1. Jamali, H., Yaghubpur, A., Mehrabi, B., Dilek, Y., Daliran, F.,Meshkani, A., Petrogenesis and Tectono-Magmatic Setting of Meso-Cenozoic Magmatism in Azerbaijan Province, Northwestern Iran, Petrology–new perspectives and applications. Intech, (2012) 39-56.
2. Riou, R., Dupuy, C.,Dostal, J., Geochemistry of coexisting alkaline and calc-alkaline volcanic rocks from northern Azerbaijan (N.W. Iran), Journal of Volcanology and Geothermal Research, 11 (1981) 253-275.
3. Vincent, S.J., Allen, M.B., Ismail-Zadeh, A.D., Flecker, R., Foland, K.A.,Simmons, M.D., Insights from the Talysh of Azerbaijan into the Paleogene evolution of the South Caspian region, Geological Society of America Bulletin, 117 (2005) 1513-1533.
4. Jahangiri, A., Post-collisional Miocene adakitic volcanism in NW Iran: Geochemical and geodynamic implications, Journal of Asian Earth Sciences, 30 (2007) 433-447.
5. Fazlnia, A., Origin and magmatic evolution of the Quaternary syn-collision alkali basalts and related rocks from Salmas, northwestern Iran, Lithos, 344-345 (2019) 297-310.
6. Dilek, Y., Imamverdiyev, N.,Altunkaynak, Ş., Geochemistry and tectonics of Cenozoic volcanism in the Lesser Caucasus (Azerbaijan) and the peri-Arabian region: collision-induced mantle dynamics and its magmatic fingerprint, International Geology Review, 52 (2010) 536-578.
7. Şengör, A., Özeren, S., Genç, T.,Zor, E., East Anatolian high plateau as a mantle‐supported, north‐south shortened domal structure, Geophysical Research Letters, 30 (2003).
8. Keskin, M., Magma generation by slab steepening and breakoff beneath a subduction-accretion complex: An alternative model for collision-related volcanism in Eastern Anatolia, Turkey, Geophysical Research Letters, 30 (2003).
9. Ghalamghash, J., Schmitt, A.K.,Chaharlang, R., Age and compositional evolution of Sahand volcano in the context of post-collisional magmatism in northwestern Iran: Evidence for time-transgressive magmatism away from the collisional suture, Lithos, 344-345 (2019) 265-279.
10. Ghalamghash, J., Mousavi, S., Hassanzadeh, J.,Schmitt, A., Geology, zircon geochronology, and petrogenesis of Sabalan volcano (northwestern Iran), Journal of Volcanology and Geothermal Research, 327 (2016) 192-207.
11. Lechmann, A., Burg, J.-P., Ulmer, P., Guillong, M.,Faridi, M., Metasomatized mantle as the source of Mid-Miocene-Quaternary volcanism in NW-Iranian Azerbaijan: Geochronological and geochemical evidence, Lithos, 304-307 (2018) 311-328.
12. Keskin, M., Pearce, J.A., Kempton, P.D.,Greenwood, P., Magma-crust interactions and magma plumbing in a postcollisional setting: geochemical evidence from the Erzurum-Kars volcanic plateau, eastern Turkey, Special Papers-Geological Society of America, 409 (2006) 475.
13. Simmonds, V., Geochemistry and petrogenesis of an adakitic quartz-monzonitic porphyry stock and related cross-cutting dike suites, Kighal, northwest Iran, International Geology Review, 55 (2013) 1126-1144.
14. Guillong, M., Meier, D., Allan, M., Heinrich, C.,Yardley, B., SILLS: a MATLAB-based program for the reduction of laser ablation ICP-MS data of homogeneous materials and inclusions, Mineralogical Association of Canada Short Course, 40 (2008) 328-333.
15. Abdollahi, M.R.,Hosseini, M., Geological map of Julfa. Scale 1/100000. Geological Survey of Iran., (1996).
16. Buckley, V.J.E., Sparks, R.S.J.,Wood, B.J., Hornblende dehydration reactions during magma ascent at Soufrière Hills Volcano, Montserrat, Contributions to Mineralogy and Petrology, 151 (2006) 121-140.
17. Plechov, P.Y., Tsai, A.E., Shcherbakov, V.D.,Dirksen, O.V., Opacitization conditions of hornblende in Bezymyannyi volcano andesites (March 30, 1956 eruption), Petrology, 16 (2008) 19-35.
18. Rutherford, M.J.,Devine, J.D., Magmatic Conditions and Magma Ascent as Indicated by Hornblende Phase Equilibria and Reactions in the 1995–2002 Soufrière Hills Magma, Journal of Petrology, 44 (2003) 1433-1453.
19. Tulloch, A., Secondary Ca-Al silicates as low-grade alteration products of granitoid biotite, Contributions to Mineralogy and Petrology, 69 (1979) 105-117.
20. Shabani, A.A.T., Occurrence of prehnite, pumpellyite and garnet in biotite from granitic rocks of the Canadian Appalachians: a mineral chemistry study using electron microprobe, Journal of Sciences, Islamic Republic of Iran, 22 (2011) 135-142.
21. Irvine, T.N.,Baragar, W.R.A., A guide to the chemical classification of the common volcanic rocks, Canadian Journal of Earth Sciences, 8 (1971) 523-548.
22. Winchester, J.A.,Floyd, P.A., Geochemical discrimination of different magma series and their differentiation products using immobile elements, Chemical Geology, 20 (1977) 325-343.
23. Maniar, P.D.,Piccoli, P.M., Tectonic discrimination of granitoids, Geological Society of America Bulletin, 101 (1989) 635-643.
24. Rollinson, H.R., Using geochemical data: evaluation, presentation, interpretation. 2014: Routledge.
25. Miller, C.F.,Mittlefehldt, D.W., Depletion of light rare-earth elements in felsic magmas, Geology, 10 (1982) 129-133.
26. Hermann, J., Allanite: thorium and light rare earth element carrier in subducted crust, Chemical Geology, 192 (2002) 289-306.
27. Watson, E.B.,Capobianco, C.J., Phosphorus and the rare earth elements in felsic magmas: an assessment of the role of apatite, Geochimica et Cosmochimica Acta, 45 (1981) 2349-2358.
28. Wark, D.A.,Miller, C.F., Accessory mineral behavior during differentiation of a granite suite: monazite, xenotime and zircon in the Sweetwater Wash pluton, southeastern California, U.S.A, Chemical Geology, 110 (1993) 49-67.
29. Cigolini, C., Intracrustal origin of Arenal basaltic andesite in the light of solid–melt interactions and related compositional buffering, Journal of Volcanology and Geothermal Research, 86 (1998) 277-310.
30. Bellos, L.I., Castro, A., Díaz-Alvarado, J.,Toselli, A., Multi-pulse cotectic evolution and in-situ fractionation of calc-alkaline tonalite–granodiorite rocks, Sierra de Velasco batholith, Famatinian belt, Argentina, Gondwana Research, 27 (2015) 258-280.
31. Bonev, N.,Stampfli, G., Gabbro, plagiogranite and associated dykes in the supra-subduction zone Evros Ophiolites, NE Greece, Geological Magazine, 146 (2009) 72-91.
32. Woodhead, J., Eggins, S.,Gamble, J., High field strength and transition element systematics in island arc and back-arc basin basalts: Evidence for multi-phase melt extraction and a depleted mantle wedge, Earth and Planetary Science Letters, 114 (1993) 491-504.
33. Pearce, J.A.,Stern, R.J., Origin of back‐arc basin magmas: Trace element and isotope perspectives, Back-Arc Spreading Systems: Geological, Biological, Chemical, and Physical Interactions, (2006) 63-86.
34. Kelemen, P.B., Shimizu, N.,Dunn, T., Relative depletion of niobium in some arc magmas and the continental crust: partitioning of K, Nb, La and Ce during melt/rock reaction in the upper mantle, Earth and Planetary Science Letters, 120 (1993) 111-134.
35. Delavari, M.,Shakeri, A., Taftan volcanic rocks: implication for adakitic magmatism of Makran magmatic arc, Quaternary Journal of Iran, 2 (2016) 1-14 (in Persian).
36. Pang, K.-N., Chung, S.-L., Zarrinkoub, M.H., Chiu, H.-Y.,Li, X.-H., On the magmatic record of the Makran arc, southeastern Iran: Insights from zircon U-Pb geochronology and bulk-rock geochemistry, Geochemistry, Geophysics, Geosystems, (2014) 10.1002/2014GC005262.
37. Ghalamghash, J., Schmitt, A., Shiaian, K., Jamal, R.,Chung, S.-L., Magma origins and geodynamic implications for the Makran-Chagai arc from geochronology and geochemistry of Bazman volcano, southeastern Iran, Journal of Asian Earth Sciences, 171 (2019) 289-304.
38. Sun, S.-S.,McDonough, W.F., Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes, Geological Society, London, Special Publications, 42 (1989) 313-345.
39. Defant, M.J.,Drummond, M.S., Derivation of some modern arc magmas by melting of young subducted lithosphere, Nature, 347 (1990) 662-665.
40. Drummond, M.S.,Defant, M.J., A model for Trondhjemite-Tonalite-Dacite Genesis and crustal growth via slab melting: Archean to modern comparisons, Journal of Geophysical Research: Solid Earth, 95 (1990) 21503-21521.
41. Drummond, M.S., Defant, M.J.,Kepezhinskas, P.K., Petrogenesis of slab-derived trondhjemite–tonalite–dacite/adakite magmas, Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 87 (1996) 205-215.
42. Defant, M.J.,Kepezhinskas, P., Evidence suggests slab melting in arc magmas, Eos, Transactions American Geophysical Union, 82 (2001) 65-69.
43. Castillo, P.R., Janney, P.E.,Solidum, R.U., Petrology and geochemistry of Camiguin Island, southern Philippines: insights to the source of adakites and other lavas in a complex arc setting, Contributions to Mineralogy and Petrology, 134 (1999) 33-51.
44. Castillo, P.R., Adakite petrogenesis, Lithos, 134–135 (2012) 304-316.
45. Martin, H., Adakitic magmas: modern analogues of Archaean granitoids, Lithos, 46 (1999) 411-429.
46. Richards, J.P.,Kerrich, R., Special Paper: Adakite-Like Rocks: Their Diverse Origins and Questionable Role in Metallogenesis, Economic Geology, 102 (2007) 537-576.
47. Martin, H., Smithies, R.H., Rapp, R., Moyen, J.F.,Champion, D., An overview of adakite, tonalite–trondhjemite–granodiorite (TTG), and sanukitoid: relationships and some implications for crustal evolution, Lithos, 79 (2005) 1-24.
48. Rapp, R.P., Watson, E.B.,Miller, C.F., Partial melting of amphibolite/eclogite and the origin of Archean trondhjemites and tonalites, Precambrian Research, 51 (1991) 1-25.
49. Sen, C.,Dunn, T., Dehydration melting of a basaltic composition amphibolite at 1.5 and 2.0 GPa: implications for the origin of adakites, Contributions to Mineralogy and Petrology, 117 (1994) 394-409.
50. Yogodzinski, G., Lees, J., Churikova, T., Dorendorf, F., Wöerner, G.,Volynets, O., Geochemical evidence for the melting of subducting oceanic lithosphere at plate edges, Nature, 409 (2001) 500-504.
51. Thorkelson, D.J.,Breitsprecher, K., Partial melting of slab window margins: genesis of adakitic and non-adakitic magmas, Lithos, 79 (2005) 25-41.
52. Sajona, F.G., Maury, R.C., Bellon, H., Cotten, J., Defant, M.J.,Pubellier, M., Initiation of subduction and the generation of slab melts in western and eastern Mindanao, Philippines, Geology, 21 (1993) 1007-1010.
53. Gao, Y., Hou, Z., Kamber, B., Wei, R., Meng, X.,Zhao, R., Adakite-like porphyries from the southern Tibetan continental collision zones: evidence for slab melt metasomatism, Contributions to Mineralogy and Petrology, 153 (2007) 105-120.
54. Kay, S.M., Ramos, V.,Marquez, M., Evidence in Cerro Pampa volcanic rocks for slab-melting prior to ridge-trench collision in southern South America, Journal of Geology, 101 (1993) 703-714.
55. Yogodzinski, G.M., Kay, R.W., Volynets, O.N., Koloskov, A.V.,Kay, S.M., Magnesian andesite in the western Aleutian Komandorsky region: Implications for slab melting and processes in the mantle wedge, Geological Society of America Bulletin, 107 (1995) 505-519.
56. Stern, C.R.,Kilian, R., Role of the subducted slab, mantle wedge and continental crust in the generation of adakites from the Andean Austral Volcanic Zone, Contributions to Mineralogy and Petrology, 123 (1996) 263-281.
57. Bourdon, E., Eissen, J.-P., Monzier, M., Robin, C., Martin, H., Cotten, J.,Hall, M.L., Adakite-like Lavas from Antisana Volcano (Ecuador): Evidence for Slab Melt Metasomatism Beneath Andean Northern Volcanic Zone, Journal of Petrology, 43 (2002) 199-217.
58. Macpherson, C.G., Dreher, S.T.,Thirlwall, M.F., Adakites without slab melting: High pressure differentiation of island arc magma, Mindanao, the Philippines, Earth and Planetary Science Letters, 243 (2006) 581-593.
59. Zhang, C., Ma, C., Holtz, F., Koepke, J., Wolff, P.E.,Berndt, J., Mineralogical and geochemical constraints on contribution of magma mixing and fractional crystallization to high-Mg adakite-like diorites in eastern Dabie orogen, East China, Lithos, 172–173 (2013) 118-138.
60. Kolb, M., Von Quadt, A., Peytcheva, I., Heinrich, C.A., Fowler, S.J.,Cvetković, V., Adakite-like and Normal Arc Magmas: Distinct Fractionation Paths in the East Serbian Segment of the Balkan–Carpathian Arc, Journal of Petrology, 54 (2013) 421-451.
61. Foley, F.V., Pearson, N.J., Rushmer, T., Turner, S.,Adam, J., Magmatic Evolution and Magma Mixing of Quaternary Adakites at Solander and Little Solander Islands, New Zealand, Journal of Petrology, 54 (2013) 703-744.
62. Rodriguez, C., Sellés, D., Dungan, M., Langmuir, C.,Leeman, W., Adakitic Dacites Formed by Intracrustal Crystal Fractionation of Water-rich Parent Magmas at Nevado de Longaví Volcano (36·2°S; Andean Southern Volcanic Zone, Central Chile), Journal of Petrology, 48 (2007) 2033-2061.
63. Chung, S.-L., Liu, D., Ji, J., Chu, M.-F., Lee, H.-Y., Wen, D.-J., Lo, C.-H., Lee, T.-Y., Qian, Q.,Zhang, Q., Adakites from continental collision zones: Melting of thickened lower crust beneath southern Tibet, Geology, 31 (2003) 1021-1024.
64. Hou, Z.Q., Gao, Y.F., Qu, X.M., Rui, Z.Y.,Mo, X.X., Origin of adakitic intrusives generated during mid-Miocene east–west extension in southern Tibet, Earth and Planetary Science Letters, 220 (2004) 139-155.
65. Petford, N.,Atherton, M., Na-rich Partial Melts from Newly Underplated Basaltic Crust: the Cordillera Blanca Batholith, Peru, Journal of Petrology, 37 (1996) 1491-1521.
66. Wang, C., Song, S., Niu, Y., Allen, M.B., Su, L., Wei, C., Zhang, G.,Fu, B., Long-lived melting of ancient lower crust of the North China Craton in response to paleo-Pacific plate subduction, recorded by adakitic rhyolite, Lithos, 292-293 (2017) 437-451.
67. Pang, K.-N., Chung, S.-L., Zarrinkoub, M.H., Li, X.-H., Lee, H.-Y., Lin, T.-H.,Chiu, H.-Y., New age and geochemical constraints on the origin of Quaternary adakite-like lavas in the Arabia–Eurasia collision zone, Lithos, 264 (2016) 348-359.
68. Ma, L., Wang, B.-D., Jiang, Z.-Q., Wang, Q., Li, Z.-X., Wyman, D.A., Zhao, S.-R., Yang, J.-H., Gou, G.-N.,Guo, H.-F., Petrogenesis of the Early Eocene adakitic rocks in the Napuri area, southern Lhasa: Partial melting of thickened lower crust during slab break-off and implications for crustal thickening in southern Tibet, Lithos, 196–197 (2014) 321-338.
69. Qian, Q.,Hermann, J., Partial melting of lower crust at 10–15 kbar: constraints on adakite and TTG formation, Contributions to Mineralogy and Petrology, 165 (2013) 1195-1224.
70. Yumul, G.P., Dimalanta, C., Bellon, H., Faustino, D.V., De Jesus, J.V., Tamayo, R.A.,Jumawan, F.T., Adakitic lavas in the Central Luzon back-arc region, Philippines: lower crust partial melting products?, Island Arc, 9 (2000) 499-512.
71. Guo, Z., Wilson, M.,Liu, J., Post-collisional adakites in south Tibet: Products of partial melting of subduction-modified lower crust, Lithos, 96 (2007) 205-224.
72. Gao, S., Rudnick, R.L., Yuan, H.-L., Liu, X.-M., Liu, Y.-S., Xu, W.-L., Ling, W.-L., Ayers, J., Wang, X.-C.,Wang, Q.-H., Recycling lower continental crust in the North China craton, Nature, 432 (2004) 892-897.
73. Wang, Q., Xu, J.-F., Zhao, Z.-H., Bao, Z.-W., Xu, W.,Xiong, X.-L., Cretaceous high-potassium intrusive rocks in the Yueshan-Hongzhen area of east China: Adakites in an extensional tectonic regime within a continent, GEOCHEMICAL JOURNAL-JAPAN-, 38 (2004) 417-434.
74. Xu, J.-F., Shinjo, R., Defant, M.J., Wang, Q.,Rapp, R.P., Origin of Mesozoic adakitic intrusive rocks in the Ningzhen area of east China: Partial melting of delaminated lower continental crust?, Geology, 30 (2002) 1111-1114.
75. Guo, F., Fan, W.,Li, C., Geochemistry of late Mesozoic adakites from the Sulu belt, eastern China: magma genesis and implications for crustal recycling beneath continental collisional orogens, Geological Magazine, 143 (2006) 1-13.
76. Wang, Q., Wyman, D.A., Xu, J.-F., Zhao, Z.-H., Jian, P., Xiong, X.-L., Bao, Z.-W., Li, C.-F.,Bai, Z.-H., Petrogenesis of Cretaceous adakitic and shoshonitic igneous rocks in the Luzong area, Anhui Province (eastern China): Implications for geodynamics and Cu–Au mineralization, Lithos, 89 (2006) 424-446.
77. Seghedi, I., Bojar, A.-V., Downes, H., Roşu, E., Tonarini, S.,Mason, P., Generation of normal and adakite-like calc-alkaline magmas in a non-subductional environment: An Sr–O–H isotopic study of the Apuseni Mountains neogene magmatic province, Romania, Chemical Geology, 245 (2007) 70-88.
78. Bachmann, O., Dungan, M.A.,Bussy, F., Insights into shallow magmatic processes in large silicic magma bodies: the trace element record in the Fish Canyon magma body, Colorado, Contributions to Mineralogy and Petrology, 149 (2005) 338-349.
79. Ahmadzadeh, G., Jahangiri, A., Mojtahedi, M.,David, L., Petrogenesis of Plio-Quaternary post-collisional adakitic rocks in northwest of Marand, Iranian Journal of Crystallography and Mineralogy, 18 (2011) 709-722 (in Persian).
80. Jalili Ghareh Ghaye, V., Amel, N., Hajialioghli, R.,Moayyed, M., Petrogenesis of adakitic Plio-Quaternary post collision rocks, north of Sahand volcano (NW of Iran), Petrology, 22 (2015) 157-172 (in Persian).
81. Pirmohammadi Alishah, F., Petrogenesis of post-collisional Plio-Quaternary adakitic rocks in south of Tabriz, Petology, 22 (2015) 71-90 (in Persian).
82. Moharrami, F., Pourmoafi, S.M., Ghorbani, M.,Mir Mohammadi, M.S., Geochemistry, mineralogy and petrogenesis of adakitic rocks in southeast of Julfa, northwestern Iran, Iranian Journal of Crystallography and Mineralogy, 2 (2015) 241-256 (in Persian).
83. Torkian, A., Furman, T., Salehi, N.,Veloski, K., Petrogenesis of adakites from the Sheyda volcano, NW Iran, Journal of African Earth Sciences, 150 (2019) 194-204.
84. Wang, Q., Xu, J.-F., Jian, P., Bao, Z.-W., Zhao, Z.-H., Li, C.-F., Xiong, X.-L.,Ma, J.-L., Petrogenesis of Adakitic Porphyries in an Extensional Tectonic Setting, Dexing, South China: Implications for the Genesis of Porphyry Copper Mineralization, Journal of Petrology, 47 (2006) 119-144.
85. Delavari, M., Amini, S., Schmitt, A.K., McKeegan, K.D.,Mark Harrison, T., U–Pb geochronology and geochemistry of Bibi-Maryam pluton, eastern Iran: Implication for the late stage of the tectonic evolution of the Sistan Ocean, Lithos, 200–201 (2014) 197-211.
86. Topuz, G., Altherr, R., Schwarz, W., Siebel, W., Satır, M.,Dokuz, A., Post-collisional plutonism with adakite-like signatures: the Eocene Saraycık granodiorite (Eastern Pontides, Turkey), Contributions to Mineralogy and Petrology, 150 (2005) 441-455.
87. Wang, Q., McDermott, F., Xu, J.-f., Bellon, H.,Zhu, Y.-t., Cenozoic K-rich adakitic volcanic rocks in the Hohxil area, northern Tibet: lower-crustal melting in an intracontinental setting, Geology, 33 (2005) 465-468.
88. Hou, M.-L., Jiang, Y.-H., Jiang, S.-Y., Ling, H.-F.,Zhao, K.-D., Contrasting origins of late Mesozoic adakitic granitoids from the northwestern Jiaodong Peninsula, east China: implications for crustal thickening to delamination, Geological Magazine, 144 (2007) 619-631.
89. Zor, E., Tomographic evidence of slab detachment beneath eastern Turkey and the Caucasus, Geophysical Journal International, 175 (2008) 1273-1282.
90. Taghizadeh-Farahmand, F., Sodoudi, F., Afsari, N.,Ghassemi, M.R., Lithospheric structure of NW Iran from P and S receiver functions, Journal of Seismology, 14 (2010) 823-836.
91. Maggi, A.,Priestley, K., Surface waveform tomography of the Turkish–Iranian plateau, Geophysical Journal International, 160 (2005) 1068-1080.
92. Bavali, K., Motaghi, K., Sobouti, F., Ghods, A., Abbasi, M., Priestley, K., Mortezanejad, G.,Rezaeian, M., Lithospheric structure beneath NW Iran using regional and teleseismic travel-time tomography, Physics of the Earth and Planetary Interiors, 253 (2016) 97-107.
93. Madanipour, S., Ehlers, T.A., Yassaghi, A.,Enkelmann, E., Accelerated middle Miocene exhumation of the Talesh Mountains constrained by U‐Th/He thermochronometry: evidence for the Arabia‐Eurasia collision in the NW Iranian Plateau, Tectonics, (2017).
94. Agard, P., Omrani, J., Jolivet, L., Whitechurch, H., Vrielynck, B., Spakman, W., Monié, P., Meyer, B.,Wortel, R., Zagros orogeny: a subduction-dominated process, Geological Magazine, 148 (2011) 692-725.
95. Agard, P., Omrani, J., Jolivet, L.,Mouthereau, F., Convergence history across Zagros (Iran): constraints from collisional and earlier deformation, International Journal of Earth Sciences, 94 (2005) 401-419.
96. Pearce, J., Bender, J., De Long, S., Kidd, W., Low, P., Güner, Y., Saroglu, F., Yilmaz, Y., Moorbath, S.,Mitchell, J., Genesis of collision volcanism in Eastern Anatolia, Turkey, Journal of Volcanology and Geothermal Research, 44 (1990) 189-229.
97. Shafaii Moghadam, H., Ghorbani, G., Khedr, M.Z., Fazlnia, N., Chiaradia, M., Eyuboglu, Y., Santosh, M., Francisco, C.G., Martinez, M.L., Gourgaud, A.,Arai, S., Late Miocene K-rich volcanism in the Eslamieh Peninsula (Saray), NW Iran: Implications for geodynamic evolution of the Turkish–Iranian High Plateau, Gondwana Research, 26 (2014) 1028-1050.
98. Aftabi, A.,Atapour, H., Regional aspects of shoshonitic volcanism in Iran, Episodes, 23 (2000) 119-125.
99. Eyuboglu, Y., Santosh, M., Yi, K., Bektaş, O.,Kwon, S., Discovery of Miocene adakitic dacite from the Eastern Pontides Belt (NE Turkey) and a revised geodynamic model for the late Cenozoic evolution of the Eastern Mediterranean region, Lithos, 146–147 (2012) 218-232.
100. Zhu, D.-C., Zhao, Z.-D., Pan, G.-T., Lee, H.-Y., Kang, Z.-Q., Liao, Z.-L., Wang, L.-Q., Li, G.-M., Dong, G.-C.,Liu, B., Early cretaceous subduction-related adakite-like rocks of the Gangdese Belt, southern Tibet: Products of slab melting and subsequent melt–peridotite interaction?, Journal of Asian Earth Sciences, 34 (2009) 298-309.