Features of Large Magmatic-Hydrothermal Systems in Japan: Characteristics Similar to the Tops of Porphyry Copper Deposits

Abstract Porphyry copper deposits consist of low-grade stockwork and disseminated sulfide zones that contain characteristic vein generations formed during the evolution of the hydrothermal systems. The present contribution examines the influence of variable CO2 concentrations on the solubility of quartz in single-phase hydrothermal fluids forming stockwork veins in porphyry deposits at temperatures of 150° to 550°C and pressures ranging from 100 to 2,000 bar at concentrations up to 8 mol % CO2. The calculations demonstrate that quartz solubility in hydrothermal fluids decreases with increasing CO2 content. Retrograde quartz solubility is less pronounced in CO2-bearing fluids and is not observed in single-phase fluids having CO2 concentrations exceeding 6 mol %. Despite the effects of CO2, retrograde quartz solubility plays an important role in the formation of porphyry stockwork veins that contain little or no quartz as a gangue mineral. At high temperatures and lithostatic pressure conditions below 900 bar, early biotite veins can form as a result of quasi-isobaric cooling of single-phase hydrothermal fluids under conditions of retrograde quartz solubility or near-constant quartz solubility. Stock-work veins consisting of molybdenite or hypogene copper sulfide minerals lacking quartz could form at temperatures of up to 450°C under hydrostatic pressures ranging from ~250 to 900 bar. In the presence of CO2, retrograde quartz solubility is shifted toward slightly lower temperatures at constant pressure. At temperatures below ≾375°C, quartz is precipitated during quasi-isobaric cooling irrespective of CO2 content of the hydrothermal fluids, resulting in the formation of late porphyry quartz veins.

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INTEGRATED CATHODOLUMINESCENCE AND FLUID INCLUSION STUDIES ON VEIN QUARTZ: UNRAVELING THE EVOLUTION OF MAGMATIC-HYDROTHERMAL SYSTEMS FORMING PORPHYRY COPPER DEPOSITS

10.1130/abs/2016am-284428 ◽

2016 ◽

Author(s):

Thomas Monecke ◽

◽

T. James Reynolds

Keyword(s):

Fluid Inclusion ◽

Porphyry Copper ◽

Hydrothermal Systems ◽

Porphyry Copper Deposits ◽

Vein Quartz ◽

Copper Deposits

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Sulfur isotope data and the nature of the hydrothermal systems at the Panguna and Frieda porphyry copper deposits, Papua New Guinea

Economic Geology ◽

10.2113/gsecongeo.78.2.201 ◽

1983 ◽

Vol 78 (2) ◽

pp. 201-213 ◽

Cited By ~ 13

Author(s):

C. J. Eastoe

Keyword(s):

Papua New Guinea ◽

Sulfur Isotope ◽

Porphyry Copper ◽

New Guinea ◽

Hydrothermal Systems ◽

Porphyry Copper Deposits ◽

Copper Deposits ◽

Isotope Data ◽

Sulfur Isotope Data

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Supergiant porphyry Cu deposits are failed large eruptions

10.21203/rs.3.rs-802055/v1 ◽

2021 ◽

Author(s):

Massimo Chiaradia ◽

Luca Caricchi

Keyword(s):

Porphyry Copper ◽

Volcanic Eruptions ◽

Hydrothermal Systems ◽

Convergent Margins ◽

Porphyry Copper Deposits ◽

Copper Deposits ◽

Porphyry Cu ◽

Shallow Crust ◽

Mass Balance Approach ◽

Injection Rates

Abstract Porphyry copper deposits, the principal natural source of Cu and Mo, form at convergent margins. Copper is precipitated from fluids associated with cooling magmas that have formed in the mantle and evolved at variably deep crustal levels, before raising close to the surface where they exsolve fluids and copper. Despite significant advances in the understanding of their formation, there are still underexplored aspects of the genesis of porphyry copper deposits. Here, we address the role played by magma injection rates into the shallow crust on the formation of porphyry copper deposits with different copper endowments. Using a mass balance approach, we show that supergiant porphyry Cu deposits (>10 Mt Cu) require magma volumes and magma injection rates typical of large volcanic eruptions. Because such volcanic events would destroy magmatic-hydrothermal systems or prevent their formation, the largest porphyry Cu deposits can be considered as failed large eruptions and this may be one of the causes of their rarity.

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