Humans started using their hands to manage various tools even before they learned how to walk, a new study has found, resolving a long-standing mystery in evolution.
New research from the RIKEN Brain Science Institute indicates that early hominids developed finger dexterity and tool use ability before the development of bipedal locomotion.
Combining monkey and human behaviour, brain imaging, and fossil evidence, a research team led by neurobiologist Dr Atsushi Iriki and including Dr Gen Suwa, an anthropologist from the University of Tokyo Museum, has overturned the common assumption that manual dexterity evolved after the development of bipedal locomotion freed hominid hands to use fingers for tool manipulation.
With these maps, the researchers confirmed previous studies showing that single digits in the hand and foot have discrete neural locations in both humans and monkeys.
However, the researchers found new evidence that monkey toes are combined into a single map, while human toes are also fused into a single map, but with the prominent exception of the big toe, which has its own map not seen in monkeys.
"In early quadruped hominids, finger control and tool use were feasible, while an independent adaptation involving the use of the big toe for functions like balance and walking occurred with bipedality," the authors explained.
The brain study was supported by analysis of the well-preserved hand and feet bones of a 4.4 million year-old skeleton of the quadruped hominid Ardipithecus ramidus, a species with hand dexterity that preceded the human-monkey lineage split.
"Evolution is not usually thought of as being accessible to study in the laboratory, but our new method of using comparative brain physiology to decipher ancestral traces of adaptation may allow us to re-examine Darwin's theories," said Iriki.
The study was published in the journal Philosophical Transactions of the Royal Society.