Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits

Molybdenum mineralization and coextensive alteration at Questa, Hudson Bay Mountain, and Endako occur in single/composite veinlets which exhibit distinctive alteration assemblages and paragenesis. Fluid inclusion populations from each veinlet type are compositionally distinct. Early fluorine rich, b...

Full description

Bibliographic Details
Main Author: Bloom, Mark Stephen
Format: Thesis
Language:English
Published: University of British Columbia 1983
Subjects:
Endako
Hudson
Hudson Bay
Hudson Bay Mountain
Online Access:http://hdl.handle.net/2429/24267
id ftunivbritcolcir:oai:circle.library.ubc.ca:2429/24267
record_format openpolar
spelling ftunivbritcolcir:oai:circle.library.ubc.ca:2429/24267 2023-05-15T16:35:34+02:00 Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits Bloom, Mark Stephen 1983 http://hdl.handle.net/2429/24267 eng eng University of British Columbia For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use. Text Thesis/Dissertation 1983 ftunivbritcolcir 2019-10-15T17:57:01Z Molybdenum mineralization and coextensive alteration at Questa, Hudson Bay Mountain, and Endako occur in single/composite veinlets which exhibit distinctive alteration assemblages and paragenesis. Fluid inclusion populations from each veinlet type are compositionally distinct. Early fluorine rich, biotite-stable alteration is associated with hypersaline brines. These inclusions homogenize most frequently by halite dissolution at temperatures from 350°-600°+C. Molybdenum mineralization also coincides with quartz-sericite-pyrite alteration and inclusions having moderate to high salinity and lower (≤ 350°C) temperatures of entrapment. Ubiquitous low-salinity inclusions in addition to inclusion types which characterize each veinlet type suggest superposition of meteoric-dominated convective circulation. These data are evidence for magmatic fluids, separate in both space and time from ingress of meteoric hydrothermal solutions. Hypersaline brines were precursors to those solutions which precipitated distinctive alteration associations, and formed by boiling/condensation of fluids released by episodic fracturing and ensuing adiabatic decompression. Highly variable and complex compositional zoning characterizes (K,Na)-feldspar, biotite, and muscovite solid solutions Although zoning within individual grains is common, composition al trends in the averaged compositions can be correlated with both position in the emplacement sequence and textural characteristics of these alteration phases. Alkali feldspars coexisting in veinlets constitute sensitive geothermometers which pro- vide reliable depositional temperatures (≥ 350°C). X(annite) is highest in magmatic biotite, intermediate in biotite which exhibits replacement textures, and significantly lower in veinlet assemblages. X(fluorphlogopite) systematically increases from magmatic to veinlet biotite associations; f(H₂O/HF) ratios computed from these compositions predict log f(HF) of approximately -4.0. Departures from muscovite stoichiometry persist among different veinlet assemblages and textural associations, but were not sampled with enough regularity to define trends in spatial disposition. Alteration geochemistry indicates that mineralization occurred from solutions equilibrated with veinlet assemblages. Fluid-mineral equilibria computations imply chemical characteristics of the ore-forming solutions similar to those measured in high-temperature geothermal fluids. Molybdenite solubility shows extreme dependence on temperature, pH, f(O₂), and f(HF). Molybdenum concentrations up to 100 ppm are predicted in oxidized solutions at 350°C. In near-neutral solutions significant amounts of molybdenum are transported as MoO₃F⁻ and HMoO₄⁻, with lesser amounts as H₂MoO₄⁰ and MoO₂⁺. Chloride and sulfide complex concentrations are not significant. MoO₃F⁻ becomes the primary transporter of molybdenum in acid solutions and high f(HF). Science, Faculty of Earth, Ocean and Atmospheric Sciences, Department of Graduate Thesis Hudson Bay University of British Columbia: cIRcle - UBC's Information Repository Endako ENVELOPE(-125.020,-125.020,54.083,54.083) Hudson Hudson Bay Hudson Bay Mountain ENVELOPE(-127.271,-127.271,54.769,54.769)
institution Open Polar
collection University of British Columbia: cIRcle - UBC's Information Repository
op_collection_id ftunivbritcolcir
language English
description Molybdenum mineralization and coextensive alteration at Questa, Hudson Bay Mountain, and Endako occur in single/composite veinlets which exhibit distinctive alteration assemblages and paragenesis. Fluid inclusion populations from each veinlet type are compositionally distinct. Early fluorine rich, biotite-stable alteration is associated with hypersaline brines. These inclusions homogenize most frequently by halite dissolution at temperatures from 350°-600°+C. Molybdenum mineralization also coincides with quartz-sericite-pyrite alteration and inclusions having moderate to high salinity and lower (≤ 350°C) temperatures of entrapment. Ubiquitous low-salinity inclusions in addition to inclusion types which characterize each veinlet type suggest superposition of meteoric-dominated convective circulation. These data are evidence for magmatic fluids, separate in both space and time from ingress of meteoric hydrothermal solutions. Hypersaline brines were precursors to those solutions which precipitated distinctive alteration associations, and formed by boiling/condensation of fluids released by episodic fracturing and ensuing adiabatic decompression. Highly variable and complex compositional zoning characterizes (K,Na)-feldspar, biotite, and muscovite solid solutions Although zoning within individual grains is common, composition al trends in the averaged compositions can be correlated with both position in the emplacement sequence and textural characteristics of these alteration phases. Alkali feldspars coexisting in veinlets constitute sensitive geothermometers which pro- vide reliable depositional temperatures (≥ 350°C). X(annite) is highest in magmatic biotite, intermediate in biotite which exhibits replacement textures, and significantly lower in veinlet assemblages. X(fluorphlogopite) systematically increases from magmatic to veinlet biotite associations; f(H₂O/HF) ratios computed from these compositions predict log f(HF) of approximately -4.0. Departures from muscovite stoichiometry persist among different veinlet assemblages and textural associations, but were not sampled with enough regularity to define trends in spatial disposition. Alteration geochemistry indicates that mineralization occurred from solutions equilibrated with veinlet assemblages. Fluid-mineral equilibria computations imply chemical characteristics of the ore-forming solutions similar to those measured in high-temperature geothermal fluids. Molybdenite solubility shows extreme dependence on temperature, pH, f(O₂), and f(HF). Molybdenum concentrations up to 100 ppm are predicted in oxidized solutions at 350°C. In near-neutral solutions significant amounts of molybdenum are transported as MoO₃F⁻ and HMoO₄⁻, with lesser amounts as H₂MoO₄⁰ and MoO₂⁺. Chloride and sulfide complex concentrations are not significant. MoO₃F⁻ becomes the primary transporter of molybdenum in acid solutions and high f(HF). Science, Faculty of Earth, Ocean and Atmospheric Sciences, Department of Graduate
format Thesis
author Bloom, Mark Stephen
spellingShingle Bloom, Mark Stephen
Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits
author_facet Bloom, Mark Stephen
author_sort Bloom, Mark Stephen
title Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits
title_short Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits
title_full Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits
title_fullStr Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits
title_full_unstemmed Geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits
title_sort geochemistry of fluid inclusions and hydrothermal alteration in vein- and fracture-controlled mineralization, stockwork molybdenum deposits
publisher University of British Columbia
publishDate 1983
url http://hdl.handle.net/2429/24267
long_lat ENVELOPE(-125.020,-125.020,54.083,54.083)
ENVELOPE(-127.271,-127.271,54.769,54.769)
geographic Endako
Hudson
Hudson Bay
Hudson Bay Mountain
geographic_facet Endako
Hudson
Hudson Bay
Hudson Bay Mountain
genre Hudson Bay
genre_facet Hudson Bay
op_rights For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.
_version_ 1766025808873259008

Similar Items