Origin of hydrothermal CuZnPb mineralisation in the Olary Block, South Australia: evidence from fluid inclusions and sulphur isotopes
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[1] F. Bierlein,et al. Lead isotope study on hydrothermal sulfide mineralisation in the Willyama Supergroup, Olary Block, South Australia , 1996 .
[2] F. Bierlein,et al. Sulphide mineralisation in the Olary Block, South Australia , 1995 .
[3] F. Bierlein. Rare-earth element geochemistry of clastic and chemical metasedimentary rocks associated with hydrothermal sulphide mineralisation in the Olary Block, South Australia , 1995 .
[4] Dave Craw,et al. STABLE ISOTOPIC AND FLUID INCLUSION EVIDENCE FOR METEORIC FLUID PENETRATION INTO AN ACTIVE MOUNTAIN BELT - ALPINE SCHIST, NEW-ZEALAND , 1994 .
[5] S. Hoernes,et al. The role of fluids in granulite-facies metamorphism as deduced from oxygen and carbon isotopic compositions , 1994 .
[6] B. Marshall,et al. Remobilization, syn-tectonic processes and massive sulphide deposits , 1993 .
[7] N. Oliver,et al. Sulfur isotopic disequilibrium and fluid-rock interaction during metamorphism of sulfidic black shales from the Waterville-Augusta area, Maine, USA , 1992 .
[8] R. Page,et al. Felsic metavolcanic rocks related to the Broken Hill Pb-Zn-Ag orebody, Australia; geology, depositional age, and timing of high-grade metamorphism , 1992 .
[9] J. Parr. Fluctuations in a magmatic sulphur isotope signature from the Pinnacles Mine, New South Wales, Australia , 1992 .
[10] N. Cook,et al. Meta-evaporite sequence, exhalative chemical sediments and associated rocks in the Proterozoic Willyama Supergroup, South Australia: implications for metallogenesis , 1992 .
[11] B. Oksengorn,et al. Pressure and Density Dependence of the CH4 and N2 Raman Lines in an Equimolar CH4/N2 Gas Mixture , 1992 .
[12] P. Dijk. Regional syndeformational copper mineralization in the western Mount Isa Block, Australia , 1991 .
[13] P. Seccombe. Fluid inclusion and sulphur isotope evidence for syntectonic mineralisation at the Elura mine, southeastern Australia , 1990 .
[14] M. Palmer,et al. Boron isotope evidence for the involvement of non-marine evaporites in the origin of the Broken Hill ore deposits , 1989, Nature.
[15] D. Patterson,et al. Sulfur isotope systematics of copper ore formation at Mount Isa, Australia , 1989 .
[16] D. Patterson,et al. A fluid inclusion and stable isotope study of synmetamorphic copper ore formation at Mount Isa, Australia , 1989 .
[17] T. Mernagh,et al. The use of the laser Raman microprobe for the determination of salinity in fluid inclusions , 1989 .
[18] K. McQueen. Sediment geochemistry and base metal sulphide mineralisation in the Quidong area, Southeastern New South Wales, Australia , 1989 .
[19] Alan E. Williams,et al. Metamorphosed Plio-Pleistocene evaporites and the origins of hypersaline brines in the Salton Sea geothermal system, California: Fluid inclusion evidence , 1988 .
[20] R. Powell,et al. Metamorphism in the Olary Block, South Australia: compression with cooling in a Proterozoic fold belt , 1987 .
[21] P. Spry. A sulphur isotope study of the Broken Hill deposit, New South Wales, Australia , 1987 .
[22] C. J. Wilson,et al. Stratigraphic and structural constraints on the proterozoic tectonic history of the Olary Block, South Australia , 1986 .
[23] W. T. Parry. Estimation of X CO2 , P, and fluid inclusion volume from fluid inclusion temperature measurements in the system NaCl-CO 2 H 2 O , 1986 .
[24] B. Stevens,et al. Post‐depositional history of the Willyama Supergroup in the Broken Hill Block, NSW , 1986 .
[25] P. Spry,et al. Base metal mineralization in the Kanmantoo Group, South Australia; a regional sulfur isotope study , 1985 .
[26] T. Shepherd,et al. A Practical Guide to Fluid Inclusion Studies , 1985 .
[27] I. Plimer. Broken Hill Pb-Zn-Ag deposit — a product of mantle metasomatism , 1985 .
[28] I. Plimer. The mineralogical history of the Broken Hill Lode, NSW , 1984 .
[29] P. Ashley. Piemontite‐bearing rocks from the Olary District, South Australia , 1984 .
[30] H. Helgeson,et al. Calculation of the thermodynamic and geochemical consequences of nonideal mixing in the system H2O-CO2-NaCl on phase relations in geologic systems: Equation of state for H2O-CO2-NaCl fluids at high pressures and temperatures , 1983 .
[31] W. J. Stroud,et al. The early Proterozoic Willyama supergroup: Stratigraphic subdivision and interpretation of high to low‐grade metamorphic rocks in the Broken Hill Block, New South Wales , 1983 .
[32] C. Ramboz,et al. Fluid immiscibility in natural processes: Use and misuse of fluid inclusion data , 1982 .
[33] C. Ramboz,et al. Fluid immiscibility in natural processes: Use and misuse of fluid inclusion data: II. Interpretation of fluid inclusion data in terms of immiscibility , 1982 .
[34] M. Etheridge,et al. Rb/Sr isotopic and geochemical evolution of a recrystallized shear (mylonite) zone at Broken Hill , 1981 .
[35] R. Wilkins. Fluid Inclusion Assemblages of the Stratiform Broken Hill Ore Deposit, New South Wales, Australia , 1977, Science.
[36] P. Bethke,et al. Environment of ore deposition in the Creede mining district, San Juan Mountains, Colorado; Part III, Progress toward interpretation of the chemistry of the ore-forming fluid for the OH Vein , 1977 .
[37] J. Veizer,et al. The nature of O18/O16 and C13/C12 secular trends in sedimentary carbonate rocks , 1976 .
[38] R. Henley,et al. Dewatering of a metamorphic pile , 1976 .
[39] J. Smith,et al. A sulfur isotope study of base metal mineralization in the Willyama Complex, western New South Wales, Australia , 1975 .
[40] H. Ohmoto,et al. Sulfur and Carbon Isotopes and Ore Genesis: A Review , 1974 .
[41] H. Ohmoto. Systematics of Sulfur and Carbon Isotopes in Hydrothermal Ore Deposits , 1972 .
[42] T. A. Rafter,et al. The isotopic constitution of sulphur in some stratiform lead-zinc sulphide ores , 1966 .
[43] T. A. Rafter,et al. Sulfur isotope distribution in sulfides and sulfates from Broken Hill South, New South Wales , 1962 .
[44] A. Barker,et al. High salinity fluids: The result of retrograde metamorphism in thrust zones , 1992 .
[45] F. Hughes. Geology of the mineral deposits of Australia and Papua New Guinea , 1990 .
[46] R. Barnes,et al. Regional stable isotope and fluid inclusion study of vein-type mineralization in the Broken Hill Block, New South Wales, Australia , 1987 .
[47] H. Taylor,et al. Stable isotopes in high temperature geological processes , 1986 .
[48] R. Kerrich. Fluid infiltration into fault zones: Chemical, isotopic, and mechanical effects , 1986 .
[49] J. Valley. Stable isotope geochemistry of metamorphic rocks , 1986 .
[50] H. Ohmoto. Stable isotope geochemistry of ore deposits , 1986 .
[51] K. Gehlen. Sulphur Isotopes in Metamorphosed Precambrian Fe-Pb-Zn-Cu Sulphides and Baryte at Aggeneys and Gamsberg, South Africa , 1983 .
[52] H. Ohmoto. Isotopes of sulfur and carbon , 1979 .
[53] J. Craig,et al. Mineral chemistry of metal sulfides , 1978 .
[54] J. Hoefs. Stable Isotope Geochemistry , 1973 .
[55] H. Barnes,et al. Geochemistry of Hydrothermal Ore Deposits , 1968 .
[56] H. Thode,et al. Sulfur-Isotope Geochemistry of Petroleum, Evaporites, and Ancient Seas , 1965 .