African mtDNA and Y-DNA in Iberia

Maciamo

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I have started a new topic with posts originally from the thread Lie about mtDNA haplogroup frequencies in Spain.

I think that this topic is interesting enough, though potentially controversial, to deserve its own thread. The main questions developed below are :

- How much African DNA is found in the Iberian population ?
- What is the origin of these African haplogroups (e.g. Maghreban, sub-Saharan) ?
- How does this compare to other parts of Europe ?
- What parts of Iberia have the highest frequencies of African haplogroups ?
- How can we explain their presence historically ?

----------------

African MtDNA haplogroups in Iberia

Luis posted below the regional percentages of hg L in Iberia. The overall continental average is 2.25%. With the islands, it is 2.90%. The highest frequency of L is found in Cordoba (8.30%), and the lowest in central Spain and the Basque country (0.66%).

Acording to Helgason et al. (2001), Iberia has 1.42% of North African haplogroup U6. I couldn't find any data for the other two typical Maghreban lineages, X1 and M1, but it cannot exceed the "other" category (1.99%).


Attention ! MtDNA does not equal autosomal DNA !

Before starting this discussion, I would like to explain why the percentage of haplogroups does not necessarily equal the percentage of admixture from the region of origin of that particular haplogroup. For example, 2% of mtDNA L in Iberia does not mean 2% of African admixture.

Imagine that an Black African woman was brought to Europe 2000 years ago. She has children with a European. All her children belong, like her, to hg L. However she is 100% African, but her children are only 50%. Her children all marry white Europeans. Her sons' children won't have any African mtDNA, but about 25% of African autosomal DNA. Her daughters' children will be mtDNA L, and have 25% of African DNA. After 10 generations (about 300 years), if any of her descendant still carries her mtDNA line, they might not have any African autosomal DNA left, but mtDNA will still be there. Those hg L people might be pure Europeans with an African mitochondrial haplogroup. At most they will have 1% of African DNA.

I am not aware of any direct settlement of Black Africans in Iberia. The amount of Black African Y-DNA is negligible like everywhere in Europe. Therefore, all the haplogroup L found in Iberia must be of Maghreban origin. This means that when L reached Iberia, its carriers already had an admixture of European, Berber and Black African DNA. Although 98% of Maghreban Y-DNA is North African (E-M81), up to 90% of their mtDNA lines are European (minimum 50% in the most Africanised tribes in southern Morocco). In other words, when women carrying hg L entered Iberia, their autosomal DNA was mostly European and Berber (or native North African), with only a small amount of sub-Saharan DNA. If that amount was 10%, then it would be more correct to say that each % of hg L in Iberia only represents 0.1% of sub-Saharan African autosomal DNA. Even so, it is very theoretical and it could be less if L was already diluted when it reached the part of the Maghreb which provided the migrants to Iberia.


Y-DNA Haplogroup E in Iberia

For the sake of comparison, here is one of the most complete and up-to-date table of Y-haplogroup E in Iberia. It has 388 hg E samples out of 3553 samples in total (10.9% of E). Here is an explanation of the breakdown.

- 0.48% of sub-Saharan E (E*, E1a, E1b1a)

- 4.62% of Maghreban E (E-M81)

- 1.72% of E1b1b1a (E-M78) and its subclades (E-V12, E-V13, E-V22). E-M78 and E-V22 are the dominant variants, pointing at a Phoenician origin. V12 and V22 are typically Levantine. There is only 0.59% of the typically Balkanic E-V13.

- 0.74% of E1b1b1c (E-M123) + its subclade E-M34, which is most common from the Levant to the Arabian peninsula. It could be either of Phoenician or Arabic origin. Interestingly it peaks around Galicia and northern Portugal. I am not sure how to explain that. Could it be that the Phoenician had trading posts on the North-West coast, as a relay on their way to Britain ?

- 2.84% of E1b1b (E-M215) and E1b1b1 (E-M35), which are the parents of all North African, Middle Eastern and European subclades of E. It could be either North African or Levantine.


Conclusion

Based on the more detailed "mirror" provided by Y-DNA, it is most likely that mtDNA haplogroup L in Iberia is of mixed North African (Maghreban) and Middle-Eastern (Phoenician, Arabic) origin. Indeed, there is about five times more Y-DNA E than mtDNA L in Iberia, and mtDNA L represents about one third of haplogroups among Berbers. Even without knowing the origin of the Iberian E-M215 and E-M35, if combined to E-M81, the percentage for continental Spain would be 6.8%, roughly three times more than mtDNA L, the same proportion as in the Maghreb. Other Berber mitochondrial lineages being identical to European ones (except U6, M1 and X1), they would be undetectable in the Iberian population.

Furthermore, Women were less likely to travel so far away from home during the Arabic conquest, and even during the Phoenician colonisation, so the bulk of mtDNA L must have come almost exclusively from the nearby Maghreb.
 
Last edited:
Attention ! MtDNA does not equal autosomal DNA !

Before you go any further with this discussion, let me explain why 2% of mtDNA L does not mean 2% of African admixture.

Imagine that an Black African woman was brought to Europe 2000 years ago. She has children with a European. All her children belong, like her, to hg L. However she is 100% African, but her children are only 50%. Her children all marry white Europeans. Her sons' children won't have any African mtDNA, but about 25% of African autosomal DNA. Her daughters' children will be mtDNA L, and have 25% of African DNA. After 10 generations (about 300 years), if any of her descendant still carries her mtDNA line, they might not have any African autosomal DNA left, but mtDNA will still be there. Those hg L people might be pure Europeans with an African mitochondrial haplogroup. At most they will have 1% of African DNA.

I am not aware of any direct settlement of Black Africans in Iberia. The amount of Black African Y-DNA is negligible like everywhere in Europe. Therefore, all the haplogroup L found in Iberia must be of Maghreban origin. This means that when L reached Iberia, its carriers already had an admixture of European, Berber and Black African DNA. Although 98% of Maghreban Y-DNA is North African (E-M81), up to 90% of their mtDNA lines are European (minimum 50% in the most Africanised tribes in southern Morocco). In other words, when women carrying hg L entered Iberia, their autosomal DNA was mostly European and Berber (or native North African), with only a small amount of sub-Saharan DNA. If that amount was 10%, then it would be more correct to say that each % of hg L in Iberia only represents 0.1% of sub-Saharan African autosomal DNA. Even so, it is very theoretical and it could be less if L was already diluted when it reached the part of the Maghreb which provided the migrants to Iberia.

Maghreban Y-DNA in Iberia

For the sake of comparison, here is one of the most complete and up-to-date table of Y-haplogroup E in Iberia. It has 388 hg E samples out of 3553 samples in total (10.9% of E). Here is an explanation of the breakdown.

- 0.48% of sub-Saharan E (E*, E1a, E1b1a)

- 4.62% of Maghreban E (E-M81)

- 1.72% of E1b1b1a (E-M78) and its subclades (E-V12, E-V13, E-V22). E-M78 and E-V22 are the dominant variants, pointing at a Phoenician origin. V12 and V22 are typically Levantine. There is only 0.59% of the typically Balkanic E-V13.

- 0.74% of E1b1b1c (E-M123) + its subclade E-M34, which is most common from the Levant to the Arabian peninsula. It could be either of Phoenician or Arabic origin. Interestingly it peaks around Galicia and northern Portugal. I am not sure how to explain that. Could it be that the Phoenician had trading posts on the North-West coast, as a relay on their way to Britain ?

- 2.84% of E1b1b (E-M215) and E1b1b1 (E-M35), which are the parents of all North African, Middle Eastern and European subclades of E. It could be either North African or Levantine.


Conclusion

Based on the more detailed "mirror" provided by Y-DNA, it is most likely that mtDNA haplogroup L in Iberia is of mixed North African (Maghreban) and Middle-Eastern (Phoenician, Arabic) origin. Women were less likely to travel so far away from home during the Arabic conquest, and even during the Phoenician colonisation, so the bulk of mtDNA L must have come from the nearby Maghreb.
Maciamo, but some of the E in Iberia is of greek origin, for example :

E31b1a was considered to be a signature of Greek
colonists in south Italy (Semino et al. 2004).
Its presence in the Portuguese territory might have the same
origin (see Table 5)
http://www3.interscience.wiley.com/cgi-bin/fulltext/118548798/PDFSTART

And Maciamo, is not Haplogroup A a sub-saharan Y-DNA ? If we look at sub-sharan y-DNA in EUROPE :

"Sub-Saharan African Y-chromosomes are much less common in Europe, for the reasons discussed above. However, Haplogroups E(xE3b) and Haplogroup A spread to Europe due to migrations from Northeast Africa, rather than the slave trade. The haplotypes have been detected in Portugal (3%), Spain (0.42%), Germany (2%), Austria (0.78%), France (2.5% in a very small sample), Italy (0.45%), Sardinia (1.6%) and Greece (0.27%). By contrast, North Africans have about 5% paternal black admixture.
 
Attention ! MtDNA does not equal autosomal DNA !

Before you go any further with this discussion, let me explain why 2% of mtDNA L does not mean 2% of African admixture.

Imagine that an Black African woman was brought to Europe 2000 years ago. She has children with a European. All her children belong, like her, to hg L. However she is 100% African, but her children are only 50%. Her children all marry white Europeans. Her sons' children won't have any African mtDNA, but about 25% of African autosomal DNA. Her daughters' children will be mtDNA L, and have 25% of African DNA. After 10 generations (about 300 years), if any of her descendant still carries her mtDNA line, they might not have any African autosomal DNA left, but mtDNA will still be there. Those hg L people might be pure Europeans with an African mitochondrial haplogroup. At most they will have 1% of African DNA.

I am not aware of any direct settlement of Black Africans in Iberia. The amount of Black African Y-DNA is negligible like everywhere in Europe. Therefore, all the haplogroup L found in Iberia must be of Maghreban origin. This means that when L reached Iberia, its carriers already had an admixture of European, Berber and Black African DNA. Although 98% of Maghreban Y-DNA is North African (E-M81), up to 90% of their mtDNA lines are European (minimum 50% in the most Africanised tribes in southern Morocco). In other words, when women carrying hg L entered Iberia, their autosomal DNA was mostly European and Berber (or native North African), with only a small amount of sub-Saharan DNA. If that amount was 10%, then it would be more correct to say that each % of hg L in Iberia only represents 0.1% of sub-Saharan African autosomal DNA. Even so, it is very theoretical and it could be less if L was already diluted when it reached the part of the Maghreb which provided the migrants to Iberia.

Maghreban Y-DNA in Iberia

For the sake of comparison, here is one of the most complete and up-to-date table of Y-haplogroup E in Iberia. It has 388 hg E samples out of 3553 samples in total (10.9% of E). Here is an explanation of the breakdown.

- 0.48% of sub-Saharan E (E*, E1a, E1b1a)

- 4.62% of Maghreban E (E-M81)

- 1.72% of E1b1b1a (E-M78) and its subclades (E-V12, E-V13, E-V22). E-M78 and E-V22 are the dominant variants, pointing at a Phoenician origin. V12 and V22 are typically Levantine. There is only 0.59% of the typically Balkanic E-V13.

- 0.74% of E1b1b1c (E-M123) + its subclade E-M34, which is most common from the Levant to the Arabian peninsula. It could be either of Phoenician or Arabic origin. Interestingly it peaks around Galicia and northern Portugal. I am not sure how to explain that. Could it be that the Phoenician had trading posts on the North-West coast, as a relay on their way to Britain ?

- 2.84% of E1b1b (E-M215) and E1b1b1 (E-M35), which are the parents of all North African, Middle Eastern and European subclades of E. It could be either North African or Levantine.


Conclusion

Based on the more detailed "mirror" provided by Y-DNA, it is most likely that mtDNA haplogroup L in Iberia is of mixed North African (Maghreban) and Middle-Eastern (Phoenician, Arabic) origin. Women were less likely to travel so far away from home during the Arabic conquest, and even during the Phoenician colonisation, so the bulk of mtDNA L must have come from the nearby Maghreb.


Excellent information, Maciamo. Impressive.
 
I have seen the table, and obvisouly it is misleading becasue of the Canary Islands.
I don't know why they keep considering the Canaries as Iberian when they should not be considered as Iberians, because of the presence of the natives related to the berbers, who are E-M81(14.6%).
So, the precentage of E and E-M81 in 'real' Iberians is MUCH lower
And please , I just want to get facts straight, don't talk me again about the same story of being insecure and crap like that. La verdad siempre por delante !
 
I have seen the table, and obvisouly it is misleading becasue of the Canary Islands.
I don't know why they keep considering the Canaries as Iberian when they should not be considered as Iberians, because of the presence of the natives related to the berbers, who are E-M81(14.6%).
So, the precentage of E and E-M81 in 'real' Iberians is much lower than 10%.
And please , I just want to get facts straight, don't talk me again about the same story of being whites or europeans and crap like that.

The same can be said for Madeira. Again, why are genetic "researchers" including DNA samples that are not representative of the native origin population? These people are hardly stupid, but they are doing VERY stupid things in their work...
 
Maciamo, but some of the E in Iberia is of greek origin, for example :

E31b1a was considered to be a signature of Greek
colonists in south Italy (Semino et al. 2004).
Its presence in the Portuguese territory might have the same
origin (see Table 5)
http://www3.interscience.wiley.com/cgi-bin/fulltext/118548798/PDFSTART

Greek E1b1b is mostly E-V13, which is rare in Iberia. It's only one of many haplogroups that represent the Greeks, along with J2b, some subclades of J2a, "Eastern" R1b, R1a, G2a... Anyway, it's not surprising not to find more Greek DNA in Spain as the Greeks only had a few minor settlements in Catalonia, like in Emporium, and around Valencia. The Phoenicians had 3x more colonies just in Andalusia.

And Maciamo, is not Haplogroup A a sub-saharan Y-DNA ? If we look at sub-sharan y-DNA in EUROPE :

"Sub-Saharan African Y-chromosomes are much less common in Europe, for the reasons discussed above. However, Haplogroups E(xE3b) and Haplogroup A spread to Europe due to migrations from Northeast Africa, rather than the slave trade. The haplotypes have been detected in Portugal (3%), Spain (0.42%), Germany (2%), Austria (0.78%), France (2.5% in a very small sample), Italy (0.45%), Sardinia (1.6%) and Greece (0.27%). By contrast, North Africans have about 5% paternal black admixture.

Where did you find those percentages about haplogroup A ? In all the major Y-DNA studies I know of, hg A has only been detected a few times here and there, nothing statistically relevant.
 
I have seen the table, and obvisouly it is misleading becasue of the Canary Islands.
I don't know why they keep considering the Canaries as Iberian when they should not be considered as Iberians, because of the presence of the natives related to the berbers, who are E-M81(14.6%).
So, the precentage of E and E-M81 in 'real' Iberians is MUCH lower
And please , I just want to get facts straight, don't talk me again about the same story of being insecure and crap like that. La verdad siempre por delante !

In all fairness there are only 28 samples from the Canaries (all E-M81), out of 388 hg E. You can deduct the 0.8 % from the Canaries but E-M81 remains the main subclade of E in Iberia.
 
To summarize, here are the sub-saharan African mtDNA L lineages frequencies found in Spain. This includes ALL the data ever published so far about Spain (1466 distinct individuals from continental Spain and 531 from Spanish Islands)

1) Continental Spain

Spain, northwestern : 8/216 =3.70%, Achilli 2007
Spain, central : 1/148 =0.68%, Achilli 2007
Spain, Andalusia: 2/114 =1.75%, Achilli 2007
Spain, northeastern : 3/179 =1.68%, Achilli 2007
Spain, Basque Country: 1/156 =0.64%, Achilli 2007
Spain, all regions : 9/312 =2.90%, Alvarez 2007
Spain, Pyreneans : 0/233 =0.00%, Lopez-Parra 2009
Spain, Cordoba : 9/108 =8.30%, Casas 2006 (highest frequency found in Spain)

2) Islands

Spain, Balearic : 5/231 =2.20%, Picornell 2005
Spain, Canaries : 20/300 =6.60%, Brehm 2003

3) Of course, because nations are political construct and because northern populations are overrepresented in the studies, it would not make sense at all to average regions with totally different histories like Basque Country (lowest frequency in Spain) or the province of Cordoba (highest frequency in Spain at 8.30%, almost similar to South Portugal) but if we want to do it we get :

Continental : 33/1466 = 2.25 %
All Spain (including Balearic and Canaries) : 58/1997 = 2.90%



=Sources=

a) Achilli 2007 (Mitochondrial DNA Variation of Modern Tuscans Supports the Near Eastern Origin of Etruscans) aggregated data from the following sources :

Salas 1998, mtDNA analysis of the Galician population: a genetic edge of European variation.
Richards 2000, Tracing European founder lineages in the Near Eastern mtDNA pool
Crespillo 2000, Mitochondrial DNA sequences for 118 individuals from northeastern Spain
Larruga 2001, Mitochondrial DNA characterisation of European isolates: the Maragatos from Spain
Plaza 2003, Joining the pillars of Hercules: mtDNA sequences show multidirectional gene flow in the western Mediterranean.
González 2003, Mitochondrial DNA affinities at the Atlantic fringe of Europe

b) Others studies not included by Achilli 2007

Brehm 2003, Mitochondrial portraits of the Madeira and Açores archipelagos witness different genetic pools of its settlers
Picornell 2005, Mitochondrial DNA HVRI Variation in Balearic Populations
Casas 2006, Human Mitochondrial DNA Diversity in an Archaeological Site in al-Andalus: Genetic Impact of Migrations from North Africa in Medieval Spain
Alvarez 2007, Characterization of human control region sequences for Spanish individuals in a forensic mtDNA data set
Lopez-Parra 2009, Preliminary results of mitochondrial DNA sequence variation in Spanish Pyrenean populations
Pereira 2005 (African Female Heritage in Iberia) only analysed samples from the studies above and did not include any new samples.
 
To summarize, here are the sub-saharan African mtDNA L lineages frequencies found in Spain. This includes ALL the data ever published so far about Spain (1466 distinct individuals from continental Spain and 531 from Spanish Islands)
1) Continental Spain
Spain, northwestern : 8/216 =3.70%, Achilli 2007
Spain, central : 1/148 =0.68%, Achilli 2007
Spain, Andalusia: 2/114 =1.75%, Achilli 2007
Spain, northeastern : 3/179 =1.68%, Achilli 2007
Spain, Basque Country: 1/156 =0.64%, Achilli 2007
Spain, all regions : 9/312 =2.90%, Alvarez 2007
Spain, Pyreneans : 0/233 =0.00%, Lopez-Parra 2009
Spain, Cordoba : 9/108 =8.30%, Casas 2006 (highest frequency found in Spain)
2) Islands
Spain, Balearic : 5/231 =2.20%, Lopez-Parra 2009
Spain, Canaries : 20/300 =6.60%, Brehm 2003
3) Of course it does not make sense at all to average regions with totally different histories like Basque Country (lowest frequency in Spain) or the province of Cordoba (highest frequency in Spain at 8.30%, almost similar to South Portugal) but if we want to do it we get :
Continental : 33/1466 = 2.25 %
All Spain (including Balearic and Canaries) : 58/1997 = 2.90%

Thanks a lot for all the data.

There is no surprise in finding more mtDNA L in the Canaries and Andalusia than in the Basque country. North-West Spain (and northern Portugal, I presume) is the second region outside the isles, after Andalusia, for both mtDNA L and Y-DNA E1b1b. Galicia has nearly 15% of haplogroup E1b1b, and all of it looks North African (not Levantine or Arabic). North Portugal has 12%.

The record high in Iberia is the border of Extremadura (19%) and Portugal (28% in Portalegre, 13% in Guarda, 12% in Castelo Branco). I wonder if there is a connection with the Andalusian Neolithic culture of La Almagra Pottery. It is one of the oldest Neolithic cultures in Europe. It is almost 8,000 years old (older than the spread of agriculture through the Balkans !) and appears out of nowhere. It seems to have a connection with the Maghreb.

It could be imagined that these early Iberians would have been pushed north-westward from Andalusia to Extremadura, Portugal and Galicia by the successive waves of new settlers (Indo-Europeans, Phoenicians, Romans, Vandals...). A lot of mtDNA L might date from La Almagra culture as well.
 
Thanks a lot for all the data.

There is no surprise in finding more mtDNA L in the Canaries and Andalusia than in the Basque country. North-West Spain (and northern Portugal, I presume) is the second region outside the isles, after Andalusia, for both mtDNA L and Y-DNA E1b1b. Galicia has nearly 15% of haplogroup E1b1b, and all of it looks North African (not Levantine or Arabic). North Portugal has 12%.

The record high in Iberia is the border of Extremadura (19%) and Portugal (28% in Portalegre, 13% in Guarda, 12% in Castelo Branco). I wonder if there is a connection with the Andalusian Neolithic culture of La Almagra Pottery. It is one of the oldest Neolithic cultures in Europe. It is almost 8,000 years old (older than the spread of agriculture through the Balkans !) and appears out of nowhere. It seems to have a connection with the Maghreb.

It could be imagined that these early Iberians would have been pushed north-westward from Andalusia to Extremadura, Portugal and Galicia by the successive waves of new settlers (Indo-Europeans, Phoenicians, Romans, Vandals...). A lot of mtDNA L might date from La Almagra culture as well.

Excellent observations. Many do not to understand how old and "regional" some of this DNA is and that much of it originated in NW Africa.
 
I don't know why all of a sudden the discussion turned to the L mtDNA, There is already a thread about it.
Anyways, obviously the L level in Iberia is about 2%, pretty much the average in Europe. It is very old, maybe from pre-Neolithic..
Maciamo do you have the sources for this percentages you mention? Thanks
 
I'm surprised that none still has mentioned the special case of Valle de Pasiegos (Pasiegos Valley).

Valle de Pasiegos is a very isolated region in Cantabria (North-Spain) and next to the Basque Country.

300px-Vega_de_Pas_%28Cantabria%29_Mapa.svg.png


Its habitants have a very characteristic culture and traditions. Their language has some resemblances with asturianu and some words from euskera (basque) also.

pasiegos.jpg

1_3FOTO1_F_Sanchoyarto_FFRF_33.jpeg

pasiegos.jpg

pas726.jpg


The frequency of E3b in this isolated region is about 40% and is believed to come from the times of the Megalitic culture.
 
Yes, even some studies say the E-M81 started there, and then this people went to north-africa, and that would explain why some ancient bereber languages have a relationship with proto-Basque.
 
Maciamo,
I have a question in regards to J and E oin the balkans. are these two haplogroups in the form of J2e and E-V13 or are they others? As i would guess greeks would have signiicant impact on the balkans due to geographc proximity etc.. or even being part of the balkans in some sense
 
Maciamo,
I have a question in regards to J and E oin the balkans. are these two haplogroups in the form of J2e and E-V13 or are they others? As i would guess greeks would have signiicant impact on the balkans due to geographc proximity etc.. or even being part of the balkans in some sense

That's a different topic altogether, but farming spread from Anatolia to the Thessalian plain in northern Greece, and from there to the Balkans. The early farmers mostly belonged to hg E-V13, J2b, but with also some T, G2a, E-M78 and J2*.
 
Greek E1b1b is mostly E-V13, which is rare in Iberia. It's only one of many haplogroups that represent the Greeks, along with J2b, some subclades of J2a, "Eastern" R1b, R1a, G2a... Anyway, it's not surprising not to find more Greek DNA in Spain as the Greeks only had a few minor settlements in Catalonia, like in Emporium, and around Valencia. The Phoenicians had 3x more colonies just in Andalusia.
No.
Southern Portugal had greek settlements, which later repopulated the north , (POrto = Cale ,) ( Lisobon = Olissipona) there was also greek trade in Galleaecia
 
To summarize, here are the sub-saharan African mtDNA L lineages frequencies found in Spain. This includes ALL the data ever published so far about Spain (1466 distinct individuals from continental Spain and 531 from Spanish Islands)

1) Continental Spain

Spain, northwestern : 8/216 =3.70%, Achilli 2007
Spain, central : 1/148 =0.68%, Achilli 2007
Spain, Andalusia: 2/114 =1.75%, Achilli 2007
Spain, northeastern : 3/179 =1.68%, Achilli 2007
Spain, Basque Country: 1/156 =0.64%, Achilli 2007
Spain, all regions : 9/312 =2.90%, Alvarez 2007
Spain, Pyreneans : 0/233 =0.00%, Lopez-Parra 2009
Spain, Cordoba : 9/108 =8.30%, Casas 2006 (highest frequency found in Spain)

2) Islands

Spain, Balearic : 5/231 =2.20%, Picornell 2005
Spain, Canaries : 20/300 =6.60%, Brehm 2003

3) Of course, because nations are political construct and because northern populations are overrepresented in the studies, it would not make sense at all to average regions with totally different histories like Basque Country (lowest frequency in Spain) or the province of Cordoba (highest frequency in Spain at 8.30%, almost similar to South Portugal) but if we want to do it we get :

Continental : 33/1466 = 2.25 %

All Spain (including Balearic and Canaries) : 58/1997 = 2.90%

Nope, as pointed out in another thread, you manipulated the data from at least one of the studies so you could try to inflate the frequencies in Spain to suit your obvious agenda. Casas et al. 2006 only considered L1-L2 sequences to be of sub-Saharan origin, so the actual data for that paper should be like this:

Spain, Priego de Cordoba : 1/108 =0.9%, Casas 2006

You also "mysteriously" left out the data for Pereira et al. 2005 in this latest "calculation" of yours:

Pereira et al. (2005) 8 L lineages out of 496 (1.61%)

Providing that the data for some of these other papers (Alvarez 2007, Picornell 2005, Brehm 2003) you refer to have not been manipulated as well, the actual frequencies are:

Spain, northwestern : 8/216 =3.70%, Achilli 2007
Spain, central : 1/148 =0.68%, Achilli 2007
Spain, Andalusia: 2/114 =1.75%, Achilli 2007
Spain, northeastern : 3/179 =1.68%, Achilli 2007
Spain, Basque Country: 1/156 =0.64%, Achilli 2007
Spain, all regions : 9/312 =2.90%, Alvarez 2007
Spain, Pyreneans : 0/233 =0.00%, Lopez-Parra 2009
Spain, Priego de Cordoba : 1/108 =0.9%, Casas 2006
Spain, all regions: 8/496 = 1.61%, Pereira 2005

Continental : 33/1962 = 1.68%

2) Islands

Spain, Balearic : 5/231 =2.20%, Picornell 2005
Spain, Canaries : 20/300 =6.60%, Brehm 2003

All Spain (including Balearic and Canaries) : 58/2493 = 2.32%
 
There is no surprise in finding more mtDNA L in the Canaries and Andalusia than in the Basque country. North-West Spain (and northern Portugal, I presume) is the second region outside the isles, after Andalusia, for both mtDNA L and Y-DNA E1b1b. Galicia has nearly 15% of haplogroup E1b1b, and all of it looks North African (not Levantine or Arabic).

I'm not sure where are you getting this frequency for Galicia from, but Capelli et al. 2009 found E1b1b there at only 6.8%. Adams et al. 2008 (a rather fishy paper, I may add) I think claimed 9%. I'm not sure at this moment if "all of it looks North African", as it seems I can no longer find the specific data for these papers (it was available at some blogs and forums before.)
 
Maciamo said:
There is no surprise in finding more mtDNA L in the Canaries and Andalusia than in the Basque country. North-West Spain (and northern Portugal, I presume) is the second region outside the isles, after Andalusia, for both mtDNA L and Y-DNA E1b1b. Galicia has nearly 15% of haplogroup E1b1b, and all of it looks North African (not Levantine or Arabic).
Galicia has only 1.49% of E1b1b according to this :
http://iberianroots.com/statistics/iberian_peninsula.html
 
I'm not sure where are you getting this frequency for Galicia from, but Capelli et al. 2009 found E1b1b there at only 6.8%. Adams et al. 2008 (a rather fishy paper, I may add) I think claimed 9%. I'm not sure at this moment if "all of it looks North African", as it seems I can no longer find the specific data for these papers (it was available at some blogs and forums before.)

It's an average of several studies. Adams found nearly 17% of E1b1b in Galicia (9% is only for E-M81). Flores found a stunning 31.6%, including 10% of E-M81 and 10% of E-M123. Gonçalves found 21% of E1b1b in nearby North Portugal (higher than in Central or Southern Portugal), which does not seem to contradict Adams nor Flores.
 

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