Works about NEPHELINITE
Results: 30
Basanite–nephelinite suite from early Kilauea: carbonated melts of phlogopite–garnet peridotite at Hawaii’s leading magmatic edge.
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- Contributions to Mineralogy & Petrology, 2009, v. 158, n. 6, p. 803, doi. 10.1007/s00410-009-0411-8
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Liquid immiscibility between nephelinite and carbonatite from 1.0 to 2.5 GPa compared with mantle...
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- Contributions to Mineralogy & Petrology, 1997, v. 127, n. 1/2, p. 1, doi. 10.1007/s004100050261
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Indirect crustal contamination: Evidence from isotopic and chemical disequilibria in minerals...
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- Contributions to Mineralogy & Petrology, 1996, v. 125, n. 4, p. 277, doi. 10.1007/s004100050222
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Volcanology, geochemistry and age of the Lausitz Volcanic Field.
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- International Journal of Earth Sciences, 2015, v. 104, n. 8, p. 2057, doi. 10.1007/s00531-015-1165-3
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Volcanism at the Edge of the Hawaiian Plume: Petrogenesis of Submarine Alkalic Lavas from the North Arch Volcanic Field.
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- Journal of Petrology, 2000, v. 41, n. 5, p. 667, doi. 10.1093/petrology/41.5.667
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The Petrology of a Melilite-Olivine Nephelinite from Hamada, SW Japan.
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- Journal of Petrology, 1999, v. 40, n. 4, p. 497, doi. 10.1093/petroj/40.4.497
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Peralkaline Nephelinite–Natrocarbonatite Relationships at Oldoinyo Lengai, Tanzania.
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- Journal of Petrology, 1998, v. 39, n. 11/12, p. 2077, doi. 10.1093/petroj/39.11-12.2077
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Nd and Sr Isotope Signatures of Fenites from Oldoinyo Lengai, Tanzania, and the Genetic Relationships between Nephelinites, Phonolites and Carbonatites.
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- Journal of Petrology, 1998, v. 39, n. 11/12, p. 1997, doi. 10.1093/petroj/39.11-12.1997
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Phase relations of a Carbonated High-CaO Nephelinite at 0.2 and 0.5 GPa.
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- Journal of Petrology, 1998, v. 39, n. 11/12, p. 2061, doi. 10.1093/petroj/39.11-12.2061
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Processes of Crustal Carbonatite Formation by Liquid Immiscibility and Differentiation, Elucidated by Model Systems.
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- Journal of Petrology, 1998, v. 39, n. 11/12, p. 2005, doi. 10.1093/petroj/39.11-12.2005
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Nephelinitic to Tholeiitic Magma Generation in a Transtensional Tectonic Setting: an Integrated Model for the Iblean Volcanism, Sicily.
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- Journal of Petrology, 1998, v. 39, n. 9, p. 1547, doi. 10.1093/petroj/39.9.1547
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Petrogenesis of Carbonatite Magmas from Mantle to Crust, Constrained by the System CaO–(MgO + FeO*)–(Na2O + K2O)–(SiO2 + Al2O3 + TiO2)-CO2.
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- Journal of Petrology, 1998, v. 39, n. 3, p. 495, doi. 10.1093/petroj/39.3.495
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Post-depositional intrusion and extrusion through a scoria and spatter cone of fountain-fed nephelinite lavas (Las Herrerías volcano, Calatrava, Spain).
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- Bulletin of Volcanology, 2014, v. 76, n. 9, p. 1, doi. 10.1007/s00445-014-0860-4
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Fundamental changes in the activity of the natrocarbonatite volcano Oldoinyo Lengai, Tanzania.
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- Bulletin of Volcanology, 2010, v. 72, n. 8, p. 893, doi. 10.1007/s00445-010-0371-x
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Cenozoic Geology of the Northern Sperrgebiet, Namibia, accenting the Palaeogene.
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- Communications of the Geological Survey of Namibia, 2015, v. 16, p. 10
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Electrical Conductivity of CO<sub>2</sub> and H<sub>2</sub>O‐Bearing Nephelinitic Melt.
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- Journal of Geophysical Research. Solid Earth, 2021, v. 126, n. 4, p. 1, doi. 10.1029/2020JB019569
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Mesozoic rift magmatism in the North Sea region: Ar/Ar geochronology of Scanian basalts and geochemical constraints.
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- International Journal of Earth Sciences, 2011, v. 100, n. 4, p. 787, doi. 10.1007/s00531-010-0516-3
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Meimechites, porphyritic alkaline picrites, and melanephelinites of Siberia: Conditions of crystallization, parental magmas, and sources.
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- Geochemistry International, 2013, v. 51, n. 2, p. 109, doi. 10.1134/S0016702913020080
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Mineralogy and geochemistry of silicate dyke rocks associated with carbonatites from the Khibina complex (Kola, Russia)--isotope constraints on genesis and small-scale mantle sources.
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- Mineralogy & Petrology, 2004, v. 80, n. 3/4, p. 215, doi. 10.1007/s00710-003-0016-2
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New Mineral Names.
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- American Mineralogist, 2011, v. 96, n. 10, p. 1654, doi. 10.2138/am.2011.579
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Mineralogy and geochemistry of fenitized nephelinites of the Amba Dongar complex, Gujarat.
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- Journal of the Geological Society of India, 2015, v. 85, n. 1, p. 87, doi. 10.1007/s12594-015-0196-5
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The geology and petrochemistry of the Mashikiri Formation along the Olifants River Section, Kruger National Park, South Africa.
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- South African Journal of Geology, 2005, v. 108, n. 2, p. 173, doi. 10.2113/108.2.173
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Origin of Recent alkaline lavas by lithospheric thinning beneath the northern Canadian Cordillera.
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- Canadian Journal of Earth Sciences, 2005, v. 42, n. 6, p. 1073, doi. 10.1139/E04-092
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Magnetic properties of high-Ti basaltic rocks from the Krušné hory/Erzgebirge MTS. (Bohemia/Saxony), and their relation to mineral chemistry.
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- Studia Geophysica & Geodaetica, 2010, v. 54, n. 1, p. 77, doi. 10.1007/s11200-010-0004-z
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Reactive Infiltration of MORB-Eclogite-Derived Carbonated Silicate Melt into Fertile Peridotite at 3 GPa and Genesis of Alkalic Magmas.
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- Journal of Petrology, 2013, v. 54, n. 11, p. 2267, doi. 10.1093/petrology/egt047
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Asthenospheric Control of Melting Processes in a Monogenetic Basaltic System: a Case Study of the Auckland Volcanic Field, New Zealand.
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- Journal of Petrology, 2013, v. 54, n. 10, p. 2125, doi. 10.1093/petrology/egt043
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Lithospheric Mantle Modification during Cenozoic Rifting in Central Europe: Evidence from the Księginki Nephelinite (SW Poland) Xenolith Suite.
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- Journal of Petrology, 2011, v. 52, n. 11, p. 2107, doi. 10.1093/petrology/egr041
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Petrogenesis of Tertiary Mafic Alkaline Magmas in the Hocheifel, Germany.
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- Journal of Petrology, 2006, v. 47, n. 8, p. 1637, doi. 10.1093/petrology/egl023
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Melting of Amphibole-bearing Wehrlites: an Experimental Study on the Origin of Ultra-calcic Nepheline-normative Melts.
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- Journal of Petrology, 2006, v. 47, n. 3, p. 481, doi. 10.1093/petrology/egi083
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Petrology and Geochemistry of lavas from Sal Island: Implications for the variability of the Cape Verde magmatism.
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- Comunicaçõe Geológicas, 2010, v. 97, n. 1, p. 35
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