Genesis and Exploration Implications of Epithermal Gold Mineralization and Porphyry-Style Alteration at the Endeavour 41 Prospect, Cowal District, New South Wales, Australia
2014
Endeavour 41 is a deep-level, structurally controlled epithermal gold deposit hosted by Early Ordovician subaqueous volcanosedimentary
rocks. Calc-alkalic to shoshonitic, mafic to intermediate sills, dikes, and stocks intruded the volcanosedimentary units in
the Middle Ordovician. The most felsic intrusions, together with pyroxene-bearing dikes, are temporally related to gold mineralization.
Postmineralization intrusions are exclusively of mafic character.
Endeavour 41 evolved from early, high-temperature porphyry-style veins and alteration to lower-temperature epithermal-style
gold mineralization. Early magnetite and garnet-bearing veins (stage 1 and 2, respectively) associated with actinolite, magnetite,
and biotite-bearing alteration assemblages have been cut by gold-bearing veins and associated alteration assemblages. There
were two main epithermal-style gold mineralizing events: (1) quartz-pyrite ± calcite ± adularia ± chlorite veins (stage 3)
and (2) carbonate-base metal sulfide veins (calcite, ankerite, quartz, pyrite, sphalerite, galena, chalcopyrite, Ag tellurides,
arsenopyrite, apatite, hematite, illite-muscovite, and chlorite [stage 4]). Gold occurs principally as a refractory phase
in pyrite. It also occurs as grains of Au-Ag tellurides and as inclusions of free gold in pyrite, sphalerite, and chalcopyrite.
Hydrothermal alteration associated with gold-mineralized veins produced early epidote and K-feldspar-epidote–bearing alteration
halos and later-stage illite-muscovite-K-feldspar and calcite-rich alteration halos. The highest gold grades are associated
with muscovite and illite alteration.
Stable isotope analyses and fluid inclusion data provide evidence of a magmatic-hydrothermal component to the mineralizing
fluids. Fluid inclusion data suggest that gold precipitated from boiling saline waters (~9.0 wt % NaCl) at temperatures of
about 310°C. Stage 3 veins are estimated to have formed approximately 1 km below the paleosurface at hydrostatic pressure
(~90 bars). Stage 4 illite formed at temperatures below ~280°C. Stage 3 calcite has δ 13 C calcite and δ 18 O calcite values that range from −5.2 to −4.6 and from 11.6 to 12.1‰, respectively. Calculated fluids for these mineral values at 300°C
(δ 13 C fluid = −3‰; δ 18 O fluid = 6‰) are consistent with a magmatic-hydrothermal source of carbon and oxygen during stage 3. A component of meteoric waters
is inferred for stage 4, because δ 13 C carbonate and δ 18 O carbonate values range from −6.9 to −0.5 and from 10.9 to 30.1‰, respectively, corresponding to δ 13 C fluid and δ 18 O fluid values of −5 and −2‰ at 200° to 250°C.
The δ 34 S sulfide values for early vein stages range between −4.9 and −0.5‰. Stage 3 has δ 34 S sulfide values ranging from −5.2 to +0.8‰ with the most 34 S enriched values deposited away from the mineralized center. Stage 4 sulfides have isotopic compositions from −7.5 to +2.5‰.
The negative isotopic values are consistent with oxidized (sulfate-predominant) magmatic-hydrothermal fluids. Sulfur isotopic
zonation patterns show that the most negative δ 34 S values correlate with gold-enriched domains and also with areas that contain high-temperature, porphyry-style alteration
facies. The negative sulfur isotope values define zones of upflow for the mineralizing magmatic-hydrothermal fluids.
The paragenetic history of Endeavour 41 records a transition from deep-level to shallow-level magmatic-hydrothermal activity.
This transition implies erosion and unroofing of the system synchronous with mineralization. High-temperature assemblages
(e.g., actinolite-magnetite, biotite, and K-feldspar-epidote) indicate that epithermal mineralization occurred proximal to
a magmatic-hydrothermal center and that there is potential for the discovery of porphyry copper-gold mineralization below
the current level of diamond drilling.
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