The truth is not there.
Scientists claim that they have finally determined the origin of the megaliths in the 5,000-year-old Stonehenge monument.
Fifty of the 52 massive sandstone sarubas used in the memorial have been mined about 15 miles from West Woods in Wiltshire. The researchers reported that on Wednesday, after using geochemical testing to find their origin, they used geochemical tests.
The Sarcians were built at Stonehenge in 2500 BC, reaching a maximum of 30 feet and a heaviest weight of 30 tons.
The smaller Stonehenge stones have a different original story. These stones have already been traced back to Pembrokeshire, Wales – about 150 miles away. But the source of the sargon has so far escaped scientists.
“The Saric stones form an iconic outer circle and horseshoe in the middle of the Trilithon at Stonehenge. They are huge, “said David Nash, a geomorphologist at the University of Brighton who led the study.
Scientists will now try to understand how the sari were moved from Wiltshire to Stonehenge. They are believed to have been towed on a sled-like system.
“How they were moved to the web is still subject to speculation,” Nash continued. “Due to the size of the stones, they had to be either pulled or moved on rollers to Stonehenge.” We don’t know the exact route, but at least we have a starting point and an end point. “
The discovery of Nash and his team is based on the analysis of a fragment of sarsen stone that was removed from Stonehenge in the late 1950s in an effort to preserve it. The piece was extracted when conservators installed metal rods to stabilize the cracked megalith.
This fragment was originally donated as a souvenir to Robert Phillips, a man who worked for a company that carried out stabilization efforts. When he emigrated to the USA, he had a rock with him. He then returned the stone to Britain for research in 2018, before dying that year.
As the authorities banned destructive testing on the Stonehenge website, the old souvenir was a crucial sample for researchers, giving them the opportunity to create a geochemical sarsen imprint.
“I hope what we’ve found,” Nash said, “will allow people to understand more about the enormous effort involved in building Stonehenge.”
With Post wires