76 J. FRANĚK ET AL.Janousˇek, V., Vokurka, K. & Vra´na, S., 1997. Izotopy stroncia aneodymu v amfibolitech pestre´ skupiny moldanubika v okolı´Chýnova, Zpra´vy o Geologicky´ch Vy´zkumech, 1996, 80–81.Janousˇek, V., Bowes, D.R., Rogers, G., Farrow, C.M. & Jelinek,E., 2000. Modelling diverse processes in the petrogenesis <strong>of</strong> acomposite batholith: the Central Bohemian Pluton, CentralEuropean Hercynides. Journal <strong>of</strong> Petrology, 41, 511–543.Janousˇek, V., Finger, F., Roberts, M., Frýda, J., Pin, C. &Dolejs, D., 2004. Deciphering the petrogenesis <strong>of</strong> deeplyburied granites: whole-rock geochemical constraints on theorigin <strong>of</strong> largely undepleted felsic granulites from the MoldanubianZone <strong>of</strong> the Bohemian Massif. Transactions <strong>of</strong> theRoyal Society <strong>of</strong> Edinburgh-Earth Sciences, 95, 141–159.Kalt, A., Corfu, F. & Wijbrams, J., 1997. P-T-t Pfade variszicherHochtemperatur-Metamorphite des Bayerischen Waldes.European Journal <strong>of</strong> Mineralogy, 9, 19.Kalt, A., Berger, A. & Blumel, P., 1999. Metamorphic evolution<strong>of</strong> cordierite-bearing migmatites from the Bayerische Wald(Variscan Belt, Germany). Journal <strong>of</strong> Petrology, 40, 601–627.Kettner, R., 1918. Versuch einer stratigraphischen Einteilungdes bo¨ hmischen Algonkiums. Geologische Rundschau, 8, 169–188.Kodym, O., 1972. Multiphase deformation in the Blansky´ lesgranulite massif (South Bohemia). Krystalinikum, 9, 91–105.Konopa´sek, J. & Schulmann, K., 2005. Contrasting Early Carboniferousfield geotherms: evidence for accretion <strong>of</strong> a thickenedorogenic root <strong>and</strong> subducted Saxothuringian crust(Central European Variscides). Journal <strong>of</strong> the GeologicalSociety, 162, 463–470.Konopa´sek, J., Schulmann, K. & Johan, V., 2002. Eclogite-faciesmetamorphism at the eastern margin <strong>of</strong> the Bohemian Massif –subduction prior to continental underthrusting? EuropeanJournal <strong>of</strong> Mineralogy, 14, 701–713.Kosˇler, J., Kelley, S.P., Vance, D. & Svojtka, M., 1999. Independentdating <strong>of</strong> cooling <strong>and</strong> decompression <strong>of</strong> high-graderocks in the southern Bohemian Massif with Ar-Ar, Sm-Nd<strong>and</strong> U-Pb techniques. Journal <strong>of</strong> Conference Abstracts, 4, 39.Kossmat, F., 1927. Gliederung der varistischen Gebirgsbaues.Abh<strong>and</strong>lungen des Sa¨chsischen Geologischen L<strong>and</strong>esamts, 1,1–39.Kotkova´, J., 1993. Tectonometamorphic history <strong>of</strong> lower crustin Bohemian Massif: example <strong>of</strong> north Bohemian granulites.Special paper 2, Czech Geological Survey, Prague, 42 pp.Kotkova´, J., Kro¨ ner, A., Todt, W. & Fiala, J., 1996. Zircondating <strong>of</strong> north Bohemian granulites, Czech Republic: furtherevidence for the lower carboniferous high-pressure event in theBohemian Massif. Geologische Rundschau, 85, 154–161.Koyi, H.A., Milnes, A.G., Schmeling, H., Talbot, C.J., Juhlin,C. & Zeyen, H., 1999. Numerical models <strong>of</strong> ductile rebound <strong>of</strong>crustal roots beneath mountain belts. Geophysical JournalInternational, 139, 556–562.Kretz, R., 1983. Symbols for rock forming minerals. AmericanMineralogist, 68, 277–279.Kro¨ ner, A. & Willner, A.P., 1998. Time <strong>of</strong> formation <strong>and</strong> peak<strong>of</strong> Variscan HP-HT metamorphism <strong>of</strong> quartz-feldspar rocks inthe central Erzgebirge, Saxony, Germany. Contributions toMineralogy <strong>and</strong> Petrology, 132, 1–20.Kro¨ ner, A., Wendt, I., Liew, T.C. et al., 1988. U-Pb zircon <strong>and</strong>Sm-Nd model ages <strong>of</strong> high-grade Moldanubian metamsediments,Bohemian Massif, Czechoslovakia. Contributions toMineralogy <strong>and</strong> Petrology, 99, 257–266.Kro¨ ner, A., OÕBrien, P.J., Nemchin, A.A. & Pidgeon, R.T.,2000. Zircon ages for high pressure granulites from SouthBohemia, Czech Republic, <strong>and</strong> their connection to Carboniferoushigh temperature processes. Contributions to Mineralogy<strong>and</strong> Petrology, 138, 127–142.Law, R.D., Miller, E.L., Little, T.A. & Lee, J., 1994. Extensionalorigin <strong>of</strong> ductile fabrics in the Schist Belt, Central BrooksRange, Alaska-II. Micro<strong>structural</strong> <strong>and</strong> petr<strong>of</strong>abric evidence.Journal <strong>of</strong> Structural Geology, 16, 919–940.Lexa, O., Schulmann, K., Janousˇek, V., Sˇtı´pska´, P., Guy, A. &Racek, M., 2011. Heat sources <strong>and</strong> trigger mechanisms <strong>of</strong>exhumation <strong>of</strong> HP granulites in Variscan orogenic root.Journal <strong>of</strong> Metamorphic Geology, 29, 79–102.Linner, M., 1996. Metamorphism <strong>and</strong> partial melting <strong>of</strong> paragneisses<strong>of</strong> the Monotonous Group, SE Moldanubicum(Austria). Mineralogy <strong>and</strong> Petrology, 58, 215–234.Little, T.A., Miller, E.L., Lee, J. & Law, R.D., 1994. Extensionalorigin <strong>of</strong> ductile fabrics in the Schist Belt, Central BrooksRange, Alaska-I. Geologic <strong>and</strong> <strong>structural</strong> studies. Journal <strong>of</strong>Structural Geology, 16, 899–918.Medaris, G., Jelı´nek, E. & Mı´sarˇ, Z., 1995. Czech eclogites –terrane settings <strong>and</strong> implications for Variscan tectonic evolution<strong>of</strong> the Bohemian Massif. European Journal <strong>of</strong> Mineralogy,7, 7–28.Medaris, L.G., Beard, B.L. & Jelı´nek, E., 2006. Mantle-derived,UHP garnet pyroxenite <strong>and</strong> eclogite in the MoldanubianGfohl nappe, Bohemian Massif: a geochemical review, newP-T determinations, <strong>and</strong> tectonic interpretation. InternationalGeology Review, 48, 765–777.Novák, M., Cˇerny´, P., Kimbrough, D.L., Taylor, M.C. & Ercit,T.S., 1998. U-Pb ages <strong>of</strong> monazite from granitic pegmatites inthe Moldanubian Zone <strong>and</strong> their geological implications. ActaUniversitatis Carolinae-Geologica, 42, 309–310.OÕBrien, P.J., 1997. Garnet zoning <strong>and</strong> reaction textures inoverprinted eclogites, Bohemian Massif, European Variscides:a record <strong>of</strong> their thermal history during exhumation. Lithos,41, 119–133.OÕBrien, P.J., 2008. Challenges in high-pressure granulite metamorphismin the era <strong>of</strong> pseudosections: reaction textures,compositional zoning <strong>and</strong> tectonic interpretation with examplesfrom the Bohemian Massif. Journal <strong>of</strong> MetamorphicGeology, 26, 235–251.OÕBrien, P.J. & Carswell, D.A., 1993. Tectonometamorphicevolution <strong>of</strong> the Bohemian Massif – evidence from highpressuremetamorphic rocks. Geologische Rundschau, 82, 531–555.OÕBrien, P.J. & Ro¨ tzler, J., 2003. High-pressure granulites: formation,recovery <strong>of</strong> peak conditions <strong>and</strong> implications fortectonics. Journal <strong>of</strong> Metamorphic Geology, 21, 3–20.OÕBrien, P.J. & Seifert, K., 1992. P–T–t paths as records <strong>of</strong>orogenic processes: examples <strong>and</strong> problems from the crystalline<strong>of</strong> the Bohemian Massif. Terra Nostra, 1992, 58–59.OÕBrien, P.J. & Vra´na, S., 1995. Eclogites with a short-livedgranulite facies overprint in the Moldanubian zone, CzechRepublic: petrology, geochemistry <strong>and</strong> diffusion <strong>modelling</strong> <strong>of</strong>garnet zoning. Geologische Rundschau, 84, 473–488.OÕBrien, P.J., Kro¨ ner, A., Jaeckel, P., Hegner, E., Zelazniewicz,A. & Kryza, R., 1997. Petrological <strong>and</strong> isotopic studies onpalaeozoic high-pressure granulites, Gory Sowie Mts, PolishSudetes. Journal <strong>of</strong> Petrology, 38, 433–456.Oncken, O., 1998. Tectonic mass transfer prior to collision –subduction erosion versus accretion in the Mid-EuropeanVariscides. Acta Universitatis Carolinae-Geologica, 42, 313–314.Petrakakis, K., 1997. Evolution <strong>of</strong> Moldanubian rocks in Austria:review <strong>and</strong> synthesis. Journal <strong>of</strong> Metamorphic Geology,15, 203–222.Pitra, P., Burg, J.P. & Guiraud, M., 1999. Late Variscan strikesliptectonics between the Tepla´- Barr<strong>and</strong>ian <strong>and</strong> Moldanubianterranes (Czech Bohemian Massif): petro<strong>structural</strong>evidence. Journal <strong>of</strong> the Geological Society, 156, 1003–1020.Platt, J.P., 1993. Exhumation <strong>of</strong> high-pressure rocks: a review <strong>of</strong>concepts <strong>and</strong> processes. Terra Nova, 5, 119–133.Plomerová, J., Vecsey, L., Babuska, V., Granet, M. & Achauer,U., 2005. Passive seismic experiment Mosaic – a pilot study <strong>of</strong>mantle lithosphere anisotropy <strong>of</strong> the Bohemian Massif. StudiaGeophysica et Geodaetica, 49, 541–560.Prince, C.I., Kosˇler, J., Vance, D. & Gunther, D., 2000. Comparison<strong>of</strong> laser ablation ICP-MS <strong>and</strong> isotope dilution REE<strong>analyses</strong> – implications for Sm-Nd garnet geochronology.Chemical Geology, 168, 255–274.Racek, M., Sˇtı´pska´, P., Pitra, P., Schulmann, K. & Lexa, O.,2006. Metamorphic record <strong>of</strong> burial <strong>and</strong> exhumation <strong>of</strong>Ó 2010 Blackwell Publishing Ltd228
EXTRUSIONOFLOWERCRUSTINVARISCANOROGEN 77orogenic lower <strong>and</strong> middle crust: a new tectonothermal modelfor the Drosendorf window (Bohemian Massif, Austria).Mineralogy <strong>and</strong> Petrology, 86, 221–251.Rajlich, P., 1988. Tektonika sz. okraje strˇedocˇeske´ho plutonu avariska´ transprese v bloku bohemika. Sbornı´k Geologicky´chVeˇd, 43, 9–81.Rajlich, P., Synek, J., Sarbach, M. & Schulmann, K., 1986.Hercynian-thrust related shear zones <strong>and</strong> deformation <strong>of</strong> thevaried group on the contact <strong>of</strong> granulites Southern Moldanubian,Bohemian Massif. Geologische Rundschau, 75, 665–683.Rey, P., V<strong>and</strong>erhaeghe, O. & Teyssier, C., 2001. Gravitationalcollapse <strong>of</strong> the continental crust: definition, regimes <strong>and</strong>modes. Tectonophysics, 342, 435–449.Rey, P., Teyssier, C. & Whitney, D.L., 2009. The role <strong>of</strong> partialmelting <strong>and</strong> extensional strain rates in the development <strong>of</strong>metamorphic core complexes. Tectonophysics, 477, 135–144.Romer, R.L. & Ro¨ tzler, J., 2001. P-T-t evolution <strong>of</strong> ultrahightemperaturegranulites from the Saxon Granulite Massif,Germany. Part II: geochronology. Journal <strong>of</strong> Petrology, 42,2015–2032.Ro¨ tzler, J. & Romer, R.L., 2001. P-T-t evolution <strong>of</strong> ultrahightemperaturegranulites from the Saxon Granulite Massif,Germany. Part I: petrology. Journal <strong>of</strong> Petrology, 42, 1995–2013.Ru˚zˇek, B., Hrubcova´, P., Novotna´, M., Sˇpicˇa´k, A. & Karousova´,O., 2007. Inversion <strong>of</strong> travel times obtained during activeseismic refraction experiments CELEBRATION 2000, ALP2002 <strong>and</strong> SUDETES 2003. Studia Geophysica et Geodaetica,51, 141–164.Scheuvens, D., 1999. Die tektonometamorphe und kinematischeEntwicklung im Westteil der Zentralbohmischen Scherzone(Bohmische Masse): evidenz fur variscischen Kollaps. FrankfurterGeowissenschaftliche Arbeiten, 18, 273.Scheuvens, D., 2002. Metamorphism <strong>and</strong> microstructures alonga high-temperature metamorphic field gradient: the northeasternboundary <strong>of</strong> the Kralovsky hvozd unit (BohemianMassif, Czech Republic). Journal <strong>of</strong> Metamorphic Geology, 20,413–428.Scheuvens, D. & Zulauf, G., 2000. Exhumation, strain localization,<strong>and</strong> emplacement <strong>of</strong> granitoids along the western part<strong>of</strong> the Central Bohemian shear zone (Bohemian Massif).International Journal <strong>of</strong> Earth Sciences, 89, 617–630.Schma¨ dicke, E., Mezger, K., Cosca, M.A. & Okrusch, M., 1995.Variscan Sm-Nd <strong>and</strong> Ar-Ar ages <strong>of</strong> eclogite facies rocks fromthe Erzgebirge, Bohemian Massif. Journal <strong>of</strong> MetamorphicGeology, 13, 537–552.Schmidt, S. & Go¨ tze, H.J., 1999. Integration <strong>of</strong> data constraints<strong>and</strong> potential field <strong>modelling</strong> – an example from southernlower saxony, Germany. Physics <strong>and</strong> Chemistry <strong>of</strong> the Earth,Part A: Solid Earth <strong>and</strong> Geodesy, 24, 191–196.Schulmann, K., Kro¨ ner, A., Hegner, E. et al., 2005. Chronologicalconstraints on the pre-orogenic history, burial <strong>and</strong>exhumation <strong>of</strong> deep-seated rocks along the eastern margin <strong>of</strong>the Variscan Orogen, Bohemian Massif, Czech Republic.American Journal <strong>of</strong> Science, 305, 407–448.Schulmann, K., Lexa, O., Sˇtı´pska´, P. et al., 2008. Verticalextrusion <strong>and</strong> horizontal channel flow <strong>of</strong> orogenic lower crust:key exhumation mechanisms in large hot orogens? Journal <strong>of</strong>Metamorphic Geology, 26, 273–297.Schulmann, K., Konopa´sek, J., Janousˇek, V. et al., 2009. AnAndean type Palaeozoic convergence in the Bohemian Massif.Comptes Rendus – Geoscience, 341, 266–286.Schulzschmalschlager, M., 1984. U-Pb Studies <strong>of</strong> zircons <strong>and</strong>monazites <strong>of</strong> the anterior Bavarian Forest. Fortschritte derMineralogie, 62, 223.Siebel, W., Thiel, M. & Chen, F., 2006. Zircon geochronology<strong>and</strong> compositional record <strong>of</strong> late- to post-kinematic granitoidsassociated with the Bavarian Pfahl zone (Bavarian Forest).Mineralogy <strong>and</strong> Petrology, 86, 45–62.Sla´ma, J., Kosˇler, J., Condon, D.J. et al., 2008. Plesˇovice zircon – anew natural reference material for U-Pb <strong>and</strong> Hf isotopicmicroanalysis. Chemical Geology, 249, 1–35.Sokoutis, D., Burg, J.P., Bonini, M., Corti, G. & Cloetingh, S.,2005. Lithospheric-scale structures from the perspective <strong>of</strong>analogue continental collision. Tectonophysics, 406, 1–15.Sˇtı´pská, P. & Powell, R., 2005. Does ternary feldspar constrainthe metamorphic conditions <strong>of</strong> high-grade meta-igneousrocks? Evidence from orthopyroxene granulites, BohemianMassif Journal <strong>of</strong> Metamorphic Geology, 23, 627–647.Sˇtı´pská, P., Schulmann, K. & Kro¨ ner, A., 2004. Vertical extrusion<strong>and</strong> middle crustal spreading <strong>of</strong> omphacite granulite: a model<strong>of</strong> syn-convergent exhumation (Bohemian Massif, CzechRepublic). Journal <strong>of</strong> Metamorphic Geology, 22, 179–198.Suess, F.E., 1926. Intrusionstektonik und W<strong>and</strong>ertektonik imVariszichen Grundgebirge. Verlag Bornttrager, Berlin.Svojtka, M., Kosˇler, J. & Venera, Z., 2002. Dating granulitefaciesstructures <strong>and</strong> the exhumation <strong>of</strong> lower crust in theMoldanubian Zone <strong>of</strong> the Bohemian Massif. InternationalJournal <strong>of</strong> Earth Sciences, 91, 373–385.Tajčmanova´, L., Konopa´sek, J. & Schulmann, K., 2006. Thermalevolution <strong>of</strong> the orogenic lower crust during exhumationwithin a thickened Moldanubian root <strong>of</strong> the Variscan belt <strong>of</strong>Central Europe. Journal <strong>of</strong> Metamorphic Geology, 24, 119–134.Tajčmanova´, L., Konopa´sek, J. & Connolly, J.A.D., 2007. Diffusion-controlleddevelopment <strong>of</strong> silica-undersaturated domainsin felsic granulites <strong>of</strong> the Bohemian Massif (Variscanbelt <strong>of</strong> Central Europe). Contributions to Mineralogy <strong>and</strong>Petrology, 153, 237–250.Timmermann, H., Sˇteˇdra´, V., Gerdes, A., Noble, S.R., Parrish,R.R. & Do¨ rr, W., 2004. The problem <strong>of</strong> dating high-pressuremetamorphism: a U-Pb isotope <strong>and</strong> geochemical study oneclogites <strong>and</strong> related rocks <strong>of</strong> the Marianske Lazne Complex,Czech Republic. Journal <strong>of</strong> Petrology, 45, 1311–1338.Tomek, Cˇ., Dvorˇákova´, V. & Vra´na, S., 1997. Geologicalinterpretation <strong>of</strong> the 9HR <strong>and</strong> 503M seismic pr<strong>of</strong>iles in WesternBohemia. In: Journal <strong>of</strong> Geological Sciences, GeologicalModel <strong>of</strong> Western Bohemia Related to the KTB Borehole inGermany (eds Vra´na, S. & Sˇtědrá, V.), pp. 43–50. CzechGeological Survey, Prague.Van Breemen, O., Aftalion, M., Bowes, D.R. et al., 1982. Geochronologicalstudies <strong>of</strong> the Bohemian massif, Czechoslovakia,<strong>and</strong> their significance in the evolution <strong>of</strong> Central Europe.Transactions <strong>of</strong> the Royal Society <strong>of</strong> Edinburgh: Earth Sciences,73, 89–108.Verner, K., Zˇa´k, J., Nahodilova´, R. & Holub, F.V., 2008.Magmatic fabrics <strong>and</strong> emplacement <strong>of</strong> the cone-sheet-bearingKnı´zˇecı´ Stolec durbachitic pluton (Moldanubian Unit, BohemianMassif): implications for mid-crustal reworking <strong>of</strong>granulitic lower crust in the Central European Variscides.International Journal <strong>of</strong> Earth Sciences, 97, 19–33.Vrána, S., 1989. Perpotassic granulites from Southern Bohemia –a new rock-type derived from partial melting <strong>of</strong> crustal rocksunder upper mantle conditions. Contributions to Mineralogy<strong>and</strong> Petrology, 103, 510–522.Vrána, S., 1997. Geology <strong>and</strong> petrology <strong>of</strong> the Moldanubianzone. In: Geological Model <strong>of</strong> Western Bohemia (eds Vra´na, S.&Sˇteˇdrá, V.), pp. 109–113. Czech Geological Survey, Prague.Vrána, S. & Ba´rtek, J., 2005. Retrograde metamorphism in aregional shear zone <strong>and</strong> related chemical changes: The KapliceUnit <strong>of</strong> muscovite-biotite gneisses in the Moldanubian Zone<strong>of</strong> southern Bohemia, Czech Republic. Journal <strong>of</strong> the CzechGeological Society, 50, 43–57.Vrána, S. & Sˇra´mek, J., 1999. Geological interpretation <strong>of</strong>detailed gravity survey <strong>of</strong> the granulite complex in southernBohemia <strong>and</strong> its structure. Bulletine <strong>of</strong> Czech GeologicalSurvey, 74, 261–277.Vrána, S., Blu¨ mel, P. & Petrakakis, K., 1995. Moldanubianzone: metamorphic evolution. In: Pre-Permian Geology <strong>of</strong> theCentral <strong>and</strong> Western Europe (eds Dallmeyer, D., Franke, W. &Weber, K.), pp. 453–466. Springer-Verlag, Berlin.Warren, C.J., Beaumont, C. & Jamieson, R.A., 2008. Deepsubduction <strong>and</strong> rapid exhumation: role <strong>of</strong> crustal strength <strong>and</strong>strain weakening in continental subduction <strong>and</strong> ultrahighpressurerock exhumation. Tectonics, 27, TC6002.Ó 2010 Blackwell Publishing Ltd229
- Page 3:
“It strikes me that all our knowl
- Page 8 and 9:
Contentsviii4.7 Schulmann, Konopás
- Page 11:
Dedicated to my wife Markéta, daug
- Page 14 and 15:
Foreword 2First topic “Quantitati
- Page 16 and 17:
Foreword 4source and freely availab
- Page 18 and 19:
1. Quantitative analysis of deforma
- Page 20 and 21:
1. Quantitative analysis of deforma
- Page 22 and 23:
1. Quantitative analysis of deforma
- Page 24 and 25:
1. Quantitative analysis of deforma
- Page 26 and 27:
1. Quantitative analysis of deforma
- Page 28 and 29:
1. Quantitative analysis of deforma
- Page 31 and 32:
Chapter 2Mechanisms of lower crusta
- Page 33 and 34:
2. Mechanisms of lower crustal flow
- Page 35 and 36:
2. Mechanisms of lower crustal flow
- Page 37 and 38:
2. Mechanisms of lower crustal flow
- Page 39 and 40:
2. Mechanisms of lower crustal flow
- Page 41 and 42:
Chapter 3Quantitative analyses ofme
- Page 43 and 44:
3. Quantitative analyses of metamor
- Page 45 and 46:
3. Quantitative analyses of metamor
- Page 47 and 48:
3. Quantitative analyses of metamor
- Page 49 and 50:
3. Quantitative analyses of metamor
- Page 51:
3. Quantitative analyses of metamor
- Page 54 and 55:
Bibliography 42Culshaw, N., Beaumon
- Page 56 and 57:
Bibliography 44sources and trigger
- Page 58 and 59:
Bibliography 46Skrzypek, E., Štíp
- Page 61 and 62:
Journal of Structural Geology 23 20
- Page 63 and 64:
J. KonopaÂsek et al. / Journal of
- Page 65 and 66:
J. KonopaÂsek et al. / Journal of
- Page 67 and 68:
J. KonopaÂsek et al. / Journal of
- Page 69 and 70:
J. KonopaÂsek et al. / Journal of
- Page 71 and 72:
J. KonopaÂsek et al. / Journal of
- Page 73 and 74:
J. KonopaÂsek et al. / Journal of
- Page 75 and 76:
J. KonopaÂsek et al. / Journal of
- Page 77 and 78:
J. KonopaÂsek et al. / Journal of
- Page 79 and 80:
J. KonopaÂsek et al. / Journal of
- Page 81 and 82:
JOURNAL OF GEOPHYSICAL RESEARCH, VO
- Page 83 and 84:
SCHULMANN ET AL.: STRAIN DISTRIBUTI
- Page 85 and 86:
SCHULMANN ET AL.: STRAIN DISTRIBUTI
- Page 87 and 88:
SCHULMANN ET AL.: STRAIN DISTRIBUTI
- Page 89 and 90:
SCHULMANN ET AL.: STRAIN DISTRIBUTI
- Page 91 and 92:
SCHULMANN ET AL.: STRAIN DISTRIBUTI
- Page 93 and 94:
SCHULMANN ET AL.: STRAIN DISTRIBUTI
- Page 95:
SCHULMANN ET AL.: STRAIN DISTRIBUTI
- Page 98 and 99:
5 - 2 LEXA ET AL.: COLLISION IN WES
- Page 100 and 101:
5 - 4 LEXA ET AL.: COLLISION IN WES
- Page 102 and 103:
5 - 6 LEXA ET AL.: COLLISION IN WES
- Page 104 and 105:
5 - 8 LEXA ET AL.: COLLISION IN WES
- Page 106 and 107:
5 - 10 LEXA ET AL.: COLLISION IN WE
- Page 108 and 109:
5 - 12 LEXA ET AL.: COLLISION IN WE
- Page 110 and 111:
5 - 14 LEXA ET AL.: COLLISION IN WE
- Page 112 and 113:
5 - 16 LEXA ET AL.: COLLISION IN WE
- Page 114 and 115:
156O. Lexa et al. / Journal of Stru
- Page 116 and 117:
158O. Lexa et al. / Journal of Stru
- Page 118 and 119:
160O. Lexa et al. / Journal of Stru
- Page 121 and 122:
DTD 5ARTICLE IN PRESSJournal of Str
- Page 123 and 124:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 125 and 126:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 127 and 128:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 129 and 130:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 131 and 132:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 133 and 134:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 135 and 136:
Table 1Statistical values of the qu
- Page 137 and 138:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 139 and 140:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 141 and 142:
Table 2Summary of parameters derive
- Page 143 and 144:
DTD 5ARTICLE IN PRESSL. Baratoux et
- Page 145 and 146:
J. metamorphic Geol., 2008, 26, 273
- Page 147 and 148:
EXHUMATION IN LARGE HOT OROGEN 275m
- Page 149 and 150:
Probabi l irequencyProbabi l ireque
- Page 151 and 152:
EXHUMATION IN LARGE HOT OROGEN 279y
- Page 153 and 154:
EXHUMATION IN LARGE HOT OROGEN 281N
- Page 155 and 156:
EXHUMATION IN LARGE HOT OROGEN 283w
- Page 157 and 158:
EXHUMATION IN LARGE HOT OROGEN 285a
- Page 159 and 160:
EXHUMATION IN LARGE HOT OROGEN 287w
- Page 161 and 162:
EXHUMATION IN LARGE HOT OROGEN 289T
- Page 163 and 164:
EXHUMATION IN LARGE HOT OROGEN 291O
- Page 165 and 166:
EXHUMATION IN LARGE HOT OROGEN 293r
- Page 167 and 168:
EXHUMATION IN LARGE HOT OROGEN 295B
- Page 169:
EXHUMATION IN LARGE HOT OROGEN 297R
- Page 172 and 173:
Author's personal copyK. Schulmann
- Page 174 and 175:
Author's personal copyK. Schulmann
- Page 176 and 177:
Author's personal copyK. Schulmann
- Page 178 and 179:
Author's personal copyK. Schulmann
- Page 180 and 181:
Author's personal copyK. Schulmann
- Page 182 and 183:
Author's personal copyK. Schulmann
- Page 184 and 185:
Author's personal copyK. Schulmann
- Page 186 and 187:
Author's personal copyK. Schulmann
- Page 188 and 189:
Author's personal copyK. Schulmann
- Page 190 and 191: Author's personal copyK. Schulmann
- Page 193 and 194: J. metamorphic Geol., 2011, 29, 79-
- Page 195 and 196: HEAT SOURCES AND EXHUMATION MECHANI
- Page 197 and 198: HEAT SOURCES AND EXHUMATION MECHANI
- Page 199 and 200: HEAT SOURCES AND EXHUMATION MECHANI
- Page 201 and 202: HEAT SOURCES AND EXHUMATION MECHANI
- Page 203 and 204: HEAT SOURCES AND EXHUMATION MECHANI
- Page 205 and 206: HEAT SOURCES AND EXHUMATION MECHANI
- Page 207 and 208: HEAT SOURCES AND EXHUMATION MECHANI
- Page 209 and 210: HEAT SOURCES AND EXHUMATION MECHANI
- Page 211 and 212: HEAT SOURCES AND EXHUMATION MECHANI
- Page 213 and 214: HEAT SOURCES AND EXHUMATION MECHANI
- Page 215 and 216: HEAT SOURCES AND EXHUMATION MECHANI
- Page 217 and 218: J. metamorphic Geol., 2011, 29, 53-
- Page 219 and 220: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 221 and 222: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 223 and 224: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 225 and 226: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 227 and 228: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 229 and 230: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 231 and 232: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 233 and 234: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 235 and 236: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 237 and 238: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 239: EXTRUSIONOFLOWERCRUSTINVARISCANOROG
- Page 243 and 244: J. metamorphic Geol., 2005, 23, 649
- Page 245 and 246: CONTRASTING TEXTURAL RECORD OF TWO
- Page 247 and 248: CONTRASTING TEXTURAL RECORD OF TWO
- Page 249 and 250: CONTRASTING TEXTURAL RECORD OF TWO
- Page 251 and 252: CONTRASTING TEXTURAL RECORD OF TWO
- Page 253 and 254: CONTRASTING TEXTURAL RECORD OF TWO
- Page 255 and 256: CONTRASTING TEXTURAL RECORD OF TWO
- Page 257 and 258: CONTRASTING TEXTURAL RECORD OF TWO
- Page 259 and 260: CONTRASTING TEXTURAL RECORD OF TWO
- Page 261 and 262: Contrasting microstructures and def
- Page 263 and 264: TEXTURES OF NATURALLY DEFORMED META
- Page 265 and 266: TEXTURES OF NATURALLY DEFORMED META
- Page 267 and 268: TEXTURES OF NATURALLY DEFORMED META
- Page 269 and 270: TEXTURES OF NATURALLY DEFORMED META
- Page 271 and 272: TEXTURES OF NATURALLY DEFORMED META
- Page 273 and 274: 1.0--0.9__Mg~(Mg2++Fe2+)9 Core of p
- Page 275 and 276: TEXTURES OF NATURALLY DEFORMED META
- Page 277 and 278: ' ~'-----2~--~----TEXTURES OF NATUR
- Page 279 and 280: TEXTURES OF NATURALLY DEFORMED META
- Page 281 and 282: TEXTURES OF NATURALLY DEFORMED META
- Page 283 and 284: TEXTURES OF NATURALLY DEFORMED META
- Page 285 and 286: TEXTURES OF NATURALLY DEFORMED META
- Page 287 and 288: TEXTURES OF NATURALLY DEFORMED META
- Page 289: TEXTURES OF NATURALLY DEFORMED META
- Page 292 and 293:
B10210ZÁVADA ET AL.: EXTREME DUCTI
- Page 294 and 295:
B10210ZÁVADA ET AL.: EXTREME DUCTI
- Page 296 and 297:
B10210ZÁVADA ET AL.: EXTREME DUCTI
- Page 298 and 299:
B10210ZÁVADA ET AL.: EXTREME DUCTI
- Page 300 and 301:
B10210ZÁVADA ET AL.: EXTREME DUCTI
- Page 302 and 303:
B10210ZÁVADA ET AL.: EXTREME DUCTI
- Page 304 and 305:
B10210ZÁVADA ET AL.: EXTREME DUCTI
- Page 307 and 308:
ClickHereforFullArticleJOURNAL OF G
- Page 309 and 310:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 311 and 312:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 313 and 314:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 315 and 316:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 317 and 318:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 319 and 320:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 321 and 322:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 323 and 324:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 325 and 326:
B10406SCHULMANN ET AL.: RHEOLOGY OF
- Page 327 and 328:
J. metamorphic Geol., 2008, 26, 29-
- Page 329 and 330:
ORIGIN OF FELSIC MIGMATITES 31Ó 20
- Page 331 and 332:
ORIGIN OF FELSIC MIGMATITES 33durin
- Page 333 and 334:
ORIGIN OF FELSIC MIGMATITES 35(a)Ty
- Page 335 and 336:
ORIGIN OF FELSIC MIGMATITES 37(a)Pl
- Page 337 and 338:
ORIGIN OF FELSIC MIGMATITES 39Grain
- Page 339 and 340:
ORIGIN OF FELSIC MIGMATITES 41(a)(b
- Page 341 and 342:
ORIGIN OF FELSIC MIGMATITES 43(a)(b
- Page 343 and 344:
ORIGIN OF FELSIC MIGMATITES 45Fig.
- Page 345 and 346:
ORIGIN OF FELSIC MIGMATITES 47produ
- Page 347 and 348:
ORIGIN OF FELSIC MIGMATITES 49stron
- Page 349 and 350:
ORIGIN OF FELSIC MIGMATITES 51Cmı
- Page 351:
ORIGIN OF FELSIC MIGMATITES 53easte
- Page 354 and 355:
104 J. FRANĚK ET AL.in terms of th
- Page 356 and 357:
106 J. FRANĚK ET AL.Fig. 2. Struct
- Page 358 and 359:
108 J. FRANĚK ET AL.(a)perthite po
- Page 360 and 361:
110 J. FRANĚK ET AL.(a)(b)(c) (d)
- Page 362 and 363:
112 J. FRANĚK ET AL.Table 1. Repre
- Page 364 and 365:
114 J. FRANĚK ET AL.at these P-T c
- Page 366 and 367:
116 J. FRANĚK ET AL.(a)(b)Fig. 10.
- Page 368 and 369:
118 J. FRANĚK ET AL.(a)(b)Fig. 11.
- Page 370 and 371:
120 J. FRANĚK ET AL.Table 2. Quant
- Page 372 and 373:
122 J. FRANĚK ET AL.(a)(b)Fig. 15.
- Page 374 and 375:
124 J. FRANĚK ET AL.Fig. 16. Inter
- Page 376 and 377:
126 J. FRANĚK ET AL.development of
- Page 378 and 379:
128 J. FRANĚK ET AL.Behrmann, J.H.
- Page 380:
130 J. FRANĚK ET AL.Southern Bohem