Title | Scheelite as a possible ore-deposit discriminator based on luminescence, trace-element chemistry, delta-18O signature, fluid inclusions, and U-Pb geochronology |
Download | Download (whole publication) |
Author | Kontak, D J; McDonald, A M; Poulin, R; Petrus, J; McClenaghan, M B |
Source | Application of indicator mineral methods to bedrock and sediments; by McClenaghan, M B; Layton-Matthews, D; Geological Survey of Canada, Open File 8345, 2017 p. 48-59, https://doi.org/10.4095/306315 (Open Access) |
Links | Exploration17
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Year | 2017 |
Publisher | Natural Resources Canada |
Meeting | Exploration '17: Sixth Decennial International Conference on Mineral Exploration; Toronto, ON; CA; October 22-25, 2017 |
Document | open file |
Lang. | English |
Media | on-line; digital |
Related | This publication is contained in McClenaghan, M B;
Layton-Matthews, D; (2017). Application of indicator mineral methods to bedrock and sediments, Geological Survey of Canada, Open File 8345 |
File format | pdf |
Subjects | economic geology; geochemistry; geochronology; mineralogy; mineral exploration; exploration methods; mineral deposits; tungsten; scheelite; mineralization; ore mineral genesis; metamorphism; magmatism;
hydrothermal systems; geochemical analyses; trace element geochemistry; minor element geochemistry; isotope geochemistry; oxygen isotopes; radiometric dating; uranium lead dating; fluid inclusions; crystallography; strontium; molybdenum; arsenic;
mass spectrometer analysis; indicator minerals; methodology; physical properties; cathodoluminescence analyses; rare earth elements (REE) |
Illustrations | schematic representations; photomicrographs; plots; tables |
Program | Porphyry systems, Targeted Geoscience Initiative (TGI-5) |
Released | 2017 12 20; 2018 05 01 |
GEOSCAN ID | 306315 |
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