breaking news

First Eurasians left Africa up to 130,000 years ago

First Eurasians left Africa up to 130,000 years ago

April 22nd, 2014
Palaeoanthropology

A team of researchers led by the University of Tübingen’s Professor Katerina Harvati has shown that anatomically modern humans spread from Africa to Asia and Europe in several migratory movements.

The first ancestors of today’s non-African peoples probably took a southern route through the Arabian Peninsula as early as 130,000 years ago, the researchers found. The study is published by Professor Katerina Harvati and her team from the Institute for Archaeological Sciences at the University of Tübingen and the Senckenberg Center for Human Evolution and Palaeoenvironment, in collaboration with colleagues from the University of Ferrara, Italy, and the National Museum of Natural History, France. The study appears in the online Early Edition of the Proceedings of the National Academy of Sciences.

The scientists tested different hypothetical dispersal scenarios, taking into account the geography of potential migration routes, genetic data and cranial comparisons. They found that the first wave of migration out of Africa started earlier than previously thought, taking place as early as the late Middle Pleistocene – with a second dispersal to northern Eurasia following about 50,000 years ago.

Most scientists agree that all humans living today are descended from a common ancestor population which existed 100,000 to 200,000 years ago in Africa. The decreasing genetic and phenotypic diversity observed in humans at increasing distances from Sub-Saharan Africa has often been interpreted as evidence of a single dispersal 50,000 to 75,000 years ago. However, recent genetic, archaeological and palaeoanthropological studies challenge this scenario.

The Out-of-Africa model that best fits both the genetic and cranial shape data. A first migration along the Indian Ocean rim occurred as early as 130 thousand years ago (green arrow) and was followed by a second, more recent migration wave into Eurasia (red arrow). Figure: Katerina Harvati/University of Tübingen and Senckenberg Center for Human Evolution and Palaeoenvironment

The Out-of-Africa model that best fits both the genetic and cranial shape data. A first migration along the Indian Ocean rim occurred as early as 130 thousand years ago (green arrow) and was followed by a second, more recent migration wave into Eurasia (red arrow). Figure: Katerina Harvati/University of Tübingen and Senckenberg Center for Human Evolution and Palaeoenvironment

Professor Harvati’s team tested the competing out-of-Africa models of a single dispersal against multiple dispersals of anatomically modern humans. The scientists compared modern human crania from different parts of the world, neutral genetic data, and geographical distances associated with different dispersal routes. Likewise, they reconstructed population split times from both the genetic data and as predicted by each competing model. Because each dispersal scenario is associated with specific geographic and temporal predictions, the researchers were able to test them against the observed neutral biological distances between groups, as revealed from both genetic and cranial data.

“Both lines of evidence – anatomical cranial comparisons as well as genetic data – support a multiple dispersal model,” says Katerina Harvati. The first group of our ancestors left Africa about 130,000 years ago and followed a coastal route through the Arabian Peninsula to Australia and the west Pacific region. “Australian aborigines, Papuans and Melanesians were relatively isolated after the early dispersal along the southern route,” says Hugo Reyes-Centeno, first author of the study and member of the Tübingen team. He adds that other Asian populations appear to be descended from members of a later migratory movement from Africa to northern Eurasia about 50,000 years ago.

The researchers are confident that continued field work and advances in genetics will allow for fine-tuning of models of human expansion out of Africa. So far we can only speculate whether, for example, severe droughts in East Africa occurring between 135,000 and 75,000 years ago prompted migration or had an impact on the local evolution of human populations. The southern route region is a vast geographical space that has been understudied by archaeologists and anthropologists, so future work in this area will help support their findings.

Header Image : Landmarks of the temporal bone shown in one individual. The temporal bone has been shown to reflect modern human population history better than other parts of the cranium. It was therefore used in this study to infer migration patterns, in addition to genetic data. Shown here is the mean temporal bone shape of all individuals in the study. Figure: Katerina Harvati/University of Tübingen and Senckenberg Center for Human Evolution and Palaeoenvironment

Contributing Source : Universitaet Tübingen

© Copyright 2014 HeritageDaily - Heritage & Archaeology News
Share on Facebook45Tweet about this on Twitter7Share on Reddit0Share on TumblrShare on Google+1Share on LinkedIn9Digg thisShare on StumbleUpon1,671Email this to someonePrint this page

  • Sherelle Elizabeth Rippy

    Nice to know.

  • Jordan Spinosi

    Travis Whitney

  • Archaeology News

    Maybe you should read the article, rather than look at the pictures Travus…

  • Travis Whitney

    It was just a joke that I made because my friend tagged me in this.

  • Constantinos S. Constantinou

    It is also proven archaeologically.