The Black Death decimated the world’s population seven centuries ago, but its origin is still hotly debated. A new study in Nature claims to identify the Black Death’s original strain from 14th century central Asia. It chases a trail of archaeological and ancient DNA evidence and provides a long-awaited origin story for history’s deadliest epidemic.
The Black Death ravaged Europe, the Middle East and northern Africa between 1347 and 1352. While experts debate the exact death toll, they estimate a range from 25 million to 200 million result – somewhere between five percent and 40 percent of the world’s population.
Once contracted, the Black Death killed 70 to 80 percent of its hosts – the vast majority of whom died within just five days. Those five days were brutal on the victims.
Their body temperatures sourced to high fevers, leading to chills, aches and delirium. They developed painful swellings in their lymph nodes called buboes that spilled with pus and often burst in the late stages of the disease. The bursting buboes were agonizing, but it was the price victims paid to survive until the late stages of the disease.
Even after the initial wave subsided in 1352, the plague continued to rear its ugly head for the next five centuriesperiodically decimating cities in its wake.
Despite its monumental death toll, the cause of the Black Death remained a mystery until the late 19th century. In 1894, over 500 years after the Black Death began, scientists discovered that a bacterium called Yersinia pestis caused the plague. This bacteria hopped from rats to humans through blood-sucking flas.
Fleas bit infection rats and consumed the bacteria, which clogged the flea’s gut and prevented it from eating. The infected, starving flies entered feeding frenzies, jumping from rat to rat, and left a trail of death and a population of infected flies in its wake. Once the rat population dwindled, the flas turned into humans, and the deadliest pandemic in recorded history began.
Identifying the Origin
But when and where did the plague leap from rodents to humans? That question has puzzled researchers for centuries.
To pinpoint a time and place for the origin of the Black Death, researchers turned to 14th century archaeological sites in central Asia. They identified two gravesites in Kyrgyzstan, where tombstones designated victims of the plague from 1338. They extracted DNA from the victims and found DNA from the plague’s bacterium, Y. pestis.
“We could finally show that the epidemic mentioned on the tombstones was indeed caused by plague,” co-author Phil Slavin says in a press release, a historian at the University of StirlingUK
This evidence demonstrates that Y. pestis was in central Asia before it reached Europe, but the researchers still could not determine that this was the original plague strain. To test if the plague that they identified was the original strain, the researchers turned to a trail of breadcrumbs left in the bacterium’s genome.
When Y. pestis first leaped from rodents to humans, its genome rapidly mutated and diversified – an event that researchers call the Big Bang. Small changes to the A, C, G and T nucleotides that make up the genome accumulated and eventually led to the Black Death. By looking at the diverse variants of the plague, researchers can determine what the ancestral strain looked like – a strain that the researchers from the report claim to have found.
“We found the Black Death’s source strain and we even know its exact date,” says Maria Spyrou in a press release, lead author and researcher at the University of Tübingen.
The ancient strain that the team identified closely resembles the strains that are found in modern-day marmots living near the archaeological site – a population of marmots that probably harbored idle versions of Y. pestis between plague outbreaks. The similarity between the gravesite and marmot genomes suggests that the victims contracted the bacterium when it had just leaped from rodents to humans.
“These points to an origin of Black Death’s ancestor in Central Asia,” co-author Johannes Krause concludes in a press release, a director at the Max Planck Institute for Evolutionary Anthropology.