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Y-DNA Haplogroup • Paternal Lineage

R1B1A1B1A1A1C1

Y-DNA Haplogroup R1B1A1B1A1A1C1

~14,000 years ago
West Eurasia
1 subclades
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Chapter I

The Story

The journey of Y-DNA haplogroup R1B1A1B1A1A1C1

Origins and Evolution

Y-DNA haplogroup R1b1a1b1a1a1c1 is a rare subclade nested deep within the broader R1b paternal phylogeny, one of the dominant western Eurasian Y-chromosome lineages. Because it is downstream of an already rare intermediate branch, the most parsimonious interpretation is that it reflects an ancient, localized paternal line that survived through multiple population turnovers rather than a lineage associated with a major Holocene expansion.

The broader R1b macro-lineage diversified in West Eurasia during the late Upper Paleolithic and early Holocene, with later branching patterns shaped by postglacial recolonization, Neolithic demographic shifts, and Bronze Age expansions across Europe and the steppe corridor. The placement of R1b1a1b1a1a1c1 suggests a time depth on the order of the early Holocene to late Mesolithic/early Neolithic transition, although its exact formation date remains uncertain without direct phylogenetic dating from sequenced samples.

Subclades

As a terminal or near-terminal branch in a rare lineage, R1b1a1b1a1a1c1 may have few currently recognized descendant branches in published datasets. In practice, such clades are often identified from high-resolution sequencing projects and can represent either:

  • a singleton lineage in modern sampling,
  • a very small cluster of related paternal lines,
  • or an under-sampled branch that may gain resolution as more ancient and modern Y-chromosome genomes are analyzed.

Because of this rarity, its internal structure is likely to be shallow compared with the major R1b branches such as R1b-L51, R1b-U106, or R1b-P312, which underwent large-scale expansions in Europe.

Geographical Distribution

The likely modern distribution of R1b1a1b1a1a1c1 is patchy and low-frequency, spanning several interconnected West Eurasian regions. It is most plausibly found in:

  • Western Europe, especially among populations with deep historical continuity and localized founder effects.
  • The Mediterranean and southern Europe, where rare R1b subclades can persist at low levels in Italy, Iberia, and the Balkans.
  • The Caucasus and Anatolia, which often preserve deeply rooted paternal diversity due to long-term population structure.
  • The Levant and North Africa, where West Eurasian Y lineages entered through Neolithic, Bronze Age, and later historical gene flow.
  • Steppe-adjacent and parts of Central Asia, where small founder lineages can be maintained through migrations and admixture networks.

Given its rarity, distribution is likely influenced more by local drift, bottlenecks, and founder effects than by broad continental-scale population movement.

Historical and Cultural Significance

Although no single archaeological culture can be assigned to this clade with confidence, its broader R1b background makes it contextually relevant to several major prehistoric horizons. These include the late hunter-gatherer to early farmer transition, the spread of post-Neolithic western Eurasian paternal lineages, and later Bronze Age mobility networks that connected the steppe, Europe, and parts of West Asia.

R1b lineages are especially prominent in discussions of Indo-European dispersals, but it is important to stress that a rare downstream clade such as R1b1a1b1a1a1c1 does not by itself identify a specific language, culture, or ethnicity. Instead, it likely reflects survival within small regional populations, potentially with ancestry traceable to older West Eurasian demographic layers predating or overlapping the main Bronze Age expansions.

Population Genetics Interpretation

From a population-genetic perspective, this haplogroup is best understood as a deep residual lineage. Its rarity suggests that it may have been carried through:

  • serial founder effects,
  • population bottlenecks,
  • endogamy or local patrilineal continuity,
  • and occasional movement through trade, migration, or conquest.

Such lineages are valuable for reconstructing the fine structure of ancient male ancestry because they can preserve signals of population history that were erased in more expansive clades.

Conclusion

R1b1a1b1a1a1c1 is a rare and likely ancient West Eurasian Y-DNA lineage within the broader R1b family. Its patchy distribution and deep branching position point to long-term persistence in small populations rather than a major recent expansion, making it an informative marker of localized paternal continuity across western Eurasia and adjacent regions.

Key Points

  • Origins and Evolution
  • Subclades
  • Geographical Distribution
  • Historical and Cultural Significance
  • Population Genetics Interpretation
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 R1B1A1B1A1A1C1 Current ~14,000 years ago 🏹 Mesolithic 14,000 years 1 64 0
2 R1B1A1B1A1A1C ~14,000 years ago 🏹 Mesolithic 14,000 years 2 234 1
3 R1B1A1B1A1A1 ~14,000 years ago 🏹 Mesolithic 14,000 years 3 336 0
4 R1B1A1B1A1A ~14,000 years ago 🏹 Mesolithic 14,000 years 4 1,254 70
5 R1B1A1B1A1 ~14,000 years ago 🏹 Mesolithic 14,000 years 1 1,292 0
6 R1B1A1B1A ~14,000 years ago 🏹 Mesolithic 14,000 years 2 1,295 15
7 R1B1A1B1 ~18,000 years ago 🏹 Mesolithic 18,000 years 2 1,529 0
8 R1B1A1B ~18,000 years ago 🏹 Mesolithic 18,000 years 2 1,655 31
9 R1B1A1 ~18,000 years ago 🏹 Mesolithic 18,000 years 2 1,657 0
10 R1B1A ~18,000 years ago 🏹 Mesolithic 18,000 years 2 3,825 39
11 R1B1 ~18,000 years ago 🏹 Mesolithic 18,000 years 2 3,967 0
12 R1b ~20,000 years ago 🏹 Mesolithic 20,000 years 2 4,036 126

Siblings (1)

Other branches from the same parent haplogroup

Chapter III

Where in the World

Geographic distribution and modern presence

Place of Origin

West Eurasia

Modern Distribution

The populations where Y-DNA haplogroup R1b1a1b1a1a1c1 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
British Isles High
Northern Iberia Moderate
Central Europe Low
North Africa (coastal) Low
Americas (diaspora) Low
Oceania (diaspora) Low
Eastern Europe Low
Near East Low
Southern Europe Low
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

~14k years ago

Haplogroup R1B1A1B1A1A1C1

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 R1B1A1B1A1A1C1

Cultural Heritage

These ancient cultures have been linked to haplogroup R1B1A1B1A1A1C1 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.

British Neolithic Corded Ware Dutch Bronze Age Early British Iron Age Iron Age-Roman Langobard Culture Norse Viking Viking Denmark
Culture assignments are based on archaeological context of ancient DNA samples and may represent regional associations during specific time periods.
Chapter V

Sample Catalog

1 direct carrier and 6 subclade carriers of haplogroup R1B1A1B1A1A1C1

7 / 7 samples
Portrait Sample Country Era Date Culture Y-DNA Match
Portrait of ancient individual I11149 from United Kingdom, dated 733 BCE - 397 BCE
I11149
United Kingdom Early Iron Age England 733 BCE - 397 BCE Early British Iron Age R1b1a1b1a1a1c1 Direct
Portrait of ancient individual 6DT3 from United Kingdom, dated 50 CE - 350 CE
6DT3
United Kingdom Iron Age to Roman England 50 CE - 350 CE Iron Age-Roman R1b1a1b1a1a1c1a1 Downstream
Portrait of ancient individual 3DT16 from United Kingdom, dated 50 CE - 350 CE
3DT16
United Kingdom Iron Age to Roman England 50 CE - 350 CE Iron Age-Roman R1b1a1b1a1a1c1a2 Downstream
Portrait of ancient individual VK323 from Denmark, dated 800 CE - 1100 CE
VK323
Denmark Viking Age Denmark 800 CE - 1100 CE Viking Denmark R1b1a1b1a1a1c1a2b1 Downstream
Portrait of ancient individual VK143 from United Kingdom, dated 880 CE - 1000 CE
VK143
United Kingdom Viking Age England 880 CE - 1000 CE Viking R1b1a1b1a1a1c1a2 Downstream
Portrait of ancient individual VK396 from Sweden, dated 900 CE - 1200 CE
VK396
Sweden Viking Age Sweden 900 CE - 1200 CE Viking R1b1a1b1a1a1c1a1 Downstream
Portrait of ancient individual I3035 from United Kingdom, dated 4000 BCE - 3500 BCE
I3035
United Kingdom Neolithic England 4000 BCE - 3500 BCE British Neolithic R1b1a1b1a1a1c1a2b Downstream
Chapter VI

Carrier Distribution Map

Geographic distribution of 7 ancient DNA samples (direct and subclade carriers of R1B1A1B1A1A1C1)

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.