Podmínky vzniku mineralizace rudních sloupů ložiska Zlaté Hory-jih: pohled ze studia fluidních inkluzí
Formation conditions of ore shoots of the Zlaté Hory-South deposit: insights from fluid inclusion study
Klíčová slova
Abstrakt
Genesis of massive base-metal sulphidic ores from discordant ore shoots of the Zlaté Hory-South deposit has been characterized using fluid inclusion petrography, microthermometry, and Raman analysis. The studied sample is composed of quartz, pyrrhotite (partly replaced by pyrite), galena, chalcopyrite, native bismuth, bismuthinite, and younger siderite and chlorite hosted by veinlets. Quartz-hosted fluid inclusions belong to three compositional types: H2O-CH4, H2O-CO2 and H2O. Continuous evolution of carbonic phase from methane-dominated compositions to CO2-dominated ones has been documented. The studied ore assemblages originated during retrograde phase of Variscan metamorphism at temperatures between ~220 and 300 °C and pressures between 0.7 and 2.0 kbar. Significant fluctuations of pressure recorded in the fluid inclusions indicate involvement of crack-seal mechanism during formation of ore shoots. The early phase of ore-forming process was characterized by high CH4/CO2 ratio and the presence of ethane, which is incompatible with source of fluids in local overmatured greenschist-facies rocks of the Vrbno Group. We thus interpret this portion of fluids to be externally derived from adjacent unmetamorphosed Culmian siliciclastic sediments. The influence of methane-rich fluids diminished rapidly during further evolution as the role of local metamorphic H2O-CO2 fluids with low CH4/CO2 ratios increased. The changes of fluid composition, pressure and temperature were the key factors causing the crystallization of ores in the studied ore shoots.
Soubory
Reference
Bakker RJ (2003) Package FLUIDS 1. New computer programs for the analysis of fluid inclusion data and for modelling bulk fluid properties. Chem Geol 194: 3-23
Bodnar RJ (1993) Revised equation and table for determining the freezing point depression of H2O-NaCl solutions. Geochim Cosmochim Acta 57: 683-684
Borisenko AS (1977) Determination of salt composition of the solutions fluid inclusions in minerals using cryometry. Geol Geoph 8: 16-27
Brown PhE (1989) FLINCOR; a microcomputer program for the reduction and investigation of fluid-inclusion data. Amer Mineral 74: 1390-1393
Burke EAJ (2001) Raman microspectrometry of fluid inclusions. Lithos 55: 139-158
Cathelineau M (1988) Cation site occupancy in chlorites and illites as a function of temperature. Clay Miner 23: 471-485
Diamond LW (1994) Introduction to phase relations of CO2-H2O fluid inclusions. In: De Vivo B, Frezzotti ML (eds.): Fluid inclusions in minerals: methods and applications: 131-158. Pontignano - Siena
Duan Z, Möller RN, Weare JH (1996) A general equation of state for supercritical fluid mixtures and molecular dynamics simulation of mixture PVTX properties. Geochim Cosmochim Acta 60: 1209-1216
Ďurišová J (1990) Charakteristika nerostotvorného prostředí na vybraných lokalitách Jeseníků na základě studia fluidních inkluzí. Sbor Geol Věd, lož geol mineral 29: 167-186
Flattery Y (2005) Fluids in metapelitic granulites and Bulai granitoids of the Messina area, Central Zone of the Limpopo Belt, South Africa. MS, unpubl. Ph.D. thesis, University of Johannesburg
Fojt B, Dolníček Z, Hoffman V, Škoda R, Trdlička Z, Zeman J (2007a) Paragenetická charakteristika ložisek Zn-Pb rud v širším okolí Horního Města u Rýmařova (Nízký Jeseník). Acta Mus Moraviae, Sci geol 92: 3-57
Fojt B, Dolníček Z, Nepejchal M (2012) Zlato v křemenných žilách lokalit Hláska a Vysoká hora - severní část revíru Andělská Hora. Acta Mus Moraviae, Sci geol 97: 47-67
Fojt B, Hladíková J, Kalenda F (2001) Zlaté Hory ve Slezsku - největší rudní revír v Jeseníkách. Část 2: C. Geologie D. Mineralogie E. Geochemie stabilních izotopů. Acta Mus Moraviae, Sci geol 86: 3-58
Fojt B, Vavrošová-Konečná J, Dolníček Z (2007b) Stručná charakteristika železnorudného výskytu Skály u Rýmařova, Nízký Jeseník. Čas Slez Muz Opava (A) 56: 1-22
Holloway JR (1981) Compositions and volumes of supercritical fluids in the earth‘s crust. In: Hollister LS, Crawford ML (eds.): MAC Short Course in Fluid Inclusions, Vol. 6: 13-38. Mineralogical Association of Canada
Holloway JR (1984) Graphite-CH4-H2O-CO2 equilibria at low-grade metamorphic conditions. Geology 12: 455-458
Hurai V, Kihle J, Kotulová J, Marko F, Świerczewska A (2002) Origin of methane in quartz crystals from the Tertiary accretionary wedge and fore-arc basin of the Western Carpathians. Appl Geoch 17: 1259-1271
Huraiová M, Hurai V, Slobodník M (2002) Základy štúdia fluidných inklúzií v mineráloch. MU Brno a UK Bratislava
Cháb J, Fediuková E, Fišera M, Novotný P, Opletal M (1990) Variská orogeneze v sileziku. Sbor Geol Věd, Ložisk Geol Mineral 29: 9-40
Jowett EC (1991) Fitting iron and magnesium into the hydrothermal chlorite geothermometer. GAC/MAC/SEG Joint Annual Meeting (Toronto, May 27-29, 1991), Program with Abstracts 16: A62. Toronto
Kleinrahm R, Wagner W (1986) Measurement and correlation of the equilibrium liquid and vapour densities and the vapour pressure along the coexistence curve of methane. J Chem Thermodyn 18: 739-760
Konupčík M (1983) Zpráva o ukončeném vyhledávacím průzkumu Cu-rud na ložisku Zlaté Hory-jih mezi 3.-5. patrem. Sbor GPO 27: 75-85
Melka K (1965) Návrh na klasifikaci chloritových minerálů. Věst Ústř Úst Geol 40: 23-27
Mücke A, Fojt B, Dolníček Z (2010) Petrography, mineralogy, geochemistry and genetic aspects of the Lahn-Dill type deposit of Malý Dĕd (= Leiterberg) in the Devonian Vrbno Group (Silesicum), Czech Republic. Acta Mus Moraviae, Sci geol 95: 95-129
Mullis J (1987) Fluid inclusion studies during very low-grade metamorphism. In: Frey M (ed.): Low temperature metamorphism. Blackie, Glasgow: 162-199
Nepejchal M, Dolníček Z, Fojt B, Mičudová K (2013) Zlato z historického důlního díla Anna - Zlaté Hory v Jeseníkách. Acta Mus Moraviae, Sci geol 98: 25-37
Nepejchal M, Dolníček Z, Fojt B, Mičudová K (2014) Zlato křemenných žil „Zelené jámy“ - Zlaté Hory v Jeseníkách. Acta Mus Moraviae, Sci geol 99: 37-48
Novotný P, Zimák J (2008) Mineralizace alpského typu se sulfidy, W-rutilem a pevným uhlovodíkem z Olověné štoly ve zlatohorském rudním revíru. Bull Min-petr odd Nár muz, 16: 68-71
Pertold Z (1972) Structural history of the Zlaté Hory ore district, Czechoslovakia. Acta Univ Carol Geol 3: 219-236
Rajlich P (1974) Variské polyfázové vrásnění a metamorfóza v Hrubém a Nízkém Jeseníku. Práce odb přír věd Vlast úst Olom 28: 2-47
Ramsay JG (1980) The crack-seal mechanism of rock deformation. Nature 284: 135-139
Souček J (1978) Metamorphic zones of the Vrbno and Rejvíz series at Hrubý Jeseník Mts. Tsch. Min Petr Mitt 25: 195-217
Thiéry R, van den Kerkhof AM, Dubessy J (1994) VX properties of CH4-CO2 and CO2-N2 fluid inclusions: modelling for T <31°C and P <400 bars. Eur J Mineral 6: 753-771
Tissot BP, Welte DH (1984) Petroleum formation and occurrence. Springer Verlag, Berlin, New York
Vityk MO, Bodnar RJ (1995) Textural evolution of synthetic fluid inclusions in quartz during reequilibration, with applications to tectonic reconstruction. Contrib Mineral Petrol 121: 309-323
Zimák J, Losos Z, Novotný P, Dobeš P, Hladíková J (2002) Study of vein carbonates and notes to the genesis of the hydrothermal mineralization in the Moravo-Silesian Culm. J Czech Geol Soc 47: 111-122