...
Post A Reply
my profile
|
directory
login
|
register
|
search
|
faq
|
forum home
»
EgyptSearch Forums
»
Egyptology
»
Early Back-to-Africa Migration into the Horn of Africa, Hodgson, 2014
» Post A Reply
Post A Reply
Login Name:
Password:
Message Icon:
Message:
HTML is not enabled.
UBB Code™ is enabled.
[QUOTE]Originally posted by Trollkillah # Ish Gebor: [QB] [QUOTE]Originally posted by beyoku: [qb] Reread the passage and tells us where he lies. "This Ethio-Somali IAC is found at its highest frequencies in Cushitic speaking Somali populations and at high frequencies in neighboring Cushitic and Semitic speaking Afar, Amhara, Oromo, and Tygray populations. This IAC was not identified in the source study for the HOA SNP data [16], but Tishkoff and colleagues [59], in an analysis of an independent autosomal microsatellite dataset, did recover an equivalent IAC (calling it ‘‘Cushitic’’). While this Ethio-Somali IAC is found primarily in Africa, it has clear non-African affinities (Text S1)." [/qb] [/QUOTE]I read that part about the Agaws ;) [QUOTE] [IMG]http://www.nature.com/ejhg/journal/v13/n7/images/5201390f4.jpg[/IMG] Map of African areas where E3b1 cluster has been observed (the numbers of individuals are given in parentheses).10 (1) Moroccan Arabs (54), (2) Northern Egyptians (21), (3) Ethiopian Jews (22), (4) Ethiopian Amharas (34), (5) Ethiopian Wolaytas (12), (6) Mixed Ethiopians (12), (7) Ethiopian Oromos (25), (8) Somalia (224 including our Somali data), (9) Boranas (Oromos) from Kenya (seven), (10) Bantus from Kenya (28), (11) Tuaregs from Niger (22). The haplogroups or remaining paragroups are represented by different fill patterns. Lineages excluded from a haplogroup are listed within parentheses after the name of the haplogroup. The distribution of the Cushitic language in East Africa is shown in grey. [IMG]http://www.nature.com/ejhg/journal/v13/n7/images/5201390f1.gif[/IMG] Phylogenetic distribution of the 43 Y chromosome haplogroups that can be detected by the 45 biallelic markers. The arrow indicates the ancestral root of the maximal parsimonious YCC tree (2003).5 The major divisions of human Y chromosome diversity are labelled with large, capital letters in bold. On the right is shown the distribution of Y chromosome haplogroups in Somalis and in people from sub-Saharan West Africa, Turkey and Iraq. The relative frequencies in percent are shown in parentheses. aBecause none of our subjects studied belong to the haplogroup E3b1b, defined by the presence of M224,4 we used the haplogroup name E3b1 instead of E3b1*(xE3b1b) in the text. [IMG]http://www.nature.com/ejhg/journal/v13/n7/images/5201390f2.gif[/IMG] Principal component analysis of the relative frequencies of Y chromosome haplogroups in the populations reported in Table 2. The vectors express the relative weight of each haplogroup in the first and/or second axis. The positive or negative values indicate with which end of the axis the haplogroups are associated. Thus, the first principal component (axis 1) explained 52.8% of the total variance, mainly due to differences in the frequencies in clade E and clade BR*(xE). The second component (axis 2) explained 26.6% of the total variance, mainly due to the differences in the frequencies of the E3a and E3b lineages. [/QUOTE]--Juan J Sanchez, Charlotte Hallenberg, Claus Børsting, Alexis Hernandez and Niels Morling High frequencies of Y chromosome lineages characterized by E3b1, DYS19-11, DYS392-12 in Somali males http://www.nature.com/ejhg/journal/v13/n7/full/5201390a.html [/QB][/QUOTE]
Instant Graemlins
Instant UBB Code™
What is UBB Code™?
Options
Disable Graemlins in this post.
*** Click here to review this topic. ***
Contact Us
|
EgyptSearch!
(c) 2015 EgyptSearch.com
Powered by UBB.classic™ 6.7.3