It suggests Ice Age people cannot have migrated to America on a land corridor between two glaciers as it was “biologically unviable”.
Conventional wisdom had it that the settlement of the Americas happened as people moved south through what is now Canada after two glaciers started to recede.
But analysis of DNA extracted from a key pinch-point suggests this was not possible as resources vital to survival would not have been available in the ice-free corridor.
Researchers suggest it is likely that people travelled by sea.
The land bridge between Siberia and Alaska was the focus of a new study published in the journal Nature.
An international team of researchers used ancient DNA extracted from a crucial point in the corridor to investigate how its ecosystem evolved as the glaciers began to retreat.
They created a comprehensive picture showing how and when different flora and fauna emerged and the once ice-covered landscape became a viable passageway.
No prehistoric reconstruction project like it has been attempted before.
The researchers concluded that while people may have travelled this corridor after about 12,600 years ago, it would have been impassable earlier than that, as the corridor lacked crucial resources, such as wood for fuel and tools, and game animals which were essential to the hunter-gatherer lifestyle.
If this is true, then it means the first Americans, who were present south of the ice sheets long before 12,600 years ago, must have made the journey south by another route.
The study’s authors suggest they probably migrated along the Pacific coast.
Who these people were is widely disputed.
Archaeologists agree that early inhabitants of the modern-day United States included the so-called “Clovis” culture, a prehistoric Native American culture taking is name from Clovis in New Mexico, where distinctive stone tool artefacts were found, and it first appears in the archaeological record more than 13,000 years ago.
The new study argues that the ice-free corridor would have been completely impassable at that time.
Research was led by Professor Eske Willerslev, an evolutionary geneticist and fellow of St John’s College, University of Cambridge.