Integrated Multi-Parameter Footprints of Ore Systems:
The Next Generation of Ore Deposit Models
Mineral exploration in Canada is increasingly focused on concealed and deeply buried targets, requiring more effective tools to detect large-scale ore-forming systems and to vector from their most distal margins to their high-grade cores. This research network, involving 42 researchers from 24 universities across Canada and 30 mining, mineral exploration, and mineral exploration service companies in the Exploration Innovation Consortium (EIC) of the Canadian Mining Innovation Council (CMIC), is aimed at improving exploration success by developing practical applications and approaches to the acquisition, management, integration, and analysis of geological, geochemical, mineralogical, petrophysical, and geophysical data that can be used to identify the ore-system footprint at its most distant edge and at depth. It is also providing fundamental new knowledge about the unique combinations of geological processes that have been responsible for some of the largest concentrations of metal in the Earth's crust. The first phase of the project involves multidisciplinary integrative research at three major ore systems: the Canadian Malartic gold system in Quebec, the McArthur River – Millennium uranium system in Saskatchewan, and the Highland Valley copper-molybdenum-gold system in British Columbia. The research is integrating existing exploration data and in-house company knowledge with new data, providing a foundation for technological advances in remote detection of ore deposits and for mapping at depth or under shallow cover.
Project results, including Geoscience ANALYST projects containing all project-generated data, will be available from the Mining Observatory Data Control Centre at the Sudbury Neutrino Observatory at the end of April 2019. A link will be posted on this page at that time.