Metallic Mineral Resources The Critical Components for a Sustainable Earth

Metallic Mineral Resources: The Critical Components for a Sustainable Earth serves the increasing interest in metal resources, especially the critical and strategic metals which are essential commodities for the green energy transition.

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Bibliographic Details
Main Authors	Müller, Daniel, Groves, David Ian, Santosh, M
Format	eBook
Language	English
Published	Chantilly Elsevier 2024
Edition	1
Subjects	Mines and mineral resources
Online Access	Get full text
ISBN	9780443265624 0443265623
DOI	10.1016/C2023-0-51506-X

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Table of Contents:

6.8. Sandstone roll-front uranium systems -- 6.8.1. Nature -- 6.8.2. Genesis -- 6.8.3. Global-province scale exploration -- 6.8.4. District-deposit scale exploration -- 6.9. Granite-hosted uranium systems -- 6.9.1. Nature -- 6.9.2. Genesis -- 6.9.3. Global-province scale exploration -- 6.9.4. District-deposit scale exploration -- 6.10. Regolith-hosted uranium systems -- 6.10.1. Nature -- 6.10.2. Genesis -- 6.10.3. Global-province scale exploration -- 6.10.4. District-deposit scale exploration -- 6.11. LREE (P, Nb) in carbonatites and alkaline rocks -- 6.11.1. Nature -- 6.11.2. Genesis -- 6.11.3. Global-province scale exploration -- 6.11.4. District-deposit scale exploration -- 6.12. REE (±Th) in beach sands -- 6.12.1. Nature -- 6.12.2. Genesis -- 6.12.3. Global-province scale exploration -- 6.12.4. District-deposit scale exploration -- 6.13. REE, particularly HREE, in ionic clays -- 6.13.1. Nature -- 6.13.2. Genesis -- 6.13.3. Global-province scale exploration -- 6.13.4. District-deposit scale exploration -- References -- Chapter Seven: Trace critical metal systems -- Contents -- 7.1. Introduction -- 7.2. Selenium -- 7.2.1. Nature -- 7.2.2. Genesis -- 7.2.3. Global-province scale exploration -- 7.2.4. District-deposit scale exploration -- 7.3. Cadmium -- 7.3.1. Nature -- 7.3.2. Genesis -- 7.3.3. Global-province scale exploration -- 7.3.4. District-deposit scale exploration -- 7.4. Indium -- 7.4.1. Nature -- 7.4.2. Genesis -- 7.4.3. Global-province scale exploration -- 7.4.4. District-deposit scale exploration -- 7.5. Tellurium -- 7.5.1. Nature -- 7.5.2. Genesis -- 7.5.3. Global-province scale exploration -- 7.5.4. District-deposit scale exploration -- 7.6. Problem of depletion of resources of these trace metals -- References -- Chapter Eight: Precious metal systems -- Contents -- 8.1. Introduction -- 8.2. Orogenic gold systems -- 8.2.1. Nature
8.2.2. Genesis
4.2.1. Nature -- 4.2.2. Genesis -- 4.2.3. Global-province scale exploration -- 4.2.4. District-deposit scale exploration -- 4.3. Kiruna-type Fe-P±LREE systems -- 4.3.1. Nature -- 4.3.2. Genesis -- 4.3.3. Global-province scale exploration -- 4.3.4. District-deposit scale exploration -- 4.4. Al bauxites (including Ga-rich bauxites) -- 4.4.1. Nature -- 4.4.2. Genesis -- 4.4.3. Global-province scale exploration -- 4.4.4. District-deposit scale exploration -- 4.5. Enriched BIF-hosted Mn systems -- 4.5.1. Nature -- 4.5.2. Genesis -- 4.5.3. Global-province scale exploration -- 4.5.4. District-deposit scale exploration -- 4.6. Oolitic Mn systems -- 4.6.1. Nature -- 4.6.2. Genesis -- 4.6.3. Global-province scale exploration -- 4.6.4. District-deposit scale exploration -- 4.7. Manganese nodules -- 4.7.1. Nature -- 4.7.2. Genesis -- 4.7.3. Global-province scale exploration -- 4.7.4. District-deposit scale exploration -- 4.8. Titanium-V magnetitic and PGE layers in mafic layered intrusions -- 4.8.1. Nature -- 4.8.2. Genesis -- 4.8.3. Global-province scale exploration -- 4.8.4. District-deposit scale exploration -- 4.8.5. Other magmatic Ti systems: Nature and genesis -- 4.9. Ilmenite-rutile-rich (Ti) beach sands -- 4.9.1. Nature -- 4.9.2. Genesis -- 4.9.3. Global-province scale exploration -- 4.9.4. District-deposit scale exploration -- 4.10. Chromitite layers in mafic layered intrusions -- 4.10.1. Nature -- 4.10.2. Genesis -- 4.10.3. Global-province scale exploration -- 4.10.4. District-deposit scale exploration -- 4.11. Podiform chromite systems -- 4.11.1. Nature -- 4.11.2. Genesis -- 4.11.3. Global-province scale exploration -- 4.11.4. District-deposit scale exploration -- 4.12. Graphite-hosted C systems -- 4.12.1. Introduction -- 4.12.2. Genesis -- 4.12.3. Global-province scale exploration -- 4.12.4. District-deposit scale exploration -- References
5.12. Zambian-type Cu-Co systems -- 5.12.1. Nature -- 5.12.2. Genesis -- 5.12.3. Global-province scale exploration -- 5.12.4. District-deposit scale exploration -- 5.13. Lithium-(Cs-Ta: &lt -- 10ppm crustal abundance) pegmatites -- 5.13.1. Nature -- 5.13.2. Genesis -- 5.13.3. Global-province scale exploration -- 5.13.4. District-deposit scale exploration -- 5.14. Lithium evaporite systems -- 5.14.1. Nature -- 5.14.2. Genesis -- 5.14.3. Global-province scale exploration -- 5.14.4. District-deposit scale exploration -- 5.15. Coal-hosted Ga systems (as an alternative source to Ga in bauxites) -- 5.15.1. Nature -- 5.15.2. Genesis -- 5.15.3. Global-province scale exploration -- 5.15.4. District-deposit scale exploration -- References -- Chapter Six: Rare critical metal systems -- Contents -- 6.1. Introduction -- 6.2. Molybdenum porphyry and skarn systems -- 6.2.1. Nature -- 6.2.2. Genesis -- 6.2.3. Global-province scale exploration -- 6.2.4. District-deposit scale exploration -- 6.3. Tin and tungsten veins and greisen systems -- 6.3.1. Nature -- 6.3.2. Genesis -- 6.3.3. Global-province scale exploration -- 6.3.4. District-deposit scale exploration -- 6.4. Tin and tungsten placer systems -- 6.4.1. Nature -- 6.4.2. Genesis -- 6.4.3. Global-province scale exploration -- 6.4.4. District-deposit scale exploration -- 6.5. Antimony in carbonate-replacement systems -- 6.5.1. Nature -- 6.5.2. Genesis -- 6.5.3. Global-province scale exploration -- 6.5.4. District-deposit scale exploration -- 6.6. Thorium in carbonatites and other alkaline rocks -- 6.6.1. Nature -- 6.6.2. Genesis -- 6.6.3. Global-province scale exploration -- 6.6.4. District-deposit scale exploration -- 6.7. Unconformity-related uranium systems -- 6.7.1. Nature -- 6.7.2. Genesis -- 6.7.3. Global-province scale exploration -- 6.7.4. District-deposit scale exploration
Intro -- Metallic Mineral Resources: The Critical Components for a Sustainable Earth -- Copyright -- Contents -- List of figures -- List of tables -- Preface -- Glossary of geophysical and geochemical exploration methods -- Chapter One: Introduction -- Contents -- 1.1. Scope of book -- 1.2. Organization of contents -- Chapter Two: Heterogeneous distribution of metal resources -- Contents -- 2.1. Introduction -- 2.2. Geological factors controlling heterogeneous distribution of metallic mineral deposits -- 2.3. Heterogeneous global distribution of metallic mineral deposits -- 2.4. Critical metals and geopolitical risk -- 2.5. Summary -- References -- Chapter Three: Industrial use of metals -- Contents -- 3.1. Abundant metals -- 3.1.1. Definition -- 3.1.2. Industrial uses -- 3.1.2.1. Aluminum -- 3.1.2.2. Phosphorus -- 3.1.2.3. Titanium -- 3.1.2.4. Vanadium -- 3.1.2.5. Chromium -- 3.1.2.6. Manganese -- 3.1.2.7. Iron -- 3.1.2.8. Zirconium -- 3.1.2.9. Barium -- 3.1.2.10. Graphite and graphene -- 3.2. Scarce critical metals -- 3.2.1. Definition -- 3.2.2. Industrial uses -- 3.2.2.1. Nickel -- 3.2.2.2. Copper -- 3.2.2.3. Zinc -- 3.2.2.4. Lead -- 3.2.2.5. Cobalt -- 3.2.2.6. Lithium -- 3.2.2.7. Gallium -- 3.3. Rare critical metals -- 3.3.1. Definition -- 3.3.2. Industrial uses -- 3.3.2.1. Molybdenum -- 3.3.2.2. Tin -- 3.3.2.3. Antimony -- 3.3.2.4. Tungsten -- 3.3.2.5. Platinum-group elements -- 3.3.2.6. Thorium -- 3.3.2.7. Uranium -- 3.3.2.8. Rare-earth elements -- 3.4. Trace critical metals -- 3.4.1. Definition -- 3.4.2. Industrial uses -- 3.4.2.1. Selenium -- 3.4.2.2. Cadmium -- 3.4.2.3. Indium -- 3.4.2.4. Tellurium -- 3.5. Precious metals -- 3.5.1. Definition -- 3.5.2. Industrial uses -- 3.5.2.1. Gold -- 3.5.2.2. Silver -- References -- Chapter Four: Abundant metal systems -- Contents -- 4.1. Introduction -- 4.2. Enriched low-P BIF iron ores
Chapter Five: Scarce critical metal systems -- Contents -- 5.1. Introduction -- 5.2. Mafic intrusion-related Ni-Cu-(PGEs) systems -- 5.2.1. Nature -- 5.2.2. Genesis -- 5.2.3. Global-province scale exploration -- 5.2.4. District-deposit scale exploration -- 5.3. Komatiite-hosted Ni-Cu-PGE systems -- 5.3.1. Nature -- 5.3.2. Genesis -- 5.3.3. Global-province scale exploration -- 5.3.4. District-deposit scale exploration -- 5.4. Nickel (Co) laterite systems -- 5.4.1. Nature -- 5.4.2. Genesis -- 5.4.3. Global-province scale exploration -- 5.4.4. District-deposit scale exploration -- 5.5. Iron oxide copper-gold (IOCG) systems -- 5.5.1. Nature -- 5.5.2. Genesis -- 5.5.3. Global-province scale exploration -- 5.5.4. District-deposit scale exploration -- 5.6. Porphyry Cu-Au-Mo systems -- 5.6.1. Nature -- 5.6.2. Genesis -- 5.6.3. Global-province scale exploration -- 5.6.4. District-deposit scale exploration -- 5.7. Iron-Cu-Zn-Pb (Ag, Au) skarn systems -- 5.7.1. Nature -- 5.7.2. Genesis -- 5.7.3. Global-province scale exploration -- 5.7.4. District-deposit scale exploration -- 5.8. Volcanogenic massive sulfide (VMS) Cu-Zn-Pb (Ag, Au, Ba) systems -- 5.8.1. Nature -- 5.8.2. Genesis -- 5.8.3. Global-province scale exploration -- 5.8.4. District-deposit scale exploration -- 5.9. SEDEX Zn-Pb-Cu systems -- 5.9.1. Nature -- 5.9.2. Genesis -- 5.9.2.1. Genesis of SEDEX systems -- 5.9.2.2. Contrasting temporal pattern of SEDEX and MVT Systems -- 5.9.3. Global-province scale exploration -- 5.9.4. District-deposit scale exploration -- 5.10. MVT Pb-Zn (Ba) systems -- 5.10.1. Nature -- 5.10.2. Genesis -- 5.10.3. Global-province scale exploration -- 5.10.4. District-deposit scale exploration -- 5.11. Broken Hill-type (BHT) Zn-Pb-Ag systems -- 5.11.1. Nature -- 5.11.2. Genesis -- 5.11.3. Global-province scale exploration -- 5.11.4. District-deposit scale exploration