Mineralogical and fluid inclusion features of rock alterations in the Seigoshi gold-silver mining district, western part of the Izu Peninsula, Japan
暂无分享,去创建一个
[1] Y. Shibue,et al. Occurence of topaz from silica and alunite deposits at the Ugusu mine and its implication for high fluoride concentration in fossil geothermal water , 1984 .
[2] S. Arnórsson,et al. The chemistry of geothermal waters in Iceland. III. Chemical geothermometry in geothermal investigations , 1983 .
[3] R. Henley,et al. Geothermal systems ancient and modern: a geochemical review , 1983 .
[4] W. Giggenbach. “Geothermal mineral equilibria”. Reply to a comment by M. A. Grant , 1982 .
[5] I. Kaneoka,et al. K-Ar ages of a basanitoid lava flow of Nanzaki volcano and underlying Miocene andesites from the Irozaki area, Izu Peninsula, Central Japan. , 1982 .
[6] J. Liou,et al. Experimental investigation of yugawaralite–wairakite equilibrium , 1982 .
[7] G. Cavarretta,et al. Formation of authigenic minerals and their use as indicators of the physicochemical parameters of the fluid in the Larderello-Travale geothermal field , 1982 .
[8] T. Sugiura,et al. Variations in chemical and isotopic compositions of fumarolic gases from Showashinzan volcano, Hokkaido, Japan , 1982 .
[9] D. Bird,et al. Theoretical prediction of phase relations among aqueous solutions and minerals: Salton Sea geothermal system , 1981 .
[10] W. Giggenbach. Geothermal mineral equilibria , 1981 .
[11] W. Giggenbach. Geothermal gas equilibria , 1980 .
[12] F. D'amore,et al. Evaluation of deep temperatures of hydrothermal systems by a new gas geothermometer , 1980 .
[13] P. Browne. Hydrothermal Alteration in Active Geothermal Fields , 1978 .
[14] D. K. Bird. Chemical interaction of aqueous solutions with epidote-feldspar mineral assemblages in geologic systems , 1978 .
[15] E. C. Beutner. Slaty cleavage and related strain in Martinsburg Slate, Delaware Water Gap, New Jersey , 1978 .
[16] H. Helgeson,et al. Theoretical prediction of the thermodynamic behavior of aqueous electrolytes at high pressures and temperatures; I, Summary of the thermodynamic/electrostatic properties of the solvent , 1974 .
[17] Masaru Suzuki,et al. Isotopic and chemical compositions of volcanic gases from Satsuma-Iwojima, Japan. , 1974 .
[18] J. Carvalho,et al. Thermodynamics of sulphur vapour , 1973 .
[19] J. Carvalho,et al. High temperature saturated vapour pressure of sulphur and the estimation of its critical quantities , 1973 .
[20] J. Liou. Stilbite-laumontite equilibrium , 1971 .
[21] J. Liou. P—T Stabilities of Laumontite, Wairakite, Lawsonite, and Related Minerals in the System CaAl2Si2O8-SiO2-H2O , 1971 .
[22] Donald E. White,et al. Vapor-dominated hydrothermal systems compared with hot-water systems , 1971 .
[23] A. Iijima,et al. Geology of the Ugusu District, Western Izu , 1970 .
[24] H. Helgeson,et al. Thermodynamics of hydrothermal systems at elevated temperatures and pressures , 1969 .
[25] P. B. Hostetler,et al. Some stability relations of alunite , 1969 .
[26] A. Steiner. Clay Minerals in Hydrothermally Altered Rocks at Wairakei, New Zealand , 1968 .
[27] H. Helgeson. Geologic and thermodynamic characteristics of the Salton Sea geothermal system , 1968 .
[28] C. Meyer. Wall rock alteration , 1967 .
[29] S. Iwao. Silica and alunite deposits of the Ugusu mine : A geochemical consideration on an extinct geothermal area in Japan , 1962 .
[30] Masayuki Tokunaga. Fundamental Studies of the Hydrothermal Alteration at the Kasuga Mine, Kagoshima Prefecture , 1955 .
[31] H. Kuno,et al. Note on Yugasima Group Exposed near Syuzenzi, Izu , 1949 .