Tracing Roots: Unveiling the Western European History of the Thiede Surname through iGENEA DNA Test
Family name Thiede
The journey into my heritage, made possible by the iGENEA DNA test, shines transformative insights into the Thiede surname. Tracing back its roots illuminates a rich tapestry of migration and genetic markers, predominantly based in Western and Northern Europe with strong connections to the R1b haplogroup. A tale of survival and spread from the last Ice Age got unveiled through the test, establishing a captivating narrative of my ancestors.
I embarked on a profound journey into the perimeters of my ancestry through the iGENEA DNA test, revealing fascinating insights into the Thiede surname, its historical migration, and its genetic markers.
A crucial aspect of the test was the analysis of Y-DNA, the type of DNA passed down from father to son, preserving the lineage's genetic print. It was revealed that the Thiede surname roots trace back to a haplogroup referred to as R1b. This haplogroup is believed to have originated more than 20,000 years ago and is the most common in Western Europe, suggesting a predominance of the surname in this region.
The iGENEA DNA test further revealed that the Thiede surname carries the M343 genetic marker, distinctive of the R1b haplogroup. It is believed that early bearers of this marker probably survived the last Ice Age's harsh climates in Franco-Cantabrian refuge before spreading throughout Europe. This further reinforces the Western European roots of the surname Thiede.
Besides the genetic analysis, the iGENEA DNA test provided a thorough overview of the Thiede lineage's migration pattern. By the 5th century, bearers of the Thiede surname had significant populations in Northern Europe, particularly in Germany and the surrounding countries.
To conclude, the iGENEA DNA test offered fascinating insights into the migrational and genetic history of the Thiede surname. The results reflected that the Thiede lineage predominantly hails from Western and Northern Europe, carrying the R1b haplogroup and the M343 genetic marker.
I. Thiede