Identical ancestors point


In genetic genealogy, the identical ancestors point, or all common ancestors point, or genetic isopoint, is the most recent point in a given population's past where each individual then alive turned out to either be the ancestor of every individual alive now or has no currently living descendants. This point lies further in the past than the population's most recent common ancestor.
A set of full siblings has an IAP one generation back: their parents. Similarly, double first cousins have an IAP two generations back: the four grandparents.
Considering all humans alive today and moving back in time, we eventually arrive at the MRCA to all humans. The MRCA had many contemporary companions. Many of these contemporaries had descendant lines to some people living today, but not to all people living today. Others did not have any children, or had descendants, but all descendant lines are now fully extinct.
Going further back, all the ancestors of the MRCA are also common ancestors to all humans, just not the most recent. As we move further back in time, other common ancestors will be found on other lines, resulting in more and more of the ancient population being common ancestors. Eventually the point is reached where all people in the past population fall into one of two categories: they are common ancestors, with at least one line of descent to everyone living today, or, they are the ancestors of no one alive today, because their lines of descent are completely extinct on every branch. This point in time is termed the 'identical ancestors point'.
Joseph T. Chang has proposed that in a large, well mixed population of size N, we only have to go 1.77 log2 generations in the past to find the time when everyone in the population is an ancestor to the entire population. For example, a population of 4,000 individuals would, on average, have a most recent common ancestor about 13 generations earlier and an IAP about 24 or 25 generations earlier. This model assumes random mate choice and is unrealistic for the human population, where geographic obstacles have greatly reduced mixing across the entire population.
The identical ancestors point for Homo sapiens has been the subject of debate. In 2004, Rohde, Olson and Chang showed through simulations that the Identical Ancestors Point for all humans is surprisingly recent, on the order of 5,000-15,000 years ago. Ralph and Coop, considering the European population and working from genetics, came to similar conclusions for the recent common ancestry of Europeans.
All living people share exactly the same set of ancestors from this point back, all the way to the very first single-celled organism. However, people will vary widely in how much ancestry and genes they inherit from each ancestor, which will cause them to have very different genotypes and phenotypes.
This is illustrated in the 2003 simulation as follows:
Considering the ancestral populations alive at 5000 BC, close to the ACA point,
a modern day Japanese person will get 88.4% of his ancestry from Japan, and most of the remainder from China or Korea, with only 0.00049% traced to Norway; conversely, a modern-day Norwegian will get over 92% of his ancestry from Norway and only 0.00044% from Japan.
Thus, even though the Norwegian and Japanese person share the same set of ancestors, these ancestors appear in their family tree in dramatically different proportions. A Japanese person in 5000 BC with present-day descendants will likely appear trillions of times in a modern day Japanese person's family tree, but might appear only one time in a Norwegian person's family tree. A 5000 BC Norwegian person will similarly appear far more times in a typical Norwegian person's family tree than he will appear in a Japanese person's family tree.