A tiny bone from the little finger of a human ancestor that lived more than 1.84 million years ago in East Africa is the oldest "modern" hand bone ever found, say scientists.
The pinkie bone pushes back in time a key step in the evolution of our forebear from tree-climbing foragers to tool-wielding hunters.
Analysis of the bone also hints at the existence of a larger, more human-like creature than others known to have lived at that time in the same region -- one of the hotspots of human origin -- in Tanzania, report the scientists in the journal Nature Communications.
The hand is one of the critical anatomical features distinguishing humans, and even a 3.6-centimeter two-million-year-old fragment can reveal a lot about body type and behaviour.
The shape of our forebears' hands was both a reflection of their stage of evolution, and a driver of that evolution, says lead author Manuel Dominguez-Rodrigo, a researcher at the Institute of Evolution in Africa in Madrid.
"Our hand evolved to allow us a variety of grips and enough gripping power to allow us the widest range of manipulation observed in any primate," says Dominguez-Rodrigo.
"It is this manipulation capability that interacted with our brains to develop our intelligence, mainly through the invention and use of tools."
What scientists call "modern human-like" hand anatomy has several defining characteristics.
One is a longer thumb, allowing us to grip more precisely and to open our hands more fully.
Another is the straightening of our phalanges, the general name given to the three bones found in each finger. Curved phalanges were adapted for climbing trees and swinging from branches.
"A modern-like hand in the past would tell us when humans became fully terrestrial and when and how efficiently our ancestors used tools," says Dominguez-Rodrigo.
That transition happened in two main stages.
After the earliest hominins -- which includes all members of the Homo genus -- began walking on two legs some six million years ago, the hand evolved a longer thumb.
But the fingers remained curved, suggesting that trees remained part of their habitat.
This "double locomotion" -- on the ground, through the trees -- remained the norm for another four million years.
As our ancestors -- step two -- abandoned their arboral perches, their fingers began to straighten, opening the way for the creation and use of tools.
"Hands were freed from locomotion in trees so that they could become strictly specialised in manipulation," says Dominguez-Rodrigo. "This is where our discovery fills a gap."
The earliest confirmed stone tools date from about 2.6 million years ago.
The find will fuel ongoing debate as to which of our distant relatives -- Homo habilis or Homo erectus -- might have been the first to make stone implements and weapons.
"Our discovery not only shows that a creature" -- dubbed OH 86 -- "with a modern-looking hand existed 1.85 million years ago, it also shows that OH 86 was bigger sized than any other prior and contemporary hominin," says Dominguez-Rodrigo.
Archeological evidence from the Olduvai Gorge in Tanzania, where the little finger bone was found, shows that size mattered.
Fossils reveal that early human ancestors hauled the carcasses of big animals, sometimes weighing hundreds of kilos.
"I always had trouble understanding how Homo habilis -- barely taller than one meter -- could efficiently hunt animals that big," says Dominguez-Rodrigo.
The existence of a bigger, more modern-looking hominin would help explain this puzzle.
"It brings support to those who challenge the view that Homo habilis was the maker of the stone artifacts becoming abundant in layers of this time period," says Professor Jean-Jacques Hublin, director of the department of human evolution at the Max Planck Institute for Evolutionary Anthropology.
But at the same time, Hublin and others challenge the broad conclusions reached on the basis of such slim evidence.
"One single bone from a pinkie finger does not imply a whole modern human-like skeleton," says Hublin, who was not involved in the study.
Dr Tracy L. Kivell of the School of Anthropology and Conservation at the University of Kent, was even more sceptical.
Read more at Discovery News
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