Ancient ocean floors could help in the search for critical minerals

Examining ocean floors key to minerals needed for renewable energy. Image: Supplied
Examining ocean floors key to minerals needed for renewable energy. Image: Supplied

Studying ancient ocean floors could help discover minerals needed to produce electric cars and solar panels.

Researchers at The University of Queensland led a collaborative study that examined the remnants of ocean floors in eastern Australia and central Asia and applied a method to date the age of calcite trapped inside.

Dr Renjie Zhou from UQ’s School of Earth and Environmental Sciences said the findings could make it easier to source critical minerals used in renewable and clean technologies.

“Calcite and other hydrothermal minerals are often observed in critical mineral deposits and form under mineralising fluid activities,” Dr Zhou said.

“Our work shows that we can trace the history of fluids in the Earth’s crust and see when and what mineral resources they might generate.”

The renewable energy sector is continuing to grow rapidly with increasing demand for technologies like wind turbines, solar panels, electric vehicles and batteries.

“These often require large quantities of critical minerals,” he said.

“Electric vehicles need up to four times more copper than conventional cars and a single wind turbine uses several tonnes of permanent magnets made of rare earth metals.”

Dr Zhou said being able to study and discover these minerals was going to become increasingly important.

“Researchers across many institutions are doing excellent work in this field, including UQ’s Centre for Geoanalytical Mass Spectrometry,” Dr Zhou said.

“Our hope is to expand our collaboration with industry and academia to increase the understanding and discovery of critical minerals in the future.”

References:

  • Johannes Rembe, Renjie Zhou, Edward R. Sobel, Jonas Kley, Jie Chen, Jian-Xin Zhao, Yuexing Feng, Daryl L. Howard. Calcite U–Pb dating of altered ancient oceanic crust in the North Pamir, Central Asia. Geochronology, 2022; 4 (1): 227 DOI: 10.5194/gchron-4-227-2022
  • Goran Andjić, Renjie Zhou, David M. Buchs, Jonathan C. Aitchison, Jianxin Zhao. Paleozoic ocean plate stratigraphy unraveled by calcite U-Pb dating of basalt and biostratigraphy. Communications Earth & Environment, 2022; 3 (1) DOI: 10.1038/s43247-022-00446-1
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Note: The above post is reprinted from materials provided by University of Queensland.