- Reaction score
- 1,938
Stonehenge is so much more than just a monumental feat of ancient engineering—it’s also a logistical marvel. Multiple generations of Neolithic designers relied on communal teamwork and clever construction techniques to precisely place each of the site’s gigantic megaliths about 5,000 years ago. Two primary types of stone known as sarcens and bluestones make up the formation. Paleoarchaeologists previously traced most of the sarcens to about 15 miles away to present-day Marlborough, England, while many of the bluestones originated in Wales.
The famed Altar Stone is far more perplexing, however. The central, six-ton sandstone megalith likely came from a region in Scotland about 400 miles away. How a prehistoric society managed to scoot the boulder so far without complex tools or transportation methods has perplexed researchers for years.
Many researchers have theorized that melting Ice Age glaciers likely helped passively shift the Altar Stone closer to southern England’s Salisbury Plain around 2500 BCE, shortening the transport distance for Stonehenge’s creators. But in 2024, a team at Curtin University used chemical analysis to determine that glaciers simply weren’t the only factor behind the megalith’s move. Now, that same team has combined ice-sheet modeling and mineral grain dating to more precisely locate the Altar Stone’s original home. Their findings, published today in the Journal of Quaternary Science, further underscore how humans played a huge part in getting their centerpiece to Stonehenge.
Humans really did move Stonehenge's six-ton centerpiece
Melting ice age glaciers could't have moved Altar Stone alone.
www.popsci.com
