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Heat from the eruption in A.D. 79 was so intense that it vitrified the brain tissue of one unfortunate Herculaneum resident, a new study confirms.
Five years ago Italian researchers published a study on the eruption of Mount Vesuvius in A.D. 79. that detailed how one victim of the blast, a male presumed to be in his mid 20s, had been found nearby in the seaside settlement of Herculaneum. He was lying facedown and buried by ash on a wooden bed in the College of the Augustales, a public building dedicated to the worship of Emperor Augustus. Some scholars believe that the man was the center’s caretaker and was asleep at the time of the disaster.
In 2018, one researcher discovered black, glossy shards embedded inside the caretaker’s skull. The paper, published in 2020, speculated that the heat of the explosion was so immense that it had fused the victim’s brain tissue into glass.
Forensic analysis of the obsidian-like chips revealed proteins common in brain tissue and fatty acids found in human hair, while a chunk of charred wood unearthed near the skeleton indicated a thermal reading as high as 968 degrees Fahrenheit, roughly the dome temperature of a wood-fired Neapolitan pizza oven. It was the only known instance of soft tissue — much less any organic material — being naturally preserved as glass.
On Thursday, a paper published in Nature verified that the fragments are indeed glassified brain. Using techniques such as electron microscopy, energy dispersive X-ray spectroscopy and differential scanning calorimetry, scientists examined the physical properties of samples taken from the glassy fragments and demonstrated how they were formed and preserved. “The unique finding implies unique processes,” said Guido Giordano, a volcanologist at the Roma Tre University and lead author of the new study.
Foremost among those processes is vitrification, by which material is burned at a high heat until it liquefies. To harden into glass, the substance requires rapid cooling, solidifying at a temperature higher than its surroundings. This makes organic glass formation challenging, Dr. Giordano said, as vitrification entails very specific temperature conditions and the liquid form must cool fast enough to avoid being crystallized as it congeals.