麻豆直播 researchers studying diamond-rich rocks from Western Australia鈥檚 Argyle volcano have identified the missing third key ingredient needed to bring valuable pink diamonds to the Earth鈥檚 surface where they can be mined, which could greatly help in the global hunt for new deposits.
While it is known that for diamonds to form there needs to be carbon deep in the Earth, and for these diamonds to turn pink they must be subjected to forces from colliding tectonic plates, the new study has found the third ingredient needed for the presence of pink diamonds at surface level, which is continents that were 鈥榮tretched鈥 during hundreds of millions of years ago.
Lead researcher Dr Hugo Olierook, from Curtin鈥檚 John de Laeter Centre, said the 鈥榮tretching鈥 of landmasses created gaps in the Earth鈥檚 crust through which diamond-carrying magma could rise to the surface.
鈥淏y using laser beams smaller than the width of a human hair on rocks supplied by Rio Tinto, we found Argyle to be 1.3 billion years old, which is 100 million years older than previously thought, meaning it would likely have formed as a result of an ancient supercontinent breaking apart,鈥 Dr Olierook said.
鈥淎rgyle is located at the point where the Kimberley region and the rest of northern Australia smashed together many years prior, and that sort of collision creates a damaged area or 鈥榮car鈥 in the land that will never fully heal.
鈥淲hile the continent that would become Australia didn鈥檛 break up, the area where Argyle is situated was stretched, including along the scar, which created gaps in the Earth鈥檚 crust for magma to shoot up through to the surface, bringing with it pink diamonds.
鈥淎s long as these three ingredients are present – deep carbon, continental collision and then stretching – then we think it will be possible to find the 鈥榥ext Argyle鈥, which was once the world鈥檚 largest source of natural diamonds.鈥
Dr Olierook said even with the knowledge of these three ingredients, finding another trove of pink diamonds will not be without its challenges.
鈥淢ost diamond deposits have been found in the middle of ancient continents because their host volcanoes tend to be exposed at the surface for explorers to find,鈥 Dr Olierook said.
鈥淎rgyle is at the suture of two of these ancient continents, and these edges are often covered by sand and soil, leaving the possibility that similar pink diamond-bearing volcanoes still sit undiscovered, including in Australia.鈥
Co-author and principal geologist Murray Rayner, from Rio Tinto, said the Argyle volcano has produced more than 90 percent of the world鈥檚 pink diamonds, making it an unparalleled source of these rare and coveted gems
鈥淜nowing the Argyle volcano鈥檚 age, at 1.3 billion years old, and situated where some of Earth鈥檚 earliest continents fragmented, we have significant further insights into the formation of these diamonds,鈥 Rayner said.
The authors are affiliated with the John de Laeter Centre, the Timescales of Mineral Systems Group and the Earth Dynamics Research Group, which sit within Curtin鈥檚 School of Earth and Planetary Sciences. The work was enabled by and the Australian Government via the National Collaborative Research Infrastructure Strategy.
Funded by the Geological Survey of Western Australia, the research paper published in Nature Communications is entitled 鈥楨mplacement of the Argyle diamond deposit into an ancient rift zone triggered by supercontinent breakup鈥 and is available online .
