Public dataset available at Datacite Commons; all basic metadata from the repository has been included.
<?xml version="1.0" encoding="UTF-8"?>
10.60623/82TRLEUEJames R. Austinhttps://orcid.org/0000-0002-9214-8795Commonwealth Scientific and Industrial Research OrganisationCloncurry METAL: multimodal integrated mineral system characterisation dataAuScope2024BHTExplorationIOCGISCGSEM mineralogycloncurrycopperdata integrationgeophysicsgoldgravityintegration by designmagneticsmount isapetrophysicsqueenslandspectral mineralogyJames R. Austinhttps://orcid.org/0000-0002-9214-8795Commonwealth Scientific and Industrial Research Organisation2024-06-14 06:52:53.2199142024-06-18 04:24:32.977684endatasethttps://essd.copernicus.org/preprints/essd-2023-464/essd-2023-464.pdf26373 kbXLSXTXTCloncurry Multi Element Toolkit and Laboratory (METAL) aims to shift the “Big Data” paradigm in mineral system science by developing a quantitative, fully integrated, multi-modal, scale-consistent methodology for system characterisation. The data comprises collocated petrophysical-mineralogical-geochemical-structural-metasomatic characterisation of 23 deposits from a highly complex mineral system. This approach allows translation of mineral system processes into physics, providing a framework for smarter geophysics-based exploration.139.58982579007141.65563617914438-22.539195831421416-18.506958939415476Geological Survey of Queenslandhttps://www.business.qld.gov.au/industries/mining-energy-water/resources/geoscience-information/gsq
Ensure all metadata fields are correctly mapped to the Datacite Metadata Schema Include the mapped metadata as part of the DOI registration