The importance of CO 2 on freezing point measurements of fluid inclusions; evidence from active geothermal systems and implications for epithermal ore deposition

Hedenquist, Jeffrey W.; Henley, Richard W.

doi:10.2113/gsecongeo.80.5.1379

Cited by 425 publications

(232 citation statements)

References 16 publications

Supporting

Mentioning

210

Contrasting

Unclassified

Order By: Relevance

“…It should be noted that equations (7) and (8) implicitly exclude boiling in an open system, and that the homogenization tempera ture is equal to temperature of the solution. Simultaneous cooling and dilution during boil ing in an open system has been discussed by Hedenquist and Henley (1985), and is not treated in this paper.…”

Section: Calculation Methodsmentioning

confidence: 99%

Mixing diagrams for hydrothermal solutions: Applications to interpretation of fluid inclusion data of hydrothermal ore deposits in Japan.

Shibue

1991

Geochem. J.

View full text Add to dashboard Cite

Temperature-chloride mixing diagrams at 500 and 1000 bars, and at vapor-saturated pressures, are calculated in order to demonstrate the mixing behavior of saline (up to 40 NaCI wt%) high-temperature solutions with 1 wt% low-temperature solutions, with the results applied to interpreting fluid inclusion data. The temperature of the initial saline solutions is 450°C at 500 bars, 600°C at 1000 bars, or 300°C at vapor-saturated pressures. The temperature of the diluent is 100° or 300°C at 500 and 1000 bars, and 100°C at the vapor-saturated pressure. Mixing diagrams at 500 and 1000 bars are recast onto the rela tion between homogenization temperature and chloride concentration of fluid inclusion using densities of NaCI solutions.Temperature-chloride mixing diagrams indicate that mixing of 40 wt% fluids with dilute solutions at 1000 bars is not linear, but shows a greater decrease in temperature with up to 3 wt% NaCI deviation. The deviations are larger (up to 9 wt%) with respect to homogenization temperature versus concentra tion relations. In contrast, mixing lines for 30 to 10 wt% initial fluids at 1000 bars and those for 40 to 10 wt% fluids at 500 bars are nearly linear with respect to temperature (or homogenization temperature) and NaCI concentration, within ± 3 wt% deviations. At vapor-saturated pressures, 300°C and 25 to 5 wt% initial solutions show nearly linear mixing relationships under the condition that vapor/liquid volume ratios are less than 1.Potassium chloride solutions show almost identical temperature-chloride relations with sodium chloride solutions, up to 325°C, 500 bars, and 6 mole/kg, when the molalities of saline and dilute solu tions are same for both solutes. The relations between homogenization temperature and concentration for KCl solutions show slightly smaller slopes than those for NaCI solutions.Application of these results to fluid inclusion data of the Ohe, Toyoha, and Fujigatani-Kiwada deposits in Japan indicates that high temperature and high salinity fluids (335°C and 6.3 wt% for the Ohe deposit; 325°C and 4.6 wt% for the Toyoha deposit; 360°C and 7.4 wt% for the Fujigatani Kiwada deposits) mixed with low temperature and low salinity solutions (221 °C and 1 .6 wt% for the Ohe deposit; 209°C and 0.0 wt% for the Toyoha deposit; 250°C and 1.9 wt% for the Fujigatani Kiwada deposits).

show abstract

Section: Calculation Methodsmentioning

confidence: 99%

Mixing diagrams for hydrothermal solutions: Applications to interpretation of fluid inclusion data of hydrothermal ore deposits in Japan.

Shibue

1991

Geochem. J.

View full text Add to dashboard Cite

show abstract

“…The CO 2 liquid and vapour homogenise in these inclusions near 26°C, but the small size precludes accurate determination of homogenisation temperature. Freezing-point depressions in the aqueous inclusions are almost certainly due to dissolved CO 2 (Hedenquist & Henley 1985a). Co-existence of inclusions with widely varying fluid composition suggests that the fluids were immiscible during entrapment Such immiscibility allows estimates of both temperature and pressure to be obtained from fluid-inclusion data.…”

Section: Fluid Inclusionsmentioning

confidence: 99%

Shallow-level, late-stage gold mineralisation in Sawyers Creek, Shotover valley, northwest Otago, New Zealand

Craw

1989

New Zealand Journal of Geology and Geophysics

View full text Add to dashboard Cite

A set of mainly west and northwest striking normal faults in Sawyers Creek, Shotover valley, crosscuts post -0 ligocene Moonlight Generation structures. These faults have provided access for hydrothermal fluids to shallow crustal levels. Silicification and carbonate alteration of breccias and wall rock has occurred, to form reef zones up to 3 m wide. Gold is found with pyrite and arsenopyrite within the siliceous portions of the reef, especially at fault intersections. The hydrothermal fluid was water with minor dissolved CO . Mineralisation occurred at about 150--200°C at 2-3 km dept6. Wall-rock interaction with the fluid caused replacement of chlorite by ankeriticcarbonate. The composition of the ankerite is governed by the composition of the chlorite it replaced. Fluid reaction with chlorite caused the fluid to become progressively more alkaline which eventually resulted in precipitation of gold. Similar fluid activity, in similar structural settings, is found throughout northwest Otago.

show abstract

“…This relation could represent the immiscibility of an originally aqueous carbonic fluid with consequent gas loss, that is, with CO 2 partitioning to the gas phase. As discussed by Hedenquist and Henley (1985a), the immiscibility and preferential loss of the gas phase to the bubble, in aqueous system with some quantities of CO 2 result in a small decrease of temperature accompanied by a great decrease in the apparent salinities. In this case the boiling trend seems to be strongly masked by the mixing trend.…”

Section: Discussionmentioning

confidence: 98%

“…Hedenquist and Henley (1985a) showed that in most epithermal deposits CO 2 is present as a dissolved gas in fluid inclusions, sometimes in small not visible proportions, and also discussed the effect of these discrete CO 2 concentrations on melting point depression. On the basis of the low-temperature phase relations in the H 2 O-CO 2 system Hedenquist and Henley (1985a) and Diamond (2003),…”

Section: Discussionmentioning

confidence: 99%

“…Thus, hydrostatic pressure conditions are assumed based on the presence of hydrothermal fracturing and in the fact that in the upper one to two kilometers of the crust, the pressure of hydrothermal fluids is generally hydrostatic (Hedenquist and Henley, 1985a). Hass (1971) calculated the effect of salinity on the temperature-depth relations of a brine of constant composition at hydrostatic pressure.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Processos metalogenéticos em ambientes de arco magmático tipo andino, caso de estudo: mineralizações da região dos Andes Patagônicos setentrionais do Chile

Oyarzo¹,

Leeming²

View full text Add to dashboard Cite

The importance of CO 2 on freezing point measurements of fluid inclusions; evidence from active geothermal systems and implications for epithermal ore deposition

Cited by 425 publications

References 16 publications

Mixing diagrams for hydrothermal solutions: Applications to interpretation of fluid inclusion data of hydrothermal ore deposits in Japan.

Mixing diagrams for hydrothermal solutions: Applications to interpretation of fluid inclusion data of hydrothermal ore deposits in Japan.

Shallow-level, late-stage gold mineralisation in Sawyers Creek, Shotover valley, northwest Otago, New Zealand

Processos metalogenéticos em ambientes de arco magmático tipo andino, caso de estudo: mineralizações da região dos Andes Patagônicos setentrionais do Chile

Contact Info

Product

Resources

About