Mohammadi, Nadia2023-03-012023-03-012018https://unbscholar.lib.unb.ca/handle/1882/14599The Late Devonian Mount Douglas Granite, located in southwestern New Brunswick, is host to endogranitic, granophile-element Sn-, W-, Mo-, Zn-, Bi-, and U-bearing greisen/sheeted veins. It forms the eastern part of the Late Silurian to Late Devonian Saint George Batholith that was emplaced during the Acadian-Neoacadian orogeny. Three units of the highly evolved post-orogenic peraluminous Mount Douglas Granite (Dmd1, Dmd2, and Dmd3) were formed by progressively higher degrees of fractional crystallization. Investigations of these three phases were carried out using a combination of geological field work (mapping), gamma-ray spectrometry, petrographic and geochemical investigations, EPMA, SEM-EDS imaging, Laser ablation ICP-MS measurements, including U-Pb geochronological and radiogenic and stable isotopic studies, supported by Raman spectroscopy on certain minerals. The granite exhibits a hybrid S-type and A-type signature. Whole-rock δ[superscript 18]O (+6.0 to +7.3‰), high initial [superscript 87]Sr/[superscript 86]Sr (mean = 0.70764), positive [subscript εNd(368 Ma)] (+0.3 to +1.1), and Pb isotopic data indicate its derivation by partial melting of a predominately juvenile subducted Avalonian crustal source that was contaminated by supracrustal rocks. Magmatic biotite geochemistry, combined with whole-rock zircon saturation temperature estimates, suggest oxygen fugacity near Quartz-Magnetite-Fayalite (QFM) conditions for unit Dmd1, whereas units Dmd2 and Dmd3 have lower ƒO[subscript 2] and are more reduced. Mineralized greisen/sheeted veins are associated with highly differentiated medium-grained to porphyritic units, Dmd2 and Dmd3, that are the most prospective units of the pluton in terms of metallic mineral deposits. The most fractionated character of Dmd3 is evident by its highest SiO[subscript 2] content (avg. 76.4 wt.%.), higher contents of LILE (e.g., Li, Rb, Cs), HFS (Ta, Th, U), Y (≤ 138 ppm) and REE, and the most pronounced negative Eu anomalies (avg. Eu/Eu* = 0.08). The degree of fractionation in Dmd3 is also manifested by its lowest K/Rb (70-127), Nb/Ta (average = 4.9), and Zr/Hf (average = 23.5), and highest Rb/Sr ratios (average = 42), and also by geochemical compositions of magmatic biotite, K-feldspar, and monazite. The most important indices of magmatic evolution, K/Rb, K/Cs, Rb/Cs, K/Li, and Nb/Ta ratios of co-existing biotite and K-feldspar, decline with increasing degree of fractionation. The estimated K[subscript Rb] suggests a lower equilibration temperature for Dmd3, consistent with whole-rock zircon and monazite saturation temperatures. LA ICP-MS U-Pb geochronology of 157 in situ monazite grains along with 100 mounted zircon grains yielded a Late-Devonian crystallization age of 368 ± 3 Ma. With respect to timing of associated mineralization, there are at least two stages recognized in this system: (I) magmatic-related mineralization, which is recorded by new mineralization ages obtained on uraninite (366.4 ± 4.3 Ma; 2σ; n = 5) and cassiterite (363 ± 9 Ma; 2σ; n = 38), and (II) post-magmatic mineralization defined by hydrothermal monazite, and yielding a younger mineralization age ranging from 344 to 368 with an average of 357 ±7 Ma. The post-magmatic hydrothermal activity can be associated with the High Heat Production (HHP) nature of this pluton, in which the pluton acts as a ‘heat engine’ producing heat by radioactive decay of U, Th, and K that prolonged the hydrothermal fluid circulation (activity).text/xmlxxiv, 456 pageselectronicen-CAhttp://purl.org/coar/access_right/c_abf2doctoral thesis2023-03-01Lentz, DavidMcFarlane, Chris R.M.Earth Sciences