New Research Reveals Concentration and Distribution of Lithium in Australian Soil
Australia’s lithium exploration has predominantly centred in Western Australia, but this research indicates the potential of other Australian regions, including Queensland, New South Wales and Victoria, that display elevated predicted lithium densities.
Lithium is a valuable mineral increasing in global demand for its applications in batteries, phones, laptops and electric vehicles.
The study, published in the journal Earth System Science Data, was led by researchers at the University of Sydney with co-authors from Geoscience Australia.
Lead author Dr Wartini Ng, a Postdoctoral Research Fellow in Soil Security from the School of Life and Environmental Sciences, said: “Our research not only opens up new possibilities for Australia’s lithium industry but could also advance our path towards a low-carbon economy, a critical step in curbing greenhouse gas emissions.”
Senior study author Professor Budiman Minasny, one of the leading international scientists in soil mapping and modelling, said that the findings could have significant implications for the lithium industry in Australia.
“We’ve developed the first map of lithium in Australian soils which identifies areas with elevated concentrations,” Professor Minasny said.
“The map agrees with existing mines and highlights areas that can be potential future lithium sources.”
Professor Minasny is from the University of Sydney’s School of Life and Environmental Sciences, and a member of the Sydney Institute of Agriculture, China Studies Centre and Sydney Southeast Asia Centre.
The study indicates the highest lithium concentrations are found near the Mount Marion deposit of Western Australia, with elevated concentration across the central western region of Queensland, southern New South Wales and parts of Victoria.
The team used digital soil mapping techniques developed at the University of Sydney to gauge extractable lithium content present in soil samples collected across Australia.
The research paints a comprehensive overview of lithium distribution across the continent, which is influenced by a variety of environmental factors including climate, geology and vegetation.