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Y-DNA Haplogroup • Paternal Lineage

R1A1A1B1A2B3A3A2G2C1

Y-DNA Haplogroup R1A1A1B1A2B3A3A2G2C1

~3,000 years ago
Eastern Europe or Eurasian Steppe
0 subclades
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Chapter I

The Story

The journey of Y-DNA haplogroup R1A1A1B1A2B3A3A2G2C1

Origins and Evolution

Y-DNA haplogroup R1A1A1B1A2B3A3A2G2C1 is a highly derived subclade within the broader R1a paternal lineage. Because it sits deep in the R1a tree and is described as an extremely rare branch, it most likely arose from a localized founder event rather than a major early expansion. Its most plausible origin is in Eastern Europe or the Eurasian steppe, where multiple R1a sub-branches diversified during and after the Bronze Age.

The estimated age of this lineage is relatively recent in phylogenetic terms, likely around 3 thousand years ago, though the exact age remains uncertain without published high-resolution sampling. Like many downstream R1a branches, its distribution likely reflects later demographic processes such as migration, social founder effects, and drift in small kin-based lineages.

Subclades

As a terminal or near-terminal subclade within a very specific R1a line, R1A1A1B1A2B3A3A2G2C1 is best understood in relation to its parent branch R1A1A1B1A2B3A3A2G2C. At present, there is limited publicly documented resolution for further downstream diversification, which is typical for rare lineages that have only been detected in a small number of testers or ancient samples.

Because of its rarity, the main genealogical value of this haplogroup lies in identifying a shared paternal ancestor within a narrow historical window, rather than representing a broad population-wide marker.

Geographical Distribution

The distribution of this lineage is expected to be patchy and low-frequency, rather than widespread. Based on the broader behavior of rare R1a subclades, it is most plausibly found in:

  • Eastern Europe, especially among Poles, Ukrainians, Belarusians, Russians, Lithuanians, and Latvians
  • Northern Europe, including Scandinavians such as Swedes and Norwegians
  • Central Asia, including Kazakhs and Kyrgyz
  • South Asia, particularly among some Indo-Aryan-speaking populations
  • West Eurasia, including selected Iranian-speaking groups
  • Smaller occurrences may also appear in Siberian and Uralic-speaking populations

The distribution pattern fits a lineage shaped by the broader spread of R1a-M417-derived paternal ancestry across the steppe corridor, Eastern Europe, and later into South and Central Asia.

Historical and Cultural Significance

R1a lineages are strongly associated in population genetics with the demographic transformations of the Bronze Age, especially movements linked to the Pontic-Caspian steppe, Corded Ware-related expansions, and later steppe-derived dispersals into Central and South Asia. While R1A1A1B1A2B3A3A2G2C1 itself is too rare to be securely tied to a single archaeological culture, its ancestry almost certainly lies within these broader processes.

This lineage may have been carried by small patrilineal groups that expanded through elite dominance, migration, or local founder effects, leaving a limited but traceable genetic footprint. In historical contexts, such rare subclades are often useful for reconstructing fine-scale paternal descent rather than broad ethnolinguistic identity.

Population Genetics Context

In terms of phylogeny, this haplogroup belongs to the large and influential R1a macro-lineage, which has high frequencies across Eastern Europe, the Eurasian steppe, South Asia, and parts of Central Asia. Deep downstream branches like this one often reflect the interaction of:

  • Founder effects in small male-line clusters
  • Genetic drift in isolated populations
  • Repeated regional expansions of R1a-bearing groups
  • Historical migrations during the Bronze Age, Iron Age, and medieval period

Because of this, the presence of R1A1A1B1A2B3A3A2G2C1 does not imply a single ethnicity or culture, but rather a specific paternal descent line nested within a much larger migratory and demographic history.

Conclusion

R1A1A1B1A2B3A3A2G2C1 is a rare, highly specific Y-DNA subclade that likely emerged in Eastern Europe or the Eurasian steppe around 3 kya. Its scientific interest lies in tracing narrow paternal descent within the broader and historically important R1a expansion complex that shaped much of the genetic landscape of Europe and parts of Asia.

Key Points

  • Origins and Evolution
  • Subclades
  • Geographical Distribution
  • Historical and Cultural Significance
  • Population Genetics Context
Chapter II

Tree & Relationships

Phylogenetic context and subclades

Evolution Path

This haplogroup's evolutionary journey from its earliest ancestor to the present.

Steps Haplogroup Age Estimate Archaeology Era Time Passed Immediate Descendants Tested Modern Descendants Ancient Connections
1 R1A1A1B1A2B3A3A2G2C1 Current ~3,000 years ago ⚔️ Iron Age 3,000 years 0 0 0
2 R1A1A1B1A2B3A3A2G2C ~3,000 years ago ⚔️ Iron Age 3,000 years 1 0 0
3 R1A1A1B1A2B3A3A2G2 ~3,000 years ago ⚔️ Iron Age 3,000 years 2 0 0
4 R1A1A1B1A2B3A3A2G ~3,000 years ago ⚔️ Iron Age 3,000 years 1 0 0
5 R1A1A1B1A2B3A3A2 ~3,000 years ago ⚔️ Iron Age 3,000 years 1 0 0
6 R1A1A1B1A2B3A3A ~3,000 years ago ⚔️ Iron Age 3,000 years 2 0 0
7 R1A1A1B1A2B3A3 ~3,000 years ago ⚔️ Iron Age 3,000 years 1 0 0
8 R1A1A1B1A2B3A ~3,000 years ago ⚔️ Iron Age 3,000 years 2 131 3
9 R1A1A1B1A2B3 ~3,000 years ago ⚔️ Iron Age 3,000 years 1 372 0
10 R1A1A1B1A2B ~3,000 years ago ⚔️ Iron Age 3,000 years 1 399 4
11 R1A1A1B1A2 ~3,000 years ago ⚔️ Iron Age 3,000 years 3 493 0
12 R1A1A1B1A ~3,000 years ago ⚔️ Iron Age 3,000 years 3 875 5
13 R1A1A1B1 ~4,000 years ago 🔶 Bronze Age 3,500 years 1 928 0
14 R1A1A1B ~4,000 years ago 🔶 Bronze Age 4,000 years 2 1,664 7
15 R1A1A1 ~4,000 years ago 🔶 Bronze Age 4,500 years 2 2,100 0
16 R1A1A ~5,000 years ago 🔶 Bronze Age 5,000 years 1 2,153 27
17 R1A1 ~5,000 years ago 🔶 Bronze Age 5,000 years 2 2,189 0
18 R1a ~22,000 years ago 🏹 Mesolithic 22,000 years 2 2,286 37

Subclades (0)

Terminal branch - no known subclades

Chapter III

Where in the World

Geographic distribution and modern presence

Place of Origin

Eastern Europe or Eurasian Steppe

Modern Distribution

The populations where Y-DNA haplogroup R1A1A1B1A2B3A3A2G2C1 is found include:

  1. Poles, Ukrainians, Belarusians, and Russians
  2. Lithuanians and Latvians
  3. Scandinavians, especially Swedes and Norwegians
  4. Kazakhs, Kyrgyz, and other Central Asian populations
  5. Many Indo-Aryan-speaking populations in South Asia
  6. Some Iranian-speaking groups and other West Eurasian populations
  7. Selected Siberian and Uralic-speaking populations

Regional Presence

Eastern Europe Moderate
Central Europe Moderate
Baltic Low
Northern Europe (Scandinavia) Low
Western Europe (diaspora) Low
Caucasus / South Asia (isolated reports) Low
North America (diaspora) Low
Central Asia Low
South Asia Low
West Asia Low
CHAPTER IV

When in Time

Your haplogroup in the context of human history

~10k years ago

Neolithic Revolution

Agriculture begins, settled communities form

~5k years ago

Bronze Age

Metalworking, writing, and early civilizations

~3k years ago

Iron Age

Iron tools, expanded trade networks

~3k years ago

Haplogroup R1A1A1B1A2B3A3A2G2C1

Your Y-DNA haplogroup emerged in Eastern Europe or Eurasian Steppe

Eastern Europe or Eurasian Steppe
~2k years ago

Classical Antiquity

Greek and Roman civilizations flourish

Present

Present Day

Modern era

Your Haplogroup
Historical Era
Chapter IV-B

Linked Cultures

Ancient cultures associated with Y-DNA haplogroup R1A1A1B1A2B3A3A2G2C1

Cultural Heritage

These ancient cultures have been linked to haplogroup R1A1A1B1A2B3A3A2G2C1 based on matching ancient DNA samples from archaeological excavations. The presence of this haplogroup in these cultures provides insights into the migrations and population movements of populations carrying this haplogroup.

Early Croatian Faroese Late Antique Legowo Culture Roopkund B Group Viking Viking Denmark
Culture assignments are based on archaeological context of ancient DNA samples and may represent regional associations during specific time periods.
Data

Data & Provenance

Source information and data quality

Last Updated 2026-06-17
Confidence Score 50/100
Coverage Low
Data Source

We use the latest phylotree for YDNA haplogroup classification and data.