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Y-DNA Haplogroup • Paternal Lineage

R1B1A2A1A

Y-DNA Haplogroup R1B1A2A1A

~16,000 years ago
West Eurasia
0 subclades
58 ancient samples
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Chapter I

The Story

The journey of Y-DNA haplogroup R1B1A2A1A

Origins and Evolution

Y-DNA haplogroup R1b1a2a1a is a subclade within the wider R1b paternal lineage, one of the major West Eurasian Y-chromosome branches. Based on its phylogenetic placement and the broader age of its upstream lineages, it likely emerged in West Eurasia during the Late Pleistocene to early Holocene, around 16 thousand years ago. As an intermediate-level branch, it reflects a stage of paternal diversification that predates the later, highly successful expansions of several well-known European R1b lineages.

The distribution pattern of R1b1a2a1a suggests that it was shaped by prehistoric population movements, repeated regional bottlenecks, and founder effects rather than a single uniform expansion. Like many early R1b subclades, it may preserve signals of mobility across the Near East, Caucasus, Anatolia, and western Eurasia more generally, with later dispersals into Europe and adjacent regions.

Subclades

As an intermediate clade, R1b1a2a1a sits between older ancestral branches and more derived regional lineages. Exact downstream substructure can vary depending on the phylogenetic reference and testing resolution, but in general this branch helps connect broader R1b ancestry to localized lineages found in:

  • Atlantic Europe
  • Anatolia and the Caucasus
  • The Levant and North Africa
  • Some Central Asian or steppe-adjacent populations

Because Y-DNA phylogenies are continually refined, newly identified SNPs may further subdivide this branch and clarify whether some carriers represent remnants of ancient pre-Bronze Age diversity or later demographic movements.

Geographical Distribution

R1b1a2a1a is not among the globally dominant R1b lineages, but it is notable for its broad and uneven geographic spread. It is found at low to moderate frequency in several regions, especially where ancient West Eurasian lineages have persisted through drift and local expansion.

It has been reported in:

  • Irish and British populations, where it may occur as a rare residual lineage alongside more common R1b branches
  • French, Iberian, and Low Countries populations, reflecting long-term West European continuity and internal migration
  • Italian and Balkan populations, consistent with Mediterranean and southeastern European links
  • Caucasus and Anatolian populations, which are important for understanding early West Eurasian diversification
  • Levantine and North African populations, likely associated with ancient regional contacts and historical gene flow
  • Some Central Asian and steppe-related populations, where it may reflect older west-east connections or later admixture

Historical and Cultural Significance

Although R1b1a2a1a is not usually tied to a single archaeological culture, its broader ancestry overlaps with several major prehistoric processes that shaped West Eurasian paternal diversity. These include the spread of post-glacial hunter-gatherer lineages, Neolithic and Chalcolithic mobility, and later Bronze Age expansions across Europe and western Asia.

Its presence in multiple regions may reflect participation in different demographic events rather than one exclusive cultural identity. In Europe, related R1b branches became especially prominent during the Bronze Age, often associated in population genetics with steppe-derived expansions and with cultural horizons such as Yamnaya and Bell Beaker in broader R1b contexts. However, R1b1a2a1a itself is better understood as part of the deeper backbone of R1b diversity, not necessarily as a marker of any one ancient culture.

Population Genetics Context

From a population genetics perspective, R1b1a2a1a is important because it illustrates how Y-chromosome lineages can retain deep ancestry while becoming regionally rare. Its patchy distribution is typical of lineages that passed through ancient bottlenecks and were later preserved by male-line drift, founder events, and local social structure. This makes it useful for reconstructing the early branching history of R1b and for comparing population histories across western Eurasia.

Conclusion

R1b1a2a1a is a deep West Eurasian R1b subclade with a likely origin around the late Ice Age-to-early Holocene transition. Its scattered presence across Europe, the Near East, the Caucasus, and nearby regions points to an ancient lineage shaped by early population movements and later regional persistence, making it a meaningful marker for studying the long-term evolution of West Eurasian paternal ancestry.

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 R1B1A2A1A Current ~16,000 years ago 🏹 Mesolithic 16,000 years 0 1,302 58
2 R1B1A2A1 ~16,000 years ago 🏹 Mesolithic 16,000 years 1 1,413 0
3 R1B1A2A ~16,000 years ago 🏹 Mesolithic 16,000 years 1 1,847 9
4 R1B1A2 ~18,000 years ago 🏹 Mesolithic 18,000 years 1 2,146 0
5 R1B1A ~18,000 years ago 🏹 Mesolithic 18,000 years 2 3,825 39
6 R1B1 ~18,000 years ago 🏹 Mesolithic 18,000 years 2 3,967 0
7 R1b ~20,000 years ago 🏹 Mesolithic 20,000 years 2 4,036 126

Subclades (0)

Terminal branch - no known subclades

Chapter III

Where in the World

Geographic distribution and modern presence

Place of Origin

West Eurasia

Modern Distribution

The populations where Y-DNA haplogroup R1b1a2a1a is found include:

  1. Irish and British populations
  2. French, Iberian, and Low Countries populations
  3. Italian and Balkan populations
  4. Caucasus and Anatolian populations
  5. Levantine and North African populations
  6. Some Central Asian and steppe-related populations

Regional Presence

Western Europe High
Northern Europe (British Isles & Scandinavia) High
Southwestern Europe (Atlantic Iberia) Low
Central Europe Low
North America (diaspora) Low
North Africa Low
Southern Europe Moderate
Southeastern Europe Low
Western Asia Moderate
Central Asia Low
CHAPTER IV

When in Time

Your haplogroup in the context of human history

~20k years ago

Last Glacial Maximum

Peak of the last ice age, populations isolated

~16k years ago

Haplogroup R1B1A2A1A

Your Y-DNA haplogroup emerged in West Eurasia

West Eurasia
~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

~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 R1B1A2A1A

Cultural Heritage

These ancient cultures have been linked to haplogroup R1B1A2A1A 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.

Eurasian Steppe Kilteasheen Langobard Lech Valley Bronze Age Saxon Dunum Saxon Schleswig Saxon Schortens
Culture assignments are based on archaeological context of ancient DNA samples and may represent regional associations during specific time periods.
Chapter V

Sample Catalog

18 direct carriers and 40 subclade carriers of haplogroup R1B1A2A1A

50 / 50 samples
Portrait Sample Country Era Date Culture Y-DNA Match
Portrait of ancient individual HID003 from Germany, dated 300 CE - 500 CE
HID003
Germany Saxon Early Medieval Hiddestorf, Germany 300 CE - 500 CE Saxon Hiddestorf R1b1a2a1a Direct
Portrait of ancient individual IND005 from Germany, dated 400 CE - 800 CE
IND005
Germany Saxon Early Medieval Alt Inden, Germany 400 CE - 800 CE Saxon Culture R1b1a2a1a Direct
Portrait of ancient individual CL145 from Italy, dated 580 CE - 630 CE
CL145
Italy Early Medieval Langobards, Northern Italy 580 CE - 630 CE Langobard R1b1a2a1a Direct
Portrait of ancient individual CL146 from Italy, dated 580 CE - 630 CE
CL146
Italy Early Medieval Langobards, Northern Italy 580 CE - 630 CE Langobard R1b1a2a1a Direct
Portrait of ancient individual CL57 from Italy, dated 580 CE - 630 CE
CL57
Italy Early Medieval Langobards, Northern Italy 580 CE - 630 CE Langobard R1b1a2a1a Direct
Portrait of ancient individual CL92 from Italy, dated 580 CE - 630 CE
CL92
Italy Early Medieval Langobards, Northern Italy 580 CE - 630 CE Langobard R1b1a2a1a Direct
Portrait of ancient individual CL93 from Italy, dated 580 CE - 630 CE
CL93
Italy Early Medieval Langobards, Northern Italy 580 CE - 630 CE Langobard R1b1a2a1a Direct
Portrait of ancient individual SRS001 from Germany, dated 700 CE - 900 CE
SRS001
Germany Saxon Early Medieval Schortens, Germany 700 CE - 900 CE Saxon Schortens R1b1a2a1a Direct
Portrait of ancient individual KIL038 from Ireland, dated 700 CE - 1300 CE
KIL038
Ireland Anglo-Saxon Early Medieval Kilteasheen, Ireland 700 CE - 1300 CE Kilteasheen R1b1a2a1a Direct
Portrait of ancient individual KIL045 from Ireland, dated 700 CE - 1300 CE
KIL045
Ireland Anglo-Saxon Early Medieval Kilteasheen, Ireland 700 CE - 1300 CE Kilteasheen R1b1a2a1a Direct
Chapter VI

Carrier Distribution Map

Geographic distribution of 58 ancient DNA samples (direct and subclade carriers of R1B1A2A1A)

Direct carrier Subclade carrier
Time Period Filter
All Time Periods
Showing all samples
Chapter VII

Temporal Distribution

Distribution of carriers across archaeological periods

Chapter VIII

Geographic Distribution

Distribution by country of origin (direct and subclade carriers shown by default)

Chapter IX

Country × Era Distribution

Cross-tabulation of carrier countries and archaeological periods (direct and subclade carriers shown by default)

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.