (2003). "Orangutan cultures and the evolution of material culture". Science. 299 (5603): 102–105. doi:10.1126/science.1078004. PMID 12511649.
  13. Haaramo, Mikko (14 January 2005). "Hominoidea". Mikko's Phylogeny Archive.
  14. Haaramo, Mikko (4 February 2004). "Pongidae". Mikko's Phylogeny Archive.
  15. Haaramo, Mikko (14 January 2005). "Hominoidea". Mikko's Phylogeny Archive.
  16. Haaramo, Mikko (10 November 2007). "Hominidae". Mikko's Phylogeny Archive.
  17. Paleodb
  18. Barras, Colin (14 March 2012). "Chinese human fossils unlike any known species". New Scientist. Retrieved 15 March 2012.
  19. "National Geographic". National Geographic Society. Retrieved 25 July 2009.
  20. 1 2 Harcourt, A.H., MacKinnon, J. & Wrangham, R.W. (1984). Macdonald, D., ed. The Encyclopedia of Mammals. New York: Facts on File. pp. 422–439. ISBN 0-87196-871-1.
  21. Brace, C. Loring; Mahler, Paul Emil (1971). "Post-Pleistocene changes in the human dentition". American Journal of Physical Anthropology. 34 (2): 191–203. doi:10.1002/ajpa.1330340205. PMID 5572603.
  22. Richard Wrangham (2007). "Chapter 12: The Cooking Enigma". In Charles Pasternak. What Makes Us Human?. Oxford: Oneworld Press. ISBN 978-1-85168-519-6.
  23. "Spanish parliament to extend rights to apes". Reuters. 25 June 2008. Retrieved 11 July 2008.
  24. http://www.independent.co.uk/life-style/health-and-families/new-eu-rules-on-animal-testing-ban-use-of-apes-2077443.html
  25. 1 2 An estimate of the number of wild orangutans in 2004: "Orangutan Action Plan 2007–2017" (PDF) (in Indonesian). Government of Indonesia. 2007. p. 5. Retrieved 1 May 2010.
  26. 1 2 "Gorillas on Thin Ice". United Nations Environment Programme. 15 January 2009. Retrieved 19 May 2010.
  27. 1 2 Linda Vigilant (2004). "Chimpanzees". Current Biology. 14 (10): R369–R371. doi:10.1016/j.cub.2004.05.006. PMID 15186757.
  28. "U.S. and World Population Clock". United States Census Bureau. Retrieved 28 May 2016.
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