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TitleRole of anoxia, euxinia and microbes in seafloor hydrothermal sulphide (VMS and SEDEX) deposit formation
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AuthorPeter, J M; Gadd, M G; Layton-Matthews, D; Jackson, S E; Taylor, B E; Goodfellow, W D; Jonasson, I; Lydon, J W
SourceTargeted Geoscience Initiative, 2016 report of activities; by Rogers, N (ed.); Geological Survey of Canada, Open File 8199, 2017 p. 103-104, https://doi.org/10.4095/299620 (Open Access)
Year2017
PublisherNatural Resources Canada
Documentopen file
Lang.English
Mediaon-line; digital
RelatedThis publication is contained in Rogers, N; (2017). Targeted Geoscience Initiative, 2016 report of activities, Geological Survey of Canada, Open File 8199
File formatpdf
Subjectseconomic geology; geochemistry; mineral deposits; mineral exploration; modelling; ore controls; ore mineral genesis; mineralization; base metals; hydrothermal deposits; sulphide deposits; zinc; host rocks; analytical methods; lithogeochemistry; mass spectrometer analysis; microscopic analysis; electron microscope analyses; organic geochemistry; isotopic studies; sulphur; pyrite; sulphides; carbon; oxygen; strontium; ore systems approach; sedimentary exhalative (SEDEX) deposits; volcanic-sediment-hosted massive sulphide (VSMS) deposits; anoxia; euxinia; microbes; paleoredox indicators; cathodoluminescence; electron microprobe analysis; mineral liberation analyser; biomarkers
Illustrationsphotomicrographs
ProgramVolcanogenic Massive Sulfide Ore Systems, Targeted Geoscience Initiative (TGI-4)
Released2017 01 20
GEOSCAN ID299620