Data–driven prospectivity modelling of sediment–hosted Zn–Pb mineral systems and their critical raw materials

Data–driven prospectivity modelling of sediment–hosted Zn–Pb mineral systems and their critical raw materials

Maintenance and Update Frequency: asNeeded | Statement: This work was published in ore geology reviews https://doi.org/10.1016/j.oregeorev.2021.104635 | Purpose Release of Web Service to accompany published paper | Demand for critical raw materials is expected to accelerate over the next few decades...

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Hauptverfasser: Lawley, C, McCafferty, A.E, Graham, G.E, Huston, D, Kelley, K.D, Czarnota, K, Paradis, S, Peter, J.M, Hayward, N, Barlow, M, Emsbo, P, Coyan, J, San Juan, C.A, Gadd, M.G
Format: Dataset
Sprache:eng
Schlagworte:
Critical minerals
EARTH SCIENCES
geoscientificInformation
Lead
Machine learning
Modelling
Prospectivity
Published_External
Zinc
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Zusammenfassung:Maintenance and Update Frequency: asNeeded | Statement: This work was published in ore geology reviews https://doi.org/10.1016/j.oregeorev.2021.104635 | Purpose Release of Web Service to accompany published paper | Demand for critical raw materials is expected to accelerate over the next few decades due to continued population growth and the shifting consumption patterns of the global economy. Sedimentary basins are important sources for critical raw materials and new discoveries of sediment–hosted Mississippi Valley–type (MVT) and/or clastic–dominated (CD) Zn–Pb deposits are likely required to mitigate future supply chain disruptions for Zn, Pb, Ag, Cd, Ga, Ge, Sb, and In. Herein we integrate public geoscience datasets using a discrete global grid to system to model the mineral potential for MVT and CD deposits across Canada, the United States of America, and Australia. Statistical analysis of the model results demonstrates that surface–wave tomography and derivative products from satellite gravity datasets can be used to map the most favourable paleo–tectonic settings of MVT and CD deposits inboard of orogenic belts and at the rifted edges of cratonic lithosphere, respectively. Basin development at pre–existing crustal boundaries was likely important for maintaining the low geothermal–gradients that are favourable for metal transport and generating the crustal fluid pathways that were reactivated during ore–formation, as suggested by the statistical association of both sediment–hosted mineral deposit types with the edges of upward–continued gravity and long–wavelength magnetic anomalies. Multivariate statistical analysis demonstrates that the most prospective combination of these geophysical datasets varies for each geological region and deposit type. We further demonstrate that maximum and minimum geological ages, coupled with Phanerozoic paleogeographic reconstructions, represent mappable proxies for the availability of oxidized, brine–generating regions that are the most likely source of ore–forming fluids (e.g., low– to mid–latitude carbonate platforms and evaporites). Ore deposition was likely controlled by interaction between oxidized, low–temperature brines and sulfidic and/or carbonaceous rocks, which, in some cases, can be mapped at the exposed surface or identified using the available rock descriptions. Baseline weights–of–evidence models are based on regional geophysics and are the least impacted by missing surface information but yield relati