‘Downward-looking telescope’ to unlock Australia’s mineral wealth
THE Australian Academy of Science is proposing the development of a new ‘downward-looking telescope’ that could look at least 300km beneath the Earth’s surface to unlock Australia’s hidden mineral wealth.
The proposal is one of several in a 10-year plan for Australian Geoscience (2018-27) launched by the Academy’s National Committee for Earth Sciences.
The 10-year plan highlights how the world’s shift towards mobile device technology, renewable energy sources and electric cars will involve massive increases in demand for copper, cobalt, gold, rare-earth elements and other specialty metals.
The committee’s chair, Professor Sue O’Reilly, said one of the challenges for Australian geoscience in the coming decade is to ensure the right infrastructure was in place to know how and where to explore for the critical resources needed for Australia’s future.
“This is where the downward-looking telescope comes in,” Prof. O’Reilly said.
“A piece of infrastructure like this would transform our minerals sector by making deep Australia visible. It would give us a new understanding of the vertical makeup of the continent and allow us to direct our mineral exploration efforts in the two-thirds of Australia that aren’t currently cost-effective to explore.
“By 2030 global demand for cobalt will be 47 times what it was in 2016 so, unless we can become self-sufficient in this strategic metal, Australia may be held to ransom with massive price increases and chronic shortages,” Prof. O’Reilly said.
“This exemplifies the need to generate new geoscience knowledge that will allow us to explore successfully in the covered areas of Australia.”
The plan also draws attention to the weakness in geoscience in Australia’s education system.
“Geoscience is largely absent in Australia’s school system because of a lack of teachers with qualifications in geoscience. Geoscience should be embedded as a core subject within every level of Australian STEM education and earth science graduates should be incentivised to obtain education qualifications,” Professor O’Reilly said.
The Australian Geoscience plan also calls for an expansion of Australia’s national computational capability to ensure that Australia retains and extends its lead in geoscience simulation and modelling capability.
The National Committee for Earth Sciences has been supported in the development of this plan by the Australian Research Council, Geoscience Australia, the University of Melbourne, the University of Queensland, Macquarie University and the Australian Geoscience Council.
Bloomberg New Energy Finance (BNEF) estimates that within two decades 16 percent of cars – about 282 million – will be electric, which equates to about 2.8 million tonnes of cobalt.
Set against a current global annual production of cobalt of only about 100,000 tonnes – and Australia’s annual production is around 6,400 tonnes – the world will not be able to move en masse to electric cars without an enormous increase in finding and producing cobalt. Currently, 63 percent of the world’s cobalt comes from the Democratic Republic of the Congo and its market share is currently set to rise to 73 percent by 2025.
BNEF has estimated that by 2030 global demand for cobalt will be 47 times the demand in 2016. Unless Australia can become self-sufficient in this strategic metal, the country will be held to ransom with massive price increases and chronic shortages.
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