Neanderthal men may have chosen human women more often, reshaping human history: DNA study suggests | – The Times of India
Ancient history often feels distant and abstract, reduced to fossil fragments and textbook timelines. Yet every so often, a scientific discovery makes the past feel unexpectedly personal. A new Neanderthal DNA study has done just that. Researchers analysing ancient genomes now suggest there may have been a clear partner preference when modern humans and Neanderthals interbred. According to the findings, pairings appear to have been more common between female modern humans and male Neanderthals.In reality, it reshapes how scientists imagine these prehistoric encounters. What makes this Neanderthal DNA study particularly intriguing is the suggestion that culture and social behaviour may have shaped genetic history. Evolution is often described as survival of the fittest. Yet this pattern might instead reflect patterns of movement, partnership, and social structure.
Neanderthal DNA study reveals X chromosome mystery in human evolution
Scientists have known for years that most people living outside sub-Saharan Africa carry a small percentage of Neanderthal DNA. These inherited genes are not merely historical leftovers. Some influence our immune systems, while others are linked to certain health risks. The ancient mixing of populations still affects us today.Researchers also noticed something unusual. The human X chromosome contains far less Neanderthal DNA than expected when compared with other chromosomes. For a long time, experts believed natural selection might explain this imbalance. It seemed possible that Neanderthal genes on the X chromosome were harmful and gradually removed over time.This new research, published in the journal Science, approached the puzzle differently. Instead of examining only modern human DNA, scientists analysed Neanderthal genomes. What they found appears to mirror the human pattern. There is more human DNA than expected on the Neanderthal X chromosome.
Genetics behind the Neanderthal DNA study findings
Understanding this finding requires a basic look at genetics. Females carry two X chromosomes, while males carry one X and one Y chromosome. Across a population, roughly two-thirds of X chromosomes are inherited from mothers. This simple biological rule shapes how genes spread over generations.If female humans mated more frequently with male Neanderthals, this pattern would produce exactly the genetic signal researchers observed. Over thousands of years, more human DNA would accumulate on Neanderthal X chromosomes. At the same time, less Neanderthal DNA would remain on human X chromosomes.Alexander Platt, a geneticist involved in the study, suggests that the simplest explanation may relate to behaviour rather than survival advantage. He argues that the pattern might reflect how these groups interacted socially, rather than strict evolutionary filtering alone.
Missing pieces in Neanderthal DNA research
The evidence cannot tell us precisely how these relationships formed. Scientists are left to consider several possibilities. It is possible that human women joined Neanderthal groups. It is equally possible that Neanderthal males entered larger human communities. Early modern humans often lived in broader social networks, while Neanderthals may have lived in smaller, more isolated groups.Some researchers also note that offspring from human males and Neanderthal females might not have survived as successfully. If that were the case, it could partly explain the genetic imbalance. The study cannot completely rule out this alternative explanation.Population genetics expert Xinjun Zhang has acknowledged that a definitive answer may never be possible. Without direct observation, scientists must rely entirely on genetic clues preserved in ancient remains.
