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| New DNA research indicates that most European men descend from just a handful of Bronze Age forefathers [Credit: Flickr] |
The research team determined the DNA sequences of a large part of the Y chromosome, passed exclusively from fathers to sons, in 334 men from 17 European and Middle Eastern populations.
This research used new methods for analysing DNA variation that provides a less biased picture of diversity, and also a better estimate of the timing of population events.
This allowed the construction of a genealogical tree of European Y chromosomes that could be used to calculate the ages of branches. Three very young branches, whose shapes indicate recent expansions, account for the Y chromosomes of 64% of the men studied.
Professor Jobling said: "The population expansion falls within the Bronze Age, which involved changes in burial practices, the spread of horse-riding and developments in weaponry. Dominant males linked with these cultures could be responsible for the Y chromosome patterns we see today."
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| Europe during the late Bronze Age [Credit: Xoil/WikiCommons] |
This contrasts with previous results for the Y chromosome, and also with the picture presented by maternally-inherited mitochondrial DNA, which suggests much more ancient population growth.
Previous research has focused on the proportion of modern Europeans descending from Paleolithic -- Old Stone Age -- hunter-gatherer populations or more recent Neolithic farmers, reflecting a transition that began about 10,000 years ago.
Chiara Batini from the University of Leicester's Department of Genetics, lead author of the study, added: "Given the cultural complexity of the Bronze Age, it's difficult to link a particular event to the population growth that we infer. But Y-chromosome DNA sequences from skeletal remains are becoming available, and this will help us to understand what happened, and when."
Source: University of Leicester [May 19, 2015]