Partial melting of two amphibolites: contrasting experimental results under fluid-absent conditions (original) (raw)
Binns RA (1968) Hydrothermal investigations of the amphibolitegranulite facies boundary. Aust Geol Soc Spec Pub 2:341–344 Google Scholar
Bottinga Y, Richet P, Weill DF (1983) Calculations of the density and thermal expansion of silicate liquids. Bull Mineral 106:129–138 Google Scholar
Brown GC, Fyfe WS (1970) The production of granitic melts during ultrametamorphism. Contrib Mineral Petrol 28:310–318 Article Google Scholar
Burnham CW (1967) Hydrothermal fluids at the magmatic stage. In: Barnes HL (ed) Geochemistry of hydrothermal ore deposits. Holt, Reinhard and Winston, New York, pp 38–76 Google Scholar
Burnham CW (1979) The importance of volatile constitutents. In: Yoder HS Jr (ed) The evolution of the igneous rocks: Fiftieth Anniversary Perspectives. Princeton University Press, Princeton, pp 439–486 Google Scholar
Burnham CW, Davis NF (1974) The role of H2O in silicate melts: II. Thermodynamics and phase relations in the system NaAl−Si3O8−H2O to 10 kilobars, 700° C to 1100° C. Am J Sci 279:902–940 Google Scholar
Bussel MA (1983) Crystallization history of granophyric intrusives from the Peruvian Coastal Batholith. Lithos 16:169–184 Google Scholar
Cartwright I, Barnicoat AC (1987) Petrology of Scourian supracrustal rocks and orthogneisses from Stoe, N.W. Scotland: Implications for the geological evolution of the Lewisian Complex. In: Park RG, Tarney J (eds) Evolution of the Lewisian and comparable Precambrian High Grade Terrains. Geol Soc Spec Pub 27, pp 93–107
Clemens JD (1984) Water contents of intermediate to silicic magmas. Lithos 11:213–287 Google Scholar
Clemens JD, Vielzeuf D (1987) Constraints on melting and magma production in the crust. Earth Planet Sci Lett 86:287–306 Article Google Scholar
Cohen LH, Ito K, Kennedy GC (1967) Melting and phase relationships in an anhydrous basalt to 40 kilobars. Am J Sci 265:475–518 Google Scholar
Eggler DH (1972) Water-saturated and undersaturated melting reactions in a Paricutin andesite and an estimate of water content in the natural magma. Contrib Mineral Petrol 34:261–271 Article Google Scholar
Eggler DH (1973) Principle of melting of hydrous phases in silicate melt. Carnegie Inst Washington Yearb 72:491–495 Google Scholar
Ellis DJ, Thompson AB (1986) Subsolidus and partial melting reactions in the quartz-excess CaO+MgO+Al2O3+SiO2+H2O system under water-excess and water-deficient conditions to 10 Kb: some implications for the origin of peraluminous melts from mafic rocks. J Petrol 271:91–121 Google Scholar
England PC, Thompson AB (1986) Some thermal and tectonic models for crustal melting in continental collision zones. In: Coward MP, Reis AC (eds) Collision tectnics. Geol Soc Spec Pub 19, pp 83–94
Fyfe WS (1973) The granulite facies, partial melting and the Archean crust. Philos Trans R Soc London Ser A 273:457–461 Google Scholar
Gilbert MC, Helz RT, Popp RK, Spear FS (1982) Experimental studies of amphibole stability: End-member relations. In: Veblen DR, Ribbe PH (eds) Amphiboles: petrology and experimental phase relations. Reviews in Mineralogy Vol 9B, Mineralogical Society of America, pp 231–267
Grant JA (1985) Phase equilibria in partial melting of pelitic rocks. In: Ashworth JR (ed) Migmatites. Blackie and Son, Glasgow, pp 86–144 Google Scholar
Green DH, Ringwood AE (1967) The genesis of basalt magmas. Contrib Mineral Petrol 15:103–190 Article Google Scholar
Green T (1972) Crystallization of calc-alkaline andesite under controlled high-pressure hydrous conditions. Contrib Mineral Petrol 34:150–166 Google Scholar
Hamilton W (1988) Plate tectonics and island arcs. Geol Soc Am Bull 100:1503–1527 Google Scholar
Harley SL (1985) Garnet-orthopyroxene bearing granulites from Enderby Land, Antarctica: metamorphic pressure-temperaturetime evolution of the Archean Napier Complex. J Petrol 26:819–856 Google Scholar
Harley SL (1989) The origin of granulites: A metamorphic perspective. Geol Mag 126:215–247 Google Scholar
Harris NJW, Inger S, Ronghua X (1989) Early Creatceous plutonism in the Lhasa Terrane, Tibet. Terra Abstracts, EUG V. V1, No. 1, 175
Helz RT (1976) Phase relations of basalts in their melting range at PH 2 O=5Kb-Part II. Melt compostions. J Petrol 17:139–193 Google Scholar
Hill REJ, Boettcher AL (1970) Water in the earth's mantle: Melting curves of basalt-water and basalt water-carbon dioixide. Science 70:980–982 Google Scholar
Holloway JR (1973) The system pargasite-H2O−CO2: a model for the melting of a hydrous mineral with a mixed-volatile fluid: I. Experimental results to 8 Kb. Geochim Cosmochim Acta 37:651–666 Article Google Scholar
Holloway JR, Burnham CW (1972) Melting relations of basalt with equilibrium water pressure less than total pressure. J Petrol 13:1–29 Google Scholar
Kerrick DM (1972) Experimental determination of muscovite+quartz stability with PH 2 O<Ptotal. Am J Sci 272:946–1121 Google Scholar
Khitarov NI, Kadik AA, Lebedev YeB (1968) Solubility of water in a basalt melt. Translation from Geokhimiya 7:763–771 Google Scholar
Laird J, Albee AL (1981) High-pressure metamorphism in mafic schist from northern Vermont. Am J Sci 281:97–126 Google Scholar
Lambert IB, Robertson JK, Wyllie PJ (1969) Melting reactions in the system KAlSi3O8−SiO2−H2O to 18.5 kilobars. Am J Sci 267:609–626 Google Scholar
Leake BE (1978) Nomenclature of amphiboles. Can Mineral 16:501–520 Google Scholar
Le Breton N, Thompson AB (1988) Fluid-absent (dehydration) melting of biotite in metapelites in the early stages of crustal anatexis. Contrib Mineral Petrol 99:226–237 Article Google Scholar
Maaloe S, Wyllie PJ (1975) Water content of a granitic magma deduced from the crystallization sequence determined experimentally with water-undersaturated conditions. Contrib Mineral Petrol 52:175–191 Google Scholar
Mehnert KR (1968) Migmatites and the Origin of Granitic Rocks. Elsevier, Amsterdam Google Scholar
Merrill RB, Wyllie PJ (1975) Kaersutite and Kaersutite Ecologite from Kakanui, New Zealand: Water-excess and water-deficient melting to 30 kilobars. Geol Soc Am Bull 86:555–570 Article Google Scholar
Millhollen GL, Wyllie PJ (1974) Melting relations of brown-hornblende mylonite from St. Paul's rocks under water-saturated and water-undersaturated conditions to 30 kilobars. J Geol 82:589–606 Google Scholar
Percival JA (1983) High-grade metamorphism in the Chapleau-Foleget area, Ontario. Am Mineral 68:667–686 Google Scholar
Powell RI (1983) Processes in granulite-facies metamorphism. In: Atherton MP, Gribble CD (eds) Migmatites, Melting and Metamorphism. Shiva, Nantwich, pp 127–139 Google Scholar
Rapp RP, Watson WB (1988) Partial melting of amphibolite/eclogite and the origin of tonalite-trondhjemitic magmas (abstract). Am Geophys Union Trans (EOS) 69:521 Google Scholar
Robertson JK, Wyllie PJ (1971) Rock-water systems, with special reference to the water-deficient region. Am J Sci 27:252–277 Google Scholar
Robie RA, Bethke PM, Toulmen MS, Edwards JL (1966) X-Ray crystallographic data, densities, and molar volume of minerals. In: Clark SP (ed) Handbook of Physical Constants. Geol Soc Am Mem 97, pp 27–73
Rudnick RL, Taylor SR (1986) Geochemical constraints on the origin of Archean tonalitic-trondhjemitic rocks and implications for Lower Crustal composition. From: Dawson JB, Carswell DA, Hall J, Wedepohl KH (eds) The Nature of the Lower Crust. Geol Soc Spec Publ No 24, pp 179–191
Rutter MJ, Wyllie PJ (1988) Melting of vapour-absent tonalite at 10 Kb to simulate dehydration melting in the deep-crust. Nature 331:159–160 Article Google Scholar
Schmid R (1967) Zur Petrographie und Struktur der Zone Ivrea-Verbano zwischen Valle d'Ossola und Val Grande (prov. Novara, Italien). Schweiz Mineral Petrogr Mitt 47:935–1117 Google Scholar
Schmid R, Wood BJ (1976) Phase relationships in the granulitic metapelites from the Ivrea-Verbano Zone. (Northern Italy). Contrib Mineral Petrol 54:225–279 Article Google Scholar
Schmid R, Dietrich V, Komatsu M, Newton RC, Ragettli R, Sushmer T, Tuchschmid M, Vogler R (1988) Metamorphic evolution and origin of the Ivrea Zone. Italy-US workshop on the Nature of the Lower Crust. Uni degli studi di Milano, Supp. 65a:60–61
Sen SK, Ray S (1971) Hornblende-pyroxene granulites verses pyroxene granulites: A study from the type charnockite area. Neues Jahrb Mineral Abh 115:291–314 Google Scholar
Sills JD, Tarney J (1984) Petrogenesis and tectonic significance of amphibolites interlayered with the metasedimentary gneisses of the Ivrea Zone, Southern Alps, Northwest Italy. Tectonophysics 107:187–208 Article Google Scholar
Stewart D (1967) Four-Phase curve in the system CaAl2Si2O8−SiO2−H2O between 1 and 10 kilobars. Schweiz Mineral Petrogr Mitt 47:35–59 Google Scholar
Storre B (1972) Dry melting of muscovite+quartz in the range Ps=7 Kb to Ps=20 Kb. Contrib Mineral Petrol 37:87–89 Article Google Scholar
Sykes ML (1979) Hydrous mineral stability as a function of fluid composition: a biotite melting experiment and a model for melting curves. M Sc Thesis, Arizona State University, Tempe, Arizona
Thompson AB (1982) Dehydration melting of pelitic rocks and generation of H2O-undersaturated granitic liquids. Am J Sci 282:1567–1595 Google Scholar
Thompson AB (1988) Dehydration melting of crustal rocks. Rend Soc Ital Mineral Petrol 42:41–60 Google Scholar
Thompson JB Jr (1982) An introduction to the mineralogy and petrology of the biopyriboles. In: Veblen DR (ed) Amphiboles and other hydrous pyriboles-mineralogy. Reviews in Mineralogy, Vol 9A. Mineralogical Society of America, pp 141–188
Thompson PH (1989) Moderate overthickening of thinned sialic crust and the origin of granitic magmatism and regional metamorphism in low P-high T terranes. Geology 17:520–523 Article Google Scholar
Tracy RJ (1978) High grade metamorphic reactions and partial melting in pelitic schist, West-central Massachusetts. Am J Sci 278:150–178 Google Scholar
Tuttle OF, Bowen NL (1958) Origin of granite in the ligh of experimental mental studies in the system NaAlSi3O8−KAlSi3O8−SiO2−H2O. Geol Soc Am Mem 74
Vielzeuf D, Holloway JR (1988) Experimental determination of the fluid-absent melting relations in the pelitic system: Consequences for crustal differentiation. Contrib Mineral Petrol 98:257–276 Article Google Scholar
Waters DJ (1988) Partial melting and the formation of granulite facies assemblages in Namaqualand, South Africa. J Metamorph Geol 6:387–404 Google Scholar
Wickham SM (1987) The segregation and emplacement of granitic magmas-some examples from the Pyrenees. J Geol Soc London 144:281–297 Google Scholar
Yoder HS Jr, Tilley CE (1962) Origin of basalt magmas: an experimental study of natural and synthetic rock systems. J Petrol 3:342–532 Google Scholar
Yoder HS Jr, Kushiro I (1969) Melting of a hydrous phase: plogopite. Am J Sci 267-A:558–582 Google Scholar
Zingg A (1980) Regional metamorphism in the Ivrea Zone (Southern Alps, N. Italy): field and microscopic investigations. Schweiz Mineral Petrogr Mitt 60:153–179 Google Scholar