Zusammenfassung
Magmatische Gesteine (Magmatite, Eruptivgesteine, engl. igneous rocks) sind (im Wesentlichen) Kristallisationsprodukte aus einer natürlichen glutheißen silikatischen Schmelze, dem Magma. Gelegentlich kommen auch karbonatische, oxidische oder sulfidische Magmen in der Natur vor.
†Deceased
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Weiterführende Literatur
Best MG (2003) Igneous and metamorphic petrology, 2nd edn. Blackwell, Oxford
Best MG, Christiansen EH (2001) Igneous petrology. Blackwell, Malden, Mass., USA
Hersum TG, Marsh BD (2007) Igneous textures: On the kinetics behind the words. Elements 3:247–252
Jerram DA, Higgins MD (2007) 3D analysis of rock textures: Quantifying igneous microstructures. Elements 3:239–245
Le Maitre RW (ed) (1989) A classification of igneous rocks and glossary of terms. Blackwell Oxford
Le Maitre RW (ed) (1989) A classification of igneous rocks and glossary of terms. Blackwell Oxford
Wimmenauer W (1985) Petrographie der magmatischen und me tamorphen Gesteine. Enke, Stuttgart
Zitierte Literatur
Brögger WC (1921) Die Eruptivgesteine des Kristianiagebietes, IV. Das Fengebiet in Telemark, Norwegen. Vit Selsk Skr Mat Nat Klasse 1920, 1, 494 pp. Kristiania (Oslo)
Charlier BLA, Wilson CJN, Lowenstern JB, Blake S, van Calsteren PW, Davidson JP (2005) Magma generation at a large, hyperactive silicic volcano (Taupo, New Zealand) revealed by U-Th and U-Pb systematics in zircons. J Petrol 46:3–32
Defant MJ, Drummond MS (1990) Derivation of some modern arc magmas by melting of young subducted lithosphere. Nature 347:662–665
Hildreth W (2001) Unpublizierter Vortrag bei der Penrose Conference „Longevity and dynamics of rhyolithic magma systems“, cit. Charlier et al. (2005)
Jahn BMM, Glikson AY, Peucat J-J, Hickman AH (1981) REE geo chemistry and isotopic data of Archean silicic volcanics and grani toids from the Pilbara Block, western Australia: Implications for the early crustal evolution.Geochim Cosmochim Acta 45:1633–1652
Le Bas MJ, Le Maitre RW, Streckeisen A, Zanettin B (1986) A chem ical classification of volcanic rocks based on the total alkali– silica diagram. J Petrol 27:745–750
Le Bas MJ, Le Maitre RW, Woolley AR (1992) The construction of the total alkali–silica chemical classification of volcanic rocks. Mineral Petrol 46:1–22
Le Bas MJ, Streckeisen AL (1991) The IUGS systematics of igneous rocks. J Geol Soc London 148:825–833
Lorenz V (1998) Zur Vulkanologie von diamantführenden Kimberlit und Lamproit-Diatremen. Z Dt Gemmol Ges 47:5–30
Martin H, Chauvel C, Jahn BM (1983) Major and trace element geo chemistry and crustal evolution of granodioritic Archean rocks from eastern Finland. Precambrian Res 21:159–180
Martin H, Smithies RH, Rapp R, Moyen J-F, Champion D (2005) An overview of adakite, tonalite-trondhjemite-granodiorite (TTG), and sanukitoid: Relationships and some implications for crustal evolution. Lithos 79:1–24
Nockolds SR (1954) Average chemical composition of some igneous rocks. Bull Geol Soc America 65:1007–1032
Ronov AB, Yaroshevsky AA (1969) Chemical composition of the Earth’s crust. In: Hart PJ (ed) The Earth’s crust and upper mantle. Geophys Monogr 13:37–57. AGU, Washington/DC
Streckeisen AL (1967) Classification and nomenclature of igneous rocks (Final report of an inquiry). Neues Jahrb Mineral Abh 107:144–240
Streckeisen AL (1974). Classification and nomenclature of plutonic rocks. Geol Rundsch 63:773–788
Streckeisen AL (1976) To each plutonic rock its proper name. Earth Sci Rev 12:1–34
Streckeisen AL (1980).Classification and nomenclature of volcanic rocks, lamprophyres, carbonatites and melilitic rocks. IUGS Subcommis sion on the Systematics of Igneous Rocks. Geol Rundsch 69:194–207
Verma SP, Torres-Alvarado IS, Velasco-Tapia F (2003) A revised CIPW norm. Schweiz Mineral Petrogr Mitt 83:197–216
Woolley AR, Bergman, S, Edgar AD, Le Bas MJ, Mitchell, RH, Rock NMS, Scott Smith BH (1996) Classification of lamprophyres, lamproites, kimberlites, and the kalsilitic, melilitic, and leucitic rocks. Canad Mineral 34: 175–186
Yoder HS, Tilley CF (1962) Origin of basalt magmas: An experimental study of natural and synthetic rock systems. J Petrol 3:342–532
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Okrusch, M., Matthes †, S. (2010). Magmatische Gesteine (Magmatite). In: Mineralogie. Springer-Lehrbuch. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-78201-8_11
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DOI: https://doi.org/10.1007/978-3-540-78201-8_11
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