MDLP K9a
By MDLP
Admixture Calculator
Calculator Details
Name
MDLP K9a
Target Population
World
Author
MDLP
Era
Ancient
Number of Components
9
Description
MDLP K9a is an ancient-era admixture calculator that analyzes an individual's genetic profile against nine carefully chosen ancestral components derived from ancient and deep-rooted populations. It estimates proportional contributions from Western Hunter-Gatherers (WHG), Caucasus Hunter-Gatherers (CHG), Neolithic farmers, Papuan, Melanesian, Onge, broader Asian, Southeast Asian (SEA), and African reference clusters. The calculator is designed for a global audience: hobbyist genealogists, population geneticists, amateur and professional archaeogenetic researchers, and anyone curious about deep ancestral threads across continents.
By comparing a test genotype to ancient reference clusters, MDLP K9a provides insight into major prehistoric admixture events and long-term population structure. Users can see which ancient ancestries are most prominent in their DNA, gauge affinities to Eurasian hunter-gatherers versus early farmers, and detect signals linked to South and Southeast Asian, Oceanian, and African lineages. The results help interpret migration, contact, and replacement scenarios that shaped regional gene pools over millennia.
The calculator situates results in historical and genetic context: WHG and CHG represent distinct Ice Age and postglacial hunter-gatherer ancestries in Europe and the Caucasus; Neolithic reflects early farming expansions; Papuan, Melanesian, Onge, and SEA capture deep Oceanian and South/Southeast Asian branches; the broader Asian and African components reflect continental diversity and long-range movements. MDLP K9a is especially valuable for exploring ancient admixture patterns not always visible in modern-only reference sets.
While informative, outputs are model-based approximations that depend on available ancient proxies and sample coverage. MDLP K9a is best used as a comparative tool: to form hypotheses, to complement archaeological and linguistic evidence, and to enrich personal or academic investigations into humanity's deep past.
Reference Populations
Europe
- WHG (Western Hunter-Gatherers): Journey back to the era of the Western Hunter-Gatherers, who roamed the expansive forests and plains of prehistoric Europe. Their lives, deeply intertwined with the rhythms of nature, reflect a time when humans lived in close harmony with the Ice Age environment, leaving behind a genetic legacy that speaks to resilience and adaptation.
- CHG (Caucasus Hunter-Gatherers): Delve into the history of the Caucasus Hunter-Gatherers, an ancient group that inhabited the mountainous regions between Europe and Asia. This ancestry component highlights their role as a genetic bridge in the prehistoric migration and mixing of peoples, contributing to the cultural and genetic diversity of the region.
- Neolithic: The Neolithic ancestry component marks a pivotal shift in human history with the advent of agriculture. This transformation, which began in the fertile crescents of the Near East and spread across Europe and Asia, underpins the development of settled societies, the domestication of plants and animals, and the rise of complex civilizations.
Asia
- Papuan: The Papuan ancestry component embodies the rich traditions and survival knowledge of the indigenous peoples of New Guinea. Isolated by rugged terrains and dense rainforests, these communities have maintained a unique genetic and cultural identity, with languages and customs that are as diverse as the island's incredible biodiversity.
- Asian: Explore the vast and varied tapestry of Asian ancestry, spanning from the steppes of Central Asia to the rice fields of East Asia. This component captures the essence of civilizations that have risen along great rivers, the movement of nomadic tribes, and the spread of philosophies and technologies that have globally influenced culture and science.
- Onge: The Onge ancestry component represents one of the oldest continuous populations in South Asia, residing primarily on the Andaman Islands. Their heritage is a window into the life of early human migrations out of Africa, showcasing a direct lineage that has remained relatively isolated and genetically distinct from mainland populations.
- SEA (Southeast Asian): Southeast Asian ancestry reflects the dynamic history of a region shaped by its waterways and lush landscapes. From ancient traders who navigated the archipelagos to the builders of great temples and kingdoms, this genetic legacy is a testament to the adaptability and cultural richness of the peoples of this monsoon-fed region.
Africa
- African: African ancestry traces the profound and diverse genetic roots of the continent that is humanity's birthplace. From the deserts of the north to the rainforests of the central region and the savannahs of the south, this heritage encompasses a wide range of cultures, languages, and historical epochs that have shaped human evolution.
Oceania
- Melanesian: Melanesian ancestry captures the distinct heritage of the island peoples of the western Pacific, including Fiji, Vanuatu, and the Solomon Islands. Known for their seafaring skills and rich oral traditions, Melanesians have navigated the Pacific Ocean for millennia, developing diverse cultures that are deeply connected to their island environments.
What is Admixture Analysis?
Admixture analysis is a method used to estimate your genetic ancestry by comparing your DNA to reference populations from around the world. Think of it as creating a recipe of your genetic makeup, where the ingredients are different ancestral populations.
This calculator uses 9 carefully selected ancient populations as references, allowing for a detailed breakdown of your genetic heritage.
How It Works
Key Points
- Your DNA is compared to 9 reference populations
- Modern populations are used as references
- Results show your genetic similarity to these populations
Understanding Your Results
Your results will show percentages of genetic similarity to these reference populations. Remember:
- Results reflect genetic similarity, not direct ancestry
- Ancient populations are used as references
- Percentages indicate relative genetic contribution from each population
- Results are estimates based on available reference data