Data

Cloncurry METAL: multimodal integrated mineral system characterisation data

AuScope
James R. Austin
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Brief description

Cloncurry 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.

Created: 14 06 2024

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141.65564,-18.50696 141.65564,-22.5392 139.58983,-22.5392 139.58983,-18.50696 141.65564,-18.50696

140.6227309846,-20.523077385418

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text: uplimit=0.0; downlimit=0.0; projection=EPSG:5714

Subjects
Applied geophysics | AuScope Data Repository | BHT | Earth Sciences | Exploration | Exploration Geochemistry | Geochemistry | Geology | GEOMAGNETISM | GRAVITY ANOMALIES | IOCG | ISCG | MAGNETIC ANOMALIES | MAGNETIC INTENSITY | Mineralogy and Crystallography | SEM mineralogy | cloncurry | copper | data integration | geophysics | gold | gravity | integration by design | magnetics | mount isa | petrophysics | queensland | spectral mineralogy |

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Integration by design: Driving mineral system knowledge using multi-modal, collocated, scale-consistent characterization.

uri : https://essd.copernicus.org/preprints/essd-2023-464/essd-2023-464.pdf

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