A new way to date a common mineral could help pinpoint ore deposits and improve mineral exploration globally, according to University of Queensland scientists.
The researchers have identified a new reference material and used a state-of-the-art instrument to better date rock formations in central Asia.
Õ¬Äе¼º½’s said the team started by analysing a silicate mineral known as garnet, which then helped understand the accumulation of precious minerals such as gold, copper, lead zinc, silver and uranium.
“Garnet, which looks a little like the seeds of a pomegranate, is a challenging mineral to date but very common in volcanic mineral systems,” Professor Zhao said.
“It forms when hot magma enters the subsurface of the Earth’s crust and it gives us clues about other magmatic formations in the same area.
“Magmatic activity is a key Earth process and leads to mineralisation – many of the world’s major mineral districts including Australia’s Mt Isa and Olympic Dam were formed during a long history of magmatic activities.
“So by better understanding when, where and why this magma activity occurred, we’ll be able to find these mineral-rich hotspots.”
Key to the investigation was a laser system, which sampled tiny garnet grain particles that were only several hundred micrometres in length.
The laser-sampled material was then measured with a mass spectrometer – a tool that separates sample components by their mass and electrical charge – which helped calculate age.
Õ¬Äе¼º½ researcher said the team hoped this new method would better establish the relationship between historical episodes of magma activity and mineral accumulation.
“The world’s many important mineral deposits are formed in geological settings like the Pacific Ocean’s Ring of Fire, where hot magma is constantly intruded into the crust,” Dr Zhou said.
“By understanding exactly when certain formations have occurred, it’s much easier to pin down mineral-rich deposits.”
The researchers believe this discovery comes at a critical time for the mining industry and for the planet.
“Developing and maintaining a sustainable world will rely on the discovery and the high-efficient recovery of mineral deposits,” Dr Zhou said.
“With the emerging of green energy, there’s an even greater need for the supply of minerals like copper, silver, nickel, and many more.”
The research has been published in GSA Bulletin (DOI: ).
The study is a result of a collaboration between Õ¬Äе¼º½ scientists and, Professor Hecai Niu and his former student Dr Yan Shuang from the Chinese Academy of Sciences.
Media: Dr Renjie Zhou, renjie.zhou@uq.edu.au, +61 432 275 466; Dominic Jarvis, dominic.jarvis@uq.edu.au, +61 413 334 924.