Abstract
The Maldon gold deposit in central Victoria has geological, geochronological and fluid chemistry characteristics that distinguish it from typical vein-hosted, 'orogenic' gold deposits in this region. The deposit lies within the thermal aureole of the Late Devonian Harcourt Granite and associated granitic dykes that postdate regional metamorphism (~445Ma) and large gold deposits such as Bendigo. The fluid inclusions are characterised by the presence of non-aqueous (i.e. carbonic) fluids, which exhibit complex freezing and heating behaviour, as well as mixed CO2-low-salinity aqueous fluids (mostly ≤10wt.% NaCl eq.). Raman analysis indicates that carbonic inclusions can vary from CO2-rich to CH4+N2-rich. Furthermore, higher-salinity fluid inclusions, containing 20-22wt.% NaCl eq., occur locally. Overall, fluid inclusions in the K-feldspar zone are much less abundant by volume than those in the cordierite zone probably due to recrystallisation, suggesting limited magmatic fluid input. The Harcourt Granite is a moderately reduced, I-type granite and it is suggested that the 'retrograde', reduced fluids (e.g. CH4+N2-rich), formed within the thermal aureole of the granite and associated dykes during contact metamorphism, are not part of the regional mineralising fluid system, which was dominated by deeply derived CO2-low-salinity aqueous fluids of metamorphic origin. Thus, the Maldon deposit is an 'orogenic' gold deposit that was metamorphosed and/or remobilised during the emplacement of post-orogenic intrusions.
Original language | English |
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Pages (from-to) | 225-237 |
Number of pages | 13 |
Journal | Ore Geology Reviews |
Volume | 58 |
Issue number | C |
DOIs | |
Publication status | Published - Apr 2014 |