Alavi, M., 1994. Tectonics of the Zagros orogenic belt of Iran: new data and interpretations. Journal of Tectonophysics, 22(3): 211–238.
Alirezaei, S. and Hassanzadeh, J., 2012. Geochemistry and zircon geochronology of the Permian A-type Hasanrobat granite, Sanandaj-Sirjan belt: A new record of the Gondwana break-up in Iran. Lithos, 151: 122-134.
Bea, F., 1996. Residence of REE, Y, Th and U in granites and crustal protoliths: implications for the geochemistry of crustal melts. Journal of Petrology, 37(6): 521-552.
Black, R. and Liegeois, J.P., 1993. Cratons, mobile belts, alkaline rock sand continental lithospheric mantle: the Pan-African testimony. Journal of Geological Society, 150(1): 89–98.
Bonin, J., 2007. A-type granites and related rocks: Evolution of a concepts and prospects. Lithos, 97(1-2): 1-29.
Bonin, B., Platevoet, B., Poitrasson, F. and Renna, M.R., 2008. Eurogranites-IGCP510 2008 Joint Field-meeting-Alkaline The Permian–Triassic A-type Volcanic–Plutonic Igneous Suite of Corsica, Universite de Paris-Sud Paris. 33th International Geological Congress in Oslo, Norway Convention Centre, Lillestrom, Norway.
Boynton, W.V., 1984. Cosmochemistry of the rare earth elements: meteorite studies. In: P. Henderson (Editor), Rare Earth Element Geochemistry. Developments in Geochemistry. Elsevier, Amsterdam, pp. 63-114.
Cocherie, A., 1986. Systematic use of trace element distribution patterns in log-log diagrams for plutonic suites. Geochimica et Cosmochimica Acta, 50(11): 2517–2522.
Dall'Agnol, R., Frost, C.D. and Ramo, O.T., 2012. IGCP Project 510 (A-type Granites and Related Rocks through Time), Project vita, results, and contribution to granite research. Lithos, 151: 1-16.
Dall'Agnol, R. and Oliveira, D.C., 2007. Oxidized, magnetite-series, rapakivi-type granites of Carajas, Brazil: implications for classification and petrogenesis of A-type granites. Lithos, 93(3-4): 215–233.
Dall'Agnol, R., Römö, O.T., Magalhães, M.S. and Macambira, M.J.B., 1999. Petrology of the anorogenic, oxidised Jamon and Musa granites, Amazonian Craton: implications for the genesis of Proterozoic A-type granites. Lithos, 46(3): 431–462.
Davoudian, A.R., Hamedani, A., Shabanian, N. and Mackizadeh, M.A., 2007. Petrological and geochemical constraints on the evolution of the Cheshmeh-Sefid granitoid complex of Golpayegan in the Sanandaj-Sirjan zone, Iran. Neues Jahrbuch Fur Mineralogie-Abhandlungen, 184(2): 117–129.
De Souza, Z.S., Martin, H., Peucat, J.J., Jardim-deSo, E.F. and Macedo, M.H.F., 2007. Calc-Alkaline Magmatism at the Archean-Proterozoic Transition: the Caico Complex Basement (NE Brazil). Journal of Petrology, 48(11): 2149–2185.
Eby, G.N., 1992. Chemical subdivision of the A-type granitoids: petrogenetic and tectonic implications. Chemical Geology, 20(7): 641–644.
Frost, B.R., Barnes, G.G., Collins, W.J., Arculus, R.J., Ellis, D.J. and Frost, C.D., 2001. A geolchemical classification for granitic rocks. Journal of Petrology, 42(11): 2033–2048.
Frost, B.R., Swapp, S.M. and Gregory, R.W., 2005. Prolonged existence of sulfide melt in the Broken Hill orebody, New South Wales, Australia. Canadian Mineralogist, 43(1): 479–493.
Hanson, G.N., 1989. An approach to trace element modeling using a simple igneous system as an example. In: B.R. Lipin and G.A. McKay (Editors), Geochemistry and mineralogy of rare earth elements. The Mineralogical Society, America, pp. 79–97.
Hassanzadeh, J., Stockli, D.F., Horton, B.K., Axen, G.J., Stockli, L.D., Grove, M., Schmitt, A.K. and Walker, J.D., 2008. U-Pb zircon geochronology of late Neoproterozoic-Early Cambrian granitoids in Iran: Implications for paleogeography, magmatism, and exhumation history of Iranian basement. Tectonophysics, 451(1-4): 71–96.
Houseman, G.A., McKenzie, D.P. and Molnar, P.J., 1981. Convective instability of a thickened boundary layer and its relevance for the thermal evolution of continental convergent belts. Journal of Geophysical Research, 86(B7): 6115–6132.
Irvine, T.N. and Baragar, W.R.B., 1971. A guide to the chemical classification of the common volcanic rocks. Canadian Journal of Earth Science, 8(5): 523-548.
Jung, S. and Pfander, A., 2007. Source composition and melting temperatures of orogenic granitoids: constraints from CaO/Na2O, Al2O3/TiO2 and accessory mineral saturation thermometry. European Journal of Mineralogy,19(6): 859–870.
Klein, E., Luzardo, R., Mourac, C.A.V. and Armstrong, R., 2008. Geochemistry and zircon geochronology of paleoproterozoic granitoids: Further evidence on the magmatic and crustal evolution of the São Luis cratonic fragment, Brazil. Precambrian Research, 165(3-4): 221-242.
Kröner, A. and Şengör, A.M.C., 1990. Archean and Proterozoic ancestry in late Precambrian to early Paleozoic crustal elements of southern Turkey as revealed by single-zircon dating. Journal of Geology, 18(12): 1186–1190.
Küster, D. and Harms, U., 1998. Post - collisional potassic granitoids from the southern and northwestern parts of the LateNeoproterozoic East African orogen: a review. Lithos, 45(1-4): 177-195.
Liegeois, J.P., Navez, J., Hertogen, J. and Black R., 1998. Contrasting origin for post-collisional high-K calc-alkaline and shoshonitic versus alkaline and peralkaline granitoids, The use of sliding normalization. Lithos, 45(1): 1–28.
Mahmoudi, S., Masoudi, F., Corfu, F. and Mehrabi, B., 2010. Magmatic and metamorphic history of the Deh-Salm metamorphic Complex, Eastern Lut block, (Eastern Iran), from U-Pb geochronology. International Journal of Earth Sciences (Geologische Rundschau), 99(10): 1153-1165.
Mansouri Esfahani, M., Khalili, M., Kochhar, N., Gupta, L.N., 2010. A-type granite of the Hasanrobat area (NW of Isfahan, Iran) and its tectonic significance. Journal of Asian Earth Sciences, 37(3): 207–218.
Mao, J., Takahashi, Y., Kee, W.S., Li, Z., Ye, H., Zhao, X., Liu, K. and Zhou, J., 2011. Characteristics and geodynamic evolution of Indosinian magmatism in South China: A case study of the Guikeng pluton. Lithos, 127(3-4): 535–551.
Martin, H., 1994. The Archean grey gneiss and the genesis of continental crust. In: K.C. Condie (Editor), The Archean Crustal Evolution. Elsevier, Amsterdam, pp. 205–259.
Middlemost, E.A.K., 1985. Magmas and magmatiic rocks. Longman, London, 453 pp.
Moein Vaziri, H. and Ahmadi, A., 1991. Petrography and petrology of igneous rocks. Tehran University Press, Tehran, 539 pp. (in Persian)
Mohajjel, M. and Fergusson, C.L., 2000. Dextral transpression in Late Cretaceous continental collision, Sanandaj–Sirjan Zone, western Iran. Journal of Structural Geology, 22(8): 1125-1139.
Moradi, A., Shabanian, N. and Davudian, A.R., 2014. The study of the textural evidences of dynamic deformation in the mylonitic granite-gneiss pluton in Northeastern of Jan mine. 3rd Geological Congress of Iranian Plateau, Islamic Azad University of Zarand, Kerman, Iran. (in Persian with English abstract)
Moufti, M.R.H., 2001. Age, geochemistry and origin of peraluminous a-type granitoids of the Ablah-Shuwas pluton, Ablah graben, Arabian shield. Acta Mineralogica-Petrographica, Szeged, 42: 5-20.
Nutman, A.P., Mohajjel, M., Bennett, V.C. and Fergusson, C.L., 2014. Gondwanan Eoarchean Neoproterozoic ancient crustal material in Iran and Turkey: zircon U–Pb–Hf isotopic evidence1. Canadian Journal of Earth Sciences, 51(3): 272–285.
Oyhantçabal, P., Siegesmund, S., Wemmer, K., Frei, R. and Layer, P., 2007. Post-collisional transition from calc-alkaline to alkaline magmatism during transcurrent deformation in the southernmost Dom Feliciano Belt (Braziliano–Pan-African, Uruguay). Lithos, 98(1-4): 141-159.
Passchier, C.W. and Trouw, R.A.J., 2010. Atlas of Mylonites- and related microstructures. Springer-Verlag, Berlin Heidelberg, 313 pp.
Pearce, J.A., Harris, N.W. and Tindle, A.G., 1984. Trace element discrimination diagrams for the tectonic interpretation of granitic rocks. Journal of Petrology, 25(4): 956–983.
Petrik, I. and Broska, I., 1994. Petrology of two granite types from the Tribec Mountains, Western Carpathians: an example of allanite (+magnetite) versus monazite dichotomy. Geological Journal, 29(1): 59–78.
Petro, W.L., Vogel, T.A. and Willbord, J.T., 1979. Major element chemistry of plutonic rock suites from compressional and extensional plate boundaries. Journal of Chemical geology, 26(3): 217-235.
Rollinson, H., 1993. Using geochemical data: evolution, presentation, interpretation. Longman Scientific and Technical, London, 352 pp.
Sabzehei, M., 1996. An introduction to general geological features of metamorphic complexes in southern Sanandaj-Sirjan zone. Geological Survey of Iran. (Unpublished, in Persian)
Sahandi, M.R., Radfar, J., Hoseinidoust, J. and Mohajjel, M., 2006. Explanatory text of Shazand Geological Quadrangle Map 1:100000. Geological Survey of Iran.
Schandl, E.S. and Gorton, M.P., 2002. Appplication of high field strength elements to discriminate tectonic setting in VMS environments. Economic Geology, 97(3): 629-642.
Shabanian, N., Davoudian, A.R., Khalili, M. and Khodami, M., 2010. Texture evidences imply on dynamic conditions in late-stage to post magmatic crystallization from dynamo-magmatic gnessies of Ghaleh-Dezh, Azna. Iranian Society of Crystallography and Mineralogy, 18(3): 463-472. (in Persian with English abstract)
Shabanian, N., Khalili, M., Davoudian, A.R. and Mohajjel, M., 2009. Petrography and geochemistry of mylonitic granite from Ghaleh-Dezh, NW Azna, Sanandaj-Sirjan Zone, Iran. Neues Jahrbuch Fur Mineralogie-Abhandlungen, 185(3): 233-248.
Shahbazi, H., Siebel, W., Pourmoafee, M., Ghorbani, M., Sepahi, A.A., Shang, C.K. and Vousoughi Abedini, M., 2010. Geochemistry and U-Pb zircon geochronology of the Alvand plutonic complex in Sanandaj-Sirjan Zone (Iran): New evidence for Jurassic magmatism. Journal of Asian Earth Sciences, 39(6): 668-683.
Shakerardakani, F., Neubauer, F., Masoudi, F., Mehrabi, B., Liu, X., Dong, Y., Mohajjel, M., Monfaredi, B. and Friedl, G., 2015. Panafrican basement and Mesozoic gabbro in the Zagros orogenic belt in the Dorud–Azna region (NWIran): Laser-ablation ICP–MS zircon ages and geochemistry. Tectonophysics, 647–648: 146–171.
Shand, S.J., 1943. Eruptive rocks: their genesis, composition, classification and their relation to ore deposites with a chapter on meteorite. John Wiley and Sons, New York, 444 pp.
Sun, S.S. and McDonough, W.E., 1989. Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes. In: A.D. Saunders and M.J. Norry (Editor), Magmatism in the Ocean Basins. Geological Society 42, London, pp. 313–345.
Sylvester, P.L., 1989. Post-collisional alkaline granites. Journal of Geology, 97(3): 261–280.
Taylor, R.P., 1992. Petrological and geochemical characteristics of the Pleasant Ridge zinnwaldite–topaz granite, southern New Brunswick, and comparisons with other topaz-bearing felsic rocks. Journal of Canadian Mineralogist, 30(3): 895–921.
Temel, A., Gundogdu, M.N. and Gourgaud, A., 1998. petrological and geochemical characteristics of Cenozoic high–k calc–alkalin Volcanism in konya, Central Anatolia, Turkey. Journal of Volcanology and Geothermal Research, 85(1-4): 327-354.
Vernon, R.H., 2004. A practical guide to rock microstructure. Cambridge University press, Cambridge, 594 pp.
Whalen, J.B., Currie, K.L. and Chappell, B.W., 1987. A-type granites: geochemical characteristics, discrimination and petrogenesis. Contributions to Mineralogy and Petrology, 95(4): 407–419.
Whitney, D.L. and Evans, B.W., 2010. Abbreviations for names of rock-forming minerals. American Mineralogist, 95(1): 185-187.
Wilson, M., 1989. Igneous Petrogenesis: A Global Tectonic Approach. Chapman and Hall, London, 446 pp.
Winter, J.D., 2001. An introduction to Igneous and Metamorphic Petrology. Prentice Hall, New Jersey, 697 pp.
Yuan, C., Sun, M., Xiao, W.J., Li, X.H., Chen, H.L., Lin, S.F., Xia, X.P. and Long, X.P., 2007. Accretionary Orogenesis of the Chinese Altai: Insights from the Paleozoic Granitoids. Chemical Geology, 242(1): 22–39.
Zanetti, A., Mazzucchelli, M., Rivalenti, G. and Vannuci, R., 1999. The Finero phlogopite-peridotite massif: an example of subduction-related metasomatism. Contributions to Mineralogy and Petrology, 134 (2-3): 107-122.
Zen, E. and Hammarstrom, M., 1984. Magmatic epidote and its petrologic significance. Journal of Geology, 12(9): 515-518.
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