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People — not glaciers — transported Stonehenge’s megaliths throughout Nice Britain to their present location in southern England, a brand new research confirms.
Scientists have believed for many years that the 5,000-year-old monument’s iconic stones got here from what’s now Wales and even so far as Scotland, however there may be nonetheless debate as to how the stones arrived at Salisbury Plain in southern England.
“Whereas earlier analysis had solid doubt on the glacial transport principle, our research goes additional and applies cutting-edge mineral fingerprinting to hint the stones’ true origins,” research authors Anthony Clarke, a analysis geologist at Curtin College in Australia, and Christopher Kirkland, a professor of geology additionally at Curtin College, wrote in The Dialog.
Stonehenge’s bluestones, so referred to as as a result of they purchase a bluish tinge when moist or freshly damaged, are from the Preseli Hills in western Wales, that means folks possible dragged them 140 miles (225 kilometers) to the location of the prehistoric monument. Extra exceptional nonetheless, researchers suppose the Altar Stone inside Stonehenge’s center circle got here from northern England or Scotland, which is way farther away — a minimum of 300 miles (500 km) — from Salisbury Plain and will have required boats.
The glacial transport principle is a counterproposal to the concept that folks moved the stones from elsewhere within the U.Okay. to construct the monument on Salisbury Plain, as an alternative utilizing stones that had already been transported there by pure means. Nonetheless, as Stonehenge’s rocks present no indicators of glacial transport, and the southern extent of Nice Britain’s former ice sheets stay unclear, archaeologists have disputed the concept.
To analyze additional, the researchers behind the brand new research used identified radioactive decay charges up to now tiny specks of zircon and apatite minerals left over from historical rocks in river sediments round Stonehenge. The age of those specks reveals the age of rocks that after existed within the area, which, in flip, can present details about the place these rocks got here from.
Completely different rock formations have completely different ages, so if the rocks that turned components of Stonehenge had been dragged throughout the land by glaciers, they’d have left these tiny traces round Salisbury Plain that would then be matched with rocks of their authentic areas.
The researchers analyzed greater than 700 zircon and apatite grains however discovered no important match for rocks in both western Wales or Scotland. As an alternative, a lot of the zircon grains studied confirmed dates between 1.7 billion and 1.1 billion years in the past, coinciding with a time when a lot of what’s now southern England was lined in compacted sand, the researchers wrote in The Dialog. Then again, the ages of apatite grains converged round 60 million years in the past, when southern England was a shallow, subtropical sea. This implies the minerals in rivers round Stonehenge are the remnants of rocks from the native space, and hadn’t been swept in from different locations.
The outcomes recommend glaciers did not lengthen as far south as Salisbury Plain over the last ice age, excluding the chance that ice sheets dropped off the megaliths of Stonehenge for historical builders to subsequently use.
“This provides us additional proof the monument’s most unique stones didn’t arrive by likelihood however had been as an alternative intentionally chosen and transported,” the researchers wrote.
Clarke, A. J. I., & Kirkland, C. L. (2026). Detrital zircon–apatite fingerprinting challenges glacial transport of Stonehenge’s megaliths. Communications Earth & Setting, 7(1). https://doi.org/10.1038/s43247-025-03105
Stonehenge quiz: What have you learnt in regards to the historical monument?
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