Add to ORKGCharacterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the evolutionary history of anatomically modern humans. However, historic migrations from Eurasia into Africa have affected many contemporary populations, confounding inferences. Here, we present a 12.5× coverage ancient genome of an Ethiopian male (“Mota”) who lived approximately 4500 years ago. We use this genome to demonstrate that the Eurasian backflow into Africa came from a population closely related to Early Neolithic farmers, who had colonized Europe 4000 years earlier
The predominantly African origin of all modern human populations is well established, but the route ...
The predominantly African origin of all modern human populations is well established, but the route ...
The predominantly African origin of all modern human populations is well established, but the route ...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
The ability to sequence ancient genomes has revolutionized our understanding of human evolution. How...
Understanding human genetic diversity in Africa is important for interpreting the evolution of all h...
Understanding human genetic diversity in Africa is important for interpreting the evolution of all h...
Understanding our evolutionary history as a species has since long been one of the most attracting a...
The predominantly African origin of all modern human populations is well established, but the route ...
The predominantly African origin of all modern human populations is well established, but the route ...
The predominantly African origin of all modern human populations is well established, but the route ...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
Characterizing genetic diversity in Africa is a crucial step for most analyses reconstructing the ev...
The ability to sequence ancient genomes has revolutionized our understanding of human evolution. How...
Understanding human genetic diversity in Africa is important for interpreting the evolution of all h...
Understanding human genetic diversity in Africa is important for interpreting the evolution of all h...
Understanding our evolutionary history as a species has since long been one of the most attracting a...
The predominantly African origin of all modern human populations is well established, but the route ...
The predominantly African origin of all modern human populations is well established, but the route ...
The predominantly African origin of all modern human populations is well established, but the route ...