http://www.sciencenews.org/view/generic/id/349698/description/News_in_Brief_American_Association_of_Physical_Anthropologists_meeting
American Association of Physical Anthropologists meeting
Highlights from the annual physical anthropology meeting, Knoxville, April
10-13
A 5,300-year-old man found sticking out of an Alpine glacier in 1991
possessed more genes in common with Neandertals than Europeans today
do. The man's Neandertal heritage is a preliminary sign that Stone
Age interbreeding occurred more frequently than many scientists assume.
Two researchers determined that the previously analyzed genome of Otzi
the Tyrolean Iceman (SN: 3/24/12, p. 5) included roughly 4 to 4.5
percent Neandertal genes. Modern Europeans' genetic library includes
an average of 2.5 percent Neandertal genes.
...
http://meeting.physanth.org/program/2013/session34/sams-2013-analysis-of-archaic-introgression-in-otzi-the-tyrolean-iceman-a-5300-year-old-prehistoric-modern-human.html
The 82nd Annual Meeting of the American Association of Physical
Anthropologists (2013)
Analysis of archaic introgression in Ötzi the Tyrolean Iceman, a
5300 year-old prehistoric modern human
AARON SAMS and JOHN HAWKS.
The contribution of Neandertal populations to present-day peoples
illuminates the process of recent human evolution. The Neandertals
were a relatively peripheral population that occupied western Eurasia
from roughly 150,000 to 30,000 years ago. Nuclear genomic evidence
has been recovered from several later Neandertals, after 50,000 years
ago (Green et al. 2010). Neandertal genomes are more similar to
living people who trace most of their recent ancestry to regions
outside Africa. By contrast, sub-Saharan African people today have
less Neandertal genetic similarity. These comparisons show that in
addition to deriving more than 90% of their genetic heritage from
ancient Africans, most present-day people outside Africa derive a
fraction of their ancestry from the Neandertals (Green et al. 2010).
These comparisons leave unanswered questions. Was population mixture
with Neandertals limited to non-African populations, or do today's
Africans also have some Neandertal ancestors? Did mixture occur as
a singular event, or was there a long process of population
interaction? Did populations who succeeded the Neandertals in Europe
have a higher fraction of Neandertal ancestry?
We carried out a series of comparisons to address these questions.
By examining the Neandertal similarity of individuals from the 1000
Genomes Project, we have substantially expanded the sample of
Neandertal-human comparisons. We also examined the genome of the
Tyrolean Iceman, a European from approximately 5300 years ago. This
is the first comparison of Neandertal genomes to the genome of a
prehistoric modern human individual.