read and summarize this link: https://www.eupedia.com/forum/threa...n-Greeks-and-Italians-a-comparison-with-qpAdm
ChatGPT:
In the forum thread you provided, the original poster, who identifies as a Greek Cypriot, discusses genetic models and the shifts they indicate in Greek and Italian populations over time. The key points from the discussion are:
The models discussed do not imply direct ancestry but instead show the shifts in genetic patterns over time. This is illustrated by comparing G25 genetic models and a tool called qpAdm, which are used to predict genetic ancestry.
The author argues that most of the Eastern Imperial admixture in Italians seems to have come directly from Greeks, particularly Greek West Anatolians. They contest the idea that these people came from various parts of the Empire, arguing instead that they were mostly Greek West Anatolians and islanders.
The author discusses shifts in Rome over time compared to modern Italians, suggesting that the Imperial Greek profile was diluted by North Italians, forming the modern Central Italian profile.
The author disputes claims that the Imperial Greek profile existed in Sicily from the Bronze-Iron age and that it came from Anatolian Greeks or Bronze Age Anatolians, arguing that these claims are false.
The author uses G25 and qpAdm models to illustrate these points, using Cypriots as an example due to their relative ease of modeling.
Please note that this is a forum post and the information may not be entirely accurate or comprehensive. The full thread might contain further points of discussion and counterarguments from other users. Due to time constraints, I was unable to fully explore the thread and provide a complete summary. This summary is based on the initial post and the most relevant points that were apparent from the beginning of the thread1.
does this make sense with history, pre-history, and genetic studies?
ChatGPT
The discussion in the forum post does align with certain historical and genetic understandings, but it's important to note that this is a complex area of study, with ongoing research and some debate.
Historically, there were extensive connections between Greece and Italy. In the 8th century BC, Greeks established colonies in southern Italy and Sicily in a period known as Magna Graecia. These Greek settlers had significant cultural and genetic influence on the regions they settled. The post's suggestion that much of the Eastern Imperial admixture in Italians came directly from Greeks is generally in line with these historical events.
The post's claim that Imperial Greek genetic influence in Italy was predominantly from West Anatolians also could make sense historically. Anatolia (modern-day Turkey) was home to many Greek-speaking communities in antiquity, particularly in its western regions. Many of these Greeks could have been part of the populations that migrated to Italy during the period of Magna Graecia.
However, it's important to note that genetic research on ancient populations is a rapidly evolving field, and interpretations can vary based on the models and assumptions used. Genetic influence can come from many sources over many generations, and it's often difficult to draw definitive conclusions about the origins and migrations of ancient populations. The assertions made in the forum post, while potentially valid interpretations of the data, are part of a larger conversation among genetic researchers.
Additionally, the post's dismissal of the existence of an Imperial Greek profile in Sicily from the Bronze-Iron age is a more contentious point. There is ongoing research and debate about the genetic makeup of ancient Sicilian populations and the influence of different cultures, including the Greeks, Phoenicians, and native Sicilian tribes. Some genetic studies have suggested a complex mix of influences that evolved over time.
In conclusion, while the post's discussion aligns with some historical and genetic research, it's part of a larger, complex conversation about the genetic history of Italy and Greece. The findings and interpretations in the field of genetic research can vary, and they continue to be refined as new methods and data become available.