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{{for|the member tribe|Australopithecus}}
{{automatic Taxobox
{{Short description|Extinct subtribe of the Hominini tribe, and members of the human clade}}
{{Use dmy dates|date=May 2020}}
{{Automatic taxobox
| name = Australopithecines
| name = Australopithecines
| fossil_range = [[Pliocene]] - [[Pleistocene]] {{fossil range|4.2|1.2|latest=0}}
| fossil_range = {{fossilrange|6.1|0|[[Late Miocene]][[Holocene|Present]], 6.1 – 0 Mya|earliest=7.2|PS=(Range includes humans ([[Homo]])) }}
| image = Australopithecus sediba.JPG
| image = Australopithecus sediba.JPG
| image_width = 250px
| image_caption = ''[[Australopithecus sediba]]''
| image_caption = ''[[Australopithecus sediba]]''
| taxon = Australopithecina
| taxon = Australopithecina
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| type_species = {{extinct}}''[[Australopithecus africanus]]''
| type_species = {{extinct}}''[[Australopithecus africanus]]''
| type_species_authority = Dart, 1925
| type_species_authority = Dart, 1925
| subdivision_ranks = [[Genus|Genera]]
| subdivision_ranks = Genera
| subdivision =
| subdivision = *''[[Australopithecus]]'' ([[cladistically]] including
*''[[Australopithecus]]''
**''[[Homo]]''
*''[[Paranthropus]]''
**''[[Kenyanthropus]]''
**''[[Paranthropus]]'')
*''[[Praeanthropus]]'' (sometimes used)
*''[[Ardipithecus]]'' <small>(debated{{Sfn|Stanford|2012|p=}})</small>
*''[[Ardipithecus]]'' <small>(debated{{Sfn|Stanford|2012|p=}})</small>
*''[[Orrorin]]'' <small>(most likely)</small>
*''[[Sahelanthropus]]'' <small>(possibly)</small>
| synonyms = Hominina <small>Gray 1825</small><ref>{{Cite journal|last=Gray|first=J. E.|date=1825|title=An outline of an attempt at the disposition of Mammalia into Tribes and Families, with a list of genera apparently appertaining to each Tribe.|url=https://www.biodiversitylibrary.org/page/2531525#page/353/mode/1up|journal=Annals of Philosophy |series=New Series|volume=10|pages=337–340}}</ref> sensu <small>Andrew & Harrison 2005</small><ref>{{Cite journal |last1=Andrews |first1=Peter |last2=Harrison |first2=Terry |date=2005-01-01 |title=The Last Common Ancestor of Apes and Humans |url=https://brill.com/view/book/edcoll/9789047416616/B9789047416616_s013.xml |journal=Interpreting the Past |language=en |pages=103–121 |doi=10.1163/9789047416616_013|isbn=9789047416616 |s2cid=203884394 }}</ref>
}}
}}
The term '''australopithecine''' refers generally to any species in the related [[genus|genera]] of ''[[Australopithecus]]'' and ''[[Paranthropus]]''. It may also include members of ''[[Kenyanthropus]]'',{{Sfn|Wood|2010|p=}} ''[[Ardipithecus]]'',{{Sfn|Wood|2010|p=}} and ''[[Praeanthropus]]''.{{Sfn|Cela-Conde|Ayala|2003|p=}} The term comes from a former classification as members of a distinct subfamily, the Australopithecinae.{{Sfn|Kottak|2004|p=}} They are now classified by some within the '''Australopithecina''' subtribe of the [[Hominini]] [[tribe (biology)|tribe]].{{Sfn|Wood|Richmond|2000|p=}}{{Sfn|Briggs|Crowther|2008|p=124}} Members of ''Australopithecus'' are sometimes referred to as the "gracile australopithecines", while ''Paranthropus'' are called the "robust australopithecines".{{Sfn|Mai|Owl|Kersting|2005|p=}}<ref name="Szpak2007">{{cite web | title = Evolution of the Australopithecines | last = Szpak | first = P. | year = 2007 | publisher = Tree of Life | url = http://tolweb.org/treehouses/?treehouse_id=4438}}</ref>


The '''australopithecines''', formally '''Australopithecina''' or '''Hominina''', are generally any species in the related [[Genus|genera]] of ''[[Australopithecus]]'' and ''[[Paranthropus]]''. It may also include members of ''[[Kenyanthropus]]'',{{Sfn|Wood|2010|p=}} ''[[Ardipithecus]]'',{{Sfn|Wood|2010|p=}} and ''[[Australopithecus|Praeanthropus]]''.{{Sfn|Cela-Conde|Ayala|2003|p=}} The term comes from a former classification as members of a distinct subfamily, the Australopithecinae.{{Sfn|Kottak|2004|p=}} They are classified within the '''Australopithecina''' subtribe of the [[Hominini]] [[Tribe (biology)|tribe]].{{Sfn|Wood|Richmond|2000|p=}}{{Sfn|Briggs|Crowther|2008|p=124}} These related species are sometimes{{dubious|reason=academic source from 2010 states that Australopiths were "formerly known as the australopithecines", suggesting that Austalopith is now the dominant term|date=August 2021}} collectively termed '''australopithecines''', '''australopiths''', or '''homininians'''. They are the extinct, close relatives of modern humans and, together with the extant genus ''[[Homo]]'', comprise the human [[clade]]. Members of the human clade, i.e. the Hominini after the split from the chimpanzees, are called Hominina<ref>{{Cite web|url=https://www.geol.umd.edu/~tholtz/G204/lectures/204scatterlings.html|title=GEOL 204 The Fossil Record: The Scatterlings of Africa: the Origins of Humanity|website=www.geol.umd.edu|access-date=24 December 2016}}</ref> (''see Hominidae; [[Hominidae#Terminology|terms "hominids" and hominins]]'').
The australopithecines occurred in the [[Plio-Pleistocene]] era, and were [[bipedal]] and dentally similar to humans, but with a brain size not much larger than that of modern [[ape]]s, with lesser [[encephalization]] than in the genus ''[[Homo]]''.{{Sfn|Mai|Owl|Kersting|2005|p=45}} [[Human]]s (genus ''Homo'') may have descended from australopithecine ancestors, while the genus ''[[Ardipithecus]]'' is a possible ancestor of the australopithecines.<ref name="Szpak2007" />


While none of the groups normally directly assigned to this group survived, the australopithecines do not appear to be literally extinct (in the sense of having no living descendants) as the genera ''Kenyanthropus'', ''Paranthropus'', and ''[[Homo]]'' probably emerged as sisters of a late ''Australopithecus'' species such as ''[[Australopithecus africanus|A. africanus]]'' and/or ''[[A. sediba]]''.
== Phylogeny ==


The terms australopithecines, et. al., come from a former classification as members of a distinct subfamily, the Australopithecinae.{{Sfn|Kottak|2004|p=}} Members of ''Australopithecus'' are sometimes referred to as the "gracile australopithecines", while ''Paranthropus'' are called the "robust australopithecines".{{Sfn|Mai|Owl|Kersting|2005|p=}}<ref name="Szpak2007">{{cite web | title = Evolution of the Australopithecines | last = Szpak | first = P. | year = 2007 | publisher = Tree of Life | url = http://tolweb.org/treehouses/?treehouse_id=4438}}</ref>
Phylogeny of subtribe Australopithecina according to {{Harvnb|Briggs|Crowther|2008|p=124}}.

The australopithecines occurred in the [[Late Miocene]] sub-epoch and were [[bipedal]], and they were dentally similar to humans, but with a brain size not much larger than that of modern non-human [[ape]]s, with lesser [[encephalization]] than in the genus ''Homo''.{{Sfn|Mai|Owl|Kersting|2005|p=45}} Humans (genus ''Homo'') may have descended from australopithecine ancestors and the [[genera]] ''[[Ardipithecus]]'', ''[[Orrorin]]'', ''[[Sahelanthropus]]'', and ''[[Graecopithecus]]'' are the possible ancestors of the australopithecines.<ref name="Szpak2007" />
{{Human timeline}}

== Classification ==
Classification of subtribe Australopithecina according to {{Harvnb|Briggs|Crowther|2008|p=124}}.
*Australopithecina
*Australopithecina
**''[[Australopithecus]]''
**''[[Australopithecus]]''
***''[[A. afarensis]]''
***''[[Australopithecus africanus]]''
***''[[Australopithecus africanus|A. africanus]]''
***''[[Australopithecus deyiremeda]]''
***''[[A. anamensis]]''
***''[[Australopithecus garhi]]''
***''[[A. bahrelghazali]]''
***''[[Australopithecus sediba]]''
***''[[Australopithecus afarensis]]'' (=''Praeanthropus afarensis'')
***''[[A. garhi]]''
***''[[Australopithecus anamensis]]'' (=''Praeanthropus anamensis'')
***''[[Australopithecus bahrelghazali]]'' (=''Praeanthropus bahrelghazali'')
**''[[Paranthropus]]''
**''[[Paranthropus]]''
***''[[Paranthropus robustus|P. robustus]]''
***''[[Paranthropus robustus]]''
***''[[P. boisei]]''
***''[[Paranthropus boisei]]''
***''[[P. aethiopicus]]''
***''[[Paranthropus aethiopicus]]''
**''[[Ardipithecus]]''
**''[[Ardipithecus]]''
***''[[A. ramidus]]''
***''[[Ardipithecus ramidus]]''
***''A. kadabba''
***''[[Ardipithecus kadabba]]''
**''[[Orrorin]]''
***''[[Orrorin tugenensis]]''
**''[[Sahelanthropus]]''
***''[[Sahelanthropus tchadensis]]''


== Physical characteristics ==


=== Phylogeny ===
Australopithecines are adapted to [[bipedal locomotion]], they have a high brachial index (forearm/upper arm ratio) when compared to other hominids, and they exhibit greater [[sexual dimorphism]] than members of ''[[Homo]]'' or ''[[Pan (genus)|Pan]]'' but less so than ''[[Gorilla]]'' or ''[[Orangutan|Pongo]]''. It is thought that they averaged heights of {{Convert|1.2|–|1.5|m|ft}} and weighed between {{Convert|30|and|55|kg|lb}}. The [[brain size]] may have been 350 [[cubic centimetre|cc]] to 600 cc. The postcanines (the teeth behind the canines) were relatively large, and had more enamel compared to contemporary apes and humans, while the incisors and canines were relatively small, and there was little difference between the males' and females' canines compared to modern apes.<ref name="Szpak2007" />
Phylogeny of Hominina/Australopithecina according to Dembo ''et al''. (2016).<ref>{{Cite journal|last1=Dembo|first1=Mana|last2=Radovčić|first2=Davorka|last3=Garvin|first3=Heather M.|last4=Laird|first4=Myra F.|last5=Schroeder|first5=Lauren|last6=Scott|first6=Jill E.|last7=Brophy|first7=Juliet|last8=Ackermann|first8=Rebecca R.|last9=Musiba|first9=Chares M.|last10=de Ruiter|first10=Darryl J.|last11=Mooers|first11=Arne Ø.|date=2016-08-01|title=The evolutionary relationships and age of Homo naledi: An assessment using dated Bayesian phylogenetic methods|url=http://www.sciencedirect.com/science/article/pii/S0047248416300100|journal=Journal of Human Evolution|language=en|volume=97|pages=17–26|doi=10.1016/j.jhevol.2016.04.008|pmid=27457542|bibcode=2016JHumE..97...17D |issn=0047-2484|hdl=2164/8796|hdl-access=free}}</ref>
{{clade
|1=''[[Sahelanthropus|Sahelanthropus tchadensis]]''
|2={{clade
|1=''[[Ardipithecus]]''
|2={{clade
|1=''[[Australopithecus anamensis]]''
|2={{clade
|1={{clade
|1=''[[Australopithecus afarensis]]''
|2=''[[Australopithecus garhi]]''}}
|2={{clade
|1=''[[Kenyanthropus|Kenyanthropus platyops]]''
|2={{clade
|1={{clade
|1=''[[Plesianthropus transvaalensis]]'' (''[[Australopithecus africanus]]'')
|2={{clade
|1=''[[Paranthropus aethiopicus]]''
|2={{clade
|1=''[[Paranthropus robustus]]''
|2=''[[Paranthropus boisei]]''}} }} }}
|2=''[[Homo]]'' (including [[Australopithecus sediba|"Australopithecus" ''sediba'']])
}} }} }} }} }} }}


== Physical characteristics ==
The post-cranial remains of australopithecines show they were adapted to [[bipedal locomotion]], but did not walk identically to humans. They had a forearm to upper arm ratio similar to the ''[[Golden ratio|Golden Ratio]]''<ref>{{Cite journal |last1=Wang |first1=Nan |last2=Ma |first2=Jie |last3=Jin |first3=Dan |last4=Yu |first4=Bin |date=2017-01-23 |title=A Special Golden Curve in Human Upper Limbs' Length Proportion: A Functional Partition Which Is Different from Anatomy |journal=BioMed Research International |language=en |volume=2017 |pages=e4158561 |doi=10.1155/2017/4158561 |doi-access=free |pmid=28232941 |pmc=5292375 |issn=2314-6133}}</ref><ref>{{Cite journal |date=2024-04-05 |title=A Special Golden Curve in Human Upper Limbs' Length Proportion: A Functional Partition Which Is Different from Anatomy |doi=10.1155/2017/4158561 |doi-access=free |last1=Wang |first1=Nan |last2=Ma |first2=Jie |last3=Jin |first3=Dan |last4=Yu |first4=Bin |journal=BioMed Research International |volume=2017 |pages=1–6 |pmid=28232941 |pmc=5292375 }}</ref> – greater than other hominins. They exhibited greater [[sexual dimorphism]] than members of ''[[Homo]]'' or ''[[Pan (genus)|Pan]]'' but less so than ''[[Gorilla]]'' or ''[[Orangutan|Pongo]]''. It is thought that they averaged heights of {{Convert|1.2|–|1.5|m|ft}} and weighed between {{Convert|30|and|55|kg|lb}}. The [[brain size]] may have been 350 cc to 600 cc. The postcanines (the teeth behind the canines) were relatively large, and had more enamel compared to contemporary apes and humans, whereas the incisors and canines were relatively small, and there was little difference between the males' and females' canines compared to modern apes.<ref name="Szpak2007" />
==Relation to ''Homo''==
==Relation to ''Homo''==
Most scientists maintain that the genus ''[[Homo]]'' emerged in Africa within the australopithecines around two million years ago. However, there is no consensus on within which species:

{{Quote|text=Determining which species of australopithecine (if any) is ancestral to the genus ''Homo'' is a question that is a top priority for many paleoanthropologists, but one that will likely elude any conclusive answers for years to come. Nearly every possible species has been suggested as a likely candidate, but none are overwhelmingly convincing. Presently, it appears that ''A. garhi'' has the potential to occupy this coveted place in paleoanthropology, but the lack of fossil evidence is a serious problem. Another problem presents itself in the fact that it has been very difficult to assess which hominid [now "hominin"] represents the first member of the genus ''Homo''. Without knowing this, it is not possible to determine which species of australopithecine may have been ancestral to ''Homo''.<ref name="Szpak2007"/>}}


Marc Verhaegen has argued that an australopithecine species could have also been ancestral to the genus ''[[Pan (genus)|Pan]]'' (i.e. chimpanzees).<ref>{{cite journal | last1 = Verhaegen | first1 = M | year = 1990 | title = African ape ancestry | journal = Human Evolution | volume = 5 | issue = 3| pages = 295–297 | doi=10.1007/BF02437246}}</ref>
{{Quote|"Determining which species of australopithecine (if any) is ancestral to the genus ''Homo'' is a question that is a top priority for many paleoanthropologists, but one that will likely elude any conclusive answers for years to come. Nearly every possible species has been suggested as a likely candidate, but none are overwhelmingly convincing. Presently, it appears that ''A. garhi'' has the potential to occupy this coveted place in paleoanthropology, but the lack of fossil evidence is a serious problem. Another problem presents itself in the fact that it has been very difficult to assess which hominid represents the first member of the genus ''Homo''. Without knowing this, it is not possible to determine which species of australopithecine may have been ancestral to ''Homo''."<ref>Szpak, 2007.</ref>}}


==Asian australopithecines==
==Asian australopithecines==
{{See also|Meganthropus}}
{{See also|Meganthropus}}
A minority view among palaeoanthropologists is that australopithecines moved outside Africa. One proponent of this theory is [[Jens Lorenz Franzen]], formerly Head of Paleoanthropology at the Research Institute [[Senckenberg]]. Franzen argued that [[Paranthropus|robust australopithecines]] had reached not only Indonesia, as ''[[Meganthropus]]'', but also China:


{{Blockquote|text=In this way we arrive at the conclusion that the recognition of australopithecines in Asia would not confuse but could help to clarify the early evolution of hominids ["hominins"] on that continent. This concept would explain the scanty remains from Java and China as relic of an Asian offshoot of an early radiation of ''Australopithecus'', which was followed much later by an [African] immigration of ''Homo erectus'', and finally became extinct after a period of coexistence.|author=Jens Lorenz Franzen |title="Asian australopithecines?" |source=''Hominid Evolution: Past, Present, and Future'' (1985){{Sfn|Franzen|1985|p=}}}}
A minority held viewpoint among palaeoanthropologists is that australopithecines moved outside of Africa. A notable proponent of this theory is Jens Lorenz Franzen, formerly Head of Paleoanthropology at the Research Institute Senckenberg. Franzen argues that [[Paranthropus|robust australopithecines]] had reached not only Indonesia, as ''[[Meganthropus]]'', but also China:


In 1957, an Early Pleistocene Chinese fossil tooth of unknown province was described as resembling ''[[Paranthropus robustus|P. robustus]]''. Three fossilized molars from [[Jianshi County|Jianshi]], China (Longgudong Cave) were later identified as belonging to an ''Australopithecus'' species.{{Sfn|Gao|1975|pp=}} However further examination questioned this interpretation; Zhang (1984) argued the Jianshi teeth and unidentified tooth belong to ''H. erectus''. Liu ''et al''. (2010) also dispute the Jianshi–australopithecine link and argue the Jianshi molars fall within the range of ''[[Homo erectus]]'':{{Sfn|Liu|Clarke|Xing|2010|pp=}}
{{Quote|"In this way we arrive at the conclusion that the recognition of australopithecines in Asia would not confuse but could help to clarify the early evolution of hominids on that continent. This concept would explain the scanty remains from Java and China as relic of an Asian offshoot of an early radiation of ''Australopithecus'', which was followed much later by an [African] immigration of ''Homo erectus'', and finally became extinct after a period of coexistence."<ref>Franzen, 1985.</ref>}}


{{Quote|text=No marked difference in dental crown shape is shown between the Jianshi hominin and other Chinese ''Homo erectus'', and there is also no evidence in support of the Jianshi hominin's closeness to ''Australopithecus''.{{Sfn|Liu|Clarke|Xing|2010|pp=}}}}
In 1957, an Early Pleistocene Chinese fossil tooth of unknown province was described as resembling ''[[Paranthropus robustus|P. robustus]]''. Three fossilized molars from [[Jianshi]], China (Longgudong Cave) were later identified as belonging to an ''Australopithecus'' species (Gao, 1975). However further examination questioned this interpretation; Zhang (1984) argued the Jianshi teeth and unidentified tooth belong to ''H. erectus''. Liu ''et al''. (2010) also dispute the Jianshi-australopithecine link and argue the Jianshi molars fall within the range of ''[[Homo erectus]]'':


However, [[Milford H. Wolpoff|Wolpoff]] (1999) notes that in China "persistent claims of australopithecine or australopithecine-like remains continue".{{Sfn|Wolpoff|1999|pp=}}
{{Quote|"No marked difference in dental crown shape is shown between the Jianshi hominin and other Chinese ''Homo erectus'', and there is also no evidence in support of the Jianshi hominin's closeness to ''Australopithecus''."}}

[[Milford H. Wolpoff|Wolpoff]] (1999) though points out that in China "persistent claims of australopithecine or australopithecine-like remains continue".


==See also==
==See also==
{{div col|colwidth=30em}}
*[[Human taxonomy]]
* [[Dawn of Humanity|''Dawn of Humanity'' (2015 PBS film)]]
* [[Human taxonomy]]
* [[Template:Human timeline|Human timeline]]
{{div col end}}


==Notes==
==Notes==
{{reflist}}
{{Reflist|30em}}


==References==
==References==
{{Div col}}

*<!-- Briggs|Crowther|2008 -->{{Cite book | editor1-last = Briggs | editor1-first = D. | editor2-first = P. R. | editor2-last = Crowther | title = Palaeobiology II | publisher = John Wiley & Sons | year = 2008 | isbn = 9780470999288
*<!-- Briggs|Crowther|2008 -->{{Cite book | editor1-last = Briggs | editor1-first = D. | editor2-first = P. R. | editor2-last = Crowther | title = Palaeobiology II | publisher = John Wiley & Sons | year = 2008 | isbn = 9780470999288
| page = 600 | ref = harv}}
| page = 600 }}
*<!-- Cela-Conde|Ayala|2003 -->{{Cite journal | last1 = Cela-Conde | first1 = C. J.| last2 = Ayala | first2 = F. J. | title = Genera of the human lineage | doi = 10.1073/pnas.0832372100 | journal = Proceedings of the National Academy of Sciences | volume = 100 | issue = 13 | pages = 7684–7689 | year = 2003 | pmid = 12794185| pmc = 164648| bibcode = 2003PNAS..100.7684C| doi-access = free}}
*<!-- Cela-Conde|Ayala|2003 -->{{Cite doi | 10.1073/pnas.0832372100}}
* Franzen, J. L. (1985). "Asian australopithecines?". In: ''Hominid Evolution: Past, Present, and Future''. New York: Wiley-Liss, 255-263.
*<!-- Franzen|1985 -->{{Cite book | last = Franzen | first = J. L. | year = 1985 | chapter = Asian australopithecines? | title = Hominid Evolution: Past, Present, and Future | location = New York | publisher = Wiley-Liss | pages = 255–263}}
* Gao, J. (1975). "Australopithecine teeth associated with Gigantopithecus". ''Vertebrata Palasiatica''. 13(2): 81-88.
*<!-- Gao|1975 -->{{cite journal | last1 = Gao | first1 = J | year = 1975 | title = Australopithecine teeth associated with ''Gigantopithecus'' | journal = Vertebrata PalAsiatica | volume = 13 | issue = 2| pages = 81–88 }}
*<!-- Kottak|2004 -->{{Cite book | last = Kottak | first = C. P. | year = 2004 | chapter = Glossary | title = Cultural Anthropology: The Exploration of Human Diversity | edition = 10th | chapterurl = http://highered.mcgraw-hill.com/sites/0072832258/student_view0/glossary.html | publisher = McGraw-Hill | isbn = 978-0072832259 | ref = harv}}
*<!-- Kottak|2004 -->{{Cite book | last = Kottak | first = C. P. | year = 2004 | chapter = Glossary | title = Cultural Anthropology: The Exploration of Human Diversity | edition = 10th | chapter-url = http://highered.mcgraw-hill.com/sites/0072832258/student_view0/glossary.html | publisher = McGraw-Hill | isbn = 978-0072832259 | access-date = 26 March 2013 | archive-date = 18 July 2013 | archive-url = https://web.archive.org/web/20130718051605/http://highered.mcgraw-hill.com/sites/0072832258/student_view0/glossary.html | url-status = dead }}
* Liu, Wu, Ronald Clarke, and Song Xing. (2010). "Geometric morphometric analysis of the early Pleistocene hominin teeth from Jianshi, Hubei Province, China." ''Science China Earth Sciences''. 53(8): 1141-1152.
*<!-- Liu|Clarke|Xing|2010 -->{{cite journal | last1 = Liu | first1 = Wu | last2 = Clarke | first2 = Ronald | last3 = Xing | first3 = Song | year = 2010 | title = Geometric morphometric analysis of the early Pleistocene hominin teeth from Jianshi, Hubei Province, China | journal = Science China Earth Sciences | volume = 53 | issue = 8| pages = 1141–1152 | doi=10.1007/s11430-010-4013-0| bibcode = 2010ScChD..53.1141L | s2cid = 129711769 }}
*<!-- Mai|Owl|Kersting|2005 -->{{Cite book | year = 2005 | first1 = L. L. | last1 = Mai | first2 = M. Y. | last2 = Owl | first3 = M. P. | last3 = Kersting | title = The Cambridge Dictionary of Human Biology and Evolution | page = 45 | location = Cambridge & New York | publisher = Cambridge University Press | isbn = 978-0-521-66486-8 | ref = harv}}
*<!-- Mai|Owl|Kersting|2005 -->{{Cite book | year = 2005 | first1 = L. L. | last1 = Mai | first2 = M. Y. | last2 = Owl | first3 = M. P. | last3 = Kersting | title = The Cambridge Dictionary of Human Biology and Evolution | page = [https://archive.org/details/cambridgediction00mail/page/45 45] | location = Cambridge & New York | publisher = Cambridge University Press | isbn = 978-0-521-66486-8 | url = https://archive.org/details/cambridgediction00mail/page/45 }}
*<!-- Stanford|2012 -->{{Cite doi | 10.1146/annurev-anthro-092611-145724}}
*<!-- Stanford|2012 -->{{Cite journal | last1 = Stanford | first1 = C. B. | doi = 10.1146/annurev-anthro-092611-145724 | title = Chimpanzees and the behavior of ''Ardipithecus ramidus'' | journal = Annual Review of Anthropology | volume = 41 | pages = 139–149 | year = 2012 }}
*<!-- Wood|2010 -->{{Cite journal | last1 = Wood | first1 = B. | doi = 10.1073/pnas.1001649107 | title = Reconstructing human evolution: Achievements, challenges, and opportunities | journal = Proceedings of the National Academy of Sciences | volume = 107 | pages = 8902–8909 | year = 2010 | issue = Suppl 2 | pmid = 20445105| pmc = 3024019| doi-access = free }}
*<!-- Wood|2010 -->{{Cite doi | 10.1073/pnas.1001649107}}
*<!-- Wood|Richmond|2000 -->{{Cite doi | 10.1046/j.1469-7580.2000.19710019.x}}
*<!-- Wood|Richmond|2000 -->{{Cite journal | last1 = Wood | first1 = B. | last2 = Richmond | first2 = B. G. | doi = 10.1046/j.1469-7580.2000.19710019.x | title = Human evolution: Taxonomy and paleobiology | journal = Journal of Anatomy | volume = 197 | issue = Pt 1 | pages = 19–60 | year = 2000 | pmid = 10999270| pmc = 1468107}}
* Wolpoff, M. H. (1999). ''Paleoanthropology''. New York: McGraw-Hill.
*<!-- Wolpoff|1999 -->{{Cite book | last = Wolpoff | first = M. H. | year = 1999 | title = Paleoanthropology | location = New York | publisher = McGraw-Hill}}
* Zhang, Y. (1985). "Gigantopithecus and “Australopithecus in China". In: ''Palaeoanthropology and palaeolithic archaeology in the People’s Republic of China'', 69-78.
*<!-- Zhang|1985 -->{{Cite book | last = Zhang | first = Y. | year = 1985 | chapter = ''Gigantopithecus'' and ''Australopithecus'' in China | title = Palaeoanthropology and palaeolithic archaeology in the People's Republic of China | pages = 69–78}}
{{div col end}}


==External links==
==External links==
{{wiktionary}}
{{wiktionary}}
*{{Commonscatinline|Hominina}}
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Latest revision as of 12:26, 2 December 2024

For the member tribe, see Australopithecus.

Australopithecines
Temporal range: Late MiocenePresent, 6.1 – 0 Mya (Range includes humans (Homo))
Australopithecus sediba
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Primates
Suborder: Haplorhini
Infraorder: Simiiformes
Family: Hominidae
Subfamily: Homininae
Tribe: Hominini
Subtribe: Australopithecina
Gregory & Hellman, 1939
Type species
Australopithecus africanus
Dart, 1925
Genera
Synonyms

Hominina Gray 1825[2] sensu Andrew & Harrison 2005[3]

The australopithecines, formally Australopithecina or Hominina, are generally any species in the related genera of Australopithecus and Paranthropus. It may also include members of Kenyanthropus,[4] Ardipithecus,[4] and Praeanthropus.[5] The term comes from a former classification as members of a distinct subfamily, the Australopithecinae.[6] They are classified within the Australopithecina subtribe of the Hominini tribe.[7][8] These related species are sometimes[dubiousdiscuss] collectively termed australopithecines, australopiths, or homininians. They are the extinct, close relatives of modern humans and, together with the extant genus Homo, comprise the human clade. Members of the human clade, i.e. the Hominini after the split from the chimpanzees, are called Hominina[9] (see Hominidae; terms "hominids" and hominins).

While none of the groups normally directly assigned to this group survived, the australopithecines do not appear to be literally extinct (in the sense of having no living descendants) as the genera Kenyanthropus, Paranthropus, and Homo probably emerged as sisters of a late Australopithecus species such as A. africanus and/or A. sediba.

The terms australopithecines, et. al., come from a former classification as members of a distinct subfamily, the Australopithecinae.[6] Members of Australopithecus are sometimes referred to as the "gracile australopithecines", while Paranthropus are called the "robust australopithecines".[10][11]

The australopithecines occurred in the Late Miocene sub-epoch and were bipedal, and they were dentally similar to humans, but with a brain size not much larger than that of modern non-human apes, with lesser encephalization than in the genus Homo.[12] Humans (genus Homo) may have descended from australopithecine ancestors and the genera Ardipithecus, Orrorin, Sahelanthropus, and Graecopithecus are the possible ancestors of the australopithecines.[11]

Classification

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Classification of subtribe Australopithecina according to Briggs & Crowther 2008, p. 124.


Phylogeny

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Phylogeny of Hominina/Australopithecina according to Dembo et al. (2016).[13]

Sahelanthropus tchadensis

Physical characteristics

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The post-cranial remains of australopithecines show they were adapted to bipedal locomotion, but did not walk identically to humans. They had a forearm to upper arm ratio similar to the Golden Ratio[14][15] – greater than other hominins. They exhibited greater sexual dimorphism than members of Homo or Pan but less so than Gorilla or Pongo. It is thought that they averaged heights of 1.2–1.5 metres (3.9–4.9 ft) and weighed between 30 and 55 kilograms (66 and 121 lb). The brain size may have been 350 cc to 600 cc. The postcanines (the teeth behind the canines) were relatively large, and had more enamel compared to contemporary apes and humans, whereas the incisors and canines were relatively small, and there was little difference between the males' and females' canines compared to modern apes.[11]

Relation to Homo

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Most scientists maintain that the genus Homo emerged in Africa within the australopithecines around two million years ago. However, there is no consensus on within which species:

Determining which species of australopithecine (if any) is ancestral to the genus Homo is a question that is a top priority for many paleoanthropologists, but one that will likely elude any conclusive answers for years to come. Nearly every possible species has been suggested as a likely candidate, but none are overwhelmingly convincing. Presently, it appears that A. garhi has the potential to occupy this coveted place in paleoanthropology, but the lack of fossil evidence is a serious problem. Another problem presents itself in the fact that it has been very difficult to assess which hominid [now "hominin"] represents the first member of the genus Homo. Without knowing this, it is not possible to determine which species of australopithecine may have been ancestral to Homo.[11]

Marc Verhaegen has argued that an australopithecine species could have also been ancestral to the genus Pan (i.e. chimpanzees).[16]

Asian australopithecines

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See also: Meganthropus

A minority view among palaeoanthropologists is that australopithecines moved outside Africa. One proponent of this theory is Jens Lorenz Franzen, formerly Head of Paleoanthropology at the Research Institute Senckenberg. Franzen argued that robust australopithecines had reached not only Indonesia, as Meganthropus, but also China:

In this way we arrive at the conclusion that the recognition of australopithecines in Asia would not confuse but could help to clarify the early evolution of hominids ["hominins"] on that continent. This concept would explain the scanty remains from Java and China as relic of an Asian offshoot of an early radiation of Australopithecus, which was followed much later by an [African] immigration of Homo erectus, and finally became extinct after a period of coexistence.

— Jens Lorenz Franzen, "Asian australopithecines?", Hominid Evolution: Past, Present, and Future (1985)[17]

In 1957, an Early Pleistocene Chinese fossil tooth of unknown province was described as resembling P. robustus. Three fossilized molars from Jianshi, China (Longgudong Cave) were later identified as belonging to an Australopithecus species.[18] However further examination questioned this interpretation; Zhang (1984) argued the Jianshi teeth and unidentified tooth belong to H. erectus. Liu et al. (2010) also dispute the Jianshi–australopithecine link and argue the Jianshi molars fall within the range of Homo erectus:[19]

No marked difference in dental crown shape is shown between the Jianshi hominin and other Chinese Homo erectus, and there is also no evidence in support of the Jianshi hominin's closeness to Australopithecus.[19]

However, Wolpoff (1999) notes that in China "persistent claims of australopithecine or australopithecine-like remains continue".[20]

See also

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Notes

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  1. ^ Stanford 2012.
  2. ^ Gray, J. E. (1825). "An outline of an attempt at the disposition of Mammalia into Tribes and Families, with a list of genera apparently appertaining to each Tribe". Annals of Philosophy. New Series. 10: 337–340.
  3. ^ Andrews, Peter; Harrison, Terry (1 January 2005). "The Last Common Ancestor of Apes and Humans". Interpreting the Past: 103–121. doi:10.1163/9789047416616_013. ISBN 9789047416616. S2CID 203884394.
  4. ^ a b Wood 2010.
  5. ^ Cela-Conde & Ayala 2003.
  6. ^ a b Kottak 2004.
  7. ^ Wood & Richmond 2000.
  8. ^ Briggs & Crowther 2008, p. 124.
  9. ^ "GEOL 204 The Fossil Record: The Scatterlings of Africa: the Origins of Humanity". www.geol.umd.edu. Retrieved 24 December 2016.
  10. ^ Mai, Owl & Kersting 2005.
  11. ^ a b c d Szpak, P. (2007). "Evolution of the Australopithecines". Tree of Life.
  12. ^ Mai, Owl & Kersting 2005, p. 45.
  13. ^ Dembo, Mana; Radovčić, Davorka; Garvin, Heather M.; Laird, Myra F.; Schroeder, Lauren; Scott, Jill E.; Brophy, Juliet; Ackermann, Rebecca R.; Musiba, Chares M.; de Ruiter, Darryl J.; Mooers, Arne Ø. (1 August 2016). "The evolutionary relationships and age of Homo naledi: An assessment using dated Bayesian phylogenetic methods". Journal of Human Evolution. 97: 17–26. Bibcode:2016JHumE..97...17D. doi:10.1016/j.jhevol.2016.04.008. hdl:2164/8796. ISSN 0047-2484. PMID 27457542.
  14. ^ Wang, Nan; Ma, Jie; Jin, Dan; Yu, Bin (23 January 2017). "A Special Golden Curve in Human Upper Limbs' Length Proportion: A Functional Partition Which Is Different from Anatomy". BioMed Research International. 2017: e4158561. doi:10.1155/2017/4158561. ISSN 2314-6133. PMC 5292375. PMID 28232941.
  15. ^ Wang, Nan; Ma, Jie; Jin, Dan; Yu, Bin (5 April 2024). "A Special Golden Curve in Human Upper Limbs' Length Proportion: A Functional Partition Which Is Different from Anatomy". BioMed Research International. 2017: 1–6. doi:10.1155/2017/4158561. PMC 5292375. PMID 28232941.
  16. ^ Verhaegen, M (1990). "African ape ancestry". Human Evolution. 5 (3): 295–297. doi:10.1007/BF02437246.
  17. ^ Franzen 1985.
  18. ^ Gao 1975.
  19. ^ a b Liu, Clarke & Xing 2010.
  20. ^ Wolpoff 1999.

References

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Look up australopithecine in Wiktionary, the free dictionary.
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