Petrogenesis of the Katangan mafic rocks, Zambia: Insights from lithogeochemistry, LIP classification, and petrological modeling
暂无分享,去创建一个
[1] D. Peate,et al. LIP printing: Use of immobile element proxies to characterize Large Igneous Provinces in the geologic record , 2021, Lithos.
[2] Â. Min,et al. Insights into the petrogenesis of low- and high-Ti basalts: Stratigraphy and geochemistry of four lava sequences from the central Paraná basin , 2017 .
[3] J. Moyen,et al. Contrasting petrogenesis of Mg–K and Fe–K granitoids and implications for post-collisional magmatism: Case study from the Late-Archean Matok pluton (Pietersburg block, South Africa) , 2014 .
[4] M. Aghazadeh,et al. The gabbro (shoshonitic)–monzonite–granodiorite association of Khankandi pluton, Alborz Mountains, NW Iran , 2010 .
[5] C. Langmuir,et al. A hydrous melting and fractionation model for mid‐ocean ridge basalts: Application to the Mid‐Atlantic Ridge near the Azores , 2004 .
[6] Mark S. Ghiorso,et al. The pMELTS: A revision of MELTS for improved calculation of phase relations and major element partitioning related to partial melting of the mantle to 3 GPa , 2002 .
[7] H. Furnes,et al. Flood Basalts of Vestfjella: Jurassic Magmatism Across an Archaean–Proterozoic Lithospheric Boundary in Dronning Maud Land, Antarctica , 2000 .
[8] P. Huntsman-Mapila,et al. Geochemistry and Tectonic Setting of Mafic Igneous Units in the Neoproterozoic Katangan Basin, Central Africa: Implications for Rodinia Break-up , 2000 .
[9] H. Porada,et al. Towards a new understanding of the Neoproterozoic-early palæozoic Lufilian and northern Zambezi belts in Zambia and the Democratic Republic of Congo , 2000 .
[10] H. Porada,et al. THOLEIITIC MAGMATISM ASSOCIATED WITH CONTINENTAL RIFTING IN THE LUFILIAN FOLD BELT OF ZAMBIA , 1999 .
[11] O. Eklund,et al. 1.8 Ga Svecofennian post-collisional shoshonitic magmatism in the Fennoscandian shield , 1998 .
[12] Paul D. Asimow,et al. Algorithmic modifications extending MELTS to calculate subsolidus phase relations , 1998 .
[13] Benren Zhang,et al. Chemical composition of the continental crust as revealed by studies in East China , 1998 .
[14] A. B. Kampunzu,et al. Tectonic Evolution of the Lufilian Arc (Central Africa Copper Belt) During Neoproterozoic Pan African Orogenesis , 1997 .
[15] S. Taylor,et al. The geochemical evolution of the continental crust , 1995 .
[16] Mark S. Ghiorso,et al. Chemical mass transfer in magmatic processes IV. A revised and internally consistent thermodynamic model for the interpolation and extrapolation of liquid-solid equilibria in magmatic systems at elevated temperatures and pressures , 1995 .
[17] A. B. Kampunzu,et al. Geochemistry and geotectonic setting of Late Proterozoic Katangan basic rocks from Kibambale in central Shaba (Zaire) , 1993 .
[18] D. Groves,et al. Geochemical discrimination between shoshonitic and potassic volcanic rocks in different tectonic settings: A pilot study , 1992 .
[19] A. Bonis,et al. Late proterozoic thrust tectonics, high-pressure metamorphism and uranium mineralization in the Domes Area, Lufilian Arc, Northwestern Zambia , 1992 .
[20] C. Dupuy,et al. Zr/hf fractionation in intraplate basaltic rocks: Carbonate metasomatism in the mantle source , 1992 .
[21] A. B. Kampunzu,et al. Basic magmatism and geotectonic evolution of the Pan African belt in central Africa: Evidence from the Katangan and West Congolian segments , 1991 .
[22] P. Rickwood. Boundary lines within petrologic diagrams which use oxides of major and minor elements , 1989 .
[23] M. A. Morrison,et al. Asthenospheric and lower-lithospheric mantle contributions to continental extensional magmatism: An example from the British Tertiary Province , 1988 .
[24] C. R. Ramsay,et al. Metamorphic patterns in Zambia and their bearing on problems of Zambian tectonic history , 1977 .
[25] T. Irvine,et al. A Guide to the Chemical Classification of the Common Volcanic Rocks , 1971 .
[26] R. Ernst,et al. Geochemical database of Proterozoic intraplate mafic magmatism in Canada , 2010 .
[27] Richard E. Ernst,et al. Revised definition of Large Igneous Provinces (LIPs) , 2008 .
[28] J. Pearce. Geochemical fingerprinting of oceanic basalts with applications to ophiolite classification and the search for Archean oceanic crust , 2008 .
[29] Rucheng Wang,et al. Mobility of high field strength elements (HFSE) in magmatic-, metamorphic-, and submarine-hydrothermal systems , 2005 .
[30] P. Renne,et al. On the ages of flood basalt events , 2003 .
[31] R. Key,et al. The western arm of the Lufilian Arc in NW Zambia and its potential for copper mineralization , 2001 .
[32] J. Fitton,et al. The Role of Lithospheric Mantle in the Generation of Late Cenozoic Basic Magmas in the Western United States , 1988 .
[33] A. Chivas,et al. Geochemical and isotopic systematics in carbonatites and implications for the evolution of ocean-island sources , 1988 .
[34] D. Kapenda,et al. Caractères et signification géotectonique des formations magmatiques basiques affleurant à Kimbabale (Shaba, Zaïre) , 1985 .
[35] Julian A. Pearce,et al. Trace element characteristics of lavas from destructive plate boundaries , 1982 .
[36] S. Taylor,et al. Geochemistry of eocene calc-alkaline volcanic rocks from the Kastamonu area, Northern Turkey , 1976 .
[37] J. Lefebvre,et al. Volcanisme et minéralisations diagénétiques dans le gisement de l'Etoile, Shaba, Zaïre , 1975 .