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100 O. LEXA ET AL.Hasalova´, P., Sˇtı´pska´, P., Powell, R., Schulmann, K., Janousˇek,V. & Lexa, O., 2008b. Transforming mylonitic metagranite byopen-system interactions during melt flow. Journal of MetamorphicGeology, 26, 55–80.Heteńyi, G., Cattin, R., Brunet, F. et al., 2007. Density distributionof the India plate beneath the Tibetan plateau:geophysical and petrological constraints on the kinetics oflower-crustal eclogitization. Earth and Planetary Science Letters,264, 226–244.Holland, T.J.B. & Powell, R., 1998. An internally consistentthermodynamic data set for phases of petrological interest.Journal of Metamorphic Geology, 16, 309–343.Holland, T.J.B. & Powell, R., 2003. Activity–composition relationsfor phases in petrological calculations: an asymmetricmulticomponent formulation. Contributions to Mineralogy andPetrology, 145, 492–501.Holub, F.V., 1997. Ultrapotassic plutonic rocks of the durbachiteseries in the Bohemian Massif: petrology, geochemistryand petrogenetic interpretation. Journal of Geological Sciences-EconomicGeology, Mineralogy, 31, 5–26.Holub, F.V., Cocherie, A. & Rossi, P., 1997. Radiometric datingof granitic rocks from the Central Bohemian Plutonic Complex(Czech Republic): constraints on the chronology ofthermal and tectonic events along the Moldanubian–Barrandianboundary. Comptes Rendus de lÕAcademie des SciencesSeries IIA Earth and Planetary Science, 325, 19–26.Hrubcova´, P., S´roda, P., Sˇpičák, A. et al., 2005. Crustal anduppermost mantle structure of the Bohemian Massif based onCELEBRATION 2000 data. Journal of Geophysical Research-Solid Earth, 110(B11), B11305.Jakesˇ, P., 1997. Melting in high-P region – case of Bohemiangranulites. Acta Universitatis Carolinae Geologica, 41, 113–125.Janousˇek, V., 2006. 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“It strikes me that all our knowl
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Contentsviii4.7 Schulmann, Konopás
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Dedicated to my wife Markéta, daug
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Foreword 2First topic “Quantitati
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Foreword 4source and freely availab
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1. Quantitative analysis of deforma
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Chapter 2Mechanisms of lower crusta
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2. Mechanisms of lower crustal flow
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Chapter 3Quantitative analyses ofme
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3. Quantitative analyses of metamor
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Bibliography 42Culshaw, N., Beaumon
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Bibliography 44sources and trigger
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Bibliography 46Skrzypek, E., Štíp
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DTD 5ARTICLE IN PRESSJournal of Str
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Table 1Statistical values of the qu
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Table 2Summary of parameters derive
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J. metamorphic Geol., 2008, 26, 273
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EXHUMATION IN LARGE HOT OROGEN 275m
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Probabi l irequencyProbabi l ireque
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EXHUMATION IN LARGE HOT OROGEN 279y
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EXHUMATION IN LARGE HOT OROGEN 281N
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EXHUMATION IN LARGE HOT OROGEN 283w
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EXHUMATION IN LARGE HOT OROGEN 285a
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EXHUMATION IN LARGE HOT OROGEN 287w
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EXHUMATION IN LARGE HOT OROGEN 289T
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TEXTURES OF NATURALLY DEFORMED META
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1.0--0.9__Mg~(Mg2++Fe2+)9 Core of p
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ClickHereforFullArticleJOURNAL OF G
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B10406SCHULMANN ET AL.: RHEOLOGY OF
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ORIGIN OF FELSIC MIGMATITES 31Ó 20
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ORIGIN OF FELSIC MIGMATITES 33durin
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ORIGIN OF FELSIC MIGMATITES 35(a)Ty
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ORIGIN OF FELSIC MIGMATITES 37(a)Pl
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ORIGIN OF FELSIC MIGMATITES 39Grain
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ORIGIN OF FELSIC MIGMATITES 41(a)(b
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ORIGIN OF FELSIC MIGMATITES 43(a)(b
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ORIGIN OF FELSIC MIGMATITES 45Fig.
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ORIGIN OF FELSIC MIGMATITES 47produ
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ORIGIN OF FELSIC MIGMATITES 49stron
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ORIGIN OF FELSIC MIGMATITES 51Cmı
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ORIGIN OF FELSIC MIGMATITES 53easte
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130 J. FRANĚK ET AL.Southern Bohem
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