The skull of one of the Roman-age skeletons discovered at Driffield Terrace in York.

Genetic study reveals 30% of white British DNA has German ancestry

Spread the love

New research suggests modern English people may have Anglo-Saxon DNA

German captain Uwe Seeler (left) shakes hands with England captain Bobby Moore before the start of the World Cup final at Wembley in 1966. A major genetic study has revealed different genetic clusters across the UK, but overall white Britons share 30% of their DNA with modern Germans.
German captain Uwe Seeler (left) shakes hands with England captain Bobby Moore before the start of the World Cup final at Wembley in 1966. A major genetic study has revealed different genetic clusters across the UK, but overall white Britons share 30% of their DNA with modern Germans.

The Romans, Vikings, and Normans may have ruled or invaded the British for hundreds of years, but they left barely a trace on our DNA, the first detailed study of the genetics of British people has revealed.

The analysis shows that the Anglo-Saxons were the only conquering force, around 400-500 AD, to substantially alter the country’s genetic makeup, with most white British people now owning almost 30% of their DNA to the ancestors of modern-day Germans.

For the first time ever, archaeologists and researchers are able to accurately determine the Anglo-Saxon ancestry of the British population from ancient skeletons.

Human remains excavated from burial sites near Cambridge were well preserved enough to supply complete genome sequences of ancient British DNA.

Researchers used a new method of analysis to compare the ancient genomes with the sequences of modern times.

They have estimated that about a Third of British people’s ancestors were Anglo-Saxon immigrants.

By studying historical accounts, documents, and archaeology, researchers found that the Anglo-Saxons migrated to Britain from continental Europe from the Fifth century AD.

These people had brought a new culture, social structure, and language to the country.

Late Iron Age and Anglo – Saxon skeletons gave enough DNA to the researchers to understand these people through genomics.

The skull of one of the Roman-age skeletons discovered at Driffield Terrace in York.
The skull of one of the Roman-age skeletons discovered at Driffield Terrace in York.

One of the researchers, Dr. Stephan Schiffels, said that by sequencing the DNA from 10 skeletons from each age, they were able to obtain the first complete ancient genomes from Great Britain.

He added that comparing the 2 ancient genomes with sequences of 100’s of modern European genomes, they were able to estimate that 30% of the ancestors of the English were actually Anglo-Saxons.

This is actually the first and most accurate estimate of the impact of immigration on Britain from the Fith to Seventh centuries A.D.

It has been nearly Thirteen centuries since the English ‘people’ first appeared in historical records.

A monk named Venerable Bede has recorded his time’s history and has made references to the English people and their history. Bede’s work is very important for our knowledge of the Anglo-Saxons.

The monk recorded how the Anglo-Saxons had moved to Britain and became Christian.

The Roman-age skeletons from Driffield Terrace laid out in York’s Guildhall
The Roman-age skeletons from Driffield Terrace laid out in York’s Guildhall

Research has done before this new sequence had stated that between 10% and 95% contributed to the population.

However, they did not have technology like we have today for doing these special sequences.

One older study even suggested that the Anglo-Saxons did not mix with the population at all and instead they stayed segregated.

However, as stated above, the new research is a lot more accurate and disproves the earlier ideas. These new sequences show how much the immigrants integrated.

Cambridgeshire’s ancient skeletons were carbon – dated, which proved to be from the late Iron Age, about 50 BC.

The other skeletons that were carbon-dated from the Anglo-Saxon era were from around 500 to 700 AD.

After the carbon-dating, the complete genome sequences were then selected for DNA sampling to determine the make-up of the Iron Age Britons and Anglo-Saxons.

Schiffels commented that by combining the archaeological findings with DNA the resulting data gave them a lot more information about how the Anglo-Saxons lived.

The genome sequences from 4 of the 10 skeletons found in a cemetery in Oakington indicated that 2 were migrant Anglo-Saxons, 1 was a native, and another was a mixture of both.

An Anglo-Saxon woman is carefully excavated from a fifth and sixth century burial ground in Oakington
An Anglo-Saxon woman is carefully excavated from a fifth and sixth-century burial ground in Oakington

Another archaeologist and researcher working on the project, Dr. Duncan Sayer, said that not only did the researchers find out the skeletons’ origins, but that they were treated similarly in death, by being buried in the same way and next to each other.

The people were all well-integrated into the Oakington Anglo-Saxon community despite their different origins.

The Modern British and continental European genomes from the UK10K project and the 1000 Genomes Project were compared with other genomes from other ancient skeletons.

The researchers discovered that the Anglo-Saxon immigrants were quite similar to modern Dutch and Danish people.

They contributed about 30% of the DNA of modern people from the East of England.

The Anglo-Saxons 1st settled in the South East of England, so this pattern is quite consistent with the migration patterns. The country has changed quite a bit and has had waves of migration, war, and industrial development, that have changed the genetic mixture of the population of England, further.

  • 1.2K
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
John Smith has been with Histecho since 2017, A Senior Editor & Writer for Histecho. his work has been featured in outlets such as Scientific American, The Washington Post, NBC News, and Fox News. John grew up outside of Philadelphia and studied biology at Hamilton College in upstate New York.

Leave a Reply

Your email address will not be published. Required fields are marked *