A cosmic impact about 12,800 years ago caused the destruction of one of the earliest human settlements, researchers say.
Before the Taqba Dam impounded the Euphrates River in northern Syria in the 1970s, an archaeological site named Abu Hureyra bore witness to the moment ancient nomadic people first settled down and started cultivating crops. A large mound marks the settlement, which now lies under Lake Assad.
Before the lake formed, archaeologists carefully extracted material, including parts of houses, food, and tools—an abundance of evidence that allowed them to identify the transition to agriculture nearly 12,800 years ago. Researchers call it one of the most significant events in Earth’s cultural and environmental history.
But, Abu Hureyra, it turns out, has another story to tell. Among the cereals and grains and splashed on early building material and animal bones, researchers found meltglass, some features of which suggest it formed at extremely high temperatures—far higher than what humans could achieve at the time—or that fire, lighting, or volcanism could explain.
“To help with perspective, such high temperatures would completely melt an automobile in less than a minute,” says James Kennett, emeritus professor of geology at the University of California, Santa Barbara. Such intensity, he says, could only have resulted from an extremely violent, high-energy, high-velocity phenomenon, something on the order of a cosmic impact.
Based on materials collected before the site was flooded, Kennett and colleagues contend Abu Hureyra is the first site to document the direct effects of a fragmented comet impact on a human settlement.
These fragments are all part of the same comet that likely slammed into Earth and exploded in the atmosphere at the end of the Pleistocene epoch, Kennett says. This impact contributed to the extinction of most large animals, including mammoths, and American horses and camels; the disappearance of the North American Clovis culture; and to the abrupt onset of the end-glacial Younger Dryas cooling episode.
“Our new discoveries represent much more powerful evidence for very high temperatures that could only be associated with a cosmic impact,” says Kennett, who with his colleagues first reported evidence of such an event in the region in 2012.
Abu Hureyra lies at the easternmost sector of what is known as the Younger Dryas Boundary (YDB) strewnfield, which encompasses about 30 other sites in the Americas, Europe, and parts of the Middle East.
These sites hold evidence of massive burning, including a widespread carbon-rich “black mat” layer that contains millions of nanodiamonds, high concentrations of platinum, and tiny metallic spherules formed at very high temperatures.
The YDB impact hypothesis has gained more traction in recent years because of many new discoveries, including a very young impact crater beneath the Hiawatha Glacier of the Greenland ice sheet, and high-temperature meltglass, and other similar evidence at an archaeological site in Pilauco, located in southern Chile.
“The Abu Hureyra village would have been abruptly destroyed,” Kennett says. Unlike the evidence from Pilauco, which was limited to human butchering of large animals up to but not younger than the YDB impact burn layer, Abu Hureyra shows direct evidence of the disaster on this early human settlement.
An impact or an airburst must have occurred sufficiently close to send massive heat and molten glass over the entire early village, Kennett says.
Researchers analyzed the glass for geochemical composition, shape, structure, formation temperature, magnetic characteristics, and water content. Results from the analysis showed that it formed at very high temperatures and included minerals rich in chromium, iron, nickel, sulfides, titanium, and even platinum- and iridium-rich melted iron—all of which formed in temperatures higher than 2200 degrees Celsius (3992 degrees Fahrenheit).
“The critical materials are extremely rare under normal temperatures, but are commonly found during impact events,” Kennett says. The meltglass was formed “from the nearly instantaneous melting and vaporization of regional biomass, soils, and floodplain deposits, followed by instantaneous cooling,” the study shows.
Additionally, because the materials found are consistent with those found in the YDB layers at the other sites across the world, it’s likely that they resulted from a fragmented comet, as opposed to impacts caused by individual comets or asteroids.
“A single major asteroid impact would not have caused such widely scattered materials like those discovered at Abu Hureyra,” Kennett says. “The largest cometary debris clusters are proposed to be capable of causing thousands of airbursts within a span of minutes across one entire hemisphere of Earth.
“The YDB hypothesis proposed this mechanism to account for the widely dispersed coeval materials across more than 14,000 kilometers of the Northern and Southern Hemispheres. Our Abu Hureyra discoveries strongly support a major impact event from such a fragmented comet.”
The findings appear in Scientific Reports.
Additional researchers are from Rochester Institute of Technology; Northern Arizona University; Harvard University; Elizabeth State University in North Carolina; the United States Geological Survey; the Czech Academy of the Sciences, Charles University in the Czech Republic; the University of Alaska; Los Alamos National Laboratory; the University of Oregon; the University of Liverpool in the UK; and the Comet Research Group in Arizona.
Source: UC Santa Barbara
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