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Y-DNA Haplogroup • Paternal Lineage

E1B1B1B2A1A6D2

Y-DNA Haplogroup E1B1B1B2A1A6D2

~300 years ago
Northwest Africa (Maghreb)
0 subclades
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Chapter I

The Story

The journey of Y-DNA haplogroup E1B1B1B2A1A6D2

Origins and Evolution

E1B1B1B2A1A6D2 is a highly downstream branch nested within the E‑M81 (E1b1b1b2) framework that characterizes much of the paternal diversity of Northwest Africa. Phylogenetic position and modern survey data indicate this subclade is recent on the timescale of the E‑M81 radiation and most parsimoniously interpreted as the product of a recent founder event or series of local expansions within Maghrebi/Amazigh populations and island communities. Age estimates for such terminal branches are frequently in the historical period (hundreds of years), consistent with the limited internal diversity observed in targeted sampling of carriers.

Subclades

As a terminal/very downstream designation, E1B1B1B2A1A6D2 typically has few or no well-characterized downstream branches reported in public phylogenies; its definition commonly derives from one or a small number of private SNPs identified in high-resolution sequencing of North African and Canary Island samples. Where additional diversity is found, it often reflects localized family- or island-level founder effects rather than broad, deep substructure.

Geographical Distribution

The highest frequencies and most consistent occurrences of E1B1B1B2A1A6D2 are in the Maghreb (Morocco, Algeria, Tunisia) and in the Canary Islands where historical and demographic processes (island founder events, genetic drift) have amplified a small number of male lineages. Lower-frequency detections appear along southern Iberia (western Andalusia, Portugal), parts of Sicily and other central/western Mediterranean islands, and sporadically in Sahelian/West African groups and eastern Mediterranean/Near Eastern samples—usually explained by historical gene flow, recent migration, or the African diaspora.

Modern and ancient DNA (aDNA) surveys show that while deeper E‑M81 diversity dates to the Holocene expansion of Berber-associated lineages, very terminal subclades like E1B1B1B2A1A6D2 often reflect recent demographic events (island settlement, clan founder effects, or documented historical contacts) rather than Neolithic or Bronze Age continental expansions.

Historical and Cultural Significance

E1B1B1B2A1A6D2 is best interpreted as a marker of localized male founder events in populations with documented Amazigh (Berber) ancestry and in island groups (notably pre‑ and post‑contact populations of the Canary Islands). Its presence in southern Iberia and Mediterranean islands is consistent with centuries of cross‑Mediterranean movement (trade, raiding, settlement) and later historical processes (Medieval and early modern era migrations). In the Canary Islands, links between modern lineages and pre‑Hispanic Guanche paternal lineages mean this subclade can contribute to reconstructing island founder histories when combined with genealogical and archaeological context.

Because the lineage is recent and geographically concentrated, it has limited power alone to address deep prehistory; instead, it is most useful for reconstructing recent population structure, local founder events, and historical admixture in Northwest Africa and adjacent regions.

Conclusion

E1B1B1B2A1A6D2 illustrates how high-resolution Y‑chromosome sequencing resolves very recent, regionally restricted male lineages derived from the broader E‑M81 Berber expansion. Its distribution emphasizes Maghrebi/Amazigh centers of diversity and strong island founder effects, with secondary, low-frequency presence in parts of Iberia, the central/western Mediterranean, West Africa (via admixture) and the African diaspora. Further targeted sequencing and dense sampling in North Africa and Macaronesia will clarify internal substructure and the timing of specific founder events.

Key Points

  • Origins and Evolution
  • Subclades
  • Geographical Distribution
  • Historical and Cultural Significance
  • Conclusion
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 E1B1B1B2A1A6D2 Current ~300 years ago 🏭 Modern 300 years 0 0 0
2 E1B1B1B2A1A6D ~400 years ago 🏭 Modern 400 years 2 0 0
3 E1B1B1B2A1A6 ~800 years ago 🏰 Medieval 800 years 1 0 0
4 E1B1B1B2A1A ~1,000 years ago 🏰 Medieval 1,200 years 4 145 1
5 E1B1B1B2A1 ~2,000 years ago 🏛️ Roman Period 1,800 years 1 161 0
6 E1B1B1B2A ~2,000 years ago 🏺 Classical Antiquity 2,200 years 1 175 2
7 E1B1B1B2 ~3,000 years ago ⚔️ Iron Age 3,000 years 2 206 0
8 E1B1B1B ~4,000 years ago 🔶 Bronze Age 4,500 years 2 495 0
9 E1B1B1 ~22,000 years ago 🏹 Mesolithic 22,000 years 2 1,305 0
10 E1B1B ~26,000 years ago 🦴 Paleolithic 26,000 years 1 1,370 2
11 E1B1 ~28,000 years ago 🦴 Paleolithic 28,000 years 2 1,723 0
12 E1B ~30,000 years ago 🦴 Paleolithic 30,000 years 1 1,734 0
13 E1 ~50,000 years ago 🦴 Paleolithic 50,000 years 2 1,825 2
14 E ~50,000 years ago 🦴 Paleolithic 50,000 years 3 1,968 3

Subclades (0)

Terminal branch - no known subclades

Siblings (1)

Other branches from the same parent haplogroup

Chapter III

Where in the World

Geographic distribution and modern presence

Place of Origin

Northwest Africa (Maghreb)

Modern Distribution

The populations where Y-DNA haplogroup E1B1B1B2A1A6D2 is found include:

  1. Amazigh (Berber) populations of Morocco, Algeria and Tunisia
  2. Canary Islanders (pre‑Hispanic Guanche descendants and modern island populations)
  3. Coastal North African groups (Moroccans, Algerians, Tunisians, some Libyans)
  4. Southern Iberian populations (western Andalusia, Portugal) at low to moderate frequency
  5. Parts of Sicily and other central/western Mediterranean islands at low frequency
  6. Sahelian and West African groups at very low frequencies (regional admixture)
  7. Small numbers in Near Eastern and eastern Mediterranean populations (historical gene flow)
  8. African‑descended populations in the Americas and Caribbean (diaspora presence and admixture)
  9. Isolated communities showing strong founder effects (local Amazigh enclaves and island populations)

Regional Presence

Northwest Africa (Maghreb) High
Southern Europe (Iberian Peninsula) Moderate
Macaronesia (Canary Islands) Moderate
Western Sahara / Mauritania (Saharan-edge) Low
Near East / Eastern Mediterranean Low
North Africa (Maghreb) High
Southwest Europe (Iberian Peninsula & Macaronesia) Low
Southern Europe (Mediterranean islands, Sicily) Low
West Africa / Sahel (sporadic) Low
Americas (diaspora) 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

~2k years ago

Classical Antiquity

Greek and Roman civilizations flourish

~300 years ago

Haplogroup E1B1B1B2A1A6D2

Your Y-DNA haplogroup emerged in Northwest Africa (Maghreb)

Northwest Africa (Maghreb)
Present

Present Day

Modern era

Your Haplogroup
Historical Era
Chapter IV-B

Linked Cultures

Ancient cultures associated with Y-DNA haplogroup E1B1B1B2A1A6D2

Cultural Heritage

These ancient cultures have been linked to haplogroup E1B1B1B2A1A6D2 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.

Baja PPNB Canaanite Elmenteitan Culture German Jewish Hyrax Hill Iron Age Pastoral Lukenya Hill Culture Molo Cave Culture Pastoral Neolithic Roman Provincial Tell Atchana Viking Xaro Culture
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 2026-06-16
Confidence Score 50/100
Coverage Low
Data Source

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