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Dual hand use in early human relative

Date:
May 18, 2020
Source:
University of Kent
Summary:
Research by anthropologists has identified hand use behavior in fossil human relatives that is consistent with modern humans. The human lineage can be defined by a transition in hand use. Early human ancestors used their hands to move around in the trees, like living primates do today, whereas modern human hands have evolved to primarily perform precision grips.
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Research by anthropologists at the University of Kent has identified hand use behaviour in fossil human relatives that is consistent with modern humans.

The human lineage can be defined by a transition in hand use. Early human ancestors used their hands to move around in the trees, like living primates do today, whereas modern human hands have evolved to primarily perform precision grips.

However, new research led by Dr Christopher Dunmore, Dr Matthew Skinner and Professor Tracy Kivell from Kent's School of Anthropology and Conservation has revealed that the hand of an ancient human relative was used for both human-like manipulation as well as climbing.

Their discovery came from analysing and comparing the internal bony structures of fossil knuckle and thumb joints from the hands of several fossil species from South Africa, eastern Africa and Europe. These included:Australopithecus sediba,Australopithecus africanus,Australopithecus afarensis,Homo neanderthalensisandHomo sapiensdated between 12 thousand and three million years old.

The knuckles at the base ofAustralopithecus sediba's fingers were found to have an internal trabecular structure consistent with branch grasping, but that of their thumb joints is consistent with human-like manipulation. This unique combination is different to that found in the otherAustralopithecusspecies studied and provides direct evidence that ape-like features of this species were actually used, probably during in climbing. Furthermore, it supports the idea that the transition to walking on two legs was gradual in this late surviving member of theAustralopithecusgenus.

Dr Dunmore said: 'Internal bone structures are shaped by frequent behaviours during life. Therefore, our findings can support further research into the internal structure of hands in relation to stone tool use and production. This approach may also be used to investigate how other fossil hominin species moved around and to what degree climbing might have remained an important part of their lifestyle.'

Professor Kivell said: 'The internal bone structure can reveal hidden evidence that gives us insight into how our fossil human relatives behaved. We were really excited to see this particular hand-use pattern inAustralopithecus sedibaas it was so different from other australopiths. The fossil record is revealing more and more diversity in the ways our ancestors moved around, and interacted with, their environments -- the human evolutionary story is even more complex and interesting than we previously thought.'

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Story Source:

Materialsprovided byUniversity of Kent. Original written by Olivia Miller.注意:内容可能被编辑风格d length.


Journal Reference:

  1. Christopher J. Dunmore, Matthew M. Skinner, Ameline Bardo, Lee R. Berger, Jean-Jacques Hublin, Dieter H. Pahr, Antonio Rosas, Nicholas B. Stephens, Tracy L. Kivell.The position of Australopithecus sediba within fossil hominin hand use diversity.Nature Ecology & Evolution, 2020; DOI:10.1038/s41559-020-1207-5

Cite This Page:

University of Kent. "Dual hand use in early human relative." ScienceDaily. ScienceDaily, 18 May 2020. /releases/2020/05/200518144957.htm>.
University of Kent. (2020, May 18). Dual hand use in early human relative.ScienceDaily. Retrieved August 15, 2023 from www.koonmotors.com/releases/2020/05/200518144957.htm
University of Kent. "Dual hand use in early human relative." ScienceDaily. www.koonmotors.com/releases/2020/05/200518144957.htm (accessed August 15, 2023).

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