The Black Death continues to cast a shadow across England. Although the modern English population is more cosmopolitan than ever, the plagues known as the Black Death killed so many people in the Middle Ages that, to this day, genetic diversity is lower in England than it was in the 11th century, according to a new analysis.
Rus Hoelzel at the University of Durham, UK and his colleagues looked at the mitochondrial DNA from human remains at 4th and 11th century archaeological sites in England, and compared them to samples from the modern population stored on DNA databases such as GenBank. They found there was more variation in the ancient mitochondrial DNA sequences than in modern sequences.
Hoelzel thinks random genetic drift may have lowered genetic diversity naturally. But the large unexpected drop in diversity was more likely to have been caused by population crashes following major outbreaks of the Black Death in England during the 1340s and the 1660s.
"The main factors in support of a role for plague are the timing and the fact that it affected different families [to a differing degree]," says Hoelzel. It is known that plague affected some families more than others, so their mitochondrial DNA would have been less common among survivors, Hoelzel says.
"I'm not at all surprised with the result," says Susan Scott at the University of Liverpool, UK. "We're talking about one of the worst disasters humans have faced. It destroyed about half the population of Medieval Europe in three years."
But the effects may have been most severe in northern Europe. Hoelzel and his team note that DNA sequences from modern Italians are just as variable as those from their 7th century ancestors.
According to Hoelzel, this finding may reflect migration patterns after the Black Death, rather than a less severe outbreak in southern Europe. "Throughout the recent past, there have been movements from the Middle East into southern Europe, and the Middle East population retains a great mix and diversity," he says.
Rus Hoelzel at the University of Durham, UK and his colleagues looked at the mitochondrial DNA from human remains at 4th and 11th century archaeological sites in England, and compared them to samples from the modern population stored on DNA databases such as GenBank. They found there was more variation in the ancient mitochondrial DNA sequences than in modern sequences.
Hoelzel thinks random genetic drift may have lowered genetic diversity naturally. But the large unexpected drop in diversity was more likely to have been caused by population crashes following major outbreaks of the Black Death in England during the 1340s and the 1660s.
"The main factors in support of a role for plague are the timing and the fact that it affected different families [to a differing degree]," says Hoelzel. It is known that plague affected some families more than others, so their mitochondrial DNA would have been less common among survivors, Hoelzel says.
"I'm not at all surprised with the result," says Susan Scott at the University of Liverpool, UK. "We're talking about one of the worst disasters humans have faced. It destroyed about half the population of Medieval Europe in three years."
But the effects may have been most severe in northern Europe. Hoelzel and his team note that DNA sequences from modern Italians are just as variable as those from their 7th century ancestors.
According to Hoelzel, this finding may reflect migration patterns after the Black Death, rather than a less severe outbreak in southern Europe. "Throughout the recent past, there have been movements from the Middle East into southern Europe, and the Middle East population retains a great mix and diversity," he says.
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