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Published online by Cambridge University Press:  19 November 2018

Ron H. Vernon
Macquarie University, Sydney
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Abbott, R. N. 1989: Internal structures in part of the South Mountain batholith, Nova Scotia, Canada. Bulletin of the Geological Society of America, 101, 1493–506.2.3.CO;2>CrossRefGoogle Scholar
Adams, A. E., MacKenzie, W. S. & Guildford, C. 1984: Atlas of Sedimentary Rocks under the Microscope. Harlow, UK: Longman.Google Scholar
Aerden, D. G. A. M. 1995: Porphyroblast non-rotation during crustal extension in the Variscan Lys-Caillaouas Massif, Pyrenees. Journal of Structural Geology, 17, 709–25.CrossRefGoogle Scholar
Ague, J. J. 1991: Evidence of major mass transfer and volume strain during regional metamorphism of pelites. Geology, 19, 855–8.2.3.CO;2>CrossRefGoogle Scholar
Ague, J. J. 1994: Mass transfer during Barrovian metamorphism of pelites, south-central Connecticut. II: Channelized fluid flow and the growth of staurolite and kyanite. American Journal of Science, 294, 1061–134.Google Scholar
Ague, J. J. 1997: Crustal mass transfer and index mineral growth in Barrow’s garnet zone, northeast Scotland. Geology, 25, 73–6.2.3.CO;2>CrossRefGoogle Scholar
Ahn, J. & Cho, M. 2000: Application of cathodoluminescence to fine-grained pelitic schists of the Imjingang Belt, Korea. European Journal of Mineralogy, 12, 1057–62.CrossRefGoogle Scholar
Aitken, B. G. & Echeverria, L. M. 1984: Petrology and geochemistry of komatiites and tholeiites from Gorgona Island, Colombia. Contributions to Mineralogy and Petrology, 86, 94105.CrossRefGoogle Scholar
Akouri, K., Conaghan, P. J., Walter, M. R., Bischoff, G. C. O. & Grey, K. 2000: Reconnaissance sedimentology and hydrocarbon biomarkers of Ediacarian microbial mats and arcitarchs, lower Ungoolya Group, Officer Basin. Precambrian Research, 100, 235–80.Google Scholar
Alexandrov, P. 2001: Synneusis of zircon: Why not? Mineralogical Magazine, 65, 71–9.CrossRefGoogle Scholar
Alias, G., Sandiford, M., Hand, M. & Worley, B. 2002: The P-T record of synchronous magmatism, metamorphism and deformation at Petrel Cove, southern Adelaide Fold Belt. Journal of Metamorphic Geology, 20, 351–63.CrossRefGoogle Scholar
Allègre, C. J., Provost, A. & Jaupart, C. 1981: Oscillatory zoning: A pathological case of crystal growth. Nature, 294, 223–8.CrossRefGoogle Scholar
Allen, F. M., Smith, B. K. & Buseck, P. R. 1987: Direct observations of dissociated dislocations in garnet. Science, 238, 1695–7.CrossRefGoogle ScholarPubMed
Allibone, A. H. & Norris, R. J. 1992: Segregation of leucogranite microplutons during syn-anatectic deformation: An example from the Taylor Valley, Antarctica. Journal of Metamorphic Geology, 10, 589600.CrossRefGoogle Scholar
Allison, I., Barnett, R. L. & Kerrich, R. 1979: Superplastic flow and changes in crystal chemistry of feldspars. Tectonophysics, 54, T41–6.Google Scholar
Allison, I. & La Tour, T. E. 1977: Brittle deformation of hornblende in a mylonite: A direct geometrical analogue of ductile deformation by translation gliding. Canadian Journal of Earth Sciences, 14, 1953–8.CrossRefGoogle Scholar
Allport, S. 1874: On the microscopic structure and composition of British Carboniferous dolerites. Quarterly Journal of the Geological Society of London, 30, 529–67.CrossRefGoogle Scholar
Allport, S. 1877: On certain ancient devitrified pitchstones and perlites from the Lower Silurian district of Shropshire. Quarterly Journal of the Geological Society of London, 33, 449–60.CrossRefGoogle Scholar
Altenberger, U. 1995a: Local disequilibrium of plagioclase in high-temperature shear zones of the Ivrea Zone, Italy. Journal of Metamorphic Geology, 13, 553–8.CrossRefGoogle Scholar
Altenberger, U. 1995b: Long-term deformation and fluid-enhanced mass-transport in a Variscan peridotite shear zone in the Ivrea Zone, northern Italy: A microtextural, petrological and geochemical study of a reactivated shear zone. Geologische Rundschau, 84, 591606.CrossRefGoogle Scholar
Altenberger, U. 1996a: Material transport in channelized fluids – Examples from high-temperature shear zones in the Central European Variscan belt. Mineralogy and Petrology, 57, 5172.CrossRefGoogle Scholar
Altenberger, U. 1996b: Fluid enhanced element redistribution, mass transport and volume changes in eclogite and amphibolite facies shear zones of different geological settings. Chemie der Erde, 56, 124.Google Scholar
Altenberger, U., & Wilhelm, S. 2000: Ductile deformation of K-feldspar in eclogite facies shear zones in the Bergen Arcs, Norway. Tectonophysics, 320, 107–21.CrossRefGoogle Scholar
Álvarez-Valero, A. M., Cesare, B. & Kriegsman, L. M. 2007: Formation of melt-bearing spinel–cordierite–feldspars coronas after garnet in metapelitic xenoliths. Reaction modelling and geodynamic implications. Journal of Metamorphic Geology, 25, 305–20.CrossRefGoogle Scholar
Álvarez-Valero, A. M. & Kriegsman, L. M. 2008: Partial crustal melting beneath the Betic Cordillera (SE Spain): The case study of Mar Menor volcanic suite. Lithos, 101, 379–96.CrossRefGoogle Scholar
Álvarez-Valero, A. M. & Waters, D. J. 2010: Partially melted crustal xenoliths as a window into subvolcanic processes: Evidence from the Neogene magmatic province, Betic Cordillera, SE Spain. Journal of Petrology, 51, 973–91.CrossRefGoogle Scholar
Alvarez, W., Engelder, J. T. & Lowrie, W. 1976: Formation of spaced cleavage and folds in brittle limestone by dissolution. Geology, 4, 698701.2.0.CO;2>CrossRefGoogle Scholar
Andersen, T. B. 1984: Inclusion patterns in zoned garnets from Mageroy, north Norway. Mineralogical Magazine, 48, 21–6.CrossRefGoogle Scholar
Andersen, T., Griffin, W. L. & O’Reilly, S. Y. 1987: Primary sulphide melt inclusions in mantle-derived megacrysts and pyroxenites. Lithos, 20, 279–94.Google Scholar
Anderson, A. T. 1983: Oscillatory zoning of plagioclase: Nomarski interference contrast microscopy of etched polished sections. American Mineralogist, 68, 125–9.Google Scholar
Anderson, A. T. 1984: Probable relations between plagioclase zoning and magma dynamics, Fuego Volcano, Guatemala. American Mineralogist, 69, 660–76.Google Scholar
Anderson, A. T., Swihart, G. H., Artioli, G. & Geiger, C. A. 1984: Segregation vesicles, gas filter-pressing, and igneous differentiation. Journal of Geology, 92, 5572.CrossRefGoogle Scholar
Anderson, J. E. 1969: Development of snowflake texture in a welded tuff, Davis Mountains, Texas. Bulletin of the Geological Society of America, 80, 2075–80.CrossRefGoogle Scholar
Ando, J., Fujino, K. & Takeshita, T. 1993: Dislocation microstructures in naturally deformed silicate garnets. Physics of the Earth and Planetary Interiors, 80, 105–16.CrossRefGoogle Scholar
Angiboust, S., Agard, P., Raimbourg, H., Yamato, P. & Huet, B. 2011: Subduction interface processes recorded by eclogite-facies shear zones (Monviso, W. Alps). Lithos, 127, 222–38.CrossRefGoogle Scholar
Aramovich, C. J., Herd, C. D. K. & Papike, J. J. 2002: Symplectites derived from metastable phases in martian basaltic meteorites. American Mineralogist, 87, 1351–9.CrossRefGoogle Scholar
Arculus, R. J. & Wills, K. J. A. 1980: The petrology of plutonic blocks and inclusions from the Lesser Antilles island arc. Journal of Petrology, 21, 743–99.CrossRefGoogle Scholar
Arndt, N. T. 1986: Differentiation of komatiite flows. Journal of Petrology, 27, 279301.CrossRefGoogle Scholar
Arndt, N. T. 1994: Archean komatiites. In: Condie, K. C. (ed.): Archean Crustal Evolution. Amsterdam: Elsevier, 1144.CrossRefGoogle Scholar
Arndt, N. T., Naldrett, A. J. & Pyke, D. R. 1977: Komatiitic and iron-rich tholeiitic lavas of Munro Township, northeast Ontario. Journal of Petrology, 18, 319–69.CrossRefGoogle Scholar
Arndt, N. T. & Nisbet, E. G. (eds.) 1982: Komatiites. Boston: Allen & Unwin.Google Scholar
Arzi, A. A. 1978: Critical phenomena in the rheology of partially-molten rocks. Tectonophysics, 44, 173–84.CrossRefGoogle Scholar
Ashby, M. F. & Verall, R. A. 1973a: Micromechanisms of flow and fracture and their relevance to the rheology of the upper mantle. Philosophical Transactions of the Royal Society of London, 288A, 5995.Google Scholar
Ashby, M. F. & Verall, R. A. 1973b: Diffusion-accommodated flow and superplasticity. Acta Metallurgica, 21, 149–63.CrossRefGoogle Scholar
Ashworth, J. A. 1972: Myrmekites of exsolution and replacement origins. Mineralogical Magazine, 109, 4562.CrossRefGoogle Scholar
Atherton, M. P. 1977: The metamorphism of the Dalradian rocks of Scotland. Scottish Journal of Geology, 13, 331–70.CrossRefGoogle Scholar
Atkinson, B. K. 1974: Experimental deformation of polycrystalline galena, chalcopyrite and pyrrhotite. Transactions of the Institution of Mining and Metallurgy, 83, B19–28.Google Scholar
Atkinson, B. K. 1977: Experimentally induced kinking and annealing of single crystals of galena. Tectonophysics, 39, 175–89.Google Scholar
Atkinson, B. K. 1984: Sub-critical crack growth in geological materials. Journal of Geophysical Research, 89, 4077–114.CrossRefGoogle Scholar
Austrheim, H. 1987: Eclogitization of the lower crustal granulites by fluid migration through shear zones. Earth and Planetary Science Letters, 81, 221–32.CrossRefGoogle Scholar
Austrheim, H. & Griffin, W. L. 1985: Shear deformation and eclogite formation within granulite facies anorthosites of the Bergen Arcs, western Norway. Chemical Geology, 50, 267–81.CrossRefGoogle Scholar
Ave’Lallemant, H. G. 1978: Experimental deformation of diopside and websterite. Tectonophysics, 48, 127.CrossRefGoogle Scholar
Ave’Lallemant, H. G. & Carter, N. L. 1970: Syntectonic recrystallization of olivine and modes of flow in the upper mantle. Bulletin of the Geological Society of America, 81, 2203–20.Google Scholar
Ave’Lallemant, H. G. & Carter, N. L. 1971: Pressure dependence of quartz deformation lamellae orientations. American Journal of Science, 270, 218–35.Google Scholar
Aydin, A. & Johnson, A. M. 1983: Analysis of faulting in porous sandstones. Journal of Structural Geology, 5, 1931.CrossRefGoogle Scholar
Ayers, J. C., Miller, C., Gorisch, B. & Milleman, J. 1999: Textural development of monazite during high-grade metamorphism: Hydrothermal growth kinetics, with implications for U, Th-Pb geochronology. American Mineralogist, 84, 1766–80.CrossRefGoogle Scholar
Bachl, C. A., Miller, C. F., Miller, J. S. & Faulds, J. E. 2011: Construction of a pluton: Evidence from an exposed cross-section of the Searchlight pluton, Eldorado Mountains, Nevada. Bulletin of the Geological Society of America, 113, 1213–28.Google Scholar
Bachmann, O. & Dungan, M. A. (2002) Temperature-induced Al zoning in hornblendes of the Fish Canyon magma, Colorado. American Mineralogist, 87, 1062–76.CrossRefGoogle Scholar
Bacon, C. R. & Lowenstern, J. B. 2005: Late Pleistocene granodiorite source for recycled zircon and phenocrysts in rhyodacite lava at Crater Lake, Oregon. Earth and Planetary Science Letters, 233, 277–93.CrossRefGoogle Scholar
Bacon, C. R. & Metz, J. 1984: Magmatic inclusions in rhyolites, contaminated basalts, and compositional zonation beneath the Coso volcanic fields, California. Contributions to Mineralogy and Petrology, 85, 346–65.CrossRefGoogle Scholar
Baëta, R. D. & Ashbee, K. H. G. 1969: Slip systems in quartz. II. Interpretation. American Mineralogist, 54, 1574–82.Google Scholar
Baker, D. R. & Freda, C. 1999: Ising models of undercooled binary system crystallization: Comparison with experimental and pegmatite textures. American Mineralogist, 84, 725–32.CrossRefGoogle Scholar
Baker, D. R. & Freda, C. 2001: Eutectic crystallization in the undercooled Orthoclase-Quartz-H2O system: Experiments and simulations. European Journal of Mineralogy, 13, 453–66.CrossRefGoogle Scholar
Baker, D. W., Chawla, K. S. & Krizek, R. J. 1993: Compaction fabrics of pelites: Experimental consolidation of kaolinite and implications for analysis of strain in slate. Journal of Structural Geology, 15, 1123–37.CrossRefGoogle Scholar
Ball, A. & White, S. 1977: An etching technique for revealing dislocation structures in deformed quartz grains. Tectonophysics, 37, T914.Google Scholar
Barbarand, J. & Pagel, M. 2001: Cathodoluminescence study of apatite crystals. American Mineralogist, 86, 473–84.CrossRefGoogle Scholar
Barber, D. J. 1985: Dislocations and microstructures. In: Wenk, H.-R. (ed.): Preferred Orientation in Deformed Metals and Rocks: An Introduction to Modern Texture Analysis. London: Academic Press, 149–82.Google Scholar
Barber, D. J. & Meredith, P. G. (eds.) 1990: Deformation Processes in Minerals, Ceramics and Rocks. Boston: Unwin Hyman.CrossRefGoogle Scholar
Bard, J.-P. 1986: Microtextures of Igneous and Metamorphic Rocks. Dordrecht: Reidel.CrossRefGoogle Scholar
Barker, A. J. 1990: Introduction to Metamorphic Textures and Microstructures. Glasgow: Blackie.Google Scholar
Barker, A. J. 1994: Interpretation of porphyroblast inclusion trails: Limitations imposed by growth kinetics and strain rates. Journal of Metamorphic Geology, 12, 681–4.CrossRefGoogle Scholar
Barker, A. J. 2002: Crack-fill porphyroblasts. Journal of Metamorphic Geology, 20, 283–94.CrossRefGoogle Scholar
Barker, A. J. & Zhang, X. 1998: The role of microcracking and grain-boundary dilation during retrograde reactions. In: Treloar, P. J. & O’Brien, P. (eds.): What Drives Metamorphism and Metamorphic Reactions? Special Publications, 138. London: Geological Society, 247–68.Google Scholar
Barker, C. E. & Kopp, O. C. 1991: Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications. Short Course, vol. 25. Society for Sedimentary Geology (SEPM).Google Scholar
Barker, D. S. 1970: Compositions of granophyre, myrmekite, and graphic granite. Bulletin of the Geological Society of America, 81, 3339–50.CrossRefGoogle Scholar
Barnes, S. J. 1998: Chromite in komatiites, 1. Magmatic controls on crystallization and composition. Journal of Petrology 39, 1689–720.CrossRefGoogle Scholar
Baronnet, A. 1972: Growth mechanisms and polytypism in synthetic hydroxyl-bearing phlogopite. American Mineralogist, 57, 1272–93.Google Scholar
Baronnet, A. 1975: Growth spirals and complex polytypism in micas – I. Polytypic structure generation. Acta Crystallographica, A31, 345–55.Google Scholar
Baronnet, A. 1982: Ostwald ripening in solution. The case of calcite and mica. Estudios geológicos, 38, 185–98.Google Scholar
Baronnet, A. 1984: Growth kinetics of the silicates. A review of basic concepts. Fortschritte Mineralogie, 62, 187232.Google Scholar
Barrière, M. 1981: On curved laminae, graded layers, convection currents and dynamic crystal sorting in the Ploumanac’h (Brittany) subalkaline granite. Contributions to Mineralogy and Petrology, 77, 217–24.CrossRefGoogle Scholar
Bartley, J. M., Wohletz, K., Coleman, D. S. & Glazner, A. F. 2004: Thermal modeling of large composite plutons. EOS Transactions of the American Geophysical Union, 85, 1935.Google Scholar
Bartoli, O., Acosta-Vigil, A., Ferrero, S. & Cesare, B. 2016: Granitoid magmas preserved as melt inclusions in high-grade metamorphic rocks. American Mineralogist, 101, 1543–59.CrossRefGoogle Scholar
Barton, M. & van Gaans, C. 1988: Formation of orthopyroxene–Fe-Ti oxide symplectites in Precambrian intrusives, Rogaland, southwestern Norway. American Mineralogist, 73, 1046–59.Google Scholar
Barton, P. B. 1970: Sulfide petrology. Geological Society of America Special Paper, 3, 187–98.Google Scholar
Barton, P. B. & Bethke, P. M. 1987: Chalcopyrite disease in sphalerite: Pathology and epidemiology. American Mineralogist, 72, 451–67.Google Scholar
Bastin, E. S. 1950: Interpretation of Ore Textures. Geological Society of America Memoir, vol. 45. Geological Society of America.Google Scholar
Bateman, P. C. & Chappell, B. W. 1979: Crystallization, fractionation, and solidification of the Tuolumne Intrusive Series, Yosemite National Park, California. Bulletin of the Geological Society of America, 90, 465–82.2.0.CO;2>CrossRefGoogle Scholar
Bathurst, R. G. C. 1958: Diagenetic fabrics in some British Dinantian limestones. Liverpool and Manchester Geological Journal, 2, 1136.CrossRefGoogle Scholar
Bathurst, R. G. C. 1975: Carbonate Sediments and Their Diagenesis. Volume 12: Developments in Sedimentology (2nd ed.). Amsterdam: Elsevier.Google Scholar
Bauer, P., Rosenberg, C. & Handy, M. R. 2000: ‘See-through’ deformation experiments on brittle-viscous norcamphor at controlled temperature, strain rate and applied confining pressure. Journal of Structural Geology, 22, 281–9.CrossRefGoogle Scholar
Baxter, E. F., Ague, J. J. & DePaolo, D. J. 2002: Prograde temperature-time evolution in the Barrovian type-locality constrained by Sm/Nd garnet ages from Glen Clova, Scotland. Journal of the Geological Society of London, 159, 7182.CrossRefGoogle Scholar
Bayhan, H., Aydar, E., Sen, E. & Gourgaud, A. 2006: Melting of crustal xenoliths within ascending basalt: Example from the Kula volcanic field, western Anatolia, Turkey. Comptes Rendus Geosciences, 338, 237–43.CrossRefGoogle Scholar
Beach, A. 1973: The mineralogy of high temperature shear zones at Scourie, N.W. Scotland. Journal of Petrology, 14, 213–48.CrossRefGoogle Scholar
Beach, A. 1974: A geochemical investigation of pressure solution and the formation of veins in a deformed greywacke. Contributions to Mineralogy and Petrology, 46, 61–8.CrossRefGoogle Scholar
Beach, A. 1976: The interrelations of fluid transport, deformation, geochemistry and heat flow in early Proterozoic shear zones in the Lewisian complex. Philosophical Transactions of the Royal Society of London, A280, 569604.CrossRefGoogle Scholar
Beach, A. 1977: Vein arrays, hydraulic fractures and pressure-solution structures in a deformed flysch sequence, S.W. England. Tectonophysics, 40, 201–25.CrossRefGoogle Scholar
Beach, A. 1979: Pressure solution as a metamorphic process in deformed terrigenous sedimentary rocks. Lithos, 12, 51–8.CrossRefGoogle Scholar
Beach, A. 1980: Retrograde metamorphic processes in shear zones with special reference to the Lewisian complex. Journal of Structural Geology, 2, 257–63.CrossRefGoogle Scholar
Beach, A. & Fyfe, W. S. 1973: Fluid transport and shear zones at Scourie, Sutherland: Evidence of overthrusting? Contributions to Mineralogy and Petrology, 36,175–80.Google Scholar
Becke, F. 1908: Über Myrmekit. Mineralogishes und Petrographisches Mitteilungen 27, 377–90.Google Scholar
Becker, A. 1995: Quartz pressure solution: Influence of crystallographic orientation. Journal of Structural Geology, 17, 1395–405.CrossRefGoogle Scholar
Behrmann, J. H. 1983: Microstructure and fabric transitions in calcite tectonics from the Sierra Alhamilla (Spain). Geologische Rundschau, 72, 605–18.CrossRefGoogle Scholar
Behrmann, J. H. 1985: Crystal plasticity and superplasticity in quartzite: A natural example. Tectonophysics, 115, 101–29.CrossRefGoogle Scholar
Behrmann, J. H. & Mainprice, D. 1987: Deformation mechanisms in a high-temperature quartz-feldspar mylonite: Evidence for superplastic flow in the lower continental crust. Tectonophysics, 140, 297305.CrossRefGoogle Scholar
Bell, T. H. 1978a: The development of slaty cleavage across the Nackara Arc of the Adelaide Geosyncline. Tectonophysics, 51, 171201.CrossRefGoogle Scholar
Bell, T. H. 1978b: Syntectonic nucleation of new grains in deformed mica. Tectonophysics, 51, T31–7.CrossRefGoogle Scholar
Bell, T. H. 1979: The deformation and recrystallization of biotite in the Woodroffe Thrust mylonite zone. Tectonophysics, 58, 139–58.CrossRefGoogle Scholar
Bell, T. H. 1981: Foliation development: The contribution, geometry and significance of progressive bulk inhomogeneous shortening. Tectonophysics, 75, 273–96.CrossRefGoogle Scholar
Bell, T. H. 1985: Deformation partitioning and porphyroblast rotation in metamorphic rocks: A radical reinterpretation. Journal of Metamorphic Geology, 3, 109–18.CrossRefGoogle Scholar
Bell, T. H. 1986: Foliation development and refraction in metamorphic rocks: Reactivation of earlier foliations and decrenulation due to shifting patterns of deformation partitioning. Journal of Metamorphic Geology, 4, 421–44.CrossRefGoogle Scholar
Bell, T. H. & Etheridge, M. A. 1973: Microstructure of mylonites and their descriptive terminology. Lithos, 6, 337–48.CrossRefGoogle Scholar
Bell, T. H. & Fay, C. 2016: Holistic microstructural techniques reveal synchronous and alternating andalusite and staurolite growth during three tectonic events resulted from shifting partitioning of growth vs deformation. Lithos, 262, 699712.CrossRefGoogle Scholar
Bell, T. H., Forde, A. & Hayward, N. 1992a: Can smoothly curving spiral-shaped inclusion trails form without rotation of the porphyroblast? Geology, 20, 5962.2.3.CO;2>CrossRefGoogle Scholar
Bell, T. H., Forde, A. & Wang, J. 1995: A new indicator of movement direction during orogenesis: Measurement technique and application to the Alps. Terra Nova, 7, 500–8.CrossRefGoogle Scholar
Bell, T. H. & Hammond, R. L. 1984: On the internal geometry of mylonite zones. Journal of Geology, 92, 667–86.CrossRefGoogle Scholar
Bell, T. H. & Hayward, N. 1991: Episodic metamorphic reactions during orogenesis: The control of deformation partitioning on reaction sites and reaction duration. Journal of Metamorphic Geology, 9, 619–40.CrossRefGoogle Scholar
Bell, T. H. & Hickey, K. A. 1999: Complex microstructures preserved in rocks with a simple matrix: Significance for deformation and metamorphic processes. Journal of Metamorphic Geology, 17, 521–35.CrossRefGoogle Scholar
Bell, T. H., Hickey, K. A. & Upton, G. J. G. 1998: Distinguishing and correlating multiple phases of metamorphism across a multiply deformed region using the axes of spiral, staircase and sigmoidal inclusion trails in garnet. Journal of Metamorphic Geology, 16, 767–94.CrossRefGoogle Scholar
Bell, T. H. & Johnson, S. E. 1989a: Porphyroblast inclusion trails: The key to orogenesis. Journal of Metamorphic Geology, 7, 279310.CrossRefGoogle Scholar
Bell, T. H. & Johnson, S. E. 1989b: The role of deformation partitioning in the deformation and recrystallization of plagioclase and K-feldspar in the Woodroffe Thrust mylonite zone, central Australia. Journal of Metamorphic Geology, 7, 151–68.CrossRefGoogle Scholar
Bell, T. H., Johnson, S. E., Davis, B., Forde, A., Hayward, N. & Wilkins, C. 1992b: Porphyroblast inclusion-trail orientation data: Eppure non son girate! Journal of Metamorphic Geology, 10, 295307.CrossRefGoogle Scholar
Bell, T. H. & Mares, V. M. 1999: Correlating deformation and metamorphism around orogenic arcs. American Mineralogist, 84, 1727–40.CrossRefGoogle Scholar
Bell, T. H. & Rubenach, M. J. 1980: Crenulation cleavage development – Evidence for progressive, bulk inhomogeneous shortening from millipede microstructures in the Robertson River Metamorphics. Tectonophysics, 68, T915.CrossRefGoogle Scholar
Bell, T. H. & Rubenach, M. J. 1983: Sequential porphyroblast growth and crenulation cleavage development during progressive deformation. Tectonophysics, 92, 171–94.CrossRefGoogle Scholar
Bell, T. H., Rubenach, M. J. & Fleming, P. D. 1986: Porphyroblast, nucleation, growth and dissolution in regional metamorphic rocks as a function of deformation partitioning during foliation development. Journal of Metamorphic Geology, 4, 3767.CrossRefGoogle Scholar
Benn, K. & Allard, B. 1989: Preferred mineral orientations related to magmatic flow in ophiolite layered gabbros. Journal of Petrology, 30, 925–46.CrossRefGoogle Scholar
Benn, K., Roest, W. R., Rochette, P. Evans, N. G. & Pignotta, G. S. 1999: Geophysical and structural signatures of syntectonic batholith construction: The South Mountain Batholith, Meguma Terrane, Nova Scotia. International Geophysical Journal, 136, 144–58.CrossRefGoogle Scholar
Bennett, R. H., Bryant, W. R. & Keller, G. H. 1981: Clay fabric of selected submarine sediments: Fundamental properties and models. Journal of Sedimentary Petrology, 51, 217–32.Google Scholar
Bennett, R. H., O’Brien, N. R. & Hulbert, M. H. 1991: Determinants of clay and shale microfabric signatures: Processes and mechanisms. In: Bennett, R. H., Bryant, W. R. & Hulbert, M. H. (eds.): Microstructure of Fine-Grained Sediments. New York, NY: Springer, 532.CrossRefGoogle Scholar
Berg, J. H. 1980: Snowflake troctolite in the Hettasch intrusion, Labrador: Evidence for magma-mixing and supercooling in a plutonic environment. Contributions to Mineralogy and Petrology, 72, 339–51.CrossRefGoogle Scholar
Berger, A. & Roselle, G. 2001: Crystallization processes in migmatites. American Mineralogist, 86, 215–24.Google Scholar
Berkebile, C. A. & Dowty, E. 1982: Nucleation in laboratory charges of basaltic composition. American Mineralogist, 67, 886–99.Google Scholar
Berner, R. A. 1969: The synthesis of framboidal pyrite. Economic Geology, 64, 383–4.CrossRefGoogle Scholar
Berry, R. F. & Flint, R. B. 1988: Magmatic banding within Proterozoic granodiorite dykes near Streaky Bay, South Australia. Transactions of the Royal Society of South Australia, 112, 6373.Google Scholar
Berthé, D., Choukroune, P. & Jegouzo, P. 1979: Orthogneiss, mylonite and non-coaxial deformation of granites: The example from the South American shear zone. Journal of Structural Geology, 1, 3142.CrossRefGoogle Scholar
Best, M. G. 2003: Igneous and Metamorphic Petrology (2nd ed.). Malden, MA: Blackwell.Google Scholar
Bestmann, M. & Prior, D. J. 2003: Intragranular dynamic recrystallization in naturally deformed calcite marble: Diffusion accommodated grain boundary sliding as a result of subgrain rotation recrystallization. Journal of Structural Geology, 25, 1597–613.CrossRefGoogle Scholar
Beutner, E. C. 1978: Slaty cleavage and related strain in Martinsburg Slate, Delaware Water Gap, New Jersey. American Journal of Science, 278, 123.CrossRefGoogle Scholar
Beutner, E. C. & Charles, E. G. 1985: Large volume loss during cleavage formation, Hamburg sequence, Pennsylvania. Geology, 13, 803–5.2.0.CO;2>CrossRefGoogle Scholar
Bezzi, A. & Piccardo, G. B. 1971: Cumulus and skeletal olivine from ultramafic cumulates of the Ligurian ophiolites (Mattarana Quarry, Bracco Massif, Italy). Estrato dagli Annali del Museo Civico di Storia Naturale di Genova, 78, 301–9.Google Scholar
Biermeier, C. & Stüwe, K. 2003: Strain rates from snowball garnet. Journal of Metamorphic Geology, 21, 253–68.CrossRefGoogle Scholar
Bindeman, I. N. 2003: Crystal sizes in evolving silicic magma chambers. Geology, 31, 367–70.2.0.CO;2>CrossRefGoogle Scholar
Binns, R. A. 1966: Granitic intrusions and regional metamorphic rocks of Permian age from the Wongwibinda district, north-eastern New South Wales. Journal and Proceedings of the Royal Society of New South Wales, 99, 536.Google Scholar
Bishop, G. H. & Chalmers, B. 1971: Dislocation structure and contrast in high angle grain boundaries. Philosophical Magazine, 24, 515–26.CrossRefGoogle Scholar
Blacic, J. D. 1972: Effect of water on the experimental deformation of olivine. In: Heard, H. C., Borg, I. Y., Carter, N. L. & Raleigh, C. B. (eds.): Flow and Fracture of Rocks. Geophysical Monograph Series, 16, 109–15.Google Scholar
Blacic, J. D. 1975: Plastic deformation mechanisms in quartz: The effect of water. Tectonophysics, 27, 271–94.CrossRefGoogle Scholar
Blacic, J. D. & Christie, J. M. 1984: Plasticity and hydrolytic weakening of quartz single crystals. Journal of Geophysical Research, 89, 4223–39.CrossRefGoogle Scholar
Blackerby, B. A. 1968: Convolute zoning of plagioclase phenocrysts in Miocene volcanics from the western Santa Monica Mountains, California. American Mineralogist, 53, 954–62.Google Scholar
Bladh, K. L. 1980: Rapakivi texture from the O’Leary Porphyry, Arizona (U.S.A.). Bulletin of Volcanology, 43, 155–71.Google Scholar
Blake, D. H. 1981: Intrusive felsic-mafic net-veined complexes in north Queensland. BMR Journal of Australian Geology and Geophysics, 6, 95–9.Google Scholar
Blake, D. H., Elwell, R. W. D., Gibson, I. L., Skelhorn, R. R. & Walker, G. P. L. 1965: Some relationships resulting from the intimate association of acid and basic magmas. Quarterly Journal of the Geological Society of London, 121, 3150.CrossRefGoogle Scholar
Blatt, H., Middleton, G. & Murray, R. 1972: Origin of Sedimentary Rocks. Englewood Cliffs, NJ: Prentice-Hall.Google Scholar
Blenkinsop, T. G. 2000: Deformation Microstructures and Mechanisms in Minerals and Rocks. Dordrecht: Kluwer.Google Scholar
Blenkinsop, T. G. & Drury, M. R. 1988: Stress estimates and fault history from quartz microstructures. Journal of Structural Geology, 10, 673–84.CrossRefGoogle Scholar
Bloomer, S. H. & Hawkins, J. W. 1987: Petrology and geochemistry of boninite series volcanic rocks from the Mariana trench. Contributions to Mineralogy and Petrology, 97, 361–77.CrossRefGoogle Scholar
Blumenfeld, P. 1983: Le ‘tuilage des mégacristaux,’ un critère d’écoulement rotationnel pour les fluidités des roches magmatiques: Application au granite de Barbey-Séroux (Vosges, France). Bulletin de la Societé géologique de France, 25, 309–18.Google Scholar
Blumenfeld, P. & Bouchez, J.-L. 1988: Shear criteria in granite and migmatite deformed in the magmatic and solid states. Journal of Structural Geology, 10, 361–72.CrossRefGoogle Scholar
Blumenfeld, P., Mainprice, D. & Bouchez, J.-L. 1986: C-slip in quartz from subsolidus deformed granite. Tectonophysics, 127, 97115.CrossRefGoogle Scholar
Blumenfeld, P. & Wilson, C. J. L. 1991: Boundary migration and kinking in stressed naphthalene. Journal of Structural Geology, 13, 471–83.CrossRefGoogle Scholar
Blundy, J. & Cashman, K. 2001: Ascent-driven crystallisation of dacite magmas at Mount St Helens, 1980–1986. Contributions to Mineralogy and Petrology, 140, 631–50.CrossRefGoogle Scholar
Blundy, J. & Cashman, K. 2008: Petrologic reconstruction of magmatic system variables and processes. In: Putirka, K. D. & Tepley, F. J. (eds.): Minerals, Inclusions and Volcanic Processes, Reviews in Mineralogy and Geochemistry, 69, 179240.CrossRefGoogle Scholar
Boggs, S. 1992: Petrology of Sedimentary Rocks. New York, NY: Macmillan.Google Scholar
Boistelle, R. & Astier, J. P. 1988: Crystallization mechanisms in solution. Journal of Crystal Growth, 90, 1430.CrossRefGoogle Scholar
Boland, J. N. & Fitz Gerald, J. D. (eds.) 1993: Defects and Processes in the Solid State: Geoscience Applications. The McLaren Volume. Amsterdam: Elsevier.Google Scholar
Boland, J. N., McLaren, A. C. & Hobbs, B. E. 1971: Dislocations associated with optical features in naturally deformed olivine. Contributions to Mineralogy and Petrology, 30, 5363.CrossRefGoogle Scholar
Boland, J. N. & van Roermund, H. L. M. 1983: Mechanisms of exsolution in omphacites from high temperature, type B, eclogites. Physics and Chemistry of Minerals, 9, 30–7.CrossRefGoogle Scholar
Bons, P. D. & Cox, S. J. D. 1994: Analogue experiments and numerical modelling on the relation between mirogeometry and flow properties of polyphase materials. Materials Science and Engineering, A175, 237–45.Google Scholar
Bons, P. D. & den Brok, B. 2000: Crystallographic preferred orientation development by dissolution-precipitation creep. Journal of Structural Geology, 22, 1713–22.CrossRefGoogle Scholar
Bons, P. D. & Jessell, M. W. 1999: Micro-shear zones in experimentally deformed octachloropropane. Journal of Structural Geology, 21, 323–34.CrossRefGoogle Scholar
Bons, P. D., Jessell, M. W. & Passchier, C. W. 1993: The analysis of progressive deformation in rock analogues. Journal of Structural Geology, 15, 403–12.CrossRefGoogle Scholar
Bons, P. D. & Urai, J. L. 1992: Syndeformational grain growth: Microstructures and kinetics. Journal of Structural Geology, 14, 1101–9.CrossRefGoogle Scholar
Bons, P. D. & Urai, J. L. 1994: Experimental deformation of two-phase rock analogues. Materials Science and Engineering, A175, 221–30.Google Scholar
Booth, B. 1968: Petrogenetic significance of alkali feldspar megacrysts and their inclusions in Cornubian granites. Nature, 217, 1036–8.CrossRefGoogle Scholar
Borchert, H. 1934: Über Entmischungen im System Cu-Fe-S und ihre Bedeutung als Geologische Thermometer. Chemie der Erde, 9, 145–72.Google Scholar
Borg, I. Y. & Heard, H. C. 1970: Experimental deformation of plagioclases. In: Paulitsch, P. (ed.): Experimental and Natural Rock Deformation. Berlin: Springer, 375403.Google Scholar
Borradaile, G. J. 1981: Particulate flow of rocks and the formation of cleavage. Tectonophysics, 72, 305–21.CrossRefGoogle Scholar
Borradaile, G. J., Bayly, M. B. & Powell, C. McA. (eds.) 1982: Atlas of Deformational and Metamorphic Rock Fabrics. New York, NY: Springer.CrossRefGoogle Scholar
Bosworth, T. O. 1910: Metamorphism around the Ross of Mull Granite. Quarterly Journal of the Geological Society of London, 66, 376–96.CrossRefGoogle Scholar
Bosworth, W. 1981: Strain-induced preferential dissolution of halite. Tectonophysics, 78, 509–25.CrossRefGoogle Scholar
Bottinga, Y., Kudo, A. & Weill, D. 1966: Some observations on oscillatory zoning and crystallization of magmatic plagioclase. American Mineralogist, 51, 792806.Google Scholar
Bouchez, J.-L., Delas, C., Gleizes, G., Nedelec, A. & Cuney, M. 1992: Submagmatic microfractures in granites. Geology, 20, 35–8.2.3.CO;2>CrossRefGoogle Scholar
Boudier, F. & Nicolas, A. 1982a: Peridotite microtextures (I): Oceanic environments. In: Borradaile, G. J., Bayly, M. B. & Powell, C. McA. (eds.): Atlas of Deformational and Metamorphic Rock Fabrics. Berlin: Springer, 384–5.Google Scholar
Boudier, F. & Nicolas, A. 1982b: Peridotite microtextures (II): In tectonites from ultramafic sequences in ophiolites. In: Borradaile, G. J., Bayly, M. B. & Powell, C. McA. (eds.): Atlas of Deformational and Metamorphic Rock Fabrics. Berlin: Springer, 386–8.Google Scholar
Boullier, A. M. & Bouchez, J.-L. 1978: Le quartz en rubans dans les mylonites. Bulletin de la Société géologique de France, 7, 253–62.Google Scholar
Boullier, A. M. & Guegen, Y. 1975: SP mylonites: Origin of some mylonites by superplastic flow. Contributions to Mineralogy and Petrology, 50, 93104.CrossRefGoogle Scholar
Boullier, A. M. & Nicolas, A. 1975: Classification of textures and fabrics of peridotite xenoliths from South African kimberlites. Physics and Chemistry of the Earth, 9, 467–76.CrossRefGoogle Scholar
Boulter, C. A. 1974: Tectonic deformation of soft sedimentary clastic dikes from the Precambrian rocks of Tasmania, Australia, with particular reference to their relations with cleavages. Bulletin of the Geological Society of America, 85, 1413–20.2.0.CO;2>CrossRefGoogle Scholar
Boundy, T. M., Donohue, C. L., Essene, E. J., Mezger, K. & Austrheim, H. 2002: Discovery of eclogite facies carbonate rocks from the Lindas Nappe, Caledonides, Western Norway. Journal of Metamorphic Geology, 20, 649–67.CrossRefGoogle Scholar
Boundy, T. M., Fountain, D. M. & Austrheim, H. 1992: Structural development and petrofabrics of eclogite facies shear zones, Bergen Arcs, Western Norway: Implication for deep crustal deformational processes. Journal of Metamorphic Geology, 10, 127–46.CrossRefGoogle Scholar
Boyle, A. P., Prior, D. J., Banham, M. H. & Timms, N. E. 1998: Plastic deformation of metamorphic pyrite: New evidence from electron-backscatter diffraction and forescatter orientation-contrast imaging. Mineralium Deposita, 34, 7181.CrossRefGoogle Scholar
Boyer, S. E. 1984: Origin and significance of compositional layering in Late Precambrian sediments, Blue Ridge Province, North Carolina, USA. Journal of Structural Geology, 6, 121–33.CrossRefGoogle Scholar
Bozhilov, K. N., Green, H. W. & Dobrzhinetskaya, L. F. 2003: Quantitative 3D measurement of ilmenite abundance in Alpe Arami olivine by confocal microscopy: Confirmation of high-pressure origin. American Mineralogist, 88, 596603.CrossRefGoogle Scholar
Bragg, W. L. 1937: Atomic Structure of Minerals. Ithaca, NY: Cornell University Press.Google Scholar
Brantley, S. L., Evans, B., Hickman, S. H. & Crerar, D. A. 1990: Healing of microcracks in quartz: Implications for fluid flow. Geology, 18, 136–9.2.3.CO;2>CrossRefGoogle Scholar
Braun, I. & Kriegsman, L. M. 2001: Partial melting in crustal xenoliths and anatectic migmatites: A comparison. Physics and Chemistry of the Earth (A), 26, 261–6.CrossRefGoogle Scholar
Brearley, A. J. 1987: A natural example of the disequilibrium breakdown of biotite at high temperature – TEM observations and comparison with experimental kinetic data. Mineralogical Magazine, 51, 93101.CrossRefGoogle Scholar
Brett, R. 1964: Experimental data from the system Cu-Fe-S and their bearing on exsolution textures in ores. Economic Geology, 59, 1241–69.CrossRefGoogle Scholar
Brett, R. & Kullerud, G. 1967: The Fe-Pb-S system. Economic Geology, 62, 354–69.CrossRefGoogle Scholar
Bridgwater, D., Escher, A. & Watterson, J. 1973a: Tectonic displacements and thermal activity in two contrasting Proterozoic mobile belts from Greenland. Philosophical Transactions of the Royal Society of London, A273, 493512.Google Scholar
Bridgwater, D., Watson, J. & Windley, B. F. 1973b: The Archaean craton of the North Atlantic region. Philosophical Transactions of the Royal Society of London, A273, 513–33.Google Scholar
Brigham, R. H. 1984: K-feldspar Genesis and Stable Isotope Relations of the Papoose Flat Pluton, Inyo Mountains, California. PhD thesis, Stanford University.Google Scholar
Brodie, K. H. 1981: Variation in amphibole and plagioclase composition with deformation. Tectonophysics, 78, 385402.CrossRefGoogle Scholar
Brodie, K. H. 1995: The development of orientated symplectites during deformation. Journal of Metamorphic Geology, 13, 499508.CrossRefGoogle Scholar
Brodie, K. H. & Rutter, E. H. 1985: On the relationship between deformation and metamorphism with special reference to the behaviour of basic rocks. In: Thompson, A. B. & Rubie, D. C. (eds.): Kinetics, Textures and Deformation. Advances in Physical Geochemistry, vol. 4. New York, NY: Springer, 138–79.Google Scholar
Brodie, K. H., Fettes, D., Harte, B. & Schmid, R. 2002: Towards a unified nomenclature in metamorphic petrology. Structural terms, including fault rocks. A proposal on behalf of the IUGS Subcommission on the Systematics of Metamorphic Rocks. Provisional recommendations. Scholar
Brophy, J. G., Dorais, M. J., Donnelly-Nolan, J. M. & Singer, B. 1996: Plagioclase zonation styles in hornblende gabbro inclusions from Little Glass Mountain, Medicine Lake volcano, California: Implications for fractionation mechanisms and the formation of composition gaps. Contributions to Mineralogy and Petrology, 126, 121–36.CrossRefGoogle Scholar
Brophy, J. G. & Dreher, S. T. 2000: The origin of composition gaps at South Sister volcano, central Oregon: Implications for fractional crystallization processes beneath active calc-alkaline volcanoes. Journal of Volcanology and Geothermal Research, 102, 287307.CrossRefGoogle Scholar
Brophy, J. G., Whittington, C. S. & Park, Y.-R. 1999: Sector-zoned augite megacrysts in Aleutian high alumina basalts: Implications for the conditions of basalt crystallization and the generation of calc-alkaline series magmas. Contributions to Mineralogy and Petrology, 135, 277–90.Google Scholar
Brophy, J. H., Rose, M. & Wulff, J. 1964: The Structure and Properties of Materials. Volume II. Thermodynamics of Structure. New York, NY: Wiley.Google Scholar
Brown, E. H. 1996: High-pressure metamorphism caused by magma loading in Fiordland, New Zealand. Journal of Metamorphic Geology, 14, 441–52.CrossRefGoogle Scholar
Brown, M. 1988: Unpairing metamorphic belts; P-T paths and a tectonic model for the Ryoke Belt, southwest Japan. Journal of Metamorphic Geology, 16, 322.CrossRefGoogle Scholar
Brown, M. 2001: Orogeny, migmatites and leucogranites: A review. Proceedings of the Indian Academy of Sciences (Earth and Planetary Science), 110, 313–36.Google Scholar
Brown, M. 2002: Retrograde processes in migmatites and granulites revisited. Journal of Metamorphic Geology, 20, 2540.CrossRefGoogle Scholar
Brown, M., Averkin, Y. A., McLellan, E. L. & Sawyer, E. W. 1995: Melt segregation in migmatites. Journal of Geophysical Research, 100, 15, 655–79.CrossRefGoogle Scholar
Brown, M. & Rushmer, T. 1997: The role of deformation in the movement of granitic melt: Views from the laboratory and the field. In: Holness, M. B. (ed.): Deformation-Enhanced Fluid Transport in the Earth’s Crust and Mantle. Mineralogical Society Series 8. London: Chapman & Hall, 111–14.Google Scholar
Brown, M. A., Brown, M., Carlson, W. D. & Denison, C. 1999: Topology of syntectonic melt-flow networks in the deep crust: Inferences from three-dimensional images of leucosome geometry in migmatites. American Mineralogist, 84, 1793–818.CrossRefGoogle Scholar
Brown, W. L. & Parsons, I. 1989: Alkali feldspars: Ordering rates, phase transformations and behaviour diagrams for igneous rocks. Mineralogical Magazine, 53, 2542.CrossRefGoogle Scholar
Brückner, R. 1983: Structure and properties of silicate melts. Bulletin de Minéralogie, 106, 922.CrossRefGoogle Scholar
Brugger, C. & Hammer, J. E. 2010a: Crystallization kinetics in continuous decompression experiments: Implications for interpreting natural magma ascent processes. Journal of Petrology, 51, 1941–65.CrossRefGoogle Scholar
Brugger, C. & Hammer, J. E. 2010b: Crystal size distribution analysis of plagioclase in experimentally decompressed hydrous rhyodacite magma. Earth and Planetary Science Letters, 300, 246–54.CrossRefGoogle Scholar
Bryan, W. B. 1972: Morphology of crystals in submarine basalts. Journal of Geophysical Research, 77, 5812–19.CrossRefGoogle Scholar
Bucher, K. & Frey, M. 1994: Petrogenesis of Metamorphic Rocks. Berlin: Springer.CrossRefGoogle Scholar
Buckley, H. E. 1961: Crystal Growth. New York, NY: Wiley.Google Scholar
Buczynski, C. & Chafetz, H. S. 1987: Siliciclastic grain breakage and displacement due to carbonate crystal growth: An example from the Lueders Formation (Permian) of north-central Texas, U.S.A. Sedimentology, 34, 837–43.CrossRefGoogle Scholar
Budworth, D. W. 1970: The selection of grain-growth control additives for the sintering of ceramics. Mineralogical Magazine, 37, 833–8.CrossRefGoogle Scholar
Buerger, M. J. 1945: The genesis of twin crystals. American Mineralogist, 30, 469–82.Google Scholar
Buerger, M. J. 1947: The relative importance of the several faces of a crystal. American Mineralogist, 32, 593606.Google Scholar
Buerger, M. J. & Washken, E. 1947: Metamorphism of minerals. American Mineralogist, 32, 296308.Google Scholar
Buntebarth, G. & Voll, G. 1991: Quartz grain coarsening by collective crystallization in contact quartzites. In: Voll, G., Tröpel, J., Pattison, D. R. M. & Seifert, F. (eds.): Equilibrium and Kinetics in Contact Metamorphism. Berlin: Springer, 251–65.Google Scholar
Burg, J.-P., Wilson, C. J. L. & Mitchell, J. C. 1986: Dynamic recrystallization and fabric development during simple shear deformation of ice. Journal of Structural Geology, 8, 857–70.Google Scholar
Burkhard, M. 1993: Calcite twins, their geometry, appearance and significance as stress-strain markers and indicators of tectonic regime: A review. Journal of Structural Geology, 15, 351–68.CrossRefGoogle Scholar
Burnham, C. W. 1967: Hydrothermal fluids at the magmatic stage. In: Barnes, H. L. (ed.): Geochemistry of Hydrothermal Ore Deposits. New York: Holt, 3476.Google Scholar
Burton, K. W. 1986: Garnet-quartz intergrowths in graphitic pelites: The role of the fluid phase. Mineralogical Magazine, 50, 611–20.CrossRefGoogle Scholar
Busa, M. D. & Gray, N. H. 1991: Rotated staurolite porphyroblasts in the Littleton Schist at Bolton, Connecticut, USA. Journal of Metamorphic Geology, 10, 627–36.Google Scholar
Busch, J. P. & van der Pluijm, B. A. 1995: Calcite textures, microstructures and rheological properties of marble mylonites in the Bancroft shear zone, Ontario, Canada. Journal of Structural Geology, 17, 677–88.CrossRefGoogle Scholar
Büsch, W., Schneider, G. & Mehnert, K. R. 1974: Initial melting at grain boundaries. Part II: Melting of rocks of granodioritic, quartzdioritic and tonalitic composition. Neues Jahrbuch für Mineralogie Abhandlungen, 133, 345–70.Google Scholar
Butler, B. C. M. 1965: A chemical study of some rocks of the Moine Series of Scotland. Quarterly Journal of the Geological Society of London, 121, 163208.CrossRefGoogle Scholar
Büttner, S. H. 1999: The geometric evolution of structures during continuous deformation from magmatic to solid-state conditions: An example from the central European Variscan Belt. American Mineralogist, 84, 1781–92.Google Scholar
Burton, K. W. 1986: Garnet-quartz intergrowths in graphitic pelites: The role of the fluid phase. Mineralogical Magazine, 50, 611–20.CrossRefGoogle Scholar
Byron, D. N., Atherton, M. P., Cheadle, M. J. & Hunter, R. H. 1994: The description of the primary textures of “Cordilleran” granitic rocks. Contributions to Mineralogy and Petrology, 117, 6675.CrossRefGoogle Scholar
Byron, D. N., Atherton, M. P., Cheadle, M. J. & Hunter, R. H. 1996: Melt movement and occlusion or porosity in crystallizing granitic systems. Mineralogical Magazine, 60, 163–71.Google Scholar
Byron, D. N., Atherton, M. P. & Hunter, R. H. 1995: The interpretation of granitic textures from serial thin sectioning, image analysis and three-dimensional reconstruction. Mineralogical Magazine, 59, 203–11.Google Scholar
Cabane, H., Laporte, D. & Provost, A. 2001: Experimental investigation of the kinetics of Ostwald ripening of quartz in silicic melts. Contributions to Mineralogy and Petrology, 142, 361–73.CrossRefGoogle Scholar
Cahn, R. W. 1970: Physical Metallurgy. Amsterdam: North-Holland.Google Scholar
Cahn, R. W. 1983: Recovery and recrystallization. In: Cahn, R. W. & Haasen, P. (eds.): Physical Metallurgy. Amsterdam: North-Holland, 1595–676.Google Scholar
Camacho, A., McDougall, I., Armstrong, R. & Braun, J. 2001: Evidence for shear heating, Musgrave Block, central Australia. Journal of Structural Geology, 23, 1007–13.CrossRefGoogle Scholar
Camacho, A., Vernon, R. H. & FitzGerald, J. D. 1995: Large volumes of pseudotachylyte in the Woodroffe Thrust, eastern Musgrave Ranges, Australia. Journal of Structural Geology, 17, 371–83.CrossRefGoogle Scholar
Cameron, E. M. 1961: Ore Microscopy. New York: Wiley.Google Scholar
Campbell, I. H. 1978: Some problems with the cumulus theory. Lithos, 11, 311–23.CrossRefGoogle Scholar
Campbell, I. H. 1987: Distribution of orthocumulate textures in the Jimberlana intrusion. Journal of Geology, 95, 3554.CrossRefGoogle Scholar
Candela, P. A. 1997: A review of shallow, ore-related granites: Textures, volatiles, and ore metals. Journal of Petrology, 38, 1619–33.CrossRefGoogle Scholar
Candela, P. A. & Blevin, P. L. 1995: Do some miarolitic granites preserve evidence of magmatic volatile phase permeability? Economic Geology, 90, 2310–16.CrossRefGoogle Scholar
Cantagrel, J.-M., Didier, J. & Gourgaud, A. 1984: Magma mixing: Origin of intermediate rocks and “enclaves” from volcanism to plutonism. Physics of the Earth and Planetary Interiors, 35, 6376.CrossRefGoogle Scholar
Cardena, A. A., Girty, G. H., Hanson, A. D., Lahren, M. M., Knaack, C. & Johnson, D. 1996: Assessing differences in composition between low metamorphic grade mudstones and high-grade schists using logratio techniques. Journal of Geology, 194, 279–93.Google Scholar
Carlson, W. D. 1989: The significance of intergranular diffusion to the mechanisms and kinetics of porphyroblast crystallization. Contributions to Mineralogy and Petrology, 103, 124.CrossRefGoogle Scholar
Carlson, W. D. 1991: Competitive diffusion-controlled growth of porphyroblasts. Mineralogical Magazine, 55, 317–30.CrossRefGoogle Scholar
Carlson, W. D. 1999: The case against Ostwald ripening of porphyroblasts. Canadian Mineralogist, 37, 403–13.Google Scholar
Carlson, W. D. 2000: The case against Ostwald ripening of porphyroblasts: Reply. Canadian Mineralogist, 38, 1029–31.CrossRefGoogle Scholar
Carlson, W. D. 2002: Scales of disequilibrium and rates of equilibration during metamorphism. American Mineralogist, 87, 185204.CrossRefGoogle Scholar
Carlson, W. D. & Denison, C. 1992: Mechanisms of porphyroblast crystallization – Results from high-resolution computed x-ray tomography. Science, 257, 1236–9.CrossRefGoogle ScholarPubMed
Carlson, W. D., Denison, C. & Ketcham, R. A. 1995: Controls on the nucleation and growth of porphyroblasts: Kinetics from natural textures and numerical models. Geological Journal, 30, 207–25.CrossRefGoogle Scholar
Carlson, W. D., Denison, C. & Ketcham, R. A. 1999: High-resolution x-ray computed tomography as a tool for visualization and quantitative analysis of igneous textures in three dimensions. Electronic Geosciences, 4 :3.Google Scholar
Carmichael, D. M. 1969: On the mechanism of prograde metamorphic reactions in quartz-bearing pelitic rocks. Contributions to Mineralogy and Petrology, 20, 244–67.CrossRefGoogle Scholar
Carney, J. N., Treloar, P. J., Barton, C. M., Crow, M. J., Evans, J. A. & Simango, S. 1991: Deep-crustal granulites with migmatitic and mylonitic fabrics from the Zambezi Belt, northeastern Zimbabwe. Journal of Metamorphic Geology, 9, 461–79.Google Scholar
Caroff, M., Maury, R. C., Cotten, J. & Clément, J.-P. 2000: Segregation structures and vapor-differentiated basaltic flows. Bulletin of Volcanology, 62, 171–87.CrossRefGoogle Scholar
Carozzi, A. V. 1960: Microscopic Sedimentary Petrography. New York, NY: Wiley.Google Scholar
Carstens, H. 1969: Dislocation structures in pyropes from Norwegian and Czech garnet peridotites. Contributions to Mineralogy and Petrology, 24, 348–53.CrossRefGoogle Scholar
Carstens, H. 1971: Plastic stress relaxation around solid inclusions in pyrope. Contributions to Mineralogy and Petrology, 32, 289–94.CrossRefGoogle Scholar
Carstens, H. 1975: Thermal history of impact melt rocks in the Fennoscandian shield. Contributions to Mineralogy and Petrology, 50, 145–55.CrossRefGoogle Scholar
Carstens, H. 1983: Simultaneous crystallization of quartz-feldspar intergrowths from granitic magmas. Geology, 11, 339–41.2.0.CO;2>CrossRefGoogle Scholar
Carswell, D. A., Möller, C. & O’Brien, P. J. 1989: Origin of sapphirine-plagioclase symplectites in metabasites from Mitterbachgraben, Dunkelsteinerwald granulite complex, Lower Austria. European Journal of Mineralogy, 1, 455–66.Google Scholar
Carter, N. L. 1971: Static deformation of silica and silicates. Journal of Geophysical Research, 76, 5514–40.CrossRefGoogle Scholar
Carter, N. L. & Ave’Lallemant, H. G. 1970: High temperature flow of dunite and peridotite. Bulletin of the Geological Society of America, 81, 2181–202.CrossRefGoogle Scholar
Carter, N. L., Christie, J. M. & Griggs, D. T. 1964: Experimental deformation and recrystallization of quartz. Journal of Geology, 72, 687733.CrossRefGoogle Scholar
Carter, N. L. & Hansen, F. D. 1983: Creep of rock-salt. Tectonophysics, 92, 275333.CrossRefGoogle Scholar
Carter, N. L., Kronenberg, A. K., Ross, J. V. & Wiltschko, D. V. 1990: Control of fluids on deformation of rocks. In: Knipe, R. J. & Rutter, E. H. (eds.): Deformation Mechanisms, Rheology and Tectonics. Special Paper, vol. 54. Geological Society of London, 113.Google Scholar
Cartwright, I., Power, W. L., Oliver, N. H. S., Valenta, R. K. & McLatchie, G. S. 1994: Fluid migration and vein formation during deformation and greenschist facies metamorphism at Ormiston Gorge, central Australia. Journal of Metamorphic Geology, 12, 373–86.CrossRefGoogle Scholar
Cashman, K. V. 1988: Crystallization of Mount St. Helens 1980–1986 dacite: A quantitative textural approach. Bulletin Volcanologique, 50, 194209.CrossRefGoogle Scholar
Cashman, K. V. 1990: Textural constrains on the kinetics of crystallization of igneous rocks. In: Nicholls, J. & Russell, J. K. (eds.): Modern Methods of Igneous Petrology: Understanding Magmatic Processes. Reviews in Mineralogy, vol. 24. Washington, DC: Mineralogical Society of America, 259314.CrossRefGoogle Scholar
Cashman, K. V. & Blundy, J. 2000: Degassing and crystallization of ascending andesite and dacite. Philosophical Transactions of the Royal Society of London, A358, 1487−513.Google Scholar
Cashman, K. V. & Ferry, J. M. 1988: Crystal size distribution (CSD) in rocks and the kinetics and dynamics of crystallization III. Metamorphic crystallization. Contributions to Mineralogy and Petrology, 99, 410–5.Google Scholar
Cashman, K. V. & Mangan, M. T. 1994: Physical aspects of magmatic degassing II. Constraints on vesiculation processes from textural studies of eruptive products. In: Carroll, M. R. & Holloway, J. R. (eds.): Volatiles in Magmas. Reviews in Mineralogy, vol. 30. Washington, DC: Mineralogical Society of America, 447–78.Google Scholar
Cashman, K. V. & Marsh, B. D. 1988: Crystal size distribution (CSD) in rocks and the kinetics and dynamics of crystallization II. Makaopuhi lava lake. Contributions to Mineralogy and Petrology, 99, 292305.CrossRefGoogle Scholar
Castro, J. M., Cashman, K. V. & Manga, M. 2003: A technique for measuring 3D crystal-size distributions of prismatic microlites in obsidian. American Mineralogist, 88, 1230–40.Google Scholar
Cesare, B. 2000: Incongruent melting of biotite to spinel in a quartz-free restite at El Joyazo (SE Spain): Textures and reaction characterization. Contributions to Mineralogy and Petrology, 139, 273–84.CrossRefGoogle Scholar
Cesare, B. 2008: Crustal melting: Working with enclaves. In: Sawyer, E. W. & Brown, M. (eds.): Working with Migmatites. Short Course, vol. 38. Quebec City: Mineralogical Association of Canada, 3755.Google Scholar
Cesare, B., Acosta-Vigil, A., Ferrero, S. & Bartoli, O. 2011: Melt inclusions in migmatites and granulites. In: Forster, M. A. & Fitz Gerald, J. D. (eds.): The Science of Microstructure. Part II. Journal of the Virtual Explorer. Electronic Edition, ISSN 1441-8142, 38, Paper 2.Google Scholar
Cesare, B., Ferrero, S., Salvioli-Mariani, E., Pedron, D. & Cavallo, A. 2009: Nanogranite and glassy inclusions: The anatectic melt in migmatites and granulites. Geology, 37, 627–30.CrossRefGoogle Scholar
Cesare, B., Gómez-Pugnaire, M. T., Sánchez-Navas, A. & Grobety, B. 2002a: Andalusite-sillimanite replacement (Mazarrón, SE Spain): A microstructural and TEM study. American Mineralogist, 87, 433–44.CrossRefGoogle Scholar
Cesare, B. & Maineri, C. 1999: Fluid-present anatexis of metapelites at El Joyazo (SE Spain): Constraints from Raman spectroscopy of graphite. Contributions to Mineralogy and Petrology, 135, 4152.CrossRefGoogle Scholar
Cesare, B., Marchesi, C. & Connolly, J. A. D. 2002b: Growth of myrmekite coronas by contact metamorphism of granitic mylonites in the aureole of Cima di Vila, Eastern Alps, Italy. Journal of Metamorphic Geology, 20, 203–13.CrossRefGoogle Scholar
Cesare, B., Marchesi, C., Hermann, J. & Gómez-Pugnaire, M. T. 2003: Primary melt inclusions in andalusite from anatectic graphitic metapelites: Implications for the position of the Al2SiO5 triple point. Geology, 31, 573–6.2.0.CO;2>CrossRefGoogle Scholar
Cesare, B., Savioli-Mariani, E. & Venturelli, G. 1997: Crustal anatexis and melt extraction during deformation in the restitic xenoliths at El Joyazo (SE Spain). Mineralogical Magazine, 61, 1527.CrossRefGoogle Scholar
Chadwick, G. A. 1972: Metallography of Phase Transformations. London: Butterworths.Google Scholar
Chalmers, B. 1959: Physical Metallurgy. New York, NY: Wiley.Google Scholar
Chamberlain, T. C. 1890: The method of multiple working hypotheses. Science, 15, 92–6.Google Scholar
Champness, P. E. 1977: Transmission electron microscopy in earth science. Annual Reviews of Earth and Planetary Science, 5, 203–26.CrossRefGoogle Scholar
Champness, P. E. & Lorimer, G. W. 1976: Exsolution in silicates. In: Wenk, H.-R. et al. (eds.): Electron Microscopy in Mineralogy. Berlin: Springer, 257–65.Google Scholar
Chan, Y.-C. & Crespi, J. M. 1999: Albite porphyroblasts with sigmoidal inclusion trails and their kinematic implications: An example from the Taconic Allochthon, west-central Vermont. Journal of Structural Geology, 21, 1407–17.CrossRefGoogle Scholar
Chao, E. C. T. 1976: The application of quantitative interference microscopy to mineralogic and petrologic investigations. American Mineralogist, 61, 212–28.Google Scholar
Chappell, B. W. & White, A. J. R. 1991: Restite enclaves and the restite model. In: Barbarin, M. B. & Didier, J. (eds.): Enclaves and Granite Petrology. Amsterdam: Elsevier, 375–81.Google Scholar
Chappell, B. W. & Wyborn, D. 2004. Cumulate and cumulative granites and associated rocks. Resource Geology, 54, 227–40.CrossRefGoogle Scholar
Chappell, B. W. & Wyborn, D. 2012. Origin of enclaves in S-type granites of the Lachlan Fold Belt. Lithos, 154, 235–47.CrossRefGoogle Scholar
Charlier, B. L. A., Ginibre, C., Morgan, D., Nowell, G. M., Pearson, D. G., Davidson, J. P. & Ottley, C. J. 2006: Methods for the microsampling and high-precision analysis of strontium and rubidium isotopes at single crystal scale for petrological and geochronological applications. Chemical Geology, 232, 114–33.CrossRefGoogle Scholar
Charlier, B. L. A., Wilson, C. J. N., Lowenstern, J. B., Blake, S., Van Calsteren, P. W. & Davidson, J. P. 2005: Magma generation at a large, hyperactive silicic volcano (Taupo, New Zealand) revealed by U–Th and U–Pb systematics in zircons. Journal of Petrology, 46, 332.CrossRefGoogle Scholar
Chen, T. T. 1978: Colloform and framboidal pyrite from the Caribou deposit New Brunswick. Canadian Mineralogist, 16, 915.Google Scholar
Chernoff, C. B. & Carlson, W. D. 1997: Disequilibrium for Ca during growth of pelitic garnet. Journal of Metamorphic Geology, 15, 421–38.CrossRefGoogle Scholar
Chernoff, C. B. & Carlson, W. D. 1999: Trace element zoning as a record of chemical disequilibrium during garnet growth. Geology, 27, 555–8.2.3.CO;2>CrossRefGoogle Scholar
Chester, F. M. & Logan, J. M. 1987: Composite planar fabric of gouge from the Punchbowl Fault, California. Journal of Structural Geology, 9, 621–34.CrossRefGoogle Scholar
Chinner, G. A. 1961: The origin of sillimanite in Glen Clova, Angus. Journal of Petrology, 2, 312–23.CrossRefGoogle Scholar
Chopra, P. N. & Paterson, M. S. 1981: The experimental deformation of dunite. Tectonophysics, 78, 453–73.CrossRefGoogle Scholar
Choukroune, P. & Gapais, D. 1983: Strain pattern in the Aar Granite (Central Alps): Orthogneiss developed by bulk inhomogeneous flattening. Journal of Structural Geology, 5, 411–8.CrossRefGoogle Scholar
Choukroune, P., Gapais, D. & Merle, O. 1987: Shear criteria and structural symmetry. Journal of Structural Geology, 9, 525–30.CrossRefGoogle Scholar
Christie, J. M. 1960: Mylonitic rocks of the Moine thrust zone in the Assynt region, northwest Scotland. Transactions of the Edinburgh Geological Society, 18, 7993.CrossRefGoogle Scholar
Christie, J. M. 1963: The Moine thrust zone in the Assynt region, northwest Scotland. University of California Publications in Geological Sciences, 40, 345419.Google Scholar
Christie, J. M., Griggs, D. T. & Carter, N. L. 1964: Experimental evidence of basal slip in quartz. Journal of Geology, 72, 734–56.CrossRefGoogle Scholar
Christoffersen, R. & Kronenberg, A. K. 1993: Dislocation interactions in experimentally deformed biotite. Journal of Structural Geology, 15, 1077–95.CrossRefGoogle Scholar
Cihan, M. 2002: The pitfalls of eologying rocks perpendicular to foliations and lineations in the matrix. Geological Society of Australia Abstracts, 67, 162.Google Scholar
Clark, A. H., Pearce, T. H., Roeder, P. L. & Wolfson, I. 1986: Oscillatory zoning and other microstructures in magmatic olivine and augite: Nomarski interference contrast observations on etched polished surfaces. American Mineralogist, 71, 734–41.Google Scholar
Clark, B. R. & Kelly, W. C. 1973: Sulfide deformation studies: I. Experimental deformation of pyrrhotite and sphalerite to 2000 bars and 500°C. Economic Geology, 68, 332–52.Google Scholar
Clark, B. R. & Price, F. R. & Kelly, W. C. 1977: Effects of annealing on deformation textures in galena. Contributions to Mineralogy and Petrology, 64, 149–65.CrossRefGoogle Scholar
Clark, M. B. & Fisher, D. M. 1995: Strain partitioning and crack-seal growth of chlorite-muscovite aggregates during progressive noncoaxial strain: An example form the slate belt of Taiwan. Journal of Structural Geology, 17, 461–74.Google Scholar
Clarke, D. B. 1992: Granitoid Rocks. London: Chapman & Hall.Google Scholar
Clarke, D. B. & Clarke, G. K. C. 1998: Layered granodiorites at Chebutco Head, South Mountain batholith, Nova Scotia. Journal of Structural Geology, 20, 1305–24.CrossRefGoogle Scholar
Clarke, G. L., Daczko, N. R. & Nockolds, C. 2001: A method for applying matrix corrections to X-ray intensity maps using the Bence-Albee algorithm and Matlab. Journal of Metamorphic Geology, 19, 635–44.CrossRefGoogle Scholar
Clarke, G. L. & Powell, R. 1991: Decompressional coronas and symplectites in granulites of the Musgrave Complex, central Australia. Journal of Metamorphic Geology, 9, 441–50.CrossRefGoogle Scholar
Clarke, G. L., Powell, R. & Vernon, R. H. 1995: Reaction relationships during retrograde metamorphism at Olary, South Australia. Journal of Metamorphic Geology, 13, 715–26.CrossRefGoogle Scholar
Clechenko, C. C. & Valley, J. W. 2003: Oscillatory zoning in garnet from the Willsboro wollastonite skarn, Adirondack Mountains, New York: A record of shallow hydrothermal processes preserved in a granulite facies terrane. Journal of Metamorphic Geology, 21, 771–84.Google Scholar
Clemens, J. D. & Holness, M. B. 2000: Textural evolution and partial melting of arkose in a contact aureole: A case study and implications. Electronic Geosciences, 5:4.Google Scholar
Clemens, J. D. & Wall, V. J. 1981: Origin and crystallization of some peraluminous (S-type) granitic magmas. Canadian Mineralogist, 19, 111–31.Google Scholar
Cloos, E. 1936: Der Sierra Nevada Pluton in Californien. Neues Jahrbuch für Mineralogie, Geologie und Paläontologie Abhandlungen, 76, part B, 355450.Google Scholar
Clynne, M. A. 1999: A complex magma mixing origin for rocks erupted in 1915, Lassen Peak, California. Journal of Petrology, 40, 105–32.CrossRefGoogle Scholar
Cobbold, P. R. 1977: Description and origin of banded deformation structures. I. Regional strain, local perturbations, and deformation bands. Canadian Journal of Earth Sciences, 14, 1721–31.Google Scholar
Coble, R. L. & Burke, J. E. 1963: Sintering in ceramics. Progress in Ceramic Science, 4, 197251.Google Scholar
Cole, J. W., Thordarson, T. & Burt, R. M. 2000: Magma Origin and Evolution of White Island (Whakaari) Volcano, Bay of Plenty, New Zealand. Journal of Petrology, 41, 867–95.CrossRefGoogle Scholar
Collins, L. G. 1988: Hydrothermal Differentiation and Myrmekite – A Clue to Many Geologic Puzzles. Athens: Theophrastus.Google Scholar
Collins, W. J. 2002: Hot orogens, tectonic switching, and creation of continental crust. Geology, 30, 535–8.2.0.CO;2>CrossRefGoogle Scholar
Collins, W. J., Flood, R. H., Vernon, R. H. & Shaw, S. E. 1989: The Wuluma granite, Arunta block, central Australia: An example of in situ, near-isochemical granite formation in a granulite-facies terrane. Lithos, 23, 6383.CrossRefGoogle Scholar
Collins, W. J. & Sawyer, E. 1996: Pervasive granitoid magma transfer through the lower-middle crust during non-coaxial compressional deformation. Journal of Metamorphic Geology, 14, 565–79.Google Scholar
Collins, W. J. & Teyssier, C. 1989: Crustal scale ductile fault systems in the Arunta Inlier, central Australia. Tectonophysics, 158, 4966.CrossRefGoogle Scholar
Collins, W. J. & Vernon, R. H. 1991: Orogeny associated with anticlockwise P-T-t paths: Evidence from low-P, high-T metamorphic terranes in the Arunta Inlier, central Australia. Geology, 19, 835–8.2.3.CO;2>CrossRefGoogle Scholar
Collins, W. J., Vernon, R. H. & Clarke, G. L. 1991: Discrete Proterozoic structural terranes associated with low-P, high-T metamorphism, Anmatjira Range, Arunta Inlier, central Australia: Tectonic implications. Journal of Structural Geology, 13, 1157–71.CrossRefGoogle Scholar
Collins, W. J., Wiebe, R. A., Healy, B. & Richards, S. W. 2006: Replenishment, crystal accumulation and floor aggradation in the megacrystic Kameruka Suite, Australia. Journal of Petrology, 47, 2073–104.CrossRefGoogle Scholar
Connolly, J. A. D. 1997: Devolatilization-generated fluid pressure and deformation-propagated fluid flow during prograde regional metamorphism. Journal of Geophysical Research, 102, 18149–73.CrossRefGoogle Scholar
Connolly, J. A. D., Holness, M. B., Rubie, D. C. & Rushmer, T. 1997: Reaction-induced microcracking; An experimental investigation of a mechanism for enhancing anatectic melt extraction. Geology, 25, 591–4.2.3.CO;2>CrossRefGoogle Scholar
Coombs, D. S. 1954: The nature and alteration of some Triassic sediments from Southland, New Zealand. Transactions of the Geological Society of New Zealand, 82, 65109.Google Scholar
Cooper, R. F. & Kohlstedt, D. L. 1984: Sintering of olivine and olivine-basalt aggregates. Physics and Chemistry of Minerals, 11, 516.CrossRefGoogle Scholar
Corbett, C. G. & Phillips, G. N. 1981: Regional retrograde metamorphism of a high grade terrain: The Willyama Complex, Broken Hill, Australia. Lithos, 14, 5973.CrossRefGoogle Scholar
Corrigan, G. M. 1982: The crystal morphology of plagioclase feldspar produced during isothermal supercooling and constant rate cooling experiments. Mineralogical Magazine, 46, 433–9.CrossRefGoogle Scholar
Cosgrove, J. W. 1976: The formation of crenulation cleavage. Journal of the Geological Society of London, 132, 155–78.CrossRefGoogle Scholar
Cottrell, A. 1975: An Introduction to Metallurgy (2nd ed.). London: Edward Arnold.Google Scholar
Couderc, J.-J. & Hennig-Michaeli, C. 1989: TEM study of mechanical twinning in experimentally deformed chalcopyrite (CuFeS2) single crystals, Part I: (112) deformation twins. European Journal of Mineralogy, 1, 275–93.CrossRefGoogle Scholar
Covey-Crump, S. J. & Rutter, E. H. 1989: Thermally induced grain growth of calcite marbles on Naxos Island, Greece. Contributions to Mineralogy and Petrology, 101, 6986.CrossRefGoogle Scholar
Cox, R. A., Dempster, T. J., Bell, B. R. & Rogers, G. 1996: Crystallization of the Shap Granite: Evidence from zoned K-feldspar megacrysts. Journal of the Geological Society of London, 153, 625–35.CrossRefGoogle Scholar
Cox, S. F. 1986: High-temperature creep of single crystal galena (PbS). In: Hobbs, B. E. & Heard, H. C. (eds.): Mineral and Rock Deformation: Laboratory Studies (The Paterson Volume). Geophysical Monograph, vol. 36. Washington, DC: American Geophysical Union, 7398.CrossRefGoogle Scholar
Cox, S. F. 1987a: Flow mechanisms in sulphide minerals. Ore Geology Reviews, 2, 133–71.CrossRefGoogle Scholar
Cox, S. F. 1987b: Antitaxial crack-seal vein microstructures and their relationship to displacement paths. Journal of Structural Geology, 9, 779–87.CrossRefGoogle Scholar
Cox, S. F. & Etheridge, M. A. 1982: Fiber development in deformed hydrothermally altered acid volcanic rock. In: Borradaile, G. J., Bayly, M. B. & Powell, C. McA. (eds.): Atlas of Deformational and Metamorphic Rock Fabrics. New York, NY: Springer, 304–5.Google Scholar
Cox, S. F. & Etheridge, M. A. 1983: Crack-seal fibre growth mechanisms and their significance in the development of oriented layer silicate microstructures. Tectonophysics, 92, 147–70.CrossRefGoogle Scholar
Cox, S. F. & Etheridge, M. A. 1984: Deformation microfabric development in chalcopyrite in fault zones. Mt. Lyell, Tasmania. Journal of Structural Geology, 6, 167–82.CrossRefGoogle Scholar
Cox, S. F., Etheridge, M. A. & Hobbs, B. E. 1981: The experimental deformation of polycrystalline and single crystal pyrite. Economic Geology, 76, 2105–17.CrossRefGoogle Scholar
Craig, J. R. 1990a: Textures of the ore minerals. In: Jambor, J. L. & Vaughan, D. J. (eds.): Advanced Microscopic Studies of Ore Minerals. Short Course Handbook, vol. 17. Quebec City: Mineralogical Association of Canada, 213–61.Google Scholar
Craig, J. R. 1990b: Ore textures and paragenetic studies – Some modern case histories and sources of comparative data. In: Jambor, J. L. & Vaughan, D. J. (eds.): Advanced Microscopic Studies of Ore Minerals. Short Course Handbook, vol. 17. Quebec City: Mineralogical Association of Canada, 263317.Google Scholar
Craig, J. R. & Vaughan, D. J. 1994: Ore Microscopy and Ore Petrography (2nd ed.). New York, NY: Wiley.Google Scholar
Craig, J. R., Vokes, F. M. & Simpson, C. 1991: Rotational fabrics in pyrite from Ducktown, Tennessee. Economic Geology, 86, 1737–46.CrossRefGoogle Scholar
Cross, C. W. 1891: Constitution and origin of spherulites in acid eruptive rocks. Bulletin of the Philosophical Society of Washington, 11, 411–44.Google Scholar
Crowley, J. L., Ghent, E. D., Carr, S. D., Simony, P. S. & Hamilton, M. A. 2000: Multiple thermotectonic events in a continuous metamorphic sequence, Mica Creek area, southeastern Canadian Cordillera. Geological Materials Research, 2 /6.Google Scholar
Cumbest, R. J., Drury, M. R., van Roermund, H. L. M. & Simpson, C. 1989: Dynamic recrystallization and chemical evolution of clinoamphibole from Senja, Norway. Contributions to Mineralogy and Petrology, 101, 339–49.CrossRefGoogle Scholar
Czamanske, G. K. & Moore, J. G. 1977: Composition and phase chemistry of sulfide globules in basalt from the Mid-Atlantic Ridge rift valley near 37°N lat. Bulletin of the Geological Society of America, 88, 587–99.2.0.CO;2>CrossRefGoogle Scholar
Daczko, N. R., Clarke, G. L. & Klepeis, K. A. 2002a: Kyanite-paragonite-bearing assemblages, northern Fiordland, New Zealand: Rapid cooling of the lower crustal root to a Cretaceous magmatic arc. Journal of Metamorphic Geology, 20, 887902.CrossRefGoogle Scholar
Daczko, N. R., Stevenson, J. A., Clarke, G. L. & Klepeis, K. A. 2002b: Successive hydration and dehydration of high-P mafic granofels involving clinopyroxene-kyanite symplectites, Mt Daniel, Fiordland, New Zealand. Journal of Metamorphic Geology, 20, 669–82.CrossRefGoogle Scholar
Daines, M. J. & Kohlstedt, D. L. 1997: Influence of deformation on melt topology in peridotites. Journal of Geophysical Research, 102, 10257–71.CrossRefGoogle Scholar
Daniel, C. G. & Spear, F. S. 1998: Three-dimensional patterns of garnet nucleation and growth. Geology, 26, 503–6.2.3.CO;2>CrossRefGoogle Scholar
Daniel, C. G. & Spear, F. S. 1999: The clustered nucleation and growth processes of garnet in regional metamorphic rocks from north-west Connecticut, USA. Journal of Metamorphic Geology, 17, 503–20.Google Scholar
da Silva, S. L. 1989: Altiplano–Puna volcanic complex of the central Andes. Geology, 17, 1102–6.2.3.CO;2>CrossRefGoogle Scholar
Davidson, C., Rosenberg, C. L. & Schmid, S. M. 1996: Synmagmatic folding of the base of the Bergell pluton: Evidence from the western contact. Tectonophysics, 78, 585600.Google Scholar
Davidson, C., Schmid, S. M. & Hollister, L. S. 1994: Role of melt during deformation in the deep crust. Terra Nova, 6, 133–42.CrossRefGoogle Scholar
Davidson, J. P., Morgan, D. J. & Charlier, B. L. A. 2007: Isotopic microsampling of magmatic rocks. Elements, 3, 253–9.CrossRefGoogle Scholar
Davidson, J. P., Morgan, D. J., Charlier, B. L. A., Harlou, R. & Hora, J. M. 2007: Microsampling and isotopic analysis of igneous rocks: Implications for the study of magmatic systems. Annual Review of Earth and Planetary Sciences, 35, 273311.CrossRefGoogle Scholar
Davidson, J. P., De Silva, S. L., Holden, P. & Halliday, A. N. 1990. Small-scale disequilibrium in a magmatic inclusion and its more silicic host. Journal of Geophysical Research, 95, 17, 661–75.CrossRefGoogle Scholar
Davidson, J. P., Morgan, D. J., Charlier, B. L. A., Harlou, R. & Hora, J. M. 2007b: Microsampling and isotopic analysis of igneous rocks: Implications for the study of magmatic systems. Annual Review of Earth and Planetary Sciences, 35, 273311.CrossRefGoogle Scholar
Davidson, J. P. & Tepley, F. J. 1997: Recharge in volcanic systems: Evidence from isotope profiles of phenocrysts. Science, 275, 826–9.CrossRefGoogle ScholarPubMed
Davidson, J. P., Tepley, F. J. & Knesel, K. M. 1998: Crystal isotope stratigraphy: A method for constraining magma differentiation pathways. EOS, 79, 185–93.Google Scholar
Davidson, J. P., Tepley, F. J., Palacz, Z. & Meffan-Main, S. 2001: Magma recharge, contamination and residence times revealed by in situ laser ablation analysis of feldspar in volcanic rocks. Earth and Planetary Science Letters, 184, 427–42.CrossRefGoogle Scholar
Dawson, J. B. & Reid, A. M. 1970: A pyroxene-ilmenite intergrowth from the Monastery Mine, South Africa. Contributions to Mineralogy and Petrology, 26, 296301.CrossRefGoogle Scholar
Dawson, J. W. 1859: On the microscopic structure of some Canadian limestones. Canadian Naturalist and Geologist, 4, 161–9.Google Scholar
De, A. 1974: Silicate liquid immiscibility in the Deccan traps and its petrogenetic significance. Bulletin of the Geological Society of America, 85, 471–4.2.0.CO;2>CrossRefGoogle Scholar
Debat, P., Soula, J.-C., Kubin, L. & Vidal, J.-L. 1978: Optical studies of natural deformation microstructures in feldspars (gneiss and pegmatites from Occitania, southern France). Lithos, 11, 133–45.CrossRefGoogle Scholar
de Bresser, J. H. P., ter Heege, J. H. & Spiers, C. J. 2001: Grain size reduction by dynamic recrystallization: Can it result in major rheological weakening? International Journal of Earth Sciences (Geologische Rundschau), 90, 2845.CrossRefGoogle Scholar
Deer, W. A., Howie, R. A. & Zussman, J. 1992: An Introduction to the Rock-Forming Minerals (2nd ed.). Edinburgh: Longman.Google Scholar
Deering, C. D., Cole, J. W. & Vogel, T. A. 2011: Extraction of crystal-poor rhyolite from a hornblende-bearing intermediate mush: A case study of the caldera-forming Matahina eruption, Okataina volcanic complex. Contributions to Mineralogy and Petrology, 161, 129–51.Google Scholar
de Haas, G.-J. L. M., Nijland, T. G., Valbracht, P. J., Maijer, C., Verschure, R. & Andersen, T. 2002: Magmatic versus metamorphic origin of olivine-plagioclase coronas. Contributions to Mineralogy and Petrology, 143, 537–50.CrossRefGoogle Scholar
Dell’Angelo, L. N. & Tullis, J. 1988: Experimental deformation of partially melted granite aggregates. Journal of Metamorphic Geology, 6, 495515.CrossRefGoogle Scholar
Dell’Angelo, L. N. & Tullis, J. 1989: Fabric development in experimentally sheared quartzites. Tectonophysics, 169, 122.CrossRefGoogle Scholar
Dell’Angelo, L. N. & Tullis, J. 1996: Textural and mechanical evolution with progressive strain in experimentally deformed aplite. Tectonophysics, 256, 5782.CrossRefGoogle Scholar
Dell’Angelo, L. N., Tullis, J. & Yund, R. A. 1987: Transition from dislocation creep to melt-enhanced diffusion creep in fine-grained granitic aggregates. Tectonophysics, 139, 325–32.Google Scholar
Dempster, T. J., Jolivet, M., Tubrett, M. N. & Braithwaite, C. J. R. 2003: Magmatic zoning in apatite: A monitor of porosity and permeability change in granites. Contributions to Mineralogy and Petrology, 145, 568–77.CrossRefGoogle Scholar
Dempster, T. J. & Tanner, P. W. G. 1997: The biotite isograd, Central Pyrenees: A deformation-controlled reaction. Journal of Metamorphic Geology, 15, 531–48.CrossRefGoogle Scholar
den Brok, B. 1996: The effect of crystallographic orientation on pressure solution in quartzite. Journal of Structural Geology, 18, 859–60.CrossRefGoogle Scholar
den Brok, B., Zahid, M. & Passchier, C. 1998: Cataclastic solution creep of very soluble brittle salt as a rock analogue. Earth and Planetary Science Letters, 163, 8395.CrossRefGoogle Scholar
den Brok, S. W. J. 1992: An experimental investigation into the effect of water on the flow of quartzite. Geologica Utraiectina, 95.Google Scholar
den Brok, S. W. J. 1998: Effect of microcracking on pressure-solution strain rate: The Gratz grain-boundary model. Geology, 26, 915–8.Google Scholar
den Brok, S. W. J. & Spiers, C. J. 1991: Experimental evidence for water weakening of quartzite by microcracking plus solution-precipitation creep. Journal of the Geological Society of London, 147, 541–8.Google Scholar
Denison, C. & Carlson, W. D. 1997: Three-dimensional quantitative textural analysis of metamorphic rocks using high-resolution computed X-ray tomography: Part II. Application to natural samples. Journal of Metamorphic Geology, 15, 4557.CrossRefGoogle Scholar
Denison, C. Carlson, W. D. & Ketcham, R. A. 1997: Three-dimensional quantitative textural analysis of metamorphic rocks using high-resolution computed X-ray tomography: Part I. Methods and techniques. Journal of Metamorphic Geology, 15, 2944.CrossRefGoogle Scholar
den Tex, E. 1963: A commentary on the correlation of metamorphism and deformation in space and time. Geologie en Mijnbouw, 42, 170–6.Google Scholar
den Tex, E. 1969: Origin of ultramafic rocks, their tectonic setting and history: A contribution to the discussion of the paper “The Origin of Ultramafic Rocks” by P. J. Wyllie. Tectonophysics, 7, 457–88.Google Scholar
de Saint Blanquat, M. & Tikoff, B. 1997: Development of magmatic to solid-state fabrics during syntectonic emplacement of the Mono Creek granite, Sierra Nevada Batholith, California. In: Bouchez, J.-L., Stephens, W. E. & Hutton, D. E. (eds.): Granite: From Melt Segregation to Emplacement Fabrics. Dordrecht: Kluwer, 231–52.Google Scholar
Desborough, G. A., Anderson, A. T. & Wright, T. L. 1968: Mineralogy of sulfides from certain Hawaiian basalts. Economic Geology, 63, 636–44.CrossRefGoogle Scholar
de Silva, S. L., Davidson, J. P., Croudace, I. W & Escobar, A. (1993). Volcanological and petrological evolution of Volcan Tata Sabaya, SW Bolivia. Journal of Volcanology and Geothermal Research 55, 305–35.CrossRefGoogle Scholar
Dewers, T. & Ortoleva, P. 1990: Force of crystallization during the growth of siliceous concretions. Geology, 18, 204–7.2.3.CO;2>CrossRefGoogle Scholar
Dickey, J. S. 1973: A primary peridotite magma – Revisited: Olivine quench crystals in a peridotite lava. In: Shagam, R., Hargraves, R. B., Morgan, W. J., van Houten, F. B., Burk, C. A., Holland, H. D. & Hollister, L. C. (eds.): Studies in Earth and Space Sciences (Hess Volume). Geological Society of America Memoir, vol. 132. Geological Society of America, 289–97.Google Scholar
Dickson, F. W. 1996: Porphyroblasts of barium-zoned K-feldspar and quartz, Papoose Flat, Inyo Mountains, California, genesis and exploration implications. In: Cooper, A. R. & Fahey, P. L. (eds.): Geology and Ore Deposits of the American Cordillera. Reno: Geological Society of Nevada, 909–24.Google Scholar
Dickson, F. W. & Sabine, C. 1967: Barium zoned large K-feldspars in quartz monzonites of eastern and southeastern California (abstract). Geological Society of America Special Paper, 115, 323.Google Scholar
Didier, J. 1973: Granites and Their Enclaves. Amsterdam: Elsevier.Google Scholar
Didier, J. & Barbarin, B. (eds.) 1991: Enclaves and Granite Petrology. Amsterdam: Elsevier.Google Scholar
Dipple, G. M., Wintsch, R. P. & Andrews, M. S. 1990: Identification of the scales of differential element mobility in a ductile fault zone. Journal of Metamorphic Geology, 8, 645–61.CrossRefGoogle Scholar
Dixon, J. & Williams, G. 1983: Reaction softening in mylonites from the Arnaboll thrust, Sutherland. Scottish Journal of Geology, 19, 157–68.CrossRefGoogle Scholar
D’Lemos, R. S., Kearsley, A. T., Pembroke, J. W., Watt, G. R. & Wright, P. 1997: Complex quartz growth histories in granite revealed by scanning cathodoluminescence techniques. Geological Magazine, 134, 549–52.Google Scholar
Dobbs, H. T., Peruzzo, L., Seno, F., Spiess, R. & Prior, D. J. 2003: Unraveling the Schneeberg garnet puzzle: A numerical model of multiple nucleation and coalescence. Contributions to Mineralogy and Petrology, 146, 19.CrossRefGoogle Scholar
Doherty, R. 1975: Dendritic growth. In: Pamplin, B. R. (ed.): Crystal Growth. Oxford: Pergamon, 576600.Google Scholar
Donaldson, C. H. 1974: Olivine crystal types in harrisitic rocks of the Rhum pluton and in Archean spinifex rocks. Bulletin of the Geological Society of America, 85, 1721–6.2.0.CO;2>CrossRefGoogle Scholar
Donaldson, C. H. 1976: An experimental investigation of olivine morphology. Contributions to Mineralogy and Petrology, 57, 187213.CrossRefGoogle Scholar
Donaldson, C. H. 1977: Laboratory duplication of comb layering in the Rhum pluton. Mineralogical Magazine, 41, 323–36.CrossRefGoogle Scholar
Donaldson, C. H. 1979: An experimental investigation of the delay in nucleation of olivine in mafic magmas. Contributions to Mineralogy and Petrology, 69, 2132.CrossRefGoogle Scholar
Donaldson, C. H. 1985: A comment on crystal shapes resulting from dissolution in magmas. Mineralogical Magazine, 49, 129–32.CrossRefGoogle Scholar
Donaldson, C. H., Drever, H. I. & Johnston, R. 1976: Supercooling on the lunar surface: A review of analogue information. Philosophical Transactions of the Royal Society of London, A285, 207–17.Google Scholar
Donaldson, C. H. & Henderson, C. M. B. 1988: A new interpretation of round embayments in quartz crystals. Mineralogical Magazine, 52, 2733.CrossRefGoogle Scholar
Dornbusch, H.-J., Weber, K. & Skrotzki, W. 1994: Development of microstructure and texture in high-temperature mylonites from the Ivrea Zone. In: Bunge, H. J., Siegesmund, S., Skrotzki, W. & Weber, K. (eds.): Textures of Geological Materials. Oberursel: DGM Informationsgesellschaft-Verlag, 187201.Google Scholar
Dostal, J. 2008: Komatiites. Geoscience Canada, 35, 2131.Google Scholar
Doukhan, J.-C., Doukhan, N., Koch, P. S. & Christie, J. M. 1985: Transmission electron microscopy of lattice defects in Al2SiO5 polymorphs and plasticity induced polymorphic transformations. Bulletin de Minéralogie, 108, 91–6.CrossRefGoogle Scholar
Doukhan, N., Sautter, V. & Doukhan, J.-C. 1994: Ultradeep, ultramafic mantle xenoliths – Transmission electron microscopy preliminary results. Physics of the Earth and Planetary Interiors, 82, 195207.CrossRefGoogle Scholar
Doukhan, J.-C. & Trepied, L. 1985: Plastic deformation of quartz single crystals. Bulletin de Minéralogie, 108, 97123.CrossRefGoogle Scholar
Downes, M. J. 1974: Sector and oscillatory zoning in calcic augites from M. Etna, Sicily. Contributions to Mineralogy and Petrology, 47, 187–96.CrossRefGoogle Scholar
Dowty, E. 1976a: Crystal structure and crystal growth: I. The influence of internal structure on morphology. American Mineralogist, 61, 448–59.Google Scholar
Dowty, E. 1976b: Crystal structure and crystal growth: II. Sector zoning in minerals. American Mineralogist, 61, 460–69.Google Scholar
Dowty, E. 1980a: Synneusis reconsidered. Contributions to Mineralogy and Petrology, 74, 7584.CrossRefGoogle Scholar
Dowty, E. 1980b: Crystal growth and nucleation theory and the numerical simulation of igneous crystallization. In: Hargraves, R. B. (ed.): Physics of Magmatic Processes. Princeton, NJ: Princeton University Press, 419–85.Google Scholar
Dowty, E., Keil, K. & Prinz, M. 1974: Lunar pyroxene-phyric basalts: Crystallization under supercooled conditions. Journal of Petrology, 15, 419–53.CrossRefGoogle Scholar
Drever, H. I. & Johnston, R. 1957: Crystal growth of olivine in magmas and melts. Transactions of the Royal Society of Edinburgh, 63, 289317.CrossRefGoogle Scholar
Drever, H. I. & Johnston, R. 1972: Metastable growth patterns in some terrestrial and lunar rocks. Meteoritics, 7, 327–40.CrossRefGoogle Scholar
Droop, G. T. R. 1984: Alpine metamorphism in the south-east Tauern window. Journal of Metamorphic Geology, 3, 371402.CrossRefGoogle Scholar
Droop, G. T. R. & Bucher-Nurminen, K. 1984: Reaction textures and metamorphic evolution of sapphirine-bearing granulites from the Gruf Complex, Italian Central Alps. Journal of Petrology, 25, 766803.CrossRefGoogle Scholar
Druitt, T. H. & Bacon, C. R. (1989). Petrology of the zoned calcalkaline magma chamber of Mount Mazama, Crater, Lake, Oregon. Contributions to Mineralogy and Petrology 101, 245–59.CrossRefGoogle Scholar
Drüppel, K., von Seckendorff, V. & Okrusch, M. 2001: Subsolidus reaction textures in the anorthositic rocks of the southern part of the Kunene Intrusive Complex, NW Namibia. European Journal of Mineralogy, 13, 289309.CrossRefGoogle Scholar
Drury, M. R. 1993: Deformation lamellae in metals and minerals. In: Boland, J. N. & Fitz Gerald, J. D. (eds.): Defects and Processes in the Solid State: Geoscience Applications. The McLaren Volume. Amsterdam: Elsevier, 195212.Google Scholar
Drury, M. R. & Humphreys, F. J. 1986: The development of microstructure in Al-5% Mg during high temperature deformation. Acta Metallurgica, 34, 2259–71.CrossRefGoogle Scholar
Drury, M. R. & Humphreys, F. J. 1988: Microstructural shear criteria associated with grain-boundary sliding during ductile deformation. Journal of Structural Geology, 10, 83–9.CrossRefGoogle Scholar
Drury, M. R., Humphreys, F. J. & White, S. H. 1985: Large strain deformation studies using polycrystalline magnesium as a rock analogue. Part II: Dynamic recrystallization mechanisms at high temperature. Physics of the Earth and Planetary Interiors, 40, 208–22.CrossRefGoogle Scholar
Drury, M. R. & Urai, J. L. 1990: Deformation-related recrystallization processes. Tectonophysics, 172, 235–53.CrossRefGoogle Scholar
Drury, M. R. & van Roermund, H. L. M. 1989: Fluid assisted recrystallization in upper mantle peridotite xenoliths from kimberlites. Journal of Petrology, 30, 133–52.CrossRefGoogle Scholar
du Bray, E. A., Bacon, C. R., John, D. A., Wooden, J. L. & Mazdab, F. K. 2011: Episodic intrusion, internal differentiation, and hydrothermal alteration of the Miocene Tatoosh intrusive suite south of Mount Rainier, Washington. Bulletin of the Geological Society of America, 123, 534–61.CrossRefGoogle Scholar
Dunham, A. C. 1965: The nature and origin of the groundmass texture in felsites and granophyres from Rhum, Inverness-shire. Geological Magazine, 102, 822.CrossRefGoogle Scholar
Durazzo, A. & Taylor, L. A. 1982: Experimental exsolution textures in the system bornite-chalcopyrite: Genetic implications concerning natural ores. Mineralium Deposita, 17, 7997.Google Scholar
Durney, D. W. 1972: Solution-transfer, an important geological deformation mechanism. Nature, 235, 315–17.CrossRefGoogle Scholar
Durney, D. W. & Kisch, H. J. 1994: A field classification and intensity scale for first-generation cleavages. AGSO Journal of Australian Geology and Geophysics, 15, 257–95.Google Scholar
Durney, D. W. & Ramsay, J. G. 1973: Incremental strains measured by syntectonic crystal growths. In: de Jong, K. A. & Scholten, R. (eds.): Gravity and Tectonics. New York, NY: Wiley, 6796.Google Scholar
Eberl, D. D., Kile, D. E. & Drits, V. A. 2002: On geological interpretations of crystal size distributions: Constant vs. proportionate growth. American Mineralogist, 87, 1235–41.CrossRefGoogle Scholar
Echeverría, L. M. 1980: Tertiary or Mesozoic komatiites from Gorgona Island, Colombia: Field relations and geochemistry. Contributions to Mineralogy and Petrology, 73, 253–66.CrossRefGoogle Scholar
Edington, J. W., Melton, K. N. & Cutler, C. P. 1976: Superplasticity. Progress in Materials Science, 21, 63170.CrossRefGoogle Scholar
Edwards, A. B. 1947: Textures of the Ore Minerals and Their Significance. Melbourne: Australasian Institute of Mining and Metallurgy.Google Scholar
Edwards, A. B. 1949: Natural ex-solution intergrowths of magnetite and hematite. American Mineralogist, 34, 759–61.Google Scholar
Edwards, A. B. 1952: The ore minerals and their textures. Journal and Proceedings of the Royal Society of New South Wales, 85, 2646.Google Scholar
Eggleton, R. A. 1979: The ordering path for igneous K-feldspar megacrysts. American Mineralogist, 64, 906–11.Google Scholar
Eggleton, R. A. & Buseck, P. R. 1980: The orthoclase-microcline inversion: A high-resolution TEM study and strain analysis. Contributions to Mineralogy and Petrology, 74, 123–33.CrossRefGoogle Scholar
Ehrreich, A. L. & Winchell, R. E. 1969: Rapakivi texture in rhyolite. Nature, 224, 904–5.CrossRefGoogle Scholar
Elders, W. A. 1968: Mantled feldspars from the granites of Wisconsin. Journal of Geology, 76, 3749.CrossRefGoogle Scholar
Eldridge, C. S., Bourcier, W. L., Ohmoto, H. & Barnes, H. L. 1988: Hydrothermal inoculation and incubation of the chalcopyrite disease in sphalerite. Economic Geology, 83, 978–89.CrossRefGoogle Scholar
Elliot, D. 1972: Deformation paths in structural geology. Bulletin of the Geological Society of America, 83, 2621–38.Google Scholar
Elliott, M. T., Cheadle, M. J. & Jerram, D. A. 1997: On the identification of textural disequilibrium in rocks using dihedral angle measurements. Geology, 25, 355–8.2.3.CO;2>CrossRefGoogle Scholar
Ellis, B. S., Barry, T., Branney, M. J., Wolff, J. A., Bindeman, I., Wilson, R. & Bonnichsen, B. 2010: Petrologic constraints on the development of a large-volume, high temperature, silicic magma system: The Twin Falls eruptive centre, central Snake River Plain. Lithos, 120, 475–89.CrossRefGoogle Scholar
Ellis, D. J. & Obata, M. 1992: Migmatite and melt segregation at Cooma, New South Wales. Transactions of the Royal Society of Edinburgh: Earth Sciences, 83, 95106.CrossRefGoogle Scholar
Ellis, M. A. 1986: The determination of progressive deformation histories from antitaxial syntectonic growth fibres. Journal of Structural Geology, 8, 701–9.CrossRefGoogle Scholar
Engelder, J. T. 1974: Cataclasis and the generation of fault gouge. Bulletin of the Geological Society of America, 85, 1515–22.2.0.CO;2>CrossRefGoogle Scholar
Erambert, M. & Austrheim, H. 1993: The effect of fluid and deformation on zoning and inclusion patterns in polymetamorphic garnets. Contributions to Mineralogy and Petrology, 115, 204–14.CrossRefGoogle Scholar
Erdmann, S., Jamieson, R. A. & MacDonald, M. A. 2009: Evaluating the origin of garnet, cordierite, and biotite in granitic rocks: A case study from the South Mountain Batholith, Nova Scotia. Journal of Petrology, 50, 1477–503.CrossRefGoogle Scholar
Eriksson, S. C. 1985: Oscillatory zoning in clinopyroxenes from the Guide Copper Mine, Phalaborwa, South Africa. American Mineralogist, 70, 74–9.Google Scholar
Erslev, E. A. 1998: Limited, localized nonvolatile element flux and volume change in Appalachian slates. Bulletin of the Geological Society of America, 110, 900–15.2.3.CO;2>CrossRefGoogle Scholar
Erslev, E. & Mann, C. 1984: Pressure solution shortening in the Martinsburg Formation, New Jersey. Proceedings of the Pennsylvania Academy of Sciences, 58, 84–8.Google Scholar
Espenshade, G. H. & Potter, D. B. 1960: Kyanite, sillimanite and andalusite deposits of the southeastern States. United States Geological Survey Professional Paper, 336.Google Scholar
Etchecopar, A. & Malavieille, J. 1987: Computer models of pressure shadows: A method for strain measurement and shear-sense determination. Journal of Structural Geology, 9, 667–77.CrossRefGoogle Scholar
Etheridge, M. A. 1975: Deformation and recrystallization of orthopyroxene from the Giles Complex, central Australia. Tectonophysics, 25, 87114.CrossRefGoogle Scholar
Etheridge, M. A. 1983: Differential stress magnitudes during regional deformation and metamorphism: Upper bound imposed by tensile fracturing. Geology, 11, 231–4.2.0.CO;2>CrossRefGoogle Scholar
Etheridge, M. A. & Hobbs, B. E. 1974: Chemical and deformational controls on recrystallization of mica. Contributions to Mineralogy and Petrology, 43, 111–24.CrossRefGoogle Scholar
Etheridge, M. A., Hobbs, B. E. & Paterson, M. S. 1973: Experimental deformation of single crystals of biotite. Contributions to Mineralogy and Petrology, 38, 2136.CrossRefGoogle Scholar
Etheridge, M. A. & Lee, M. F. 1975: Microstructure of slate from Lady Loretta, Queensland, Australia. Bulletin of the Geological Society of America, 86, 1322.2.0.CO;2>CrossRefGoogle Scholar
Etheridge, M. A. & Vernon, R. H. 1981: A deformed polymictic conglomerate – The influence of grain size and composition on the mechanism and rate of deformation. Tectonophysics, 79, 237–54.CrossRefGoogle Scholar
Etheridge, M. A., Wall, V. J., Cox, S. F. & Vernon, R. H. 1984: High fluid pressures during regional metamorphism and deformation. Journal of Geophysical Research, 89, 4344–58.CrossRefGoogle Scholar
Etheridge, M. A., Wall, V. J. & Vernon, R. H. 1983: The role of the fluid phase during regional metamorphism and deformation. Journal of Metamorphic Geology, 1, 205–26.CrossRefGoogle Scholar
Etheridge, M. A. & Wilkie, J. C. 1979: Grain size reduction, grain boundary sliding and the flow strength of mylonites. Tectonophysics, 58, 159–78.Google Scholar
Evans, B. W. & Berti, J. W. 1986: A revised metamorphic history for the Chiwaukum Schist, Washington Cascades. Geology, 14, 695–98.2.0.CO;2>CrossRefGoogle Scholar
Evans, J. P. 1988: Deformation mechanisms in granitic rocks at shallow crustal levels. Journal of Structural Geology, 10, 437–44.CrossRefGoogle Scholar
Evans, J. P. 1990: Textures, deformation mechanisms, and the role of fluids in the cataclastic deformation of granitic rocks. In: Knipe, R. J. & Rutter, E. H. (eds.): Deformation Mechanisms, Rheology and Tectonics. Special Paper, vol. 54. Geological Society of London, 2939.Google Scholar
Evans, O. C. & Hanson, G. N. 1993: Accessory-mineral fractionation of rare-earth element (REE) abundances in granitic rocks. Chemical Geology, 110, 6993.CrossRefGoogle Scholar
Ewart, A. 1971: Chemical changes accompanying spherulitic crystallization in rhyolitic lavas, Central Volcanic Region, New Zealand. Mineralogical Magazine, 38, 424–34.CrossRefGoogle Scholar
Fagan, R. A. 1979: Deformation, Metamorphism and Anatexis of an Early Palaeozoic Flysch Sequence in Northeastern Victoria. PhD thesis, University of New England, Australia.Google Scholar
Fairbairn, H. W. 1942: Structural Petrology of Deformed Rocks. Cambridge, MA: Addison-Wesley.Google Scholar
Faure, F., Arndt, N. & Libourel, G. 2006: Formation of spinifex texture in komatiites: An experimental study. Journal of Petrology, 47, 1591–610.CrossRefGoogle Scholar
Faure, F., Trolliard, G., Nicollet, C. & Montel, J.-M. 2003a: A developmental model of olivine morphology as a function of the cooling rate and the degree of undercooling. Contributions to Mineralogy and Petrology, 145, 251–63.CrossRefGoogle Scholar
Faure, F., Trolliard, G. & Soulestin, B. 2003b: TEM investigation of forsterite dendrites. American Mineralogist, 88, 1241–50.Google Scholar
Féménias, O., Mercier, J.-C., Nkono, C., Diot, H., Berza, T., Tatu, M. & Demaiffe, D. 2006: Calcic amphibole growth and compositions in calc-alkaline magmas: Evidence from the Motru Dike Swarm (Southern Carpathians, Romania). American Mineralogist, 91, 7381.CrossRefGoogle Scholar
Fenn, P. M. 1974: Nucleation and growth of alkali feldspars from a melt. In: MacKenzie, W. S. & Zussman, J. (eds.): The Feldspars. Manchester: Manchester University Press, 360–1.Google Scholar
Fenn, P. M. 1977: The nucleation and growth of alkali feldspars from hydrous melts. Canadian Mineralogist, 15, 135–61.Google Scholar
Fenn, P. M. 1986: On the origin of graphic granite. American Mineralogist, 71, 325–30.Google Scholar
Fenner, C. N. 1938: Contact relations between rhyolite and basalt on Gardiner River, Yellowstone Park. Bulletin of the Geological Society of America, 49, 1441–84.CrossRefGoogle Scholar
Fenner, C. N. 1944: Rhyolite-basalt complex on Gardiner River, Yellowstone Park, Wyoming. Bulletin of the Geological Society of America, 55, 1081–96.CrossRefGoogle Scholar
Ferguson, C. C. & Harte, B. 1975: Textural patterns at porphyroblast margins and their use in determining the time relations of deformation and crystallization. Geological Magazine, 112, 467–80.CrossRef