Early human migrants followed lush corridor-route out of Africa
An international team of scientists has found early human migrants left Africa for Eurasia, across the Sinai peninsula and on through Jordan, over 80-thousand years ago.
Researchers from the University of Southampton (UK) and Shantou University (China), together with colleagues in Jordan, Australia and the Czech Republic(1), have proved there was a “well-watered corridor” which funnelled hunter-gatherers through The Levant towards western Asia and northern Arabia via Jordan.
Their findings, published in the journal Science Advances, support previous research conducted in Arabia suggesting this green, overland route, which is now desert, was favoured by travelling Homo sapiens heading north.
‘Modern’ humans evolved in Africa between 300 and 200 thousand years ago and dispersed out of the continent in several stages. It’s thought that over tens of thousands of years they went on to populate Asia and then Europe.
For this latest research, the team conducted fieldwork in the Jordan Rift Valley where they uncovered hand tools, known as ‘flakes’, on the edge of wadis – now dry river channels which, tens of thousands of years ago, were full of water. The scientists used luminescence dating techniques to help establish the age of the sediment the tools were buried in. This method estimates how long it has been since sediment was last exposed to light.
The results showed the tools were likely to have been used approximately 84 thousand years ago and then abandoned on the banks of the wadis and subsequently buried over time.
Paul Carling, Professor of Geomorphology at the University of Southampton, comments: “It’s long been thought that when the sea level was low, humans used a southern crossing, via the Red Sea from the horn of Africa, to get to southwestern Arabia. However, our study confirms there was a well-trodden passage to the north, across the only land-route from Africa to Eurasia.
“Our newly published evidence is a key piece of the puzzle that shows humans migrated using a northern route – using small wetland areas as bases whilst hunting abundant wildlife in the drier grasslands. Although previous studies have looked for large lakes as potential watering holes, in fact small wetlands were very important as staging posts during the migration.”
Dr Mahmoud Abbas, the study’s lead author from Shantou University, China, said: “The Levant acted as a well-watered corridor for modern humans to disperse out of Africa during the last interglacial, and we have now demonstrated this is the case in the Jordan Rift Valley zone.
“The paleohydrological evidence from the Jordan desert enhances our understanding of the environmental setting at that time. Rather than dry desert, savannah grasslands would have provided the much-needed resources for humans to survive during their journey out of Africa and into southwest Asia and beyond.”
The researchers say their study demonstrates the intimate relationship between climate change, human survival and migrations.
Ends
Notes to Editors
- The institutions partnering on this research project are Shantou University (China), University of Southampton (UK), Czech Academy of Sciences, Yarmouk University (Jordan), University of Jordan, Jiaying University (China), Griffith University (Australia), University of Queensland (Australia) and Smithsonian Institute (USA).
- The paper ‘Human dispersals out of Africa via the Levant’ is due to be published in the journal Science Advances – DOI: 10.1126/sciadv.adi6838. More information, including a copy of the paper, can be found online at the Science Advances press package at https://www.eurekalert.org/press/vancepak/
- For interviews with Professor Paul Carling contact, Peter Franklin, Media Relations, University of Southampton. press@soton.ac.uk 07748 321087.
- You can download images to accompany the embargoed press release and find captions and credits (in the jpg names) here: https://safesend.soton.ac.uk/pickup?claimID=bfGfUF8TfDZgHDgw&claimPasscode=F7YzqvjMJ8oNNntK&emailAddr=141258
- The University of Southampton drives original thinking, turns knowledge into action and impact, and creates solutions to the world’s challenges. We are among the top 100 institutions globally (QS World University Rankings 2023). Our academics are leaders in their fields, forging links with high-profile international businesses and organisations, and inspiring a 22,000-strong community of exceptional students, from over 135 countries worldwide. Through our high-quality education, the University helps students on a journey of discovery to realise their potential and join our global network of over 200,000 alumni. www.southampton.ac.uk
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A second flake, or hand tool, seen from three different angles, discovered in the Jordan Rift Valley. The flakes helped scientists date human migration.
A second flake, or hand tool, seen from three different angles, discovered in the Jordan Rift Valley. The flakes helped scientists date human migration.
Dr Mahmoud Abass (Shantou University) on left, Professor Paul Carling (University of Southampton) in centre and Dr John Jansen (Czech Academy of Sciences) on right, in the field in Jordan Rift Valley.
Dr Mahmoud Abass (Shantou University) on left, Professor Paul Carling (University of Southampton) in centre and Dr John Jansen (Czech Academy of Sciences) on right, in the field in Jordan Rift Valley.
CREDIT
University of Southampton
University of Southampton
General view of Wadi Gharandal riverine wetland along the Jordan Rift Valley.
Sampling for luminescence dating from Wadi Hasa area.
CREDIT
Dr Mohammed Alqudah/Yarmouk University
JOURNAL
Science Advances
METHOD OF RESEARCH
Observational study
SUBJECT OF RESEARCH
People
ARTICLE TITLE
Human dispersals out of Africa via the Levant
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