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Y-DNA Haplogroup • Paternal Lineage

E1B1A1A1A1C

Y-DNA Haplogroup E1B1A1A1A1C

~2,000 years ago
West/Central Africa
3 subclades
1 ancient samples
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Chapter I

The Story

The journey of Y-DNA haplogroup E1B1A1A1A1C

Origins and Evolution

E1B1A1A1A1C is a downstream branch of the broadly distributed West/Central African paternal lineage commonly referred to as E1b1a (E‑M2). The parent clade (E1B1A1A1A1) is tied to demographic processes in the later Holocene, especially the Bantu expansions beginning roughly 2.5 kya. Given its placement as a downstream subclade, E1B1A1A1A1C most likely arose in West or Central Africa during the last two millennia as local populations experienced population growth, migrations, and cultural transformations associated with Iron Age technologies and agriculture.

Genetic divergence times for specific terminal E1b1a subclades are frequently in the range of a few hundred to a few thousand years, consistent with regional population expansions and founder effects. The emergence of E1B1A1A1A1C can reasonably be placed shortly after the primary spread of its parent clade, reflecting localized differentiation during or after the Bantu expansions.

Subclades

As a downstream lineage, E1B1A1A1A1C may itself contain further downstream branches defined by private or regionally restricted SNPs. Published high-resolution Y-chromosome surveys of West and Central African populations and targeted sequencing projects continue to refine the internal structure of E1b1a; where available, E1B1A1A1A1C substructure typically mirrors recent demographic histories — with star-like patterns or shallow branching indicative of rapid expansions and founder events.

Geographical Distribution

E1B1A1A1A1C is concentrated in West and Central Africa, with measurable frequencies in southern and eastern regions where Bantu-speaking groups settled. Modern distribution patterns are shaped by: (1) the pre-existing population structure of West/Central Africa, (2) the Bantu-speaking expansions that spread agriculturalist/later Iron Age communities, and (3) recent historical movements including the transatlantic slave trade, which transferred West/Central African paternal lineages to the Americas and Caribbean.

Observed patterns in population-genetic surveys show higher frequencies in populations such as Yoruba, various Bantu-speaking groups (e.g., Kongo, Luba, Ovimbundu, and peoples of Angola and the Congo basin), and in many southern African Bantu-speaking groups at moderate frequencies. Low-frequency occurrences are expected in North Africa and parts of Southern Europe due to historical contact and modern migration.

Historical and Cultural Significance

Because E1B1A1A1A1C is nested within a clade strongly associated with the Bantu expansions, its history is intertwined with the spread of agriculture (yams, cereals) and ironworking technologies across sub-Saharan Africa during the Iron Age. In archaeological contexts, such Y-lineages are often correlated with the demographic movements that produced the present-day linguistic distribution of Bantu languages.

In the recent historical era, haplogroups derived from West/Central Africa — including E1B1A1A1A1C — were carried to the Americas and Caribbean during the transatlantic slave trade, where they persist in Afro-descended populations and contribute to paternal-line ancestry profiles used in genetic genealogy and population studies.

Conclusion

E1B1A1A1A1C is best understood as a regional derivative of the widespread E1b1a (E‑M2) paternal lineage that diversified during the later Holocene alongside Bantu-speaking expansions and Iron Age demographic changes in West and Central Africa. Ongoing high-resolution Y-chromosome sequencing and broader sampling across under-represented African regions will refine its internal structure and clarify precise geographic origins and migration pathways.

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 E1B1A1A1A1C Current ~2,000 years ago 🏛️ Roman Period 1,800 years 3 188 1
2 E1B1A1A1A1 ~2,000 years ago 🏺 Classical Antiquity 2,500 years 2 195 0
3 E1B1A1A1A ~4,000 years ago 🔶 Bronze Age 4,000 years 2 308 0
4 E1B1A1A1 ~6,000 years ago 🪨 Chalcolithic 5,500 years 1 319 0
5 E1B1A1A ~8,000 years ago 🌾 Neolithic 8,000 years 1 319 0
6 E1B1A1 ~20,000 years ago 🏹 Mesolithic 20,000 years 1 330 0
7 E1B1A ~22,000 years ago 🏹 Mesolithic 22,000 years 1 334 0
8 E1B1 ~28,000 years ago 🦴 Paleolithic 28,000 years 2 1,723 0
9 E1B ~30,000 years ago 🦴 Paleolithic 30,000 years 1 1,734 0
10 E1 ~50,000 years ago 🦴 Paleolithic 50,000 years 2 1,825 2
11 E ~50,000 years ago 🦴 Paleolithic 50,000 years 3 1,968 3

Siblings (1)

Other branches from the same parent haplogroup

Chapter III

Where in the World

Geographic distribution and modern presence

Place of Origin

West/Central Africa

Modern Distribution

The populations where Y-DNA haplogroup E1B1A1A1A1C is found include:

  1. Yoruba and other West African groups (e.g., Akan, Mande-speaking populations)
  2. Bantu-speaking populations across Central Africa (e.g., Kongo, Luba, Mbundu)
  3. Southern African Bantu groups (e.g., Zulu, Xhosa, Tswana) at moderate frequencies
  4. Eastern African populations with Bantu ancestry (e.g., parts of Tanzania, Kenya, Great Lakes region)
  5. African-descended populations in the Americas and Caribbean (via the transatlantic slave trade)
  6. Low-frequency occurrences in North Africa and southern Europe due to historical contact and recent migration

Regional Presence

Western Africa Moderate
Central Africa High
Southern Africa Moderate
Eastern Africa Low
Caribbean & Americas (diaspora) Low
Southern Europe (admixed) Low
North America (Afro-descended populations) Moderate
South America & Caribbean (Afro-descended populations) Moderate
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

~1k years ago

Haplogroup E1B1A1A1A1C

Your Y-DNA haplogroup emerged in West/Central Africa

West/Central Africa
Present

Present Day

Modern era

Your Haplogroup
Historical Era
Chapter IV-B

Linked Cultures

Ancient cultures associated with Y-DNA haplogroup E1B1A1A1A1C

Cultural Heritage

These ancient cultures have been linked to haplogroup E1B1A1A1A1C 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.

Afro-Mexican Bungule Danish Medieval Faza Iron Age Pastoral Ngongo Mbata present Roman Provincial Songo Mnara Tell Atchana
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 subclade carrier of haplogroup E1B1A1A1A1C (no exact E1B1A1A1A1C samples sequenced yet)

1 / 1 samples
Portrait Sample Country Era Date Culture Y-DNA Match
Portrait of ancient individual HGDP01030 from BotswanaOrNamibia, dated 2000 CE
HGDP01030
BotswanaOrNamibia present 2000 CE E1b1a1a1a1c4~ Downstream
Chapter VI

Carrier Distribution Map

Geographic distribution of 1 ancient DNA sample (direct and subclade carriers of E1B1A1A1A1C)

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 2026-06-15
Confidence Score 50/100
Coverage Low
Data Source

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