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Y-DNA Haplogroup • Paternal Lineage

K2B

Y-DNA Haplogroup K2B

~45,000 years ago
South / Southwest Asia
0 subclades
1 ancient samples
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Chapter I

The Story

The journey of Y-DNA haplogroup K2B

Origins and Evolution

Y-DNA haplogroup K2B is an intermediate branch within K2 (M526), a major lineage in the broader K-M9 phylogeny. In population-genetic terms, K2B is important less because it is widely sampled today as a deep basal clade and more because it represents part of the branching structure from which several later paternal lineages diversified. Its origin is most plausibly placed in South or Southwest Asia during the Upper Paleolithic, broadly around 45 thousand years ago, consistent with the time depth of the parent K2 clade.

As with many early K-lineages, the present-day distribution of K2B itself is likely sparse, while its descendant branches and sister branches contributed to major human dispersals across Eurasia. The broader K2 radiation is associated with the expansion of human populations outside Africa and into multiple ecological zones, with later lineages eventually giving rise to haplogroups that became prominent in Europe, West Asia, South Asia, East Asia, and Oceania.

Subclades

K2B is an intermediate phylogenetic node, and its exact downstream structure depends on the classification framework used. In general, it is positioned as a branch within K2 that connects to later paternal lineages in the broader K-M526 tree. In many phylogenies, this part of the tree is relevant because it helps contextualize the ancestry of major clades such as I, J, LT, P, and their descendants, even if K2B itself is not directly ancestral to all of them in a simple linear sense.

Because the deep phylogeny of early Y-chromosome branches is still refined by ongoing sequencing studies, some subclade relationships remain subject to revision. However, the consensus view is that K2B belongs to the deep early diversification of non-African Y lineages and is best interpreted as part of the prehistory of later Eurasian paternal diversity.

Geographical Distribution

The distribution of K2B is best understood in a historical and phylogenetic rather than strictly frequency-based sense. The clade is expected to be rare in living populations, but the broader K2 background is represented across a wide swath of Eurasia through its descendant branches. In practice, K-related ancestral signals and descendant K2 sublineages are most relevant in South Asia, West Asia, Central Asia, Southeast Asia, East Asia, Europe, and Oceania.

Modern observations of very deep K-derived lineages are often concentrated in regions that preserve older genetic diversity or along routes of ancient dispersal. The broader K2 radiation likely reflects a series of early expansions out of the ancestral population that inhabited Southwest Asia and adjacent regions in the late Pleistocene.

Historical and Cultural Significance

K2B is significant because it lies near the base of one of the most consequential branches of the Y-chromosome tree. Even when the clade itself is rare, its position helps explain the emergence of paternal lineages that later became prominent among Neolithic farmers, Bronze Age pastoralists, and historic populations across Eurasia.

From an archaeological standpoint, the deep K2 tree is relevant to the demographic processes that accompanied the spread of modern humans across Eurasia after the initial out-of-Africa dispersal. Although K2B cannot be tied to a single archaeological culture with confidence, its broader phylogenetic neighborhood is often discussed in relation to Upper Paleolithic foragers, later Neolithic transitions, and the population mixtures that shaped the genetic landscape of the Old World.

Conclusion

Y-DNA haplogroup K2B is an ancient and phylogenetically important branch of K2, reflecting an early stage in the diversification of Eurasian paternal lineages. Its principal value in genetic genealogy is as a deep ancestral node that helps organize the tree of later haplogroups and provides insight into the population history of the Upper Paleolithic Near East and surrounding regions.

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 K2B Current ~45,000 years ago 🦴 Paleolithic 45,000 years 0 24 1
2 K2 ~45,000 years ago 🦴 Paleolithic 45,000 years 1 39 0
3 K ~45,000 years ago 🦴 Paleolithic 45,000 years 1 71 1
4 F ~50,000 years ago 🦴 Paleolithic 50,000 years 1 357 31

Subclades (0)

Terminal branch - no known subclades

Chapter III

Where in the World

Geographic distribution and modern presence

Place of Origin

South / Southwest Asia

Modern Distribution

The populations where Y-DNA haplogroup K2B is found include:

  1. South Asian populations, especially as deep descendant and occasional basal K-related lineages
  2. West Asian / Near Eastern populations
  3. Southeast Asian populations through downstream branches
  4. East Asian populations through descendant branches
  5. European populations mainly via descendants such as I, J, and R
  6. Oceanian and Melanesian groups through downstream branches
  7. Central Asian populations

Regional Presence

Southeast Asia High
Oceania (Near Oceania & Pacific) High
East Asia Moderate
Central Asia Moderate
Australia (Indigenous) High
Western Europe Moderate
North America (Indigenous) Low
South Asia Moderate
West Asia / Near East Moderate
Southeast Asia Low
East Asia Low
Oceania and Melanesia Low
CHAPTER IV

When in Time

Your haplogroup in the context of human history

~50k years ago

Upper Paleolithic

Advanced tool-making, art, and cultural explosion

~45k years ago

Haplogroup K2B

Your Y-DNA haplogroup emerged in South / Southwest Asia

South / Southwest Asia
~20k years ago

Last Glacial Maximum

Peak of the last ice age, populations isolated

~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 K2B

Cultural Heritage

These ancient cultures have been linked to haplogroup K2B 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.

Anglo-Saxon Avar Culture Dong Son Culture Dzudzuana Katelai Culture Late Neolithic Chinese Peștera cu Oase Tianyuan Culture Ust-Ishim Culture
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 of haplogroup K2B

1 / 1 samples
Portrait Sample Country Era Date Culture Y-DNA Match
Portrait of ancient individual LAK016 from United Kingdom, dated 410 CE - 535 CE
LAK016
United Kingdom Early Medieval Anglo-Saxon Suffolk, England 410 CE - 535 CE Anglo-Saxon K2b Direct
Chapter VI

Carrier Distribution Map

Geographic distribution of 1 ancient DNA sample (direct and subclade carriers of K2B)

Direct 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.