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Can someone explain this to me in plain English? It seems rather convenient to come up with a new method of dating the migration of people based on mitochondrial DNA that now correlates to the presence of archaeological evidence (other than the bones themselves, that is). That neatly disposes of any bones out there that were deemed older, because those results can now be deemed a mistake. Hmmm...
This new method, however, cannot address evidence of human habitation from 50,000 years ago, for instance, that isn't supported by human remains.
"Despite the documented evidence of chess historian H.J.R. Murray, I have always thought that chess was invented by a goddess." George Koltanowski, from Women in Chess, Players of the Modern Game
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Saturday, June 6, 2009
New Method for Calculating Dates of Human Migration
I think 100 years from now we're going to have a much different take on DNA and migration, but I won't be here and neither will this blog, so here's the article on the latest new technique, from Science Daily Online:
New 'Molecular Clock' Aids Dating Of Human Migration History
June 4, 2009
Estimating the chronology of population migrations throughout mankind's early history has always been problematic. The most widely used genetic method works back to find the last common ancestor of any particular set of lineages using samples of mitochondrial DNA (mtDNA), but this method has recently been shown to be unreliable, throwing 20 years of research into doubt.
The new method refines the mtDNA calculation by taking into account the process of natural selection - which researchers realised was skewing their results - and has been tested successfully against known colonisation dates confirmed by archaeological evidence, such as in Polynesia in the Pacific (approximately 3,000 years ago), and the Canary Islands (approximately 2,500 years ago).
Says PhD student Pedro Soares who devised the new method: "Natural selection's very gradual removal of harmful gene mutations in the mtDNA produces a time-dependent effect on how many mutations you see in the family tree. What we've done is work out a formula that corrects this effect so that we now have a reliable way of dating genetic lineages.
"This means that we can put a timescale on any part of the particular family tree, right back to humanity's last common maternal ancestor, known as 'Mitochondrial Eve', who lived some 200,000 years ago. In fact we can date any migration for which we have available data," he says.
Moreover, working with a published database of more than 2,000 fully sequenced mtDNA samples, Soares' calculation, for the first time, uses data from the whole of the mtDNA molecule. This means that the results are not only more accurate, but also more precise, giving narrower date ranges.
The new method has already yielded some surprising findings. Says archaogeneticist Professor Martin Richards, who supervised Soares: "We can settle the debate regarding mankind's expansion through the Americas. Researchers have been estimating dates from mtDNA that are too old for the archaeological evidence, but our calculations confirm the date to be some 15,000 years ago, around the time of the first unequivocal archaeological remains. [Convenient, aina hey...]
"Furthermore, we can say with some confidence that the estimate of humanity's 'out of Africa' migration was around 60-70,000 years ago – some 10-20,000 years earlier than previously thought."
The team has devised a simple calculator into which researchers can feed their data and this is being made freely available on the University of Leeds website.
The paper is published in the current edition of the American Journal of Human Genetics.
Journal reference:
Pedro Soares , Luca Ermini , Noel Thomson , Maru Mormina , Teresa Rito , Arne Röhl , Antonio Salas , Stephen Oppenheimer , Vincent Macaulay and Martin B. Richards. Correcting for Purifying Selection: An Improved Human Mitochondrial Molecular Clock. American Journal of Human Genetics, 2009; DOI: 10.1016/j.ajhg.2009.05.001
Adapted from materials provided by University of Leeds, via EurekAlert!, a service of AAAS.
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