I have previously mentioned the need to examine rh negative frequencies on regional and not national levels. Nations are man-made. Genetics is not. And the ancient tribes were likely more revealing in terms of rh- frequencies helping us determine our origin. Looking for the source of our origin is key. But do it scientifically. We do not come from aliens. We are not reptilians. And Atlantis never existed in the first place. Here is a study that I have dug up that highlights a few hotspots around the world where rh negative frequencies are exceptionally high. Some are expected. Others are surprises. Even though they shouldn’t be.
Let’s see:
Northern parts of Scotland are also expected. Especially the northeast coast.
One spot that I also see is or is close to Slovenia. According to data available, Slovenia has 18% rh negatives which is high for central Europe.
Why would Slovenia be so high in rh negative frequencies? I haven’t had a chance to look that up yet. But if you have an explanation or can provide me with genetic data from that region, feel free to send it my way.
Hello Mike
La Tene culture was early Celt area with different Celtics tribes. It included Slovenia.
Best regards
Anette
Thank you, Anette.
This is regarding the mtDNA:
Background: The Slovenian territory is geographically positioned between the Alps, Adriatic Sea, Pannonian basin and the Dinaric Mountains and, as such, has served as a passageway for various populations in different periods of time. Turbulent historic events and diverse geography of the region have produced a diverse contemporary population whose genetic analysis could provide insight into past demographic events.
Aim: The aims of this study were to characterize the Slovenian mitochondrial gene pool at the micro-geographic level and to compare it with surrounding populations.
Subjects and methods: A total of 402 individuals from five Slovenian regions were analysed in this study by typing HVR I, HVR II and coding region polymorphisms of mtDNA.
Results: Analysis revealed 47 haplogroups and sub-haplogroups, the most common of which were H*, H1, J1c, T2 and U5a. Intra-population comparisons revealed a sharp gradient of the J1c haplogroup between Slovenian regions, with a peak frequency of 24.5% being observed in the population of the Littoral Region.
Conclusion: The sharp gradient of the J1c haplogroup between Slovenian regions is in line with the archaeological horizon known as Impressed Ware culture and could, therefore, represent a genetic trace of the early Neolithic expansion route along the East Adriatic coastal region.
Source:
https://www.tandfonline.com/doi/full/10.3109/03014460.2015.1006678?src=recsys