Frequencies (%) of Selected Y-Chromosomal Haplogroups (Volga-Tatars)
Ic - 4.0 %
R1bd - 8.7 %
R1a - 34.1 %
N1с - 18.3%
N1b - 4.8%
Q - 0.8 %
C- 1.6 %
If it's correct to consider Q and C as mongoloid haplogroups then it sums 2,4%.
But it refers оnly to Volga-Tatars (the other groups of peoples called 'Tatars' may show another data.
The Volga Tatars encompass only a limited share of mtDNA haplogroups typical for eastern Asians and native Siberians (variants of hgs M, A, B, F, N9, Y), their frequency being somewhat 10%-11%.
Конечно, не славяне, но генетически к славянам гораздо ближе, чем к тюркам.
Language replacement in Turkic speaking populations demonstrated by maternal and paternal lineages and autosomal Alu insertions
Based on the analysis of paternal (Y chromosome) and maternal (mtDNA) lineages we demonstrate the phenomenon of language replacement in several populations living in European and Asian parts of former Soviet Union and speaking languages of Turkic group of Altaic language family. Turkic languages spread presumably from the Altai region to East and West with waves of Mongoloid nomads penetrating the Eurasian steppe belt from first millenium B.C. until the Middle Ages. For mtDNA lineages this migrations along with more ancient population movements from West to East formed a gradient of East-Eurasian ('mongoloid') lineages from East to West of North Eurasia. In Tatar population living in the Volga-Ural region and representing the most numerous Turkic speaking group in Russia, the frequency of East-Eurasian mtDNA lineages (haplogroups M [including CZ], A, B, F, D, G, N9) comprise only 15% of maternal gene pool. With respect to their genes Tatars are much closer to their Slavonic and Finno-Ugric neighbors than to other Turkic speaking populations. In Central Asian Caucasoid Uzbeks the East-Eurasian part of mtDNA lineages is 43%, but they share most part of Y chromosome gene pool as well as autosomal genes, as documented by polymorphic Alu insertions, with their Indo-European neighbors (Tajiks). In case of Uzbek population language replacement took place on the background of partial gene replacement visible at least in maternal lineages. Thus, in Tatars and Uzbeks we see the different degree of 'dilution' of Mongoloid genes in dominating West Eurasian genetic background. The degree of eastern admixture is also different for different types of genetic markers (i.e., maternal lineages, paternal lineages and autosomal gene pool). East Siberian Yakuts represent an example of language replacement within the Altaic language famly. With respect to their male lineages, where haplogroup 16 (Tat C) is dominating, Turkic speaking Yakut population fall into the common cluster with non-Turkic Altaic neighboring Siberian populations (Buriat and Evenk), whereas Turkic groups are characterized by the high frequency of HG3 and by the different frequency spectrum of autosomal Alus.
http://hgm2002.hgu.mrc.ac.uk/Abstracts/Publish/WorkshopPosters/WorkshopPoster11/hgm0546.htm
http://slavanthro.mybb3.ru/viewtopic.php?t=1905
Ic - 4.0 %
R1bd - 8.7 %
R1a - 34.1 %
N1с - 18.3%
N1b - 4.8%
Q - 0.8 %
C- 1.6 %
If it's correct to consider Q and C as mongoloid haplogroups then it sums 2,4%.
But it refers оnly to Volga-Tatars (the other groups of peoples called 'Tatars' may show another data.
The Volga Tatars encompass only a limited share of mtDNA haplogroups typical for eastern Asians and native Siberians (variants of hgs M, A, B, F, N9, Y), their frequency being somewhat 10%-11%.
Конечно, не славяне, но генетически к славянам гораздо ближе, чем к тюркам.
Language replacement in Turkic speaking populations demonstrated by maternal and paternal lineages and autosomal Alu insertions
Based on the analysis of paternal (Y chromosome) and maternal (mtDNA) lineages we demonstrate the phenomenon of language replacement in several populations living in European and Asian parts of former Soviet Union and speaking languages of Turkic group of Altaic language family. Turkic languages spread presumably from the Altai region to East and West with waves of Mongoloid nomads penetrating the Eurasian steppe belt from first millenium B.C. until the Middle Ages. For mtDNA lineages this migrations along with more ancient population movements from West to East formed a gradient of East-Eurasian ('mongoloid') lineages from East to West of North Eurasia. In Tatar population living in the Volga-Ural region and representing the most numerous Turkic speaking group in Russia, the frequency of East-Eurasian mtDNA lineages (haplogroups M [including CZ], A, B, F, D, G, N9) comprise only 15% of maternal gene pool. With respect to their genes Tatars are much closer to their Slavonic and Finno-Ugric neighbors than to other Turkic speaking populations. In Central Asian Caucasoid Uzbeks the East-Eurasian part of mtDNA lineages is 43%, but they share most part of Y chromosome gene pool as well as autosomal genes, as documented by polymorphic Alu insertions, with their Indo-European neighbors (Tajiks). In case of Uzbek population language replacement took place on the background of partial gene replacement visible at least in maternal lineages. Thus, in Tatars and Uzbeks we see the different degree of 'dilution' of Mongoloid genes in dominating West Eurasian genetic background. The degree of eastern admixture is also different for different types of genetic markers (i.e., maternal lineages, paternal lineages and autosomal gene pool). East Siberian Yakuts represent an example of language replacement within the Altaic language famly. With respect to their male lineages, where haplogroup 16 (Tat C) is dominating, Turkic speaking Yakut population fall into the common cluster with non-Turkic Altaic neighboring Siberian populations (Buriat and Evenk), whereas Turkic groups are characterized by the high frequency of HG3 and by the different frequency spectrum of autosomal Alus.
http://hgm2002.hgu.mrc.ac.uk/Abstracts/Publish/WorkshopPosters/WorkshopPoster11/hgm0546.htm
http://slavanthro.mybb3.ru/viewtopic.php?t=1905
