Pal'yanova, Galina (2008) Physicochemical modeling of the coupled behavior of gold and silver in hydrothermal processes: Gold fineness, Au/Ag ratios and their possible implications. Chemical Geology, 255 (3) 399-413 doi:10.1016/j.chemgeo.2008.07.010
Reference Type | Journal (article/letter/editorial) | ||
---|---|---|---|
Title | Physicochemical modeling of the coupled behavior of gold and silver in hydrothermal processes: Gold fineness, Au/Ag ratios and their possible implications | ||
Journal | Chemical Geology | ||
Authors | Pal'yanova, Galina | Author | |
Year | 2008 (October) | Volume | 255 |
Page(s) | 399-413 | Issue | 3 |
Publisher | Elsevier BV | ||
DOI | doi:10.1016/j.chemgeo.2008.07.010Search in ResearchGate | ||
Mindat Ref. ID | 295974 | Long-form Identifier | mindat:1:5:295974:4 |
GUID | f55d15b3-d504-4896-bf63-c9924f2dec3e | ||
Full Reference | Pal'yanova, Galina (2008) Physicochemical modeling of the coupled behavior of gold and silver in hydrothermal processes: Gold fineness, Au/Ag ratios and their possible implications. Chemical Geology, 255 (3) 399-413 doi:10.1016/j.chemgeo.2008.07.010 | ||
Plain Text | Pal'yanova, Galina (2008) Physicochemical modeling of the coupled behavior of gold and silver in hydrothermal processes: Gold fineness, Au/Ag ratios and their possible implications. Chemical Geology, 255 (3) 399-413 doi:10.1016/j.chemgeo.2008.07.010 | ||
In | (2008, October) Chemical Geology Vol. 255 (3) Elsevier BV |
References Listed
These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.
Akinfiev (2001) Geochem. Int. Thermodynamic description of chloride, hydrosulphide, and hydroxocomplexes of Ag(I), Cu(I), and Au(I) at temperatures of 25–500 °C and pressures of 1–2000 bar 39, 990 | |
Bardina (1991) 6, 48 | |
Belevantsev (1982) Trans. IGiG SB AS SSSR The possible species and solubility of gold in ore-forming solutions 505, 83 | |
Bessinger (2003) | |
Borisenko (1994) Geotecton. Metallogen Concentration of ore-forming solutions as a factor of formation of superlarge deposits 18, 1 | |
Bortnikov (1998) Geol. Ore Depos. Mineralogy, geochemistry and origin of the Nezhdaninsk gold deposit (Sakha-Yakutia, Russia) 40, 121 | |
Boyle (1979) Canada Geol. Surv. Bull. The geochemistry of gold and its deposits 280 | |
Boyle (1968) Canada Geol. Surv. Bull. The geochemistry of silver and its deposits 160 | |
Cambel (1980) 31 (1–2), 139 | |
Cole, D.R., Drummond, S.E. (1986) The effect of transport and boiling on Ag/Au ratios in hydrothermal solutions: a preliminary assessment and possible implications for the formation of epithermal precious-metal ore deposits. Journal of Geochemical Exploration, 25 (1) 45-79 doi:10.1016/0375-6742(86)90007-5 | |
Cook (1990) Canad. Mineral. Concentrations of “invisible” gold in the common sulfides 28, 1 | |
Distanov (1975) Geol. Geophys. Genesis of Uderei gold-antimonic deposit in Yeniseisk mountain-ridge 8, 19 | |
Emsbo, P., Hofstra, A. H., Lauha, E. A., Griffin, G. L., Hutchinson, R. W. (2003) Origin of High-Grade Gold Ore, Source of Ore Fluid Components, and Genesis of the Meikle and Neighboring Carlin-Type Deposits, Northern Carlin Trend, Nevada. Economic Geology, 98 (6) 1069-1105 doi:10.2113/gsecongeo.98.6.1069 | |
Fernandez, D.C., Fuertes-Fuente, M., Martin-Izard, A., 2001. Fluid inclusions in the Ortosa Au-skarns, Asturias (northwestern of Spain). Abstracts. XVI ECROFI Europ. Curr. Resear. on fluid inclusions. Porto, 49–52. | |
Fisher (1950) Proc. Aust. Int. Min. Metall. Applications of gold fineness to the search for ore , 185 | |
Frueh (1974) , 47B1 | |
Genkin, Alexander D., Bortnikov, Nikolai S., Cabri, Louis J., Wagner, F. E., Stanley, Chris J., Safonov, Yurii G., McMahon, Greg, Friedl, J., Kerzin, Alexei L., Gamyanin, Gennady N. (1998) A multidisciplinary study of invisible gold in arsenopyrite from four mesothermal gold deposits in Siberia, Russian Federation. Economic Geology, 93 (4) 463-487 doi:10.2113/gsecongeo.93.4.463 | |
Goldschmidt (1937) J. Chem. Soc. London The principles of distribution of chemical elements in minerals and rocks , 655 | |
Hannington (1995) Canad. Mineral. The occurrence of gold in sulphide deposits of the hydrothermal field, Mid-Atlantic ridge 33, 1285 | |
Hayba (1986) Rev. Econ. Geol. Geologic, mineralogic and geochemical characteristics of volcanic-hosted epithermal precious metal deposits 2, 129 | |
Helgeson, H. C., Kirkham, D. H., Flowers, G. C. (1981) Theoretical prediction of the thermodynamic behavior of aqueous electrolytes by high pressures and temperatures; IV, Calculation of activity coefficients, osmotic coefficients, and apparent molal and standard and relative partial molal properties to 600 degrees C and 5kb. American Journal of Science, 281 (10) 1249-1516 doi:10.2475/ajs.281.10.1249 | |
Hodgson (1995) Giant mesothermal gold deposit: descriptive characteristics, genetic model and exploration are selection criteria , 157 | |
Huston (2000) SEG Rev. Gold in volcanic-hosted massive sulfide deposits: distribution, genesis, and exploration 13, 401 | |
Huston, David L., Bottrill, Ralph S., Creelman, Robert A., Zaw, Khin, Ramsden, Tony R., Rand, Sven W., Gemmell, J. Bruce, Jablonski, W., Sie, S. H., Large, Ross R. (1992) Geologic and geochemical controls on the mineralogy and grain size of gold-bearing phases, eastern Australian volcanic-hosted massive sulfide deposits. Economic Geology, 87 (3) 542-563 doi:10.2113/gsecongeo.87.3.542 | |
Izawa, Eiji, Urashima, Yukitoshi, Ibaraki, Kenzo, Suzuki, Ryoichi, Yokoyama, Takeo, Kawasaki, Kiyoshi, Koga, Akito, Taguchi, Sachihiro (1990) The Hishikari gold deposit: high-grade epithermal veins in Quaternary volcanics of southern Kyushu, Japan. Journal of Geochemical Exploration, 36 (1) 1-56 doi:10.1016/0375-6742(90)90050-k | |
Johnson, James W., Oelkers, Eric H., Helgeson, Harold C. (1992) SUPCRT92: A software package for calculating the standard molal thermodynamic properties of minerals, gases, aqueous species, and reactions from 1 to 5000 bar and 0 to 1000°C. Computers & Geosciences, 18 (7) 899-947 doi:10.1016/0098-3004(92)90029-q | |
Kolonin (2000) Dokl. Earth Sci. Native gold fineness as a possible indicator of composition and temperature of the ore-forming fluid 373, 1000 | |
Konstantinov (2000) Sci. World Gold giants of Russia and world. Moscow 272 | |
Korzhinskii (1959) | |
Kovalenker (1990) Geol. Ore Depos. Sulphide–telluridic mineralization of Megradsor deposit in Armenia 3, 65 | |
Kozlov, V.K., 1983. The research of hydrothermal equilibriums in silver-containing systems. Abstract of PhD Thesis, NEISRI, FEB of Rus. Acad. Sci. 23p. (in Russian). | |
Kretschmar (1976) Canad. Mineral. Phase relations involving arsenopyrite in system Fe–As–S and their application 14, 364 | |
Leitch (1990) CIM. Bull. Bralorne, a mesothermal, shield-type vein gold deposit of Cretaceous age in south-western British Columbia 83, 53 | |
Lodeischikov (1999) | |
Melent'yev (1969) Geochem. Int. Solubility of some ore-forming sulphides under hydrothermal conditions 7, 416 | |
Myers (1990) Min. Engin. Alteration zonation of the Fortitude gold skarn deposit, Lander County, NV 4, 360 | |
Naumov (1974) | |
Nekrasova (1997) Rudy Met. Classification of gold–silver deposits on the base of logical-informational analysis 5, 33 | |
Novozhilov (1999) | |
Pal'yanova, G.A., 2005. The physicochemical features of gold and silver behavior in processes of hydrothermal ore formation. PhD Thesis, UIGGM, SB Rus. Acad. Sci. 372. (in Russian). | |
Pal'yanova (1991) Geokhimiya Arsenopyrite-bearing mineral associations — an indicators of physical–chemical conditions of hydrothermal ore formation 10, 1481 | |
Pal'yanova (2004) Dokl. Earth Sci. Physicochemical features of the behavior of gold and silver in processes of hydrothermal ore formation 394, 100 | |
Pal'yanova (1999) Exp. Geosci. Monohydrosulphide complex AuHS0: thermodynamic analysis of the available and new experimental data 8, 43 | |
Pal'yanova (2005) Geochem. Int. Methodological approaches to the assessment of gold fineness during thermodynamic modeling of hydrothermal systems 43, 1247 | |
Prokof'ev (2003) 354 (4), 2,553 | |
Robie (1995) US Geol. Surv. Bull. Thermodynamic properties of minerals and related substances at 298.15 and 1Â bar (105Â Pascals) pressure and at higher temperatures 2131 | |
Roedder (1984) Min. Soc. Amer. Fluid inclusions: reviews in mineralogy 12 | |
Ryzhenko (2000) Petrology Fluids in the Earth's crust: chemical properties (composition, pH, and Eh) and Controlling Factors 8, 557 | |
Safonov (1997) Geol. Ore Depos. Hydrothermal gold deposits: distribution, geological-genetic types, and productivity of ore-forming systems 39, 20 | |
Sazonov (1998) Geol. Ore Depos. Vorontsovsk gold deposit: an example of carlin-type mineralization in the Urals, Russia 40, 139 | |
Scherbakov (1972) 149, 7 | |
Scherban (1975) | |
Scherbina (1956) Geochemiya About geochemical value of a quantitative ratio of gold and silver 3, 56 | |
Seward (1991) The hydrothermal geochemistry of gold , 37 | |
Shi (1992) Am. Mineral. Fluid fugacities and phase equilibria in the Fe–Si–O–H–S system 77, 1050 | |
Shock, Everett L., Sassani, David C., Willis, Marc, Sverjensky, Dimitri A. (1997) Inorganic species in geologic fluids: Correlations among standard molal thermodynamic properties of aqueous ions and hydroxide complexes. Geochimica et Cosmochimica Acta, 61 (5) 907-950 doi:10.1016/s0016-7037(96)00339-0 | |
Shvarov, Yu.V., Bastrakov, E., 1999. HCh: a software package for geochemical equilibrium modeling: User's Guide (AGSO RECORD 1999). Canberra: Austral Geol. Surv. Organisation, Dept. of Industry, Science and Resources, 57p. | |
Vetluzhskix (1997) 1, 16 | |
Zharikov (1998) |
See Also
These are possibly similar items as determined by title/reference text matching only.