Mahon K I;Harrison T M;Drew D A,Ascent of a granitoid diapir in a temperature varying medium,Journal of Geophysical Research? ,1988, 93.
[2]
MOENCH R H,Comment on "Implications of magmatic epidotebearing plutons on crustal evolution in the accreted terranes of northwestern North America" and "Magmatic epidote and its petrologic significance",Geology? ,1986, 14.
[3]
Zen E-an;Hammarstrom J M,Comment on "Implications of magmatic epidote-bearing plutons on crustal evolution in the accreted terranes of northwestern North America" and "Magmatic epidote and its petrologic significance",Geology? ,1986, 14.
[4]
Zen E,Tectonic significance of high-pressure plutonic rocks in the western cordillera of North America,Englewood Cliffs,New Jersey:Prentice-Hall,Inc,1988.
[5]
Zen E-An;Hammarstrom J M Magmatic epidote and its petrologic significance [J] 1984 doi:10.1130/0091-7613(1984)12<515:MEAIPS>2.0.CO;2
[6]
Schmidt M W;Thompson A B,Epidote in calc-alkaline magmas:an experimental study of stability,phase relationships,and the role of epidote in magmatic evolution,American Mineralogist,1996.
[7]
Schmidt M W;Poli S Magmatic epidote [J] 2004 doi:10.2138/gsrmg.56.1.399
[8]
Oberli, F ;Meier, M ;Berger, A ;Rosenberg, CL ;Giere, R,U-Th-Pb and Th-230/U-238 disequilibrium isotope systematics: Precise accessory mineral chronology and melt evolution tracing in the Alpine Bergell intrusion,Geochimica et Cosmochimica Acta?,2004, 68(11).
[9]
Blun dy J D;T. J. B. Holland,Calcic amphibole equilibrium and a new amphibole-plagioclase geothermometer :,Contributions to Mineralogy and Petrology? ,1990, 104.
[10]
Bea F;Fershtater G;Montero P;Smirnov V Zin\'kova E Generation and evolution of subduction-related batholiths from the Central Urals:Constraints on the P-T history of the Uralian Orogen [J] 1997 doi:10.1016/S0040-1951(97)00051-6
[11]
Weinberg R F;Podladchikov Y,Diapiric Ascent of Magmas through Power Law Crust and Mantle,Journal of Geophysical Research B:Solid Earth and Planets,1994(135).
[12]
Liu YS;Hu Z C;G S;Gunther D Xu J Gao C G Chen H H,In situ analysis of major and trace elements of anhydrous minerals by LA-ICP-MS without applying an internal standard,Chemical Geology,2008.
[13]
Liou J G,Synthesis and stability relations of epidote,Ca2Al2FeSi3O12 (OH),Petrol,1973.
[14]
Korinevskii V G,Magmatic epidote from gabbro,Russian Geology and Geophysics,2008.
[15]
Johnson M C;Rutherford M J,Experimental calibration of the aluminum-in hornblende geobarometer with application to Long Valley caldera (California) volcanic rocks,Geology,1989.
[16]
Helmy H M,Pressure,temperature and oxygen fugacity conditions of calc-alkaline,Journal of African Earth Sciences? ,2004, 38.
[17]
Tulloch A J,Comment on "Implicatons of magmatic epidote-bearing plutons on crustal evolution in the accreted terranes of northwestern North America" and " Magmatic epidote and its petrologic significance",Geology? ,1986, 14.
[18]
Thomas W M;Ernst W G,The aluminium content of hornblende in calc-alkaline granitic rocks:a mineralogic barometer calibrated experimentally to 12 kbar,Geochemical Society,1990.
[19]
Baker D R,Interdiffusion of hydrous dacitic and rhyolitic melts and the efficacy of rhyolite contamination by dacitic enclaves,Contributions to Mineralogy & Petrology,1991.
[20]
Anderson J L,Status of thermobarometry in granitic batholiths,Transactions of the Royal Society of Edinburgh:Earth Sciences,1996.
[21]
Anderson J L;Smith D R,The effects of temperature and fO2 on the Al-in hornblende barometer,American Mineralogist,1995.
Dawes R L;Evans B W,Mineralogy and geothermobarometry of magmatic epidote-bearing dikes,Front Range,Colorado,Geological Society of America Bulletin? ,1991, 103.
[30]
Cerredo M E;Lopez M G;de Luchi,Mamil Choique Granitoids,southwestern North Patagonian Massif,Argentina:Magmatism and metamorphism associated with a ployphasic evolution,Journal of South American Earth Sciences,1998.
[31]
Brandon A D;Creaser R A;Chacko T Constraints on rates of granitic magma transport from epidote dissolution kinetics [J] 1996(5257) doi:10.1126/science.271.5257.1845
[32]
Hammarstrom J M;Zen E-An,Aluminum in hornblende:an empirical igneous geobarometer,American Mineralogist,1986.
[33]
Gromet L P;Silver L T,Rare earth element distributions among minerals in a granodiorite and their petrogenetic implications,Geochimica et Cosmochimica Aeta,1983.
[34]
Ferreira V P;Sial A N;DE SA J EF,Geochemical and isotopic signatures ofProterozoic granitoids in terrains of the Borborema structural province,northeastern Brazil,Journal of South American Earth Sciences? ,1998, 11(05).
[35]
Wones D R;Eugster H P,Stability of biotite:experiment,theory,and application,American Mineralogist,1965.
[36]
Vazquez J A;Reid M R,The protracted history of magmatic evolution recorded by zoning in allanitea,2003.
[37]
Vazquez J A;Reid M R,Time scales of magmatic evolution by coupling core-to-rim 238U-230Th ages and chemical compositions of mineral zoning in allanite from the youngest Toba Tuff,2001.
[38]
Sun S S;McDonough W F;Saunders A D;Norry M J,Magmatism in the ocean basins,Geological Society of London Journal,1989.
[39]
Sial A N;Toselli A J;Saavedra J;Parada M A Ferreira V P Emplacement,petrological and magnetic susceptibility characteristics of diverse magmatic epidote-bearing granitoid rocks in Brazil,Argentina and Chile [J] 1999 doi:10.1016/S0024-4937(98)00074-7
[40]
Alcides N. Sial ;Paulo M. Vasconcelos ;Valderez P. Ferreira,Geochronological and mineralogical constraints on depth of emplacement and ascencion rates of epidote-bearing magmas from northeastern Brazil,Lithos?,2008, 105(3/4).
[41]
Evans B W;Vance J A,Epidote phenocrysts in dacitic dikes,Boulder County,Colorado,Contributions to Mineralogy and Petrology? ,1987, 96.
