I have organized the mtDNA results from FTDNA's Swedish DNA project (http://www.familytreedna.com/public/Sweden/default.aspx?section=mtresults). I put the results in four sections. Kits with prove they trace their maternal line to Sweden I put under Sweden, kits with only the name or year(usually or always birth or death) of a maternal ancestor I put under name or year, kits with no information about maternal ancestry I put under box, and kits with a maternal ancestor not from Sweden I put in another section but for obvious reasons not in this thread. I am sure this is very accurate I have checked over so many little sections gazillions of times. There might be some small errors and I am still checking on it. I bet most of the results in the sections name or year and box maternal line is from Sweden, because their results are similar to what is in section Sweden and I have already seen the same thing in other FTDNA country project's mtDNA results.

I have the mtDNA results from FTDNA's Norway and Finland projects on stapled sheets of paper. Next I am going to do Norway and all the kits have prove their maternal line is from Norway and most tell the county. Norway probably has very similar mtDNA to Sweden so it can also give a better idea of what Sweden has. I had to put Finland into three sections like Sweden though. I found a study online with 100's of mtDNA results from Sami organized. The Sami are almost entirely under U5b1b1 and V except for southern Swedish Sami who have obviously mixed alot with Swedish. Once i am done with Finland and Norway I will have a pretty good picture of what mtDNA in Scandinavia is overall. There are two major mega language families and ethnicities in Scandinavia the north Germanic Swedish-Norwegian and Finno-Volgaic Sami-Finnish.

I have already noticed differences between the two in U5 subclades, Finnish and Sami U5 is mainly under U5b1b1a and U5b1b2 while Swedish and Norwegian U5 is much more diverse and mainly under U5a and most of the U5a is under U5a1. I shouldn't be speaking so soon I will wait till I can study the results and other modern people's results and ancient mtDNA before making any hypotheses.

Eupedia has mtDNA frequencies(click here (http://www.eupedia.com/europe/european_mtdna_haplogroups_frequency.shtml)) from most of Europe and many near eastern and north African nations or ethnicities. I don't know were Maciamo gets those results he never shows his sources. The reason I have organized FTDNA's mtDNA results for Sweden and will do the same for other nations and ethnic groups is because I can never find detailed mtDNA results only big haplogroup or subclade percentages.

The numbers next to the haplogroup or subclade Ex. 2.H1, is so people can tell what position it is in. Haplogroup U is in position 1., U5 in 2., U5a in 3., etc. The (if....)'s in H are there because some sections were labeled with a subclade but were shown as only H. For example if there was a section called H1a but five of them were H in if they count as H1a.


Sweden+name or year+Box mtDNA=462

H


1.H=192 41.55% of total, sub=106(if sub=157)

2.H1=38 35.84% of H(if H1=59 37.57% of H), 14.89% of total(if 15.61% of total), sub=34(if sub=37)

3.H1c=10 29.4% of H1(if H1c=13 35.1% of H1), 10.5% of H(if 13.2% of H), 4.38% of total(5.48% of total), sub=7(same)

4.H1c1=4 57.1% of H1c(same), 16.8% of H1(if 20.07% of H1), 6% of H(if 7.54% of H), 2.5% of total(if 3.13% of total), sub=1(same)

5.H1c1a=1 100% of H1c1(same), 57.1% of H1c(same), 16.8% of H1(if 20.07% of H1), 6% of H(if 7.54% of H), 2.5% of total(if 3.13% of total), sub=0(same)

4.H1c2=1 14.28% of H1c(same), 4.2% of H1(if 5.02% of H), 1.506% of H(if 1.88% of H), 0.626% of total(if 0.784% of total), sub=0(same)

4.H1c3b=1 14.28% of H1c(same), 4.2% of H1(if 5.02% of H), 1.506% of H(if 1.88% of H), 0.626% of total(if 0.784% of total), sub=0(same)

4.H1c13=1 14.28% of H1c(same), 4.2% of H1(if 5.02% of H), 1.506% of H(if 1.88% of H), 0.626% of total(if 0.784% of total), sub=0(same)

3.H1a=9 26.47% of H1(if 24.3% of H1), 9.49% of H(if 9.14% of H), 3.94% of total(if 3.8% of total), sub=3(same)

4.H1a2=2 66.7% of H1a(same), 17.6% of H1(if 16.21% of H1), 6.3% of H(if 6.1% of H), 2.63% of total(if 2.53% of total), sub=0(same)

4.H1a1f1a=1 33.3% of H1a(same), 8.8% of H1(if 8.105% of H1), 3.15% of H(if 3.05% of H), 1.315% of total(if 1.2515% of total), sub=0(same)

3.H1b'f'g'k'y'z'aa'ab'ac'ad=8 23.5% of H1(if 21.6% of H1), 8.4% of H(if 8.1% of H), 3.5% of total(if 3.37% of total), sub=8(same)

4.H1b=6 75% of H1b'f'g'k'y'z'aa'ab'ac'ad(same), 17.64% of H1(if 16.21% of H1), 6.32% of H(if 6.1% of H), 2.63% of total(if 2.53% of total), sub=3(same)

5.H1b1=3 100% of H1b(same), 75% of H1b'f'g'k'y'z'aa'ab'ac'ad(same), 17.64% of H1(if 16.21% of H1), 6.32% of H(if 6.1% of H), 2.63% of total(if 2.53% of total), sub=1(h1b1-T16362C=1)(same)

6.H1b1b=1 100% of H1b1(same), 100% of H1b(same), 75% of H1b'f'g'k'y'z'aa'ab'ac'ad(same), 17.64% of H1(if 16.21% of H1), 6.32% of H(if 6.1% of H), 2.63% of total(if 2.53% of total), sub=0(same)

4.H1g1=2 25% of H1b'f'g'k'y'z'aa'ab'ac'ad(same), 5.88% of H1(if 5.4% of H1), 2.1% of H(if 2.03% of H), 0.876% of total(if 0.844% of total), sub=0(same)

3.H1o=2 5.88% of H1(if 5.4% of H1), 2.1% of H(if 2.03% of H), 0.876% of total(if 0.844% of total), sub=0(same)

3.H1s=1 2.94% of H1(if 2.7% of H1), 1.05% of H(if 1.015% of H), 0.438% of total(if 0.422% of total), sub=0(same)

3.H1ba=1 2.94% of H1(if 2.7% of H1), 1.05% of H(if 1.015% of H), 0.438% of total(if 0.422% of total), sub=0(same)

3.H1n-T146C!=1 2.94% of H1(if 2.7% of H1), 1.05% of H(if 1.015% of H), 0.438% of total(if 0.422% of total), sub=0(same)

3.H1ax=1 2.94% of H1(if 2.7% of H1), 1.05% of H(if 1.015% of H), 0.438% of total(if 0.422% of total), sub=0(same)

3.H1bs=1 2.94% of H1(if 2.7% of H1), 1.05% of H(if 1.015% of H), 0.438% of total(if 0.422% of total), sub=0(same)

2.H2a=20 18.8% of H(if H2=26 16.56% of H, sub=20, H2a=20 100% of H1), 7.84% of total(if 6.88% of total), sub=20(same)

3.H2a1=12 60% of H2a(if 60% of H2a & H2), 11.3% of H(if 10% of H), 4.7% of total(if 4.13% of total), sub=1(same)

4.H2a1a=1 100% of H2a1(same), 60% of H2a(if 60% of H2a % H2), 11.3% of H(if 10% of H), 4.7% of total(if 4.13% of total), sub=0(same)

3.H2a2a1=7 35% of H2a(if 35% of H2a & H2), 6.6% of H(if 5.8% of H), 2.74% of total(if 2.4% of total), sub=4(same)

4.H2a2a1b=2 50% of H2a2a1(same), 17.5% of H2a(if 17.5% of H2a & H2), 3.3% of H(if 2.9% of H), 1.37% of total(if 1.2% of total), sub=0(same)

4.H2a2a1a=1 25% of H2a2a1(same), 8.75 of H2a(if 8.75% of H2a & H2), 1.65% of H(if 1.45% of H), 0.685% of total(if 0.6% of total), sub=0(same)

4.H2a2a1d=1 25% of H2a2a1(same), 8.75% of H2a(if 8.75% of H2a & H2), 1.65% of H(if 1.45% of H), 0.685% of total(if 0.6% of total), sub=0(same)

3.H2a5b=1 5% of H2a(if 5% of H2a & H2), 0.94% of H(if 0.82% of H), 0.4% of total(if 0.34% of total), sub=0(same)

2.H5=7 6.6% of H(if H5=14 8.9% of H), 2.74% of total(if 3.7% of total), sub=3(same)

3.H5a=2 66.7% of H5(same), 4.4% of H(if 5.94% of H), 1.8% of total(if 2.47% of total), sub=2(same)

4.H5a6=1 50% of H5a(same), 33.3% of H5(same), 2.2% of H(if 2.97% of H), 0.9% of total(if 1.235% of total), sub=0(same)

4.H5a1e=1 50% of H5a(same), 33.3% of H5(same), 2.2% of H(if 2.97% of H), 0.9% of total(if 1.235% of total), sub=0(same)

3.H5b2=1 33.3% of H5(same), 2.2% of H(if 2.97% of H), 0.9% of total(if 1.235% of total), sub=0(same)

2.H3=8 7.5% of H(if H3=12 7.64% of H), 3.13% of total(if 3.17% of total), sub=8(same)

3.H3h=4 50% of H3, 3.77% of H(if 3.82% of H), 1.565% of total(if 1.585% of total), sub=2(same)

4.H3h3=1 50% of H3h, 25% of H3, 1.885% of H(if 1.91% of H), 0.785% of total(if 0.7935% of total), sub=0(same)

4.H3h1=1 50% of H3h, 25% of H3, 1.885% of H(if 1.91% of H), 0.785% of total(if 0.7935% of total), sub=0(same)

3.H3q=2 25% of H3, 1.885% of H(if 1.91% of H), 0.7825% of total(if 0.7935% of total), sub=1(same)

4.H3q1=1 100% of H3q, 25% of H3, 1.885% of H(if 1.91% of H), 0.7825% of total(if 0.7935% of total), sub=0(same)

3.H3a1=1 12.5% of H3, 0.94% of H(if 0.955% of H), 0.3935% of total(if 0.39675% of total), sub=0(same)

3.H3b-G16129A1=1 12.5% of H3, 0.94% of H(if 0.955% of H), 0.3935% of total(if 0.39675% of total), sub=0(same)

2.H6=5 4.71% of H(if H6=10 6.36% of H), 1.96% of total(if 2.64% of total), sub=5(if sub=10)

3.H6a=4 80% of H6(if H6a=9 90% of H6), 3.77% of H(if 5.7% of H), 1.568% of total(if 2.38% of total), sub=4(same)

4.H6a1=4 100% of H6a(same), 80% of H6(if 100% of H6a), 80% of H6(if 90% of H6), 3.77% of H(if 5.7% of H), 1.568% of total(if 2.38% of total), sub=4(same)

5.H6a1a=3 75% of H6a1(same), 75% of H6a(same), 60% of H6(if 67.5% of H6), 2.8% of H(if 4.3% of H), 1.17% of total(if 1.78% of total), sub=0(same)

5.H6a1b2=1 25% of H6a1(same), 25% of H6a(same), 20% of H6(if 22.5% of H6), 0.933% of H(if 1.43% of H), 0.39% of total(if 0.593% of total), sub=0(same)

3.H6c=1 20% of H6(if 10% of H6), 0.94% of H(if 0.637% of H), 0.39% of total(if 0.26% of total), sub=0(same)

2.H4a1=5 4.7% of H(if 3.18% of H), 1.96% of total(if 1.3% of total), sub=4(same)

3.H4a1a=4 100% of H4a1(same), 4.7% of H(if 3.18% of H), 1.96% of total(if 1.3% of total), sub=4(same)

4.H4a1a1a=3 75% of H4a1a(same), 75% of H4a1(same), 3.53% of H(if 2.38% of H), 1.47% of total(if 0.99% of total), sub=0(same)

4.H4a1a4b=1 25% of H4a1a(same), 25% of H4a1(same), 1.18% of H(if 0.79% of H), 0.5% of total(if 0.33% of total), sub=0(same)

2.H23=3 2.8% of H(if 1.9% of H), 1.17% of total(if 0.79% of total), sub=0(same)

2.H10=2 1.88% of H(if H10=5 3.18% of H), 0.78% of total(if 1.3% of total), sub=2(same)

3.H10d=1 50% of H10, 0.94% of H(if 1.18% of H), 0.39% of total(if 0.395% of total), sub=0(same)

3.H10e=1 50% of H10, 0.94% of H(if 1.18% of H), 0.39% of total(if 0.395% of total), sub=0(same)

2.H31=3 2.8% of H(if 1.9% of H), 1.17% of total(if 0.79% of total), sub=0(same)

2.H49a=2 1.88% of H(if 1.27% of H), 0.39% of total(if 0.26% of total), sub=1

3.H49a1=1 100% of H49a(same), 1.88% of H(if 1.27% of H), 0.39% of total(if 0.26% of total), sub=0(same)

2.H41a=2 1.88% of H(if 1.27% of H), 0.39% of H(if 0.26% of total), sub=0(same)

2.H82=1 0.94% of H(if 0.635% of H), 0.195% of total(if 0.13% of total), sub=0(same)

2.H7c3=1 0.94% of H(if 0.635% of H), 0.195% of total(if 0.13% of total), sub=0(same)

2.H28a=1 0.94% of H(if 0.635% of H), 0.195% of total(if 0.13% of total), sub=0(same)

2.H45a=1 0.94% of H(if 0.635% of H), 0.195% of total(if 0.13% of total), sub=0(same)

2.H59a=1 0.94% of H(if 0.635% of H), 0.195% of total(if 0.13% of total), sub=0(same)

2.H63=1 0.94% of H(if 0.635% of H), 0.195% of total(if 0.13% of total), sub=0(same)

2.H71=1 0.94% of H(if 0.635% of H), 0.195% of total(if 0.13% of total), sub=0(same)

2.H8c1=1 0.94% of H(if 0.635% of H), 0.195% of total(if 0.13% of total), sub=0(same)

2.H24=0(if H24=2 1.27% of H, 0.26% of total, sub=0)

2.H11=0(if H11=1 0,.635% of H, 0.13% of total, sub=0)


U(K-)


1.U=80 17.31% of total(same), sub=73

2.U5=46 63% of U, 10.9% of total, sub=29

3.U5a=15 51.7% of U5, 32.65 of U, 5.64% of total, sub=15

4.U5a1=13 86.6% of U5a, 44.8% of U5, 28.24% of U, 4.9% of total, sub=13

5.U5a1a=7 53.8% of U5a1,46.6% of U5a, 24.13% of U5, 15.21% of U, 2.6% of total sub=7

6.U5a1a1=5 71.4% of U5a1a, 38.46% of U5a1, 33.3% of U5a, 17% of U5, 10.8% of U, 1.88% of total, sub=5

7.U5a1a1b=3 60% of U5a1a1, 42.8% of U5a1a, 23% of U5a1, 20% of U5a, 10.3% of U5, 6.5% of U, 1.1% of total, sub=0

7.U5a1a1d=1 20% of U5a1a1, 14.26% of U5a1a, 7.6% of U5a1, 6.6% of U5a, 3.43% of U5, 2.16% of U, 0.36% of total, sub=0

7.U5a1a1c=1 20% of U5a1a1, 14.26% of U5a1a, 7.6% of U5a1, 6.6% of U5a, 3.43% of U5, 2.16% of U, 0.36% of total, sub=0

6.U5a1a2=2 28.57% of U5a1a, 15.38% of U5a1, 13.3% of U5a, 6.9% of U5, 4.34% of U, 0.75% of total, sub=2

7.U5a1a2a1=1 50% of U5a1a2, 14.28% of U5a1a, 7.7% of U5a1, 6.6% of U5a, 3.4% of U5, 2.17% of U, 0.37% of total, sub=0

7.U5a1a2b=1 50% of U5a1a2, 14.28% of U5a1a, 7.7% of U5a1, 6.6% of U5a, 3.4% of U5, 2.17% of U, 0.37% of total, sub=0

5.U5a1b=4 30.77% of U5a1, 26.6% of U5a, 13.8% of U5, 8.7% of U, 1.5% of total, sub=3

6.U5a1b1b=2 66.7% of U5a1b, 20.5% of U5a1, 17.7% of U5a, 9.19% of U5, 5.8% of U, 1% of total, sub=0

6.U5a1b3=1 33.3% of U5a1b, 10.25% of U5a1, 8.85% of U5a, 4.6% of U5, 2.9% of U, 0.5% of total, sub=0

5.U5a1d2a1=1 7.7% of U5a1, 6.6% of U5a, 3.4% of U5, 2.17% of U, 0.37% of total, sub=0

5.U5a1c2=1 7.7% of U5a1, 6.6% of U5a, 3.4% of U5, 2.17% of U, 0.37% of total, sub=0

4.U5a2=2 13.3% of U5a, 6.9% of U5, 4.34% of U, 0.75% of total, sub=2

5.U5a2d1=1 50% of U5a2, 6.6% of U5a, 3.45% of U5, 2.17% of U, 0.375% of total sub=0

5.U5a2c1=1 50% of U5a2, 6.6% of U5a, 3.45% of U5, 2.17% of U, 0.375% of total, sub=0

3.U5b=14 48.27% of U5, 30.4% of U, 5.26% of total, sub=12

4.U5b1=8 66.7% of U5b, 32.2% of U5, 20.3% of U, 3.5% of total, sub=7(U5b1-T16189C!-T1619SC!=1)

5.U5b1a'b'c'e'h=7 100% of U5b1, 66.7% of U5b, 32.2% of U5, 20.3% of U, 3.5% of total, sub=7

6.U5b1b=5 71.4% of U5b1a'b'c'e'h, 71.4% of U5b1, 47.6% of U5b, 23% of U5, 14.5% of U, 2.5% of total, sub=5

7.U5b1b1=3 60% of U5b1b, 42.8% of U5b1a'b'c'e'h, 42.8% of U5b1, 28.57% of U5b, 13.8% of U5, 8.7% of U, 1.5% of total, sub=1(U5b1b1-T152C!=1, U5b1b1-T1692C!)

8.U5b1b1a=1 100% of U5b1b1, 60% of U5b1b, 42.8% of U5b1a'b'c'e'h, 42.8% of U5b1, 28.57% of U5b, 13.8% of U5, 8.7% of U, 1.5% of total, sub=0

7.U5b1b2=2 40% of U5b1b, 28.57% of U5b1'a'b'c'e'h, 28.57% of U5b1, 19% of U5b, 9.2% of U5, 5.8% of U, 1% of total, sub=0

6.U5b1e1=1 14.28% of U5b1a'b'c'e'h, 14.28% of U5b1, 9.5% of U5b, 4.6% of U5, 2.9% of U, 0.5% of total, sub=0

6.U5b1c=1 14.28% of U5b1a'b'c'e'h, 14.28% of U5b1, 9.5% of U5b, 4.6% of U5, 2.9% of U, 0.5% of total, sub=0

4.U5b2=6 50% of U5b, 24% of U5, 15.2% of U, 2.63% of total, sub=6

5.U5b2a=350% of U5b2, 25% of U5b, 12% of U5, 7.6% of U, 1.3% of total, sub=3

6.U5b2a2b1=1 33.3% of U5b2a, 16.6% of U5b2, 8.3% of U5b, 4% of U5, 2.53% ofU, 0.438% of total, sub=0

6.U5b2a1a1=1 33.3% of U5b2a, 16.6% of U5b2, 8.3% of U5b, 4% of U5, 2.53% ofU, 0.438% of total, sub=0

6.U5b2a4=1 33.3% of U5b2a, 16.6% of U5b2, 8.3% of U5b, 4% of U5, 2.53% of U,0.438% of total, sub=0

5.U5b2c2=2 33.3% of U5b2, 16.6% of U5b, 8.04% of U5, 5.06% of U, 0.88% of total,sub=0

5.U5b2b4=1 16.6% of U5b2, 8.3% of U5b, 4.02% of U5, 2.53% of U, 0.44% of total sub=0

2.U2'3'4'7'8'9=24 32.87% of U, 5.7% of total, sub=24

3.U4=16 66.7% of U2'3'4'7'8'9, 22% of U, 3.8% of total, sub=9

4.U4a=6 66.7% of U4, 44.4% of U2'3'4'7'8'9, 14.6% of U, 2.5% of total, sub=5

5.U4a3=2 40% of U4a, 26.67% of U4, 17.7% of U2'3'4'7'8'9, 5.84% of U, 1% of total, sub=0

5.U4a2=2 40% of U4a, 26.67% of U4, 17.7% of U2'3'4'7'8'9, 5.84% of U, 1% of total, sub=1

6.U4a2a1=1 100% of U4a2, 40% of U4a, 26.67% of U4, 17.7% of U2'3'4'7'8'9, 5.84% of U, 1% of total, sub=0

5.U4a1a=1 20% of U4a, 13.3% of U4, 8.85% of U2'3'4'7'8'9, 2.92% of U, 0.5% of total, sub=0

4.U4d1=2 22.2% of U4, 14.8% of U2'3'4'7'8'9, 4.87% of U, 0.84% of total, sub=1

5.U4d1a1=1 100% of U4d1, 22.2% of U4, 14.8% of U2'3'4'7'8'9, 4.87% of U, 0.84% of total, sub=0

4.U4c1a=1 11.1% of U4, 7.4% of U2'3'4'7'8'9, 2.4% of U, 0.42% of total, sub=0

3.U8=3 12.5% of U2'3'4'7'8'9, 4.11% of U, 0.711%of total, sub=3

4.U8a1a=2 66.7% of U8, 8.33% of U2'3'4'7'8'9, 2.74% of U, 0.47% of total, sub=1

5.U8a1a1a=1 100% of U8a1a, 66.7% of U8, 8.33% of U2'3'4'7'8'9, 2.74% of U, 0.47%of total, sub=0

4.U8b1b=1 33.3% of U8, 4.1% of U2'3'4'7'8'9, 1.37% of U, 0.235% of total, sub=0

3.U3=3 12.5% of U2'3'4'7'8'9, 4.1% of U,0.71% of total, sub=1

4.U3b2a=1 100% of U3, 12.5% of U2'3'4'7'8'9, 4.1% of U, 0.71% of total, sub=0

3.U2e1a1=2 8.3% of U2'3'4'7'8'9, 2.74% of U, 0.47% of total, sub=1

4.U2e1a1a=1 100% of U2e1a1, 8.3% of U2'3'4'7'8'9, 2.74% of U, 0.47% of total, sub=0

2.U6a=3 4.11% of U, 0.711% of total,sub=2(U6a-T16189C!=1)

3.U6a1=2 100% of U6a, 4.11% of U, 0.711% of total, sub=0


T


2.T=49 10.6% of total, sub=44

3.T2=31 70.4% of T, 7.4% of total, sub=19

4.T2b=13 68% of T2, 48% of T, 5.11% of total, sub=7

5.T2b7a=2 28.57% of T2b, 19.54% of T2, 13.77% of T, 1.46% of total, sub=0

5.T2b11=2 28.57% of T2b, 19.54% of T2, 13.77% of T, 1.46% of total, sub=0

5.T2b4-T152C!=1 14.3% of T2b, 9.77% of T2, 6.885% of T, 0.73% of total, sub=0

5.T2b9=1 14.3% of T2b, 9.77% of T2, 6.885% of T, 0.73% of total, sub=0

5.T2b2b=1 14.3% of T2b, 9.77% of T2, 6.885% of T, 0.73% of total, sub=0

4.T2c=2 10.5% of T2, 7.4% of T, 0.786% of total, sub=0(T2c-T146C!=1)

4.T2a1b=2 10.5% of T2, 7.4% of T, 0.786% of total, sub=1

5.T2a1b1a1=1 100% of T2a1b, 10.5% of T2, 7.4% of T, 0.786% of total, sub=0

4.T2f1a=1 5.25% of T2, 3.7% of T, 0.393% of total, sub=0

4.T2g1=1 5.25% of T2, 3.7% of T, 0.393% of total, sub=0

3.T1=13 29.54% of T, 3.13% of total, sub=8

4.T1a1'3=8 100% of T1, 29.54% of T, 3.13% of total, sub=8

5.T1a1=7 87.5% of T1a1'3, 87.5% of T1, 25.8% of T, 2.74% of total, sub=1

6.T1a1b=1 100% of T1a1, 87.5% of T1a1'3, 87.5% of T1, 25.8% of T, 2.74% of total, sub=0

5.T1a3=1 12.5% of T1a1'3, 12.5% of T1, 3.69% of T, 0.39% of total, sub=0


K



1.K=44 9.52% of total, sub=29

2.K1=24 82.7% of K, 7.88% of total, sub=24

3.K1a=14 58.3% of K1, 48.3% of K, 4.6% of total, sub=13

4.K1a4a1=6 46.15% of K1a, 27% of K1, 22.3% of K, 2.1% of total, sub=5

5.K1a4a1a=4 80% of K1a4a1, 37% of K1a, 21.5% of K1, 17.8% of K, 1.7% of total, sub=2(K1a4a1a-T195C!=2)

6.K1a4a1a2=2 100% of K1a4a1a, 80% of K1a4a1, 37% of K1a, 21.5% of K1, 17.8% of K, 1.7% of total, sub=2

6.K1a4a1a2b=1 50% of K1a4a1a2, 50% of K1a4a1a, 40% of K1a4a1, 18.46% of K1a, 10.77% of K1, 8.9% of K, 0.84% of total, sub=0

6.K1a4a1a2a=1 50% of K1a4a1a2, 50% of K1a4a1a, 40% of K1a4a1, 18.46% of K1a, 10.77% of K1, 8.9% of K, 0.84% of total, sub=0

5.K1a4a1e=1 20% of K1a4a1, 9.23% of K1a, 5.38% of K1, 4.45% of K, 0.424% of total, sub=0

4.K1a10a=3 23% of K1a, 13.46% of K1, 11% of K, 1.06% of total, sub=0

4.K1a1b1=2 15.38% of K1a, 8.97% of K1, 7.4% of K, 0.7% of total, sub=2

5.K1a1b1b=1 50% of K1a1b1, 7.69% of K1a, 4.485% of K1, 3.7% of K, 0.35% of total, sub=0

5.K1a1b1a=1 50% of K1a1b1, 7.69% of K1a, 4.485% of K1, 3.7% of K, 0.35% of total, sub=0

4.K1a2c=2 15.38% of K1a, 8.97% of K1, 7.4% of K, 0.7% of total, sub=0

3.K1b=7 29.16% of K1, 24% of K, 2.3% of total, sub=7

4.K1b2a=5 71.4% of K1b, 20.8% of K1, 17.24% of K, 1.64% of total, sub=5

5.K1b2a1a=3 60% of K1b2a, 42.8% of K1b, 12.5% of K1, 10.3% of K, 0.98% of total, sub=1

6.K1b2a1a1=1 100% of K1b2a1a, 60% of K1b2a, 42.8% of K1b, 12.5% of K1, 10.3% of K, 0.98% of total, sub=0

5.K1b2a2a=2 40% of K1b2a, 28.57% of K1b, 8.3% of K1, 6.7% of K, 0.65% of total, sub=0

3.K1c=3 12.5% of K1, 10.3% of K, 0.98% of total, sub=3

4.K1c2=2 66.7% of K1c, 8.33% of K1, 7% of K, 0.65% of total, sub=0

4.K1c1=1 33.3% of K1c, 4.165% of K1, 3.5% of K, 0.325% of total, sub=0

2.K2=5 17.24% of K, 1.6% of total, sub=5

3.K2b=3 60% of K2, 10.3% of K, 0.98% of total, sub=3

4.K2b2=2 66.7% of K2b, 40% of K2, 6.9% of K, 0.65% of total, sub=0

4.K2b1a1=1 33.3% of K2b, 20% of K2, 3.45% of K, 0.325% of total, sub=0

3.K2a=2 40% of K2, 6.9% of K, 0.65% of total, sub=1

4.K2a3=1 50% of K2a, 40% of K2, 6.9% of K, 0.65% of total, sub=0

J


1.J=43 9.3% of total, sub=27

2.J1c=17 63% of J, 5.86% of total, sub=17

3.J1c2=7 41.17% of J1c, 26% of J, 2.4% of total, sub=4

4.J1c2c=2 50% of J1c2, 20.58% of J1c, 12.96% of J, 1.2% of total, sub=1

5.J1c2c2=1 100% of K1c2c, 50% of J1c2, 20.58% of J1c, 12.96% of J, 1.2% of total, sub=0

4.J1c2a3=1 25% of J1c2, 10.29% of J1c, 6.48% of J, 0.6% of total, sub=0

4.J1c2e=1 25% of J1c2, 10.29% of J1c, 6.48% of J, 0.6% of total, sub=0

3.J1c6'7'12'13'14=5 29.4% of J1c, 18.5% of J, 1.7% of total, sub=5

4.J1c7a=4 80% of J1c6'7'12'13'14, 23.5% of J1c, 14.8% of J, 1.3% of total, sub=0

4.J1c12=1 20% of J1c6'7'12'13'14, 5.88% of J1c, 3.7% of J, 0.34% of total, sub=0

3.J1c3=4 23.5% of J1c, 14.8% of J, 1.37% of total, sub=2

4.J1c3c=1 50% of J1c3, 11.7% of J1c, 7.4% of J, 0.685% of total, sub=0

4.J1c3e2=1 50% of J1c3, 11.7% of J1c, 7.4% of J, 0.685% of total, sub=0

3.J1c8a=1 5.88% of J1c, 3.7% of J, 0.344% of total, sub=0

2.J2=10 37% of J, 3.44% of total, sub=10

3.J2a1a1=9 90% of J2, 33.3% of J, 3.1% of total, sub=7

4.J2a1a1a=7 100% of J2a1a1, 90% of J2, 33.3% of J, 3.1% of total, sub=5

5.J2a1a1a2=5 100% of J2a1a1a, 100% of J2a1a1, 90% of J2, 33.3% of J, 3.1% of total, sub=0

3.J2b1a=1 10% of J2, 3.7% of J, 0.34% of total, sub=0


HVO



1.HV0=19 4.11% of total, sub=19

2.V=14 73.68% of HVO, 3.03% of total, sub=8

3.V1a1=3 37.5% of V, 27.6% of HVO, 1.13% of total, sub=1

4.V1a1a=1 100% of V1a1, 37.5% of V, 27.6% of HVO, 1.13% of total, sub=0

3.V10a=2 25% of V, 18.4% of HVO, 0.75% of total, sub=0

3.V7a=1 12.5% of V, 9.21% of HVO, 0.37% of total, sub=0

3.V8=1 12.5% of V, 9.21% of HVO, 0.37% of total, sub=0

3.V9a2=1 12.5% of V, 9.21% of HVO, 0.37% of total, sub=0

2.HVO=5 26.3% of HVO, 1.08% of total, sub=3(HVO-T195C!=2)

3.HVOf=3 100% of HVO, 26.3% of HVO, 1.08% of total, sub=0


N1a



1.N1a=10 2.16% of total, sub=10

2.I=8 80% of N1a, 1.73% of total, sub=3

3.I1=2 66.7% of I, 53.3% of N1a, 1.15% of total, sub=2

4.I1a1a=1 50% of I1, 33.7% of I, 26.65% of N1a, 0.575% of total, sub=0

4.I1b=1 50% of I1, 33.7% of I, 26.65% of N1a, 0.575% of total, sub=0

3.I4a=1 33.3% of I, 26.65% of N1a, 0.575% of total, sub=0

2.N1a=3 30% of N1a, 0.648% of total, sub=1

3.N1a1a=1 100% of N1a, 30% of N1a, 0.648% of total, sub=0


Haplogroups under 10



1.X=8 1.7% of total, sub=4

2.X2c1=3 100% of X, 1.7% of total, sub=1

3.X2c1a=1 100% of X2c1, 100% of X, 1.7% of total, sub=0

1.M(the rest are descended from sisterclade N)=7 1.5% of total, sub=7

2.CZ=5 71.4% of M(.....), 1.08% of total, sub=5

3.C=3 60% of CZ, 42.8% of M(.....), 0.649% of total, sub=2

4.C4a1c=2 100% of C, 60% of CZ, 42.8% of M(.....), 0.649% of total, sub=0

3.Z=2 40% of CZ, 28.57% of M(.....), 0.432% of total, sub=1

4.Z1a1a=1 100% of Z, 40% of CZ, 28.57% of M(.....), 0.432% of total, sub=0

2.G2a=1 14.3% of M(.....), 0.21% of total, sub=0

2.D5a3a=1 14.3% of M(.....), 0.21% of total, sub=0

1.HV(H-, HVO-, or just doesn't say)=7 1.5% of total, sub=2(HV-T16311C!=1)

2.HV9=2 100% of HV(.....), 1.5% of total, sub=0(HV9-T152C!=1)

1.W=3 0.649% of total, sub=1(W-C194T=1)

2.W5a1a=1 100% of W, 0.649% of total, sub=0



Sweden mtDNA=282


1. H=112 39.7%,sub=63(If=96)

2.H1=24 38% of H(if H1=39 40.6% of H), 15% of total(if 16.13% of total), sub=21(if sub=23)

3.H1a=8 38.1% of H1,(if H1a=8, 34.78% of H1) 14.5% of H(if 14.13% of H), 5.7% of total(if=5.6% of total), sub=3(same)

4.H1a2=2 66.7% of H1a(same), 25.4% of H1(if=23.2% of H1), 9.67% of H(if=9.4% of H), 3.84% of total(if=3.74% of total), sub=0(same)

4.H1a1f1a=1 33% of H1a(same), 12.6% of H1(if 11.6% of H1), 4.84% of H(if 4.7% of H), 1.9% of total(if 1.87% of total), sub=0(same)

3.H1c=5 23.8% of H1(if H1c=7 30.4% of H1), 9% of H(if 12.36% of H), 3.6% of total(If 4.9% of total), sub=4(same)

4. H1c1=3 75% of H1c(same), 17.8% of H1(if 22.8% of H1), 6.8% of H(if 9.27% of H), 2.7% of total(if 3.68% of total), sub=1(same)

5.H1c1a=1 100% of H1c1(same), 75% of H1c(same), 17.8% of H1(if 22.8% of H1), 6.8% of H(if 9.27% of H), 2.7% of total(if 3.68% of total), sub=0(same)

4.H1c13=1 25% of H1c(same), 5.93% of H1(if 7.6% of H1), 2.26% of H(if 3.1% of H), 0.9% of total(1.22% of total), sub=0(same)

3.H1b=2 9.5% of H1(if 8.7% of H1), 3.6% of H(if 3.53% of H), 1.44% of total(if 1.4% of total), sub=1(same)

4.H1b1b=1 100% of H1b(same), 9.5% of H1(if 8.7% of H1), 3.6% of H(3.53% of H), 1.44% of total(1.4% of total), sub=0(same)

3.H1o=2 9.5% of H1(if 8.7% of H1), 3.6% of H(3.5% of H), 1.44% of total(if 1.4% of total), sub=0(same)

3.H1s=1 4.76% of H1(if 4.35% of H1), 1.8% of H(if 1.525% of H), 0.72% of total(if 0.7% of total, sub=0(same)

3.H1ba=1 4.76% of H1(if 4.35% of H1), 1.8% of H(1.525% of H), 0.72% of total(0.7% of total), sub=0(same)

3.H1n-T146C!=1 4.76% of H1(if 4.35% of H1), 1.8% of H(if 1.525% of H), 0.72% of total(if 0.7% of total), sub=0(same)

3.H1ax=1 4.76% of H1(if 4.35% of H1), 1.8% of H(if 1.525% of H), 0.72% of total(if 0.7% of total), sub=0(same)


2.H2a=11 17.46% of H(if H2=15 15.6% of H, H2a=100% of H2), 7% of total(if 6.2% of total), sub=11(same)

3.H2a1=6 5.45% of H2a(same % for H2 and H2a), 9.5% of H(if 8.5% of H) , 3.78% of total(if 3.4% of total), sub=1(same)

4.H2a1a=1 100% of H2a1(same), 5.45% of H2a(same % for H2 and H2a), 9.5% of H(if 8.5% of H), 3.78% of total(if 3.4% of total), sub=0(same)

3.H2a2a1=5 45.4% of H2a(same for H2 and H2a), 7.9% of H(if 7.1% of H), 3.15% of total(if 2.82% of total), sub=3(same)

4.H2a2a1a=1 33.3% of H2a2a1(same), 15.15% of H2a(same for H2 and H2a), 2.63% of H(if 2.367% of H), 1.05% of total(if 0.94% of total), sub=0(same)

4.H2a2a1b=1 33.3% of H2a2a1(same), 15.15% of H2a(same for H2 and H2a), 2.63% of H(if 2.367% of H), 1.05% of total(if 0.94% of total), sub=0(same)

4.H2a2a1d=1 33.3% of H2a2a1(same), 15.15% of H2a(same for H2 and H2a), 2.63% of H(if 2.367% of H), 1.05% of total(if 0.94% of total), sub=0(same)

2.H3=5 7.9% of H(if=9, 9.37%), 3.15% of total(if= 3.72%), sub=5(same)

3.H3q=2 40% of H3(same), 3.17% of H(if 3.75% of H), 1.26% of total(if 1.5% of total), sub=1(same)

4.H3q1=1 100% of H1q(same), 40% of H3(same), 3.17% of H(if 3.75% of H), 1.26% of total(if 1.5% of total), sub=0(same)

3.H3h=2 40% of H3(same), 3.17% of H(if 3.75% of H), 1.26% of total(if 1.5% of total), sub=1(same)

4.H3h3=1 100% of H3h, 40% of H3(same), 3.17% of H(if 3.75% of H), 1.26% of total(if 1.5% of total), sub=0(same)

3.H3a1=1 20% of H3(same), 1.6% of H(if 1.875% of H), 0.63% of total(if 0.75% of total), sub=0(same)

2.H5=2 3.17% of H(if H5=6 6.25% of H), 1.26% of total(if 2.48% of total), sub=2(same)

3.H5a6=1 50% of H5(same), 1.6% of H(if 3.125% of H), 0.63% of total(if 1.24% of total), sub=0(same)

3.H5b2=1 50% of H5(same), 1.6% of H(if 3.125% of H), 0.63% of total(if 1.24% of total), sub=0(same)

2.H11a=3 4.76% of H(if H11=4 4.16% of H, sub=3, H11a=100% of H11), 1.89% of total(if 1.65% of total), sub=1(same)

3.H11a1=1 100% of H11a(If 100% of H11a and H11), 4.76% of H(if 4.16% of H), 1.89% of total(if 1.65% of total), sub=0(same)

2.H4a1=3 4.76% of H(if H4a1=3 3.125% of H), 1.89% of total(if 1.24% of total), sub=2(same)

3.H4a1a=2 100% of H4a1(same), 4.76% of H(if 3.125% of H), 1.89% of total(if 1.24% of total), sub=2(same)

4.H4a1a1a=1 50% of H4a1a(same), 50% of H4a1(same), 2.38% of H(if 1.56% of H), 0.945% of total(if 0.63% of total), sub=0(same)

4.H4a1a4b=1 50% of H4a1a(same), 50% of H4a1(same), 2.38% of H(if 1.56% of H), 0.945% of total(if 0.63% of total), sub=0(same)

2,.H6a1=2 3.17% of H(if H6a=3 3.1% of H, H6a1=100% of H6a), 1.26% of total(if 1.24% of total), sub=2(same)

3.H6a1a=1 50% of H6a1(same), 1.6% of H(if 1.55% of H), 0.63% of total(if 0.62% of total), sub=0(same)

3.H6a1b2=1 50% of H6a1(same), 1.6% of H(if 1.55% if H), 0.63% of total(if 0.62% of total), sub=0(same)

2.H23=2 3.17% of H(if 2.1% of H), 1.26% of total(if 0.827% of total), sub=0(same)

2.H31=2 3.17% of H(if 2.1% of H), 1.26% of total(if 0.827% of total), sub=0(same)

2.H24=0(if=2, 2.1% of H), (if 0.827% of total), sub=0

2.H10=0(If=2, 2.1% of H), (if 0.827% of total), sub=0(same)

2.H41a=2 3.17% of H,(if 2.1% of H) 1.26% of total(if 0.827% of total), sub=0(same)

2.H7c3=1 1.58% of H(if 1.04% of H), 0.63% of total(if 0.41% of total), sub=0(same)

2.H28a=1 1.58% of H(if 1.04% of H), 0.63% of total(if 0.41% of total), sub=0(same)

2.H45a=1 1.58% of H(if 1.04% of H), 0.63% of total(if 0.41% of total), sub=0(same)

2.H59a=1 1.58% of H(if 1.04% of H), 0.63% of total(if 0.41% of total), sub=0(same)

2.H63=1 1.58% of H(if 1.04% of H), 0.63% of total,(if 0.41% of total) sub=0(same)

2.H71=1 1.58% of H(if 1.04% of H), 0.63% of total(if 0.41% of total), sub=0(same)

2.H8c1=1 1.58% of H(if 1.04% of H), 0.63% of total(if 0.41% of total), sub=0(same)

U
1.U=57 20.2% of total, sub=53

2.U5=29 54.7% of U, 11% of total, sub=19

3.U5b=10 52.6% of U5, 28.79% of U, 5.8% of total, sub=10

4.U5b2=6 60% of U5b, 31.57% of U5, 17.27% of U, 3.6% of total, sub=6

5.U5b2a=3 50% of U5b2, 30% of U5b, 15.8% of U5, 8.6% of U, 1.8% of total, sub=3

6.U5b2a2b1=1 33.3% of U5b2a, 16.6% of U5b2, 10% of U5b, 5.26% of U5, 2.86% of U, 0.6% of total, sub=0

6.U5b2a1a1=1 33.3% of U5b2a, 16.6% of U5b2, 10% of U5b, 5.26% of U5, 2.86% of U, 0.6% of total, sub=0

6.U5b2a4=1 33.3% of U5b2a, 16.6% of U5b2, 10% of U5b, 5.26% of U5, 2.86% of U, 0.6% of total, sub=0

5.U5b2c2=2 33.3% of U5b2, 20% of U5b, 10.5% of U5, 5.75% of U, 1.1% of total, sub=0

3.U5b2b4=1 16.6% of U5b2, 10% of U5b, 5.25% of U5, 2.9% of U, 0.55% of total, sub=0

2.U5b1a'b'c'e'h=4 40% of U5b, 21% of U5, 11.5% of U, 2.3% of total, sub=4

3.U5b1b=3 75% of U5b1a'b'c'e'h, 30% of U5b, 15.8% of U5, 8.6% of U, 1.7% of total, sub=3

4.U5b1b2=2 66.7% of U5b1b, 50% of U5b1a'b'c'e'h, 20% of U5b, 10.52% of U5, 5.76% of U, 1.16% of total, sub=0

4.U5b1b1-T1692C!=1 33.3% of U5b1b, 25% of U5b1a'b'c'e'h, 10% of U5b, 5.25% of U5, 2.88% of U, 0.58% of total, sub=0

3.U5b1c=1 25% of U5b1a'b'c'e'h, 10% of U5b, 5.26% of U5, 2.86% of U, 0.56% of total, sub=0

1.U5a=9 47% of U5, 26% of U, 5.24% of total, sub=9

2.U5a1=8 88.8% of U5a, 42.1% of U5, 23% of U, 4.6% of total, sub=8

3.U5a1a=5 62.5% of U5a1, 55.5% of U5a, 26.3% of U5, 14.4% of U, 2.9% of total, sub=5

4.U5a1a1=3 60% of U5a1a, 37.5% of U5a1, 33.3% of U5a, 15.8% of U5, 8.64% of U, 1.7% of total, sub=3

5.U5a1a1b=2 66.7% of U5a1a1, 40% of U5a1a, 25% of U5a1, 22.2% of U5a, 10.5% of U5, 5.76% of U, 1.16% of total, sub=

5.U5a1a1c=1 33.3% of U5a1a1, 20% of U5a1a, 12.5% of U5a1, 11.1% of U5a, 5.25% of U5, 2.88% of U, 0.58% of total, sub=0

4.U5a1a2=2 40% of U5a1a, 25% of U5a1, 22.2% of U5a, 10.5% of U5, 5.76% of U, 1.16% of total, sub=2

5.U5a1a2a1=1 50% of U5a1a2, 20% of U5a1a, 12.5% of U5a1, 11.1% of U5a, 5.25% of U5, 2.88% of U, 0.58% of total, sub=0

5.U5a1a2b=1 50% of U5a1a2, 20% of U5a1a, 12.5% of U5a1, 11.1% of U5a, 5.25% of U5, 2.88% of U, 0.58% of total, sub=0

3.U5a1b1=2 25% of U5a1, 22.2% of U5a, 10.5% of U5, 5.76% of U, 1.16% of total, sub=1

4.U5a1b1b=1 100% of U5a1b1, 25% of U5a1, 22.2% of U5a, 10.5% of U5, 5.7% of U, 1.16% of total, sub=0

3.U5a1d2a1=1 12.5% of U5a1, 11.1% of U5a, 5.25% of U5, 2.88% of U, 0.58% of total, sub=0

2.U5a2c1=1 11.1% of U5a, 5.26% of U5, 2.88% of U, 0.58% of total

1.U2'3'4'7'8'9=21 39.6% of U, 8% of total, sub=21

2.U4=14 66.7% of U2'3'4'7'8'9, 26.4% of U, 5.34% of total, sub=8

3.U4a=5 62.5% of U4, 41.6% of U2'3'4'7'8'9, 16.5% of U, 3.3% of total, sub=4

4.U4a2=2 50% of U4a, 31.15% of U4, 20.8% of U2'3'4'7'8'9, 8.254% of U, 1.67% of total, sub=1

5.U4a2a1=1 100% of U4a2, 50% of U4a, 31.15% of U4, 20.8% of U2'3'4'7'8'9, 8.25% of U, 1.67% of total, sub=0

4.U4a3=1 20% of U4a, 15.6% of U4, 10.4% of U2'3'4'7'8'9, 4.1% of U, 0.8% of total, sub=0

3.U4d1=2 25% of U4, 16.6% of U2'3'4'7'8'9, 6.6% of U, 1.33% of total, sub=1

4.U4d1a1=1 100% of U4d1, 25% of U4, 16.6% of U2'3'4'7'8'9, 6.6% of U, 1.33% of total, sub=0

3.U4c1a=1 12.5% of U4, 8.3% of U2'3'4'7'8'9, 3.3% of U, 0.667% of total, sub=0

2.U8=3 14.28% of U2'3'4'7'8'9, 5.6% of U, 1.14% of total, sub=3

3.U8a1a=2 66.7% of U8, 9.5% of U2'3'4'7'8'9, 3.77% of U, 0.76% of total, sub=1

4.U8a1a1a=1 100% of U8a1a, 66.7% of U8, 9.5% of U2'3'4'7'8'9, 3.77% of U, 0.76% of total, sun=0

3.U8b1b=1 33.3% of U8, 4.76% of U2'3'4'7'8'9, 1.9% of U, 0.38% of total, sub=0

2.U2e1a1=2 9.5% of U2'3'4'7'8'9, 3.77% of U, 0.76% of total, sub=1

3.U2e1a1a=1 100% of U2e1a1, 9.5% of U2'3'4'7'8'9, 3.77% of U, 0.76% of total, sub=0

2.U3=2 9.5% of U2'3'4'7'8'9, 3.77% of U, 0.76% of total, sub=1

3.U3b2a=1 100% of U3, 9.5% of U2'3'4'7'8'9, 3.77% of U, 0.76% of total, sub=0

1.U6a=3 5.6% of U, 1.14% of total, sub=2(U6a-T16189C!=1)

2.U6a1=2 100% of U6a, 5.6% of U, 1.14% of total, sub=0


T
1.T=28 9.9% of total, sub=26

2.T2=18 69% of T, 6.9% of total, sub=11

3.T2b=8 72.72% of T2, 50.3% of T, 5% of total, sub=5(T2b-T152C!=1)

4.T2b7a=2 40% of T2b, 29.1% of T2, 20.13% of T, 2% of total, sub=0

4.T2b11=1 20% of T2b, 14.505% of T2, 10.065% of T, 1% of total, sub=0

4.T2b4-T152C!=1 20% of T2b, 14.5% of T2, 10.06% of T, 1% of total, sub=0

4.T2b9=1 20% of T2b, 14.5% of T2, 10.06% of T, 1% of total, sub=0

3.T2a1b=2 18.18% of T2, 12.6% of T, 1.25% of total, sub=1

4.T2a1b1a1=1 100% of T2a1b, 18.18% of T2, 12.6% of T, 1.25% of total, sub=0

3.T2c=1 9.1% of T2, 6.3% of T, 0.625% of total, sub=0

2.T1=8 30.77% of T, 3.05% of total, sub=5

3.T1a1'3=5 100% of T1, 30.77% of T, 3.05% of total, sub=5

4.T1a1=4 80% of T1a1'3, 80% of T1, 24.6% of T, 2.44% of total, sub=1

5.T1a1b=1 100% of T1a1, 80% of T1a1'3, 80% of T1, 24.6% of T, 2.44% of total, sub=0

4.T1a3=1 20% of T1a1'3, 20% of T1, 6.15% of T, 0.6% of total, sub=0

K

1.K=27 9.57% of total, sub=18

2.K1=18 100% of K, 9.57% of total, sub=18

3.K1a=11 61.1% of K1, 61.1% of K, 5.85% of total, sub=10(K1a-C150T=1)

4.K1a4a1=3 30% of K1a, 18.3% of K1, 18.3% of K, 1.75% of total, sub=2

5.K1a4a1a2b=1 50% of K1a4a1, 15% of K1a, 9.16% of K1, 9.16% of K, 0.877% of total, sub=0

6.K1a4a1e=1 50% of K1a4a1, 15% of K1a, 9.16% of K1, 9.16% of K, 0.877% of total, sub=0

4.K1a10a=3 30% of K1a, 18.3% of K1, 18.3% of K, 1.75% of total, sub=0

4.K1a1b1=2 20% of K1a, 12.2% of K1, 12.2% of K, 1.17% of total, sub=2

5.K1a1b1b=1 50% of K1a1b1, 10% of K1a, 6.1% of K1, 6.1% of K, 0.585% of total, sub=0

5.K1a1b1c=1 50% of K1a1b1, 10% of K1a, 6.1% of K1, 6.1% of K, 0.585% of total, sub=0

4.K1a2c=2 20% of K1a, 12.2% of K1, 12.2% of K, 1.17% of total, sub=0

3.K1b=4 22.2% of K1, 22.2% of K, 2.12% of total, sub=4

4.K1b2a=3 75% of K1b, 16.67% of K1, 16.67% of K, 1.6% of total, sub=3

5.K1b2a1a=2 66.7% of K1b2a, 11.1% of K1, 11.1% of K, 1.06% of total, sub=1

6.K1b2a1a1=1 100% of K1b2a1a, 66.7% of K1b2a, 11.1% of K1, 11.1% of K, 1.06% of total, sub=0

5.K1b2a2a=1 33.3% of K1b2a, 5.55% of K, 0.503% of total, sub=0

4.K1b1a1=1 25% of K1b, 5.5% of K1, 5.5% of K, 0.53% of total, sub=0

3.K1c=3 16.67% of K1, 16.67% of K, 1.6% of total, sub=3

4.K1c2=2 66.7% of K1c, 11.1% of K1, 11.1% of K, 1.06% of total, sub=0

4.K1c1=1 33.34% of K1c, 5.5% of K1, 5.5% of K, 0.503% of total, sub=0


J

1.J=24 8.5% of total, sub=17

2.J1c=10 58.8% of J, 5% of total, sub=10

3.J1c2=4 40% of J1c, 23.5% of J, 2% of total, sub=2

4.J1c2a3=1 50% of J1c2, 20% of J1c, 11.76% of J, 1% of total, sub=0

4.J1c2c2=1 50% of J1c2, 20% of J1c, 11.76% of J, 1% of total, sub=0

3.J1c6'7'12'13'14=3 30% of J1c, 17.64% of J, 1.5% of total, sub=3

4.J1c7a=2 66.7% of J1c6'7'12'13'14, 20% of J1c, 11.76% of J, 1% of total, sub=0

4.J1c12=1 33.3% of J1c6'7'12'13'14, 10% of J1c, 5.88% of J, 0.5% of total, sub=0

3,J1c3=2 20% of J1c, 11.76% of J, 1% of total, sub=1

4.J1c3c=1 100% of J1c3, 20% of J1c, 11.76% of J, 1% of total, sub=0

3.J1c8a=1 10% of J1c, 5.88% of J, 0.5% of total, sub=0

2.J2a1a1=7 41.7% of J, 3.5% of total, sub=6

3.J2a1a1a=6 100% of J2a1a1, 41.7% of J, 3.5% of total, sub=4

4.J2a1a1a2=4 100% of J2a1a1a, 100% of J2a1a1, 41.7% of J, 3.5% of total, sub=0


HVO

1.HVO=12 4.25% of total, sub=12

2.V=9 75% of HVO, 3.2% of total, sub=5

3.V10a=2 40% of V, 30% of HVO, 1.27% of total, sub=0

3.V1a1=1 20% of V, 15% of HVO, 0.635% of total, sub=0

3.V7a1=1 20% of V, 15% of HVO, 0.635% of total, sub=0

3.V8=1 20% of V, 15% of HVO, 0.635% of total, sub=0

2.HVOf=3 25% of HVO, 1.06% of total, sub=0


X

1.X=6 2.12% of total, sub=3

2.X2c1=3 100% of X, 2.12% of total, sub=0

N1a

1.N1a=6 2.1% of total, sub=6

2.I=4 66.7% of N1a, 1.42% of total, sub=2

3.I1=2 100% of I, 66.7% of N1a, 1.42% of total, sub=2

4.I1a1a=1 50% of I1, 50% of I, 33.35% of N1a, 0.71% of total, sub=0

5.I1b=1 50% of I1, 50% of I, 33.35% of N1a, 0.71% of total, sub=0

2.N1a(don't know if I-)=2 33.3% of N1a, 0.71% of total, sub=0

M, the rest of the mtDNA is under M's sister clade N

1.M=5 1.7% of total, sub=5

2.CZ=4 80% of M, 1.42% of total, sub=4

3.C=2 50% of CZ, 0.71% of total, sub=1

4.C4a1c=1 100% of C, 50% of CZ, 0.71% of total, sub=0

3.Z=2 50% of CZ, 0.71% of total, sub=1

4.Z1a1a=1 100% of Z, 50% of CZ, 0.71% of total, sub=0

2.G2a=1 20% of M, 0.35% of total, sub=0
HV

1.HV=4 1.42% of total, sub=0(HV-T16311C!=1)
W5a1a

1.W5a1a=1 0.35% of total, sub=0



Name or Year mtDNA=147

1.H=68 46.26% of total, sub=38(if=53)

2.H1=14 36.84% of H1(if H1=20 37.7% of H), 17% of total(if 17.45% of total), sub=13(if sub=14)

3.H1c=5 38.46% of H1(if H1c=6 42.86% of H1), 14.17% of H(if 16.17% of H), 6.55% of total(if 7.48% of total), sub=3

4.H1c1=1 33.3% of H1c, 12.8% of H1(if 14.28% of H1), 4.7% of H(if 5.4% of H), 2.18% of total(if 2.5% of total), sub=0

4.H1c2=1 33.3% of H1c, 12.8% of H1(if 14.28% of H1), 4.7% of H(if 5.4% of H), 2.18% of total(if 2.5% of total), sub=0

4.H1c3b=1 33.3% of H1c, 12.8% of H1(if 14.28% of H1), 4.7% of H(if 5.4% of H), 2.18% of total(if 2.5% of total), sub=0

3.H1b'f'g'k'y'z'aa'ab'ac'ad=6 46.15% of H1(if 42.8% of H1), 17% of H(if 16.17% of H), 7.86% of total(if 7.48% of total), sub=6

4.H1b=4 66.7% of H1b'f'g'k'y'aa'ab'ac'ad, 30.77% of H1(if 28.57% of H1), 11.3% of H(if 10.78% of H), 5.2% of total(if 5% of total), sub=2

5.H1b1=2 100% of H1b, 66.7% of H1b'f'g'k'y'aa'ab'ac'ad, 30.77% of H1(if 28.57% of H1), 11.3% of H(if 10.78% of H), 5.2% of total(if 5% of total), sub=0(H1b1-T16362C=1)

4.H1g1=2 33.3% of H1b'f'g'k'y'aa'ab'ac'ad, 15.38% of H1(if 14.28% of H1), 5.67% of H(if 5.4% of H), 2.62% of total(if 2.5% of total), sub=0

3.H1a=1 7.7% of H1(if 7.14% of H1), 2.8% of H(if 2.7% of H), 1.31% of total(if 1.24% of total), sub=0

3.H1bs=1 7.7% of H1(if 7.14% of H1), 2.8% of H(if 2.7% of H), 1.31% of total(if 1.24% of total), sub=0

2.H2a=8 21% of H(if H2=9 17% of H, sub=8, H2a=8 100% of H2), 9.7% of total(if H2=7.85% of total), sub=8

3.H2a1=5 62.5% of H2a(if 55.5% of H2 and 62.5% H2a), 13.15% of H(if 9.4% of H), 6.1% of total(if 4.36% of total), sub=0

3.H2a2a1=2 25% of H2a(if 22.2% of H2, and 25% of H2a), 5.26% of H(if 3.77% of H), 2.4% of total(if 1.74% of total), sub=1

4.H2a2a1b=1 100% of H2a2a1, 25% of H2a(if 22.2% of H2, and 25% of H2a), 5.26% of H(if 3.77% of H), 2.4% of total(if 1.74% of total), sub=0

3.H2a5b=1 12.5% of H2a(if 11.1% of H2, and 12.5% of H2a), 2.63% of H(if 1.885% of H), 1.2% of total(if 0.87% of total), sub=0

2.H5=3 7.89% of H(if H5=6 11.3% of H), 3.65% of total(if 5.23% of total), sub=0

2.H3=3 7.89% of H(if 7.54% of H), 3.65% of total(if 3.5% of total), sub=3

3.H3h=2 66.7% of H3, 5.26% of H(if 3.77% of H), 2.4% of total(if 1.74% of total), sub=1

4.H3h1=1 100% of H3h, 66.7% of H3, 5.26% of H(if 3.77% of H), 2.4% of total(if 1.74% of total), sub=0

3.H3b-G16129A1=1 33.3% of H3, 2.63% of H(if 1.885% of H), 1.2% of total(if 0.87% of total), sub=0

2.H6=3 7.9% of H(if H6=5 9.435 of H), 3.65% of total(if 4.36% of H), sub=3(if sub=5)

2.H6a1a=2 66.7% of H6, 5.26% of H(if H6a=4 80% of H, 7.54% of H, sub=2 H6a1a=2 100% of H6a), 2.43% of total(if H6a and H6a1a 3.5% of total), sub=0

2.H6c=1 33.3% of H6(if 20% of H6), 2.6% of H(if 3.14% of H), 1.2% of total(if 1.45% of total), sub=0

2.H10=2 5.26% of H(if H10=3 5.6% of H), 2.4% of total(if 2.6% of total), sub=2

3.H10d=1 50% of H10, 2.6% of H(if 2.8% of H), 1.2% of total(if 1.3% of total), sub=0

3.H10e=1 50% of H10, 2.6% of H9if 2.8% of H), 1.2% of total(if 1.3% of total), sub=0

2.H49a=2 5.26% of H(if 3.77% of H), 2.4% of total(if 1.74% of total), sub=1

3.H49a1=1 100% of H49a, 5.26% of H(if 3.77% of H), 2.4% of total(if 1.74% of total), sub=0

2.H4a1a1a=1 2.6% of H(if 1.88% of H), 1.2% of total(if 0.87% of total), sub=0

2.H31=1 2.6% of H(if 1.88% of H), 1.2% of total(if 0.87% of total), sub=0

2.H23=1 2.6% of H(if 1.88% of H), 1.2% of total(if 0.87% of total), sub=0

2.H11=0(if H11=1 1.88% of H, 0.87% of total, sub=0)

T

1.T=18 12.2% of total, sub=15

2.T2=12 80% of T, 9.8% of total, sub=7

3.T2b=4 57.14% of T2, 45.7% of T, 5.6% of total, sub=1

4.T2b2b=1 100% of T2b, 57.14% of T2, 45.7% of T, 5.6% of total, sub=0

3.T2c-T146C!=1 14.28% of T2, 11.4% of T, 1.4% of total, sub=0

3.T2f1a=1 14.28% of T2, 11.4% of T, 1.4% of total, sub=0

3.T2g1=1 14.28% of T2, 11.4% of T, 1.4% of total, sub=0

2.T1a1=3 20% of T, 2.45% of total, sub=0


U(K-)

1.U=17 11.56% of total, sub=14

2.U5=12 85.7% of U, 9.9% of total, sub=6

3.U5a=3 50% of U5, 42.8% of U, 4.95% of total, sub=3

4.U5a1a1=2 66.7% of U5a, 33.3% of U5, 28.57% of U, 3.3% of total, sub=2

5.U5a1a1b=1 50% of U5a1a1, 33.3% of U5a, 16.67% of U5, 14.28% of U, 1.65% of total, sub=0

5.U5a1a1d=1 50% of U5a1a, 33.3% of U5a, 16.67% of U5, 14.28% of U, 1.65% of total, sub=0

4.U5a2d1=1 33.3% of U5a, 16.67% of U5, 14.285 of U, 1.65% of total, sub=0

3.U5b1=3 50% of U5, 42.8% of U, 4.95% of total, sub=2(U5b1-T16189C!-T1619SC!=1)

4.U5b1b1-T152C!=1 50% of U5b1, 25% 0f U5, 21.4% of U, 2.478% of total, sub=0

4.U5b1e1=1 50% of U5b1, 25% of U5, 21.4% of U, 2.478% of total, sub=0

2.U3=1 7.14% of U, 0.826% of total, sub=0

2.U4=1 7.14% of U, 0.826% of total, sub=0

J

1.J=16 10.88% of total, sub=10

2.J1c=7 70% of J, 7.62% of total, sub=7

3.J1c2=3 42.8% of J1c, 30% of J, 3.26% of total, sub=2

4.J1c2c=1 50% of J1c2, 21.4% of J1c, 15% of J, 1.6% of total, sub=0

4.J1c2e=1 50% of J1c2, 21.4% of J1c, 15% of J, 1.6% of total, sub=0

3.J1c3=2 28.57% of J1c, 20% of J, 2.17% of total, sub=1

4.J1c3e2=1 100% of J1c3, 28.57% of J1c, 20% of J, 2.17% of total, sub=0

3.J1c7a=2 28.57% of J1a, 20% of J, 2.17% of total, sub=0

2.J2=3 30% of J, 3.26% of total, sub=3

3.J2a1a1=2 66.7% of J2, 20% of J, 2.17% of total, sub=1

4.J2a1a1a2=1 100% of J2a1a1, 66.7% of J2, 20% of J, 2.17% of total, sub=0

3.J2b1a=1 33.3% of J2, 10% of J, 1.08% of total, sub=0


K

1.K=13 8.84% of total, sub=9

2.K2=5 55.5% of K, 4.9% of total, sub=5

3.K2b=3 60% of K2, 33.3% of K, 3% of total, sub=3

4.K2b2=2 66.75 of K2b, 40% of K2, 22.2% of K, 2% of total, sub=0

4.K2b1a1=1 33.3% of K2b, 20% of K2, 11.1% of K, 1% of total, sub=0

3.K2a=2 40% of K2, 22.2% of K, 2% of total, sub=1

4.K2a3=1 100% of K2a, 40% of K2, 22.2% of K, 2% of total, sub=0

2.K1=4 44.4% of K, 4% of total, sub=4

3.K1a4a1a=2 50% of K1, 22.2% of K, 2% of total, sub=1(K1a4a1a-T195C!=1)

4.K1a4a1a2a=1 100% of K1a2a1a, 50% of K1, 22.2% of K, 2% of total, sub=0

3.K1b=2 50% of K1, 22.2% of K, 2% of total, sub=2

4.K1b1a1=1 50% of K1b, 25% of K1, 11.1% of K, 1% of total, sub=0

4.K1b2a2a=1 50% of K1b, 25% of K1, 11.1% of K, 1% of total, sub=0

HVO

1.HVO=6 4% of total, sub=6

2.V=4 66.7% of HVO, 2.7% of total, sub=2

3.V1a1=2 100% of V, 66.7% of HVO, 2.7% of total, sub=1

4.V1a1a=1 100% of V, 66.7% of HVO, 2.7% of total, sub=0

2.HVO-T195C!=2 33.3% of HVO, 1.36% of total, sub=0


Haplogroups with two or less

1.HV9=2 1.36% of total, sub=0(HV9-T152C!=1)

1.X=2 1.36% of total, sub=1

2.X2c1a=1 100% of X, 1.36% of total, sub=0

1.I=2 1.36% of total, sub=1

2.I4a=1 100% of I, 1.36% of total, sub=0

1.W=2 1.36% of total, sub=0(W-C194T=1)

1.D5a3a=1 0.68% of total, sub=0
Box mtDNA=33

H

1.H=12 36.36% of total, sub=5(if sub=8)

2.H5=2 40% of H(if H5=2 25% of H), 14.54% of total(if 9.09% of total), sub=1

3.H5a1e=1 100% of H5, 40% of H(if 25% of H), 14.54% of total(if 9.09% of total), sub=0

2.H6a=0(if=2 35% of H, 14.54% of total, sub=0)

2.H2a1=1 20% of H(if H2=2 25% of H, sub=1, H2a1=1 100% of H2), 7.27% of total(if 9.09% of total), sub=0

2.H4a1a1a=1 20% of H(if 12.5% of H), 7.27% of total(if 4.54% of total), sub=0

2.H82=1 20% of H(if 12.5% of H), 7.27% of total(if 4.54% of total), sub=0


U(-K)

1.U=6 18.18% of total, sub=6

2.U5=5 83.3% of U, 15.15% of total, sub=4

3.U5a1=3 75% of U5, 62.5% of U, 11.36% of total, sub=3

4.U5a1b=2 66.7% of U5a1, 50% of U5, 41.6% of U, 7.57% of total, sub=2

5.U5a1b1b=1 50% of U5a1b, 33.3% of U5a1, 25% of U5, 20.83% of U, 3.78% of total, sub=0

5.U5a1b3=1 50% of U5a1b, 33.3% of U5a1, 25% of U5, 20.83% of U, 3.78% of total, sub=0

4.U5a1c2=1 33.3% of U5a1, 25% of U5, 20.8% of U, 3.78% of total, sub=0

3.U5b1b1a=1 25% of U5, 20.8% of U, 3.78% of total, sub=0

2.U4a3=1 16.67% of U, 3.03% of total, sub=0
Haplogroups with five or less

1.K=4 12.12% of total, sub=2

2.K1=2 100% of K, 12.12% of total, sub=2

3.K1a4a1a-T195C!=1 50% of K1, 50% of K, 6.06% of total, sub=0

3.K1b2a1a=1 50% of K1, 50% of K, 6.06% of total, sub=0

1.T=3 9.09% of total, sub=3

2.T1=2 66.7% of T, 6.06% of total, sub=0

2.T2b11=1 33.3% of T, 3.03% of total, sub=0

1.J=3 9.09% of total, sub=0

1.V9a2=1 3.03% of total, sub=0

1.I=1 3.03% of total, sub=0

1.HV=1 3.03% of total, sub=0

1.N1a1a=1 3.03% of total, sub=0

1.C4a1c=1 3.03% of total, sub=0

Don't rely on a projects too much, because people from certain regions were more likely to immigrate to the USA(most of the tested are Yanks). And as we know, region can can make a difference.
In Poland there are overepresented and underrepresented regions at FTDNA, so why not in Sweden? Polish project is even more hilarious, because it contains many Jews :)

Maciamo gets data from many papers and averages it(or uses bigger sampled study), he probably can reply to your query. I saw that he did it on various requests. I appreciate your work but you probably just lose time.

Don't rely on a projects too much, because people from certain regions were more likely to immigrate to the USA(most of the tested are Yanks). And as we know, region can can make a difference.
In Poland there are overepresented and underrepresented regions at FTDNA, so why not in Sweden? Polish project is even more hilarious, because it contains many Jews :)

Maciamo gets data from many papers and averages it(or uses bigger sampled study), he probably can reply to your query. I saw that he did it on various requests. I appreciate your work but you probably just lose time.

I didn't organize Swedish mtDNA into regions so that wont be a problem. Norway though almost ever kit tells what region in Norway it descends from I might organize it by region but that will probably take weeks before I can get completely organized. Maciamo doesn't like me and banned my IP address from even viewing his forum as a guest. I don't understand why Europeans are so snobby Maju(Basque) and other Europeans I have gotten into to little conflicts with and apologized for my wrongs react similarly to Maciamo, like little girls. I really doubt Maciamo will ever respond to me. I trust that he cares a lot about what he writes and wants it to be accurate. Recently though he has focused more on mtDNA and honestly what he says half the time seems to be BS and sadly some people believe everything he says. He has knowledge of very deep subclades in Y DNA and mtDNA, I bet he does stuff similar to what I am doing.

I thought about whether I should do this or not and I don't think it was a waste of time at all. After doing the same for Norway and Finland I will know in detail what mtDNA in Scandinavia is. Knowing they have ~40% mtDNA H doesn't tell anything I need to know the percentage of every little subclade, compare it to other nations, ethnic groups, regions, etc., ancient mtDNA, etc. I looked over many country projects in Y DNA and mtDNA, I was very anger that in the country projects many of the people were not from that country. Why would FTDNA allow that? Overall though the vast majority are and that is the reason I made the country section(Sweden) so I know which ones have proof their maternal line is from the project's country.

Part of the reason I want to look at Scandinavian mtDNA is because both north Germanic Swedish-Norwegian and Volgiac-Ugric Finnish-Sami probably mainly descend from people who arrived from mainland Europe in the metal ages or late Neolithic not from Mesolithic people like the ones Laz 2013 studied. People(including Maciamo) always make a big deal about close to 50% mtDNA U5 in Sami, but all of it is under U5b1b1 and I am pretty sure all is actually U5b1b1a. The majority of Finnish U5(over 20%) is under U5b1b1b1 and U51b1b2, both are estimated to be only 4,000 years old and from what I hear probably arrived in Scandinavia from the eastern Baltic during the bronze age. All U5 so far taken from stone age hunter gatherers of Scandinavia is under U5a, if anything Swedish-Norwegian have the highest amount of U5 from the hunter gatherers of Scandinavia. There isn't one V or HVO sample from stone age Scandinavian hunter gatherers and there is only one debated V sample from Mesolithic Portugal.

mtDNA U2e and U4 were major in stone age hunter gatherers of Scandinavia and probably most of Europe but are extremely rare in Scandinavia today and from what I know haven't been found in Sami. Even though Scandinavians have been found through Laz 2013 to have very high amounts of European hunter gatherer ancestry they also have very significant farmer ancestry and are probably barely descended from the original Mesolithic people of Scandinavia. Sami traditionally are not farmers but I would bet my life their ancestors who lived in mainland Europe 6,000 years or so ago were farmers or possibly some were still hunter gatherers.

Y DNA N1c1, I1a2c, I1a2d are what make Finnish-Sami(?) unique from Swedish-Norwegian R1a, R1b, I2a2, all other I1 is what makes Swedish Norwegian unique from Finnish-Sami. R1a(almost all under Z284) probably came with Corded ware culture over 4,000 years ago and R1b(almost all under L11) and I2a2 P214(almost all under M223) came over 3,000 years ago possibly with Germanic languages. Since Corded ware culture also existed in Finland some R1a may just be from Finland. I have no idea when N1c1 would have arrived in Scandinavia and I think it may be connected with the spread of Finnish-Sami ethnic groups from probably eastern Europe around Russia where there are other Finno-Urgic's.

Y DNA I1a2 L22 is the only thing in Y DNA that connects the two major people groups of Scandinavia I don't think it has a Germanic, Uralic, or Mesolithic origin in Scandinavia. It may be descended from a now extinct ethnic group so ancient Y DNA would be the only way to find when it came. We already know it probably didn't arrive in the Mesolithic since all five of the I's from Mesolithic Motola Sweden were negative for I1 and all tested were positive for I2. Y DNA I1 is not only Scandinavian though it is much more diverse and probably originated in mainland Europe. A lot has already been discovered about the genetic history of modern Scandinavians but there is still a lot not known.

Part of the reason I want to look at Scandinavian mtDNA is because both north Germanic Swedish-Norwegian and Volgiac-Ugric Finnish-Sami probably mainly descend from people who arrived from mainland Europe in the metal ages or late Neolithic not from Mesolithic people like the ones Laz 2013 studied. People(including Maciamo) always make a big deal about close to 50% mtDNA U5 in Sami, but all of it is under U5b1b1 and I am pretty sure all is actually U5b1b1a. The majority of Finnish U5(over 20%) is under U5b1b1b1 and U51b1b2, both are estimated to be only 4,000 years old and from what I hear probably arrived in Scandinavia from the eastern Baltic during the bronze age. All U5 so far taken from stone age hunter gatherers of Scandinavia is under U5a, if anything Swedish-Norwegian have the highest amount of U5 from the hunter gatherers of Scandinavia. There isn't one V or HVO sample from stone age Scandinavian hunter gatherers and there is only one debated V sample from Mesolithic Portugal.
Indeed, I've never understood that hype on Saami. They are neither old nor representative and stay contrary to the aDNA results from Scandinavia and mainland Europe.


mtDNA U2e and U4 were major in stone age hunter gatherers of Scandinavia and probably most of Europe but are extremely rare in Scandinavia today and from what I know haven't been found in Sami. Even though Scandinavians have been found through Laz 2013 to have very high amounts of European hunter gatherer ancestry they also have very significant farmer ancestry and are probably barely descended from the original Mesolithic people of Scandinavia. Sami traditionally are not farmers but I would bet my life their ancestors who lived in mainland Europe 6,000 years or so ago were farmers or possibly some were still hunter gatherers.
U4 isn't such rare as U2e, maybe because U4 got likely re-introduced by Indo-Europeans. Although I know what are you trying to say by this. :)

Y DNA N1c1, I1a2c, I1a2d are what make Finnish-Sami(?) unique from Swedish-Norwegian R1a, R1b, I2a2, all other I1 is what makes Swedish Norwegian unique from Finnish-Sami. R1a(almost all under Z284) probably came with Corded ware culture over 4,000 years ago and R1b(almost all under L11) and I2a2 P214(almost all under M223) came over 3,000 years ago possibly with Germanic languages. Since Corded ware culture also existed in Finland some R1a may just be from Finland. I have no idea when N1c1 would have arrived in Scandinavia and I think it may be connected with the spread of Finnish-Sami ethnic groups from probably eastern Europe around Russia where there are other Finno-Urgic's.
I'm not an expert on N1c but it was rather introduced from the East or Southeast of Finland when the older branches are found.


Y DNA I1a2 L22 is the only thing in Y DNA that connects the two major people groups of Scandinavia I don't think it has a Germanic, Uralic, or Mesolithic origin in Scandinavia. It may be descended from a now extinct ethnic group so ancient Y DNA would be the only way to find when it came. We already know it probably didn't arrive in the Mesolithic since all five of the I's from Mesolithic Motola Sweden were negative for I1 and all tested were positive for I2. Y DNA I1 is not only Scandinavian though it is much more diverse and probably originated in mainland Europe. A lot has already been discovered about the genetic history of modern Scandinavians but there is still a lot not known.
It will take years when people finally stop to name I1 as a true "Germanic" haplogroup. We all know it must have been a conglomerate, Germanic languages wouldn't have emerged without Corded Ware "proto-Balto-Slavs".

In the new Laz 2013 study they have K2-20 results of the new samples from Mesolithic Europe, the one LBK girl, MA1, and a good representation of literally every modern population. The Sami have the least amount of farmer admixture in Europe, they had no purple which was dominate in the LBK girl and seems to represent what is usually called Meditreaen. They do have some pink which seems to be west Asian and also some east Asian in them. The nearly 100% of mtDNA U5b1b1a and V must just be random genetic drift and come from the same stock as Finnish but they still seem to have more hunter gatherer ancestry. I wish I could see Sami results in ANE, WGH, and EEF admixture (http://bga101.blogspot.com/2013/12/eef-whg-ane-test-for-europeans.html).

You would not believe some of the things Maciamo says on his site. He claims mtDNA U5 slowly became less popular in Europe from the Neolithic-middle ages. It was only the Neolithic and he also says the reason Sami have so much is because they are from far northeastern Europe were farming reached last, but there is no U5 diversity in Sami, no U2e, no U4, and Mesolithic Scandinavian samples so far all their U is under U5a, and there isn't one for sure V sample from European hunter gatherers but many from farmers. He claims Corded ware culture was dominated by U5a and U4 which made them closely related to Pitted ware culture, what???? He must be completely ignoring the mtDNA results from Corded ware and the fact both those haplogroups have been found in pre Neolithic Europe and are extremely spread out and ancient. Maciamo sometimes makes big statements gives little info about his sources so no one knows what he is saying is very debated.

U4 I know I more common than U2e, but I don't think it was just U4. U2e, and U5a I think were also reintroduced or became more popular in many parts of Europe by Indo Europeans.

It gets annoying how people assume I1 is only Scandinavian or only Germanic. Maciamo still has it labeled the original paternal lineage of Nordic Europe, actually we now know I2a1b* or just I2a was probably the original paternal lineage of Nordic Europe, I1a2 L22 probably came after the Mesolithic or possibly along side I2's.

Situation seems similar to Denmark in regards to U5 at least, not surprising as they are neighboring countries of course.

I wish I could see Sami results in ANE, WGH, and EEF admixture (http://bga101.blogspot.com/2013/12/eef-whg-ane-test-for-europeans.html).

Anders Pålsen did the test on one of his North Saami samples and it turned out something like EEF 30,4 % WHG 49,9 % ANE 19,7 %.

Even when considering siberian-type component in Saami causing possible distortion in form of increased WHG or ANE, that's a high number. Mari are 30% Siberian + Amerindian in K13 and their average is:
EEF 33,74901373
WHG 46,50716749
ANE 19,74381877

Despite having by far the highest Siberian among all K13 populations living west of Urals, Mari (and Chuvash) get much lower WHG than the North Saami individual, and lower than Finnish and Estonian averages too.

Anders Pålsen did the test on one of his North Saami samples and it turned out something like EEF 30,4 % WHG 49,9 % ANE 19,7 %.

Even when considering siberian-type component in Saami causing possible distortion in form of increased WHG or ANE, that's a high number. Mari are 30% Siberian + Amerindian in K13 and their average is:
EEF 33,74901373
WHG 46,50716749
ANE 19,74381877

Despite having by far the highest Siberian among all K13 populations living west of Urals, Mari (and Chuvash) get much lower WHG than the North Saami individual, and lower than Finnish and Estonian averages too.

If that is what the north Sami person got it that is higher WGH and lower EEF than any modern Europeans it is a tiny bit higher and lower than Finnish, Estonians, and Lithuanians. The K=2-20 results from Laz 2013 is a dream come true. you can compare literally every population in the world to each other. I knew the Sami were going to be around the top for WGH but I also knew they would have significant farmer ancestry because of their mtDNA V and relation to Finnish. The EEF is based on 7,500BP farmer girl from LBK culture in Germany, ~5,300ybp very early copper age farmer from the alps named Otzi, and ~5,000 year old farmer from southern Sweden and was apart of Funnel Beaker culture. All those samples had significant hunter gatherer ancestry so overall Sami and probably other northeastern or northern Europeans definitely have over 50% pre Neolithic European ancestry.

There is a pretty high amount of Siberian ancestry in Finnish-Sami and far eastern Europeans period, but I doubt it raised WGH or ANE that much. I am surprised about the somewhat low amount of WGH in Mari I wonder what other Uralic and Turkic people in far eastern Europe will get.

This new WGH, EEF, and ANE test is constant with mtDNA which has found there are no full blooded European hunter gatherers left, the farmers eventfully took all of Europe.

Situation seems similar to Denmark in regards to U5 at least, not surprising as they are neighboring countries of course.

One of my main interests and reasons for organizing mtDNA from FTDNA was to get an idea of how U5 subclades are distributed. U5's lineage has been in Europe for over 30,000 years(proven by ancient mtDNA) so figuring out the history of U5 in Europe can tell a lot about the population history of Europe. I have always wondered if U5 in for example Spain is descended from the U5 that was there in the Mesolithic or descended from U5 the ancestors of the first farmers in Iberia mixed with somewhere east. I bet U5 in regions of Europe are admixtures of native U5 and U5 that migrated along with new farmer lineages like J, K, T, etc. My haplogroup U5b2a2 I read on FTDNA's U5 page is mainly in central Europe and there is a ~10,700ybp U5b2a2 sample in Germany and multiple ones from the Neolithic so most U5b2a2 in central Europe has probably been there since the Mesolithic. U5b2c I have heard is mainly in western Europe and the ~7,000 year old La Branas in Spain had U5b2c1. U5a1b I have noticed is popular in Germanic people there are some on this thread but besides that I know nothing about it.

Part of the reason I want to look at Scandinavian mtDNA is because both north Germanic Swedish-Norwegian and Volgiac-Ugric Finnish-Sami probably mainly descend from people who arrived from mainland Europe in the metal ages or late Neolithic not from Mesolithic people like the ones Laz 2013 studied. People(including Maciamo) always make a big deal about close to 50% mtDNA U5 in Sami, but all of it is under U5b1b1 and I am pretty sure all is actually U5b1b1a. The majority of Finnish U5(over 20%) is under U5b1b1b1 and U51b1b2, both are estimated to be only 4,000 years old and from what I hear probably arrived in Scandinavia from the eastern Baltic during the bronze age. All U5 so far taken from stone age hunter gatherers of Scandinavia is under U5a, if anything Swedish-Norwegian have the highest amount of U5 from the hunter gatherers of Scandinavia.
Intresting, so my mtDNA is original Scandinavian hunter-gatherer in origin then? :cool:
Anyways, isn't it possible that U5b evolved from U5a in Scandinavia? Sorry if I'm not that knowledgeable.

I am surprised about the somewhat low amount of WGH in Mari I wonder what other Uralic and Turkic people in far eastern Europe will get.

Chuvash and Mari get more EEF than Estonians and Finns even though they have much higher Siberian. North Saami may have as much Siberian as Chuvash (and much more than Estonians, Finns, Mordovians and North Russians), at least the one in Laz study did, but they get more WHG.


This new WGH, EEF, and ANE test is constant with mtDNA which has found there are no full blooded European hunter gatherers left, the farmers eventfully took all of Europe.

This is the highest hunter-gatherer result I've seen:
EEF 28,32120738
WHG 51,56928228
ANE 20,10951034

with this kind of K13 result: North_Atlantic 37,35 Baltic 49,5 West_Med 0,97 South_Asian 1,96 Siberian 7,85 Amerindian 1,93 Oceanian 0,13 Northeast_African 0,3

Another interesting result was from a Russian with four grandparents from Western Urals region: EEF 38.9 WHG 42.6 ANE 18.4

K13 results:
North_Atlantic 24.8
Baltic 43.2
West_Med 6.2
West_Asian 11.9
East_Med 0.0
Red_Sea 0.0
South_Asian 0.7
East_Asian 0.0
Siberian 10.2
Amerindian 2.3
Oceanian 0.4
Northeast_African 0.2
Sub-Saharan 0.1

More EEF than Estonians, Finns and Lithuanians despite having more Siberian and Amerindian than any of them. It also looks like there's higher levels of West Asian component to be found when you leave Baltic region and get closer to Urals, which then disappears in true Siberians.

For example Chuvash average: EEF 37,41915171 WHG 43,54254147 ANE 19,03830682
20,08% Siberian but also 8,74% West Asian. More "farmer" than Lithuanians.

Anyways, isn't it possible that U5b evolved from U5a in Scandinavia? Sorry if I'm not that knowledgeable.

Looking at current distribution of U5b's subclades in U5 dna project's map, they all could easily have developed in Europe but not in Scandinavia. The ancestral subclades are found in mainland Europe.

Intresting, so my mtDNA is original Scandinavian hunter-gatherer in origin then? :cool:
Anyways, isn't it possible that U5b evolved from U5a in Scandinavia? Sorry if I'm not that knowledgeable.

It is definitely possible your mtDNA is descended from some of the earliest Scandinavians since U5a1 has been found in Sweden from 6,000BC along with U5a2(and U5a2d) and U2e1. for more about the DNA results of those Mesolithic Swede's, a Mesolithic man from Luxemburg, a early Neolithic farmer from Germany, and a 24,000 year old boy from Siberia click here (http://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&cad=rja&ved=0CCwQFjAA&url=http%3A%2F%2Feurogenes.blogspot.com%2F2013%2F1 2%2Fancient-human-genomes-suggest-three.html&ei=1QXKUva2JcKmyQHX2IHgCw&usg=AFQjCNH6fXXTByetkzyefg2KrWZlyc_dxg&sig2=o2pzrlxEqryb4dnbyEDPBQ&bvm=bv.58187178,d.aWc). U5a1 is very old though it is estimated to be around 20,000 years old, so 10,000 years before most of Scandinavia was first settled by humans. U5a1 has also been found in about 10,000 year old remains in far far eastern European Russia. So it is also possible your U5a1 line came to Sweden later. I have a thread Ancient Eurasian DNA organized 2 (http://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&cad=rja&sqi=2&ved=0CCwQFjAA&url=http%3A%2F%2Fwww.theapricity.com%2Fforum%2Fsho wthread.php%3F106283-Ancient-Eurasian-DNA-Organized-2&ei=BQXKUu3hIImEygHs84CQDA&usg=AFQjCNGa68d7wLwNwroClVfWb2NFyTVyUg&sig2=EusfuyWaOPr8FDm2uJs4lA&bvm=bv.58187178,d.aWc) were I organized all the DNA from Ancestral journey's (http://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&cad=rja&ved=0CEMQFjAA&url=http%3A%2F%2Fwww.ancestraljourneys.org%2F&ei=ZwXKUqGPBqWOyAGo0YGwDw&usg=AFQjCNGxFkyfmYfchqwhHCwxYf593URSWg&sig2=o-5A9jlyUM5KWv-g9CM2ig&bvm=bv.58187178,d.aWc) I haven't been able to update though for about a month.

To get an idea of how the naming system in mtDNA works and the complete human tree click here (http://www.phylotree.org/tree/main.htm). I have just started to understand the science behind mtDNA haplogroups and this is all I know: mtDNA is passed down from mother to children and is almost never influenced by the father, the control region has two sections HVR1 and HVR2 they mutate at a very high rate so can be used better to find lineages, SNP's in HVR1 and HVR2 are used to find lineages. I have heard about FMS and FGS or whatever used in mtDNA, what I said is all I know you can look stuff up to learn about it. U5a and U5b are tow distinct lineages that branch from U5, U5a is not ancestral to U5b.

Looking at current distribution of U5b's subclades in U5 dna project's map, they all could easily have developed in Europe but not in Scandinavia. The ancestral subclades are found in mainland Europe.

From what I have read and have been told Scandinavia was not settled until around 10,000 years ago, and there are over 10,000 year old U5b1 and U5b2 samples in Europe so of course it didn't originate in Scandinavia.

Sorry

I was trying to get my head round the Subs and all that. :P

To get a Pie chat like this


http://img541.imageshack.us/img541/9212/k4ys.png

I like that circle graph, I was going to do the same with excel.

Intresting, so my mtDNA is original Scandinavian hunter-gatherer in origin then? :cool:
Anyways, isn't it possible that U5b evolved from U5a in Scandinavia? Sorry if I'm not that knowledgeable.
At the time of such split Scandinavia was probably totally uninhabited, giving the age of U5a and U5b :D.
It was the mainland Europe, for sure.

I didn't organize Swedish mtDNA into regions so that wont be a problem. Norway though almost ever kit tells what region in Norway it descends from I might organize it by region but that will probably take weeks before I can get completely organized. Maciamo doesn't like me and banned my IP address from even viewing his forum as a guest. I don't understand why Europeans are so snobby Maju(Basque) and other Europeans I have gotten into to little conflicts with and apologized for my wrongs react similarly to Maciamo, like little girls. I really doubt Maciamo will ever respond to me. I trust that he cares a lot about what he writes and wants it to be accurate. Recently though he has focused more on mtDNA and honestly what he says half the time seems to be BS and sadly some people believe everything he says. He has knowledge of very deep subclades in Y DNA and mtDNA, I bet he does stuff similar to what I am doing.

I thought about whether I should do this or not and I don't think it was a waste of time at all. After doing the same for Norway and Finland I will know in detail what mtDNA in Scandinavia is. Knowing they have ~40% mtDNA H doesn't tell anything I need to know the percentage of every little subclade, compare it to other nations, ethnic groups, regions, etc., ancient mtDNA, etc. I looked over many country projects in Y DNA and mtDNA, I was very anger that in the country projects many of the people were not from that country. Why would FTDNA allow that? Overall though the vast majority are and that is the reason I made the country section(Sweden) so I know which ones have proof their maternal line is from the project's country.

Part of the reason I want to look at Scandinavian mtDNA is because both north Germanic Swedish-Norwegian and Volgiac-Ugric Finnish-Sami probably mainly descend from people who arrived from mainland Europe in the metal ages or late Neolithic not from Mesolithic people like the ones Laz 2013 studied. People(including Maciamo) always make a big deal about close to 50% mtDNA U5 in Sami, but all of it is under U5b1b1 and I am pretty sure all is actually U5b1b1a. The majority of Finnish U5(over 20%) is under U5b1b1b1 and U51b1b2, both are estimated to be only 4,000 years old and from what I hear probably arrived in Scandinavia from the eastern Baltic during the bronze age. All U5 so far taken from stone age hunter gatherers of Scandinavia is under U5a, if anything Swedish-Norwegian have the highest amount of U5 from the hunter gatherers of Scandinavia. There isn't one V or HVO sample from stone age Scandinavian hunter gatherers and there is only one debated V sample from Mesolithic Portugal.

mtDNA U2e and U4 were major in stone age hunter gatherers of Scandinavia and probably most of Europe but are extremely rare in Scandinavia today and from what I know haven't been found in Sami. Even though Scandinavians have been found through Laz 2013 to have very high amounts of European hunter gatherer ancestry they also have very significant farmer ancestry and are probably barely descended from the original Mesolithic people of Scandinavia. Sami traditionally are not farmers but I would bet my life their ancestors who lived in mainland Europe 6,000 years or so ago were farmers or possibly some were still hunter gatherers.

Y DNA N1c1, I1a2c, I1a2d are what make Finnish-Sami(?) unique from Swedish-Norwegian R1a, R1b, I2a2, all other I1 is what makes Swedish Norwegian unique from Finnish-Sami. R1a(almost all under Z284) probably came with Corded ware culture over 4,000 years ago and R1b(almost all under L11) and I2a2 P214(almost all under M223) came over 3,000 years ago possibly with Germanic languages. Since Corded ware culture also existed in Finland some R1a may just be from Finland. I have no idea when N1c1 would have arrived in Scandinavia and I think it may be connected with the spread of Finnish-Sami ethnic groups from probably eastern Europe around Russia where there are other Finno-Urgic's.

Y DNA I1a2 L22 is the only thing in Y DNA that connects the two major people groups of Scandinavia I don't think it has a Germanic, Uralic, or Mesolithic origin in Scandinavia. It may be descended from a now extinct ethnic group so ancient Y DNA would be the only way to find when it came. We already know it probably didn't arrive in the Mesolithic since all five of the I's from Mesolithic Motola Sweden were negative for I1 and all tested were positive for I2. Y DNA I1 is not only Scandinavian though it is much more diverse and probably originated in mainland Europe. A lot has already been discovered about the genetic history of modern Scandinavians but there is still a lot not known.

Are I1 and N1c1 about the same aged, with a bottleneck at the same time? Not sure, just asking.

Are I1 and N1c1 about the same aged, with a bottleneck at the same time? Not sure, just asking.

If Nordtvedt's dates are right, I1 could be a couple thousand years younger than N1c1. They developed far away from each other geographically, I don't really know the date of N1c bottlenecks.

If Nordtvedt's dates are right, I1 could be a couple thousand years younger than N1c1. They developed far away from each other geographically, I don't really know the date of N1c bottlenecks.

Sorry, I ment the Finnish/Estonian N1c1 clades, bottleneck or genetic drift 3000yrs ago.
And there are the two populations in Finland, Finns and Karelians, if you want to keep it simple for the foreigners.

Anyone have an age for the Swedish N1c1?

Sorry, I ment the Finnish/Estonian N1c1 clades, bottleneck or genetic drift 3000yrs ago.
And there are the two populations in Finland, Finns and Karelians, if you want to keep it simple for the foreigners.

Anyone have an age for the Swedish N1c1?

You'd have to ask member Jaska about dates of N1c1 subclades.

However looking at the N1c1 tree, the Estonian/West Finnish subclade L1022+ and Karelian/Finnish subclade Z1935+ look different. L1022+ is a subclade of VL29+, like Scandinavian and Lithuanian South Baltic subclades. Z1935+ is a subclade of "West Siberian branch" Z1936+ , as is Khanty-Mansi-Hungarian Ugric subclade.

I'm not certain if L1022+ and Z1935+ have that much of a shared bottleneck, they have different expansion pattern and have been separate for a long time.