Round Hill Shear Zone-Hosted Gold Deposit, Macraes Flat, Otago, New Zealand: Evidence of a Magmatic Ore Fluid
2000
The 0.8-Moz Round Hill shear zone-hosted gold deposit is one of several
located on, or near, the Hyde-Macraes shear zone, Macraes Flat, New Zealand.
Field relationships show stockwork veins are the oldest part of the hydrothermal
system, followed by flat and ramp veins. Hanging-wall shear veins formed early
but have been modified by late deformation. Fluid inclusion microthermometric results for dominant type I inclusions show
that flat and ramp veins have the same average wt percent NaCl equiv values (2.2±
0.6%) and were precipitated from the same fluid. Salinity data for these
veins overlap with those from hanging-wall veins (average 1.3 ± 0.3%) and
stockwork veins (1.6 ± 0.6% for vein margins; 0.9 ± 0.3% for vein centers),
although both of the latter trend toward lower overall wt percent NaCl equiv
values, suggesting mixing between relatively dilute and more saline end members.
All of the above veins have similar temperatures of homogenization (T h ),
ranging between 110° and 188°C. Fluid inclusion trapping temperatures are
considered to be ~300°C, equating to a ~10-km depth of formation. Carbon
dioxide dissolved in the hydrothermal fluid is responsible for up to one third
of fluid inclusion apparent salinities. Stockwork and hanging-wall veins thus
have true salinities of <1 wt percent NaCl equiv (<0.17 molal) and flat
and ramp veins have true salinities of Fluid inclusion volatiles from Round Hill and other Macraes deposits are
dominated by H 2 O (99.02–99.69 mol %), with lesser CO 2
(0.14–0.76 mol %), N 2 (0.03–0.32 mol %), and CH 4 (0.06–0.17
mol %). Noticeable concentrations of hydrocarbons occur in many of the samples.
Fluid inclusion cation and anion data show few components of relatively low
concentration are dissolved in the hydrothermal fluid, consistent with CO 2 -corrected
microthermometric measurements. A range in fluid inclusion δ D H 2 O
values obtained for the Round Hill deposit is coincident with the different vein
types and also indicates mixing between two fluids. One fluid is considered to
be O isotope shifted meteoric water, as trapped by the early stockwork veins,
and has the lowest δ D H 2 O
values of –80 per mil. The other fluid is represented by flat and/or ramp and
hanging-wall veins that have δ D H 2 O
values up to –40 per mil. The Macraes δ D H 2 O
data show a trend toward the magmatic water end member for geothermal systems
associated with convergent plate boundaries and are consistent with a 25 to 50
percent magmatic component in the Macraes hydrothermal system.
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