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References
Abbott, R.N. and Clarke, D.B. (1979) Hypothetical liquidus relationships in the subsystem Al2O3–FeO–MgO projected from quartz, alkali feldspar and plagioclase for a (H2O) ≤ 1. Can. Miner. 17, 549–560.
Ashworth, J.R. (1976) Petrogenesis of migmatites in the Huntly-Portsoy area, north-east Scotland. Mineral Mag. 40, 661–682.
Ashworth, J.R. (1979) Textural and mineralogical evolution of migmatites. In The Caledonides of the British Isles—Reviewed, eds. Harris, A.L., Holland, C.H. and Leake, B.E., Spec. Publ. Geol Soc. Lond. 8, 357–361.
Boettcher, A.L. (1970) The system Ca0–Al2O3–SiO2–H2O at high pressures and temperatures. J. Petrol 11, 337–379.
Boettcher, A.L. and Wyllie, P.J. (1968) Jadeite stability measured in the presence of silicate liquids in the system NaAlSiO4–SiO2–H2O. Geochim. Cosmochim. Acta 32, 999–1012.
Bowen, N.L. (1913) The melting phenomena of the plagioclase feldspars. Am. J. Sci. 35, 577–599.
Brady, J.H. and Yund, R.A. (1983) Interdiffusion of K and Na in alkali feldspars: Homogenization experiments. Am. Miner. 68, 106–111.
Brown, M. (1983) The petrogenesis of some migmatites from the Presqu’ile de Rhuys, southern Brittany, France. In Migmatites, Melting and Metamorphism, eds. Atherton, M.P. and Gribble, C.D., Shiva, Nantwich, 174–200.
Burnham, C.W. (1981) The nature of multicomponent aluminosilicate melts. Phys. Chem. Earth 13 +14, 197–226.
Büsch, W., Schneider, G. and Mehnert, K.R. (1974) Initial melting at grain boundaries part II: Melting in rocks of granodioritic, quartzdioritic and tonalitic composition. Neues Jb. Miner. Mh. 345–370.
Chatterjee, N.D. (1974) Crystal-liquid-vapour equilibria involving paragonite in the system NaAlSi3O8–Al2O3–Si02–H2O. Indian J. Earth Sci. 1, 3–11.
ChristofTersen, R., Yund, R.A. and Tullis, J. (1983) Inter–diffusion of K and Na in alkali feldspars: diffusion couple experiments. Am. Miner. 68, 1126–1133.
Eberhard, E. (1967) Zur Synthese der Plagioklase. Schweiz. Miner. Petrogr. Mitt. 47, 385–398.
Eberhard, E. (1967) Zur Synthese der Plagioklase. Schweiz. Miner. Petrogr. Mitt. 47, 385–398.
Giletti, B.J., Semet, M.P. and Yund, R.A. (1978) Studies in diffusion–Ill. Oxygen in feldspars: anion microprobe determination. Geochim. Cosmochim. Acta 42, 45–57.
Goldsmith, J.R. (1982) Plagioclase stability at elevated temperatures and water pressures. Am. Miner. 67, 653–675.
Grove, T.L, Ferry, J.M. and Spear, F.S. (1983) Phase transitions and decomposition relations in calcic plagioclase. Am. Miner. 68, 41–59.
Gupta, L.N. and Johannes, W. (1982) Petrogenesis of a stromatic migmatite (Nelaug, Southern Norway). J. Petrol 23, 548–567.
Harris, N.B.W. (1974) Some migmatite types and their origins, from the Barousse Massif, Central Pyrenees. Geol Mag. 111, 319–328.
Henkes, L. and Johannes, W. (1981) The petrology of a migmatite (Arvika, Varmland, western Sweden). Neues Jb. Miner. Abh. 141, 113–133.
Hoschek, G. (1976) Melting relations of biotite + plagioclase + quartz. Neues Jb. Miner. Mh. 79–83.
Huang, W.L. and Wyllie, P.J. (1974) Melting relations of muscovite with quartz and sanidine in the K2O–Al2O3–SiO2–H2O system to 30 kilobars and an outline of paragonite melting relations. Am. J. Sci. 274, 378–395.
Huang, W.L. and Wyllie, P.J. (1975) Melting reactions in the system NaAlSi3O8–KAlSi3O8–SiO2 to 35 kilobars, dry and with excess water. J. Geol. 83, 737–748.
Johannes, W. (1978) Melting of plagioclase in the system Ab–An–H2O and Qz–Ab–An–H2O at PH2O = 5 kbars, an equilibrium problem. Contrib. Miner. Petrol. 66, 295–303.
Johannes, W. (1979) Ternary feldspars: Kinetics and possible equilibria at 800 °C. Contrib. Miner. Petrol. 68, 221–230.
Johannes, W. (1980) Metastable melting in the granite system Qz–0r–Ab–An–H20. Contrib. Miner. Petrol. 72, 73–80.
Johannes, W. (1983a) Metastable melting in the granite and related systems. In Migmatites, Melting and Metamorphism, eds. Atherton, M.P. and Gribble, C.D., Shiva, Nantwich, 27–36.
Johannes, W. (1983ft) On the origin of stromatic (layered) migmatites. In Migmatites, Melting and Metamorphism, eds. Atherton, M.P. and Gribble, C.D., Shiva, Nantwich, 234–248.
Johannes, W. (1984) Beginning of melting in the granite system Qz–0r–Ab–An–H20. Contrib. Miner. Petrol. 86, 264–273.
Johannes, W. and Gupta, L.N. (1982) Origin and evolution of a migmatite. Contrib. Miner. Petrol. 79, 114–123.
Jurewicz, S.R. and Watson, E.B. (1984) Distribution of partial melt in a felsic system: the importance of surface energy. Contrib. Miner. Petrol. 85, 25–29.
Kenah, C. and Hollister, L.S. (1983) Anatexis in the Central Gneiss Complex, British Columbia. In Migmatites, Melting and Metamorphism, eds. Atherton, M.P. and Gribble, C.D., Shiva, Nantwich, 142–162.
Kilinc, I.A. (1979) Melting relations in the quartz diorite–H20 and quartz diorite–H2O–CO2 systems. Neues Jb. Miner. Mh. 62–72.
Luth, W.C., Jahns, R.H. and Tuttle, O.F. (1964) The granite system at pressures of 4 to 10 kilobars. J. Geophys. Res. 69, 759–773.
MaalØe, S. and Wyllie, P.J. (1975) Water content of a granite magma deduced from the sequence of crystallisation determined experimentally with water-undersaturated conditions. Contrib. Miner. Petrol. 52, 175–191.
Manning, D.A.C. (1981) The effect of fluorine on liquidus phase relationships in the system Qz–Ab–Or with excess water at 1 kb. Contrib. Miner. Petrol. 76, 206–215.
Matthews A., Goldsmith, J.R. and Clayton, R.N. (1983) On the mechanisms and kinetics of oxygen isotope exchange in quartz and feldspars at elevated temperatures and pressures. Geol. Soc. Am. Bull. 94, 396–412.
McLellan, E.L. (1983) Contrasting textures in metamorphic and anatectic migmatites: anexample from the Scottish Caledonides. J. Metamorphic Geol. 1, 241–262.
Mehnert, K.R. (1951) Zur Frage des Stoffhaushalts anatektischer Gesteine. Neues Jb. Miner. Abh. 82, 155–198.
Mehnert, K.R. (1968) Migmatites and the Origin of Granitic Rocks. Elsevier, Amsterdam. Mehnert, K.R. and Busch, W. (1982) The initial stage of migmatite formation. Neues Jb. Miner. Abh. 145, 211–238.
Mehnert, K.R. Busch, W. and Schneider, G. (1973) Initial melting at grain boundaries of quartz and feldspars in gneisses and granulites. Neues Jb. Miner. Mh. 165–183.
Merrill, R.B., Robertson, J.K. and Wyllie, P.J. (1970) Melting reactions in the system NaAlSi3Os– KAlSi3O8–SiO2–H2O to 20 kilobars compared with results for other feldspar–quartz–H2O and rock–H2O systems. J. Geol. 78, 558–569.
Misch, P. (1968) Plagioclase compositions and non-anatectic origin of migmatitic gneisses in Northern Cascade Mountains of Washington State. Contrib. Miner. Petrol. 17, 1–70.
Muehlenbachs, K. and Kushiro, I. (1974) Oxygen isotope exchange and equilibrium of silicates with CO2 or O2. Yb. Carnegie Instn Wash. 73, 232–236.
Naney, M.T. (1983) Phase equilibria of rock-forming ferromagnesian silicates in granitic systems. Am. J. Sci. 283, 993–1033.
Nord, G.L., Heuer, A.H. and Lally, J.S. (1974) Transmission electron microscopy of substructures in Stillwater bytownites. In The Feldspars, eds. MacKenzie, W.S. and Zussman, J., Manchester University Press, Manchester, 522–535.
Olsen, S.N. (1984) Mass-balance and mass-transfer in migmatites from the Colorado Front Range. Contrib. Miner. Petrol. 85, 30–44.
Orville, P.M. (1963) Alkali ion exchange between vapor and feldspar phases. Am. J. Sci. 261, 201–237.
Orville, P.M. (1972) Plagioclase cation exchange equilibria with aqueous chloride solution: Results at 700 °C and 2000 bars in the presence of quartz. Am. J. Sci. 272, 234–272.
Pichavant, M. (1981) An experimental study of the effect of boron on a water saturated haplogranite at 1 kbar vapour pressure. Contrib. Miner. Petrol. 76, 430–439.
Piwinskii, A.J. (1967) The attainment of equilibrium in hydrothermal experiments with granitic rocks. Earth Planet. Sci. Lett. 2, 161–162.
Piwinskii, A.J. (1968) Experimental studies of igneous rock series: Central Sierra Nevada batholith, California. J. Geol. 76, 548–570.
Piwinskii, A.J. (1973) Experimental studies of granitoids from the Central and Southern Coast Ranges, California. Tschermaks Miner. Petrogr. Mitt. 20, 107–130.
Piwinskii, A.J. and Martin, R.F. (1970) An experimental study of equilibrium with granitic rocks at 10 kb. Contrib. Miner. Petrol. 29, 1–10.
Piwinskii, A.J. and Wyllie, P.J. (1968) Experimental studies of igneous rock series: a zoned pluton in the Wallowa batholith. Oregon. J. Geol. 76, 205–234.
Piwinskii, A.J. and Wyllie, P.J. (1970) Experimental studies of igneous rock series: ‘Felsic Body Suite’ from the Needle Point pluton, Wallowa batholith, Oregon. J. Geol. 78, 52–76.
Robertson, J.K. and Wyllie, P.J. (1971) Experimental studies on rocks from the Deboullie stock, northern Maine, including melting relations in the water-deficient environment. J. Geol. 79, 549–571.
Schairer, J.F. and Bowen, N.L. (1955) The system K2O–Al2O3–SiO2. Am. J. Sci. 253, 681–746.
Schairer, J.F. and Bowen, N.L. (1955) The system K2O–Al2O3–SiO2. Am. J. Sci. 253, 681–746.
Steiner, J.C., Jahns, R.H. and Luth, W.C. (1975) Crystallization of alkali feldspar and quartz in the haplogranite system NaAlSi3O8–KAlSi3O8–SiO2–H2O at 4kb. Geol. Soc. Am. Bull. 86, 83–98.
Stewart, D.B. (1967) Four phase curve in the system CaAl2–Si2O8–SiO2–H2O between 1 and 10 kilobars. Schweiz. Miner. Petrogr. Mitt. 47, 35–39.
Thompson, A.B. (1974) The instability of feldspar in metamorphism. In The Feldspars, eds. MacKenzie, W.S. and Zussman, J., Manchester University Press, Manchester, 645–672.
Thompson, A.B. and Algor, J.R. (1977) Model systems for anatexis of pelitic rocks I. Theory of melting reactions in the system KA1O2–NaA1O2–Al2O3–SiO2–H2O. Contrib. Miner. Petrol. 63, 247–269.
Thompson, A.B. and Tracy, R.J. (1979) Model systems for anatexis of pelitic rocks II. Facies series melting and reactions in the system CaO–KA1O2–NaA1O2–Al2O3–SiO2–H2O. Contrib. Miner. Petrol 70, 429–438.
Touret, J. (1981) Fluid inclusions in high grade metamorphic rocks. Min. Soc. Canada Short Course Handbook. 6, 182–208.
Tracy, R.J. (1978) High grade metamorphic reactions and partial melting in pelitic schist, West Central Massachusetts. Am. J. Sci. 278, 150–178.
Tsuchiyama, A. and Takahashi, E. (1983) Melting kinetics of a plagioclase feldspar. Contrib, Miner. Petrol 84, 345–354.
Tuttle, O.F. and Bowen, N.L. (1958) Origin of granite in the light of experimental studies in the system NaAlSi3O8–KAlSi3O8–SiO2–H2O. Geol Soc. Am. Mem. 74.
van der Molen, I. and Paterson, M.S. (1979) Experimental deformation of partially–melted granite. Contrib. Miner. Petrol 70, 299–318.
Viswanathan, K. (1972) Kationenaustausch an Plagioklasen. Contrib. Miner. Petrol 37, 277– 290.
von Platen, H. (1965) Kristallisation granitischer Schmelzen. Beitr. Miner. Petrologie 11, 334–381.
White, A. J.R. (1966) Genesis of migmatites from the Palmer region of South Australia. Chem. Geol 1, 165–200.
Whitney, J.A. (1975) The effects of pressure, temperature and Xll20 on phase assemblage in four synthetic rock compositions. J. Geol 83, 1–31.
Winkler, H.G.F. (1961) Die Genese von Graniten und Migmatiten auf Grund neuer Experimente. Geol Rdsch. 61, 347–364.
Winkler, H.G.F. (1976) Petrogenesis of Metamorphic Rocks. 4th edn., Springer–Verlag, New York etc.
Winkler, H.G.F. (1979) Petrogenesis of Metamorphic Rocks. 5th edn., Springer–Verlag, New York etc.
Winkler, H.G.F. and Breitbart, R. (1978) New aspects of granitic magmas. Neues Jb. Miner. Mh. 463–480.
Winkler, H.G.F. and Lindemann, W. (1972) The system Qz–0r–An–H2O within the granitic system Qz–0r–Ab–An–H2O. Application to granitic magma formation. Neues Jb Miner. Mh. 49–61.
Winkler, H.G.F. and von Platen, H. (1961) Experimentelle Gesteinsmetamorphose IV. Bildung anatektischer Schmelzen aus metamorphisierten Grauwacken. Geochim. Cosmochim. Acta 24, 48–69.
Winkler, H.G.F., Boese, M. and Marcopoulos, T. (1975) Low temperature granitic melts. Neues Jb. Miner. Mh. 245–268.
Wyllie, P.J. (1977) From crucibles through subduction to batholiths. In Energetics of Geological Processes, eds. Saxena, S.K. and Bhattacharji, S., Springer-Verlag, New York, etc., 389–433.
Wyllie, P.J. and Tuttle, O.F. (1964) Experimental investigation of silicate systems containing two volatile components. Part III. The effects of SO3, P2O5, HCl, and Li2O, in addition to H2O on the melting temperatures of albite and granite. Am. J. Sci. 262, 930–939.
Yoder, H.S. (1968) Albite–anorthite–quartz–water at 5 kb. Yb. Carnegie Instn Wash. 66, 477–478.
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Johannes, W. (1985). The significance of experimental studies for the formation of migmatites. In: Ashworth, J.R. (eds) Migmatites. Springer, Boston, MA. https://doi.org/10.1007/978-1-4613-2347-1_2
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