We already knew this from earlier results, but this group has gotten busy refining the assumptions and other controls to provide greater assurance for the two hundred thousand time mark. I assume that it includes a ten to twenty percent margin of error.
In the event, it appears that a key founding population got launched then and has largely replaced our competitors since then.
Other evidence argues for this emergence in and around the coastal plains of South Africa . Of course, the alternative history crowd like that locale as well.
I am not so sure that it even represented a particular adaptation. It seems too much to assume modern humanity came into been then and there. Except fully modern humanity was running wild a hundred years later and that is not much time at all for anything special.
It is enough time for a base population of suddenly successful hunters to fill out the continents including possibly Beringia. The emergence of true seamanship took much longer and likely occurred around forty to sixty thousand years ago.
However, modern humanity had a long prehistory that emerged in the fossil record around seventy thousand or so years ago. That emergence is not the record of a new beginning but is the record of general success after millennia of general expansion.
I estimate that a millennia is enough time for hunter gatherers to occupy a radius of a thousand miles and ten millennia to occupy all of Eurasia . Allowing for the emergence afterward of a specialized population over many tens of millennia in possibly the Indonesian archipelago with advanced social skills, then we are again needing only ten millennia to repopulate the same area.
In short we have a first wave of premoderns followed by a second wave of true moderns able to organize into larger groups that absorbed the various groups of premoderns. This protocol comfortably covers of Neanderthals and a number of curious aboriginal tribes such as the San that possibly preserve small band culture when alternatives exist.
Mother Of All Humans Lived 200,000 Years Ago
by Staff Writers
The most robust statistical examination to date of our species' genetic links to "mitochondrial Eve" - the maternal ancestor of all living humans - confirms that she lived about 200,000 years ago.
The Rice University study was based on a side-by-side comparison of 10 human genetic models that each aim to determine when Eve lived using a very different set of assumptions about the way humans migrated, expanded and spread across Earth.
The research is available online in the journal Theoretical Population Biology.
"Our findings underscore the importance of taking into account the random nature of population processes like growth and extinction," said study co-author Marek Kimmel, professor of statistics at Rice. "Classical, deterministic models, including several that have previously been applied to the dating of mitochondrial Eve, do not fully account for these random processes."
The quest to date mitochondrial Eve (mtEve) is an example of the way scientists probe the genetic past to learn more about mutation, selection and other genetic processes that play key roles in disease.
"This is why we are interested in patterns of genetic variability in general," Kimmel said. "They are very important for medicine."
For example, the way scientists attempt to date mtEve relies on modern genetic techniques. Genetic profiles of random blood donors are compared, and based upon the likenesses and differences between particular genes, scientists can assign a number that describes the degree to which any two donors are related to one another.
Using mitochondrial genomes to gauge relatedness is a way for geneticists to simplify the task of finding common ancestors that lived long ago. That is because the entire human genome contains more than 20,000 genes, and comparing the differences among so many genes for distant relatives is problematic, even with today's largest and fastest supercomputers.
But mitochondria - the tiny organelles that serve as energy factories inside all human cells - have their own genome. Besides containing 37 genes that rarely change, they contain a "hypervariable" region, which changes fast enough to provide a molecular clock calibrated to times comparable to the age of modern humanity.
Because each person's mitochondrial genome is inherited from his or her mother, all mitochondrial lineages are maternal.
To infer mtEve's age, scientists must convert the measures of relatedness between random blood donors into a measure of time.
"You have to translate the differences between gene sequences into how they evolved in time," said co-author Krzysztof Cyran, vice head of the Institute of Informatics at Silesian University of Technology in Gliwice , Poland .
"And how they evolved in time depends upon the model of evolution that you use. So, for instance, what is the rate of genetic mutation, and is that rate of change uniform in time? And what about the process of random loss of genetic variants, which we call genetic drift?"
Within each model, the answers to these questions take the form of coefficients - numeric constants that are plugged into the equation that returns the answer for when mtEve lived.
Each model has its own assumptions, and each assumption has mathematical implications. To further complicate matters, some of the assumptions are not valid for human populations. For example, some models assume that population size never changes.
That is not true for humans, whose population has grown exponentially for at least several thousand generations. Other models assume perfect mixing of genes, meaning that any two humans anywhere in the world have an equal chance of producing offspring.
Cyran said human genetic models have become more complex over the past couple of decades as theorists have tried to correct for invalid assumptions. But some of the corrections - like adding branching processes that attempt to capture the dynamics of population growth in early human migrations - are extremely complex.
Which raises the question of whether less complex models might do equally well in capturing what's occurring.
"We wanted to see how sensitive the estimates were to the assumptions of the models," Kimmel said. "We found that all of the models that accounted for random population size - such as different branching processes - gave similar estimates. This is reassuring, because it shows that refining the assumptions of the model, beyond a certain point, may not be that important in the big picture."
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