Magmatic mineral deposits of nickel, copper and the platinum-group elements (Ni-Cu-PGE) form by the immiscible separation and concentration of Ni-Cu-PGE-rich sulfide liquids from magmas of mantle origin. An important sub-type of these deposits is the tholeiitic intrusion-hosted Ni-Cu-PGE sulfide deposit class, typified by the giant Noril'sk (Russia), Voisey's Bay (Canada) and Jinchuan (China) deposits. These contribute significant proportions of the world's production of Ni and PGEs, and represent some of the most valuable mineral deposits on Earth. However, there are very few known tholeiitic intrusion-hosted Ni-Cu-PGE sulfide deposits in Australia, and these are mostly uneconomic due to small size, low grade and/or remoteness. This continental-scale study of the potential for tholeiitic intrusion-hosted Ni-Cu-PGE sulfide deposits in Australia addresses the problem of whether the apparent under-representation of resources of this type in Australia is due to lack of geological endowment or is a consequence of concealment of mineral deposits by sediments, basins and regolith (cover) which has hindered exploration success. This study is the first continental-scale assessment of Ni-Cu-PGE mineral potential of Australia to apply a knowledge-driven GIS-based prospectivity analysis method. A mineral systems approach is used to identify new mineral provinces as well as extensions to known provinces with potential to host giant or major Ni-Cu-PGE sulfide deposits. Major Ni-Cu-PGE sulfide deposits are consequences of lithospheric-scale earth processes, and form where there was a coincidence of ore-forming processes in space and time. Ore formation required four components of the mineral systems to have operated efficiently, namely: (1) energy sources or drivers of the ore-forming system; (2) crustal and mantle lithospheric architecture; (3) sources of ore metals (i.e., Ni, Cu, PGE in this study); and (4) gradients in ore depositional physico-chemical parameters. Conceptual criteria were developed that represent essential geological processes involved in each of the four components of the mineral system. These were translated into practical, mappable, criteria for which proxy geoscientific datasets were developed. Maps of favourability were constructed for each of the four system components. These were created using overlays of input rasters that were weighted (using a fuzzy logic-based method) according to the perceived importance, applicability and confidence level of each input dataset in the mineral system analysis. The results for the four maps were allowed to contribute equally to the final mineral potential map so that the areas of highest potential represent targets where all four mineral system components combine most favourably. The assessment predicts high potential for tholeiitic intrusion-hosted Ni-Cu-PGE sulfide deposits in a wide range of geological regions of Australia, including those of known prospectivity and several with previously unrecognised potential. Importantly, the districts hosting the few known major intrusion-hosted Ni-Cu-PGE sulfide deposits were successfully predicted with high potential, despite non-inclusion of these deposits as inputs in the modelling (to avoid biasing the results). In addition to the Geoscience Australia Record, the results of the study are available as a series of Geodatabase digital maps (rasters). The Python programming script used in the GIS analysis is also available online (Coghlan, 2015. Finally, the primary digital data used to create the input datasets for the modelling are available on-line for users' own purposes.

The Onshore Seismic Surveys of Australia Web Map Service depicts all land seismic traverses across the Australian continent and its margins. The service provides access to raw and processed data in SEGY format for each survey. The metadata includes acquisition reports, processing reports, processed images, logs.

This collection supports the compilation of national mineral resource and production statistics, and mineral prospectivity analysis. The collection includes the location of Australian mineral occurrences and mineral deposit descriptions, with geological, resource and production data. This information is stored in two Geoscience Australia databases, the Mineral Deposits & Occurrences Database (OZMIN) and the Mineral Occurrence Locations (MINLOC) database. The collection also includes a number of supporting Geographic Information System (GIS) datasets (e.g., mineral prospectivity datasets, ports, power stations); maps and reports. <b>Value:</b> Data related to the known location and production of mineral resources supports decisions related to resource and economic development. <b>Scope: </b>The collection covers the Australian continent and is updated annually. It now contains data on over one thousand major and historically significant mineral deposits for 60 mineral commodities (including coal).

The Lu-Hf isotopic system, much like the Sm-Nd isotopic system, can be used to understand crustal evolution and growth. Crustal differentiation processes yield reservoirs with differing initial Lu/Hf values, and radioactive decay of 176Lu results in diverging 176Hf/177Hf between reservoirs over time. This chapter outlines the fundamentals of the Lu-Hf isotopic system, and provides several case studies outlining the utility of this system to mineral exploration and understanding formation processes of ore deposits. The current, rapid, evolution of this field of isotope science means that breadth of applications of the Lu-Hf system are increasing, especially in situations where high-precision, detailed analyses are required. <b>Citation:</b> Waltenberg, K. (2023). Application of the Lu–Hf Isotopic System to Ore Geology, Metallogenesis and Mineral Exploration. In: Huston, D., Gutzmer, J. (eds) <i>Isotopes in Economic Geology, Metallogenesis and Exploration</i>. Mineral Resource Reviews. Springer, Cham. https://doi.org/10.1007/978-3-031-27897-6_7

This map shows the locations of mines operating at the end of 2016, developing mines and mineral deposits in Australia. Developing mines are deposits with a proven minable resource and where mines site development has commenced or where a decision to mine has been announced. Mineral deposits highlight areas of know mineralisation with a proven or probable resource, that are not currently being mined or developed. Closed mines or mines not operating at the end of 2016 are not shown.

This map shows the locations of mines operating at the end of 2015, developing mines and mineral deposits in Australia. Developing mines are deposits with a proven minable resource and where mines site development has commenced or where a decision to mine has been announced. Mineral deposits highlight areas of know mineralisation with a proven or probable resource, that are not currently being mined or developed. Closed mines or mines not operating at the end of 2014 are not shown.

This release describes the geochemical methods and procedures used to acquire geochemical data as part of the Stavely Project. Data presented in this release include whole rock geochemistry, four acid digestion analysis, partial extraction techniques (soil gas hydrocarbon, Mobile Metal IonTM, Ionic LeachTM), sulphur isotope analysis, neodymium isotope analysis, lead isotope analysis, chromite analysis and pyrite analysis. Also included are reports on spatiotemporal geochemical hydrocarbon interpretation, chromite petrology and pyrite characterisation.

The Onshore Seismic Surveys of Australia Web Map Service depicts all land seismic traverses across the Australian continent and its margins. The service provides access to raw and processed data in SEGY format for each survey. The metadata includes acquisition reports, processing reports, processed images, logs.