1. Pearce, J. A., "Immobile element fingerprinting of ophiolites. Elements", 10 (2014): 101-108.
2. Dilek, Y., and Furnes, H., "Ophiolite genesis and global tectonics: geochemical and tectonic fingerprinting of ancient oceanic lithosphere", The Geological Society of America Bulletin 123 (2011) 387- 411.
3. Dilek, Y and Robinson, P. T., "Ophiolites in Earth history: introduction Geological Society", London, Special publication, 218 (2003):1-8.
4. McQuarrie, N., "Crustal scale geometry of the Zagros fold-thrust belt, Iran", Journal of Structural Geology, 26 (2004):519-535.
5. Homke, S., Verges, J., van der Beek, P., Fernandez , M., Saura , E., Barbero , L., Badics, B., and Labrin, E., "Insights in the exhumation history of the NW Zagros from bedrock and detrital apatite fission-track analysis: Evidence for a long-lived orogeny", Basin Research, 22 (2010):659-680.
6. Dilek, Y. and Furnes, H., "Structure and geochemistry of Tethyan ophiolites and their petrogenesis in subduction rollback systems", Lithos 113(1-2) (2009): 1-20.
7. Agard P., Omrani J., Jolivet, L. and Mouthereau F., "Convergence history across Zagros (Iran): constraints from collisional and earlier deformation", International journal of earth sciences, 94(3) (2005) 401-419.
8. Berberian, M. and King, G., "Towards a paleogeography and tectonic evolution of Iran", Canadian Journal of Earth Sciences 18(2) (1981): 210-265.
9. Ghazi A.M. and Hassanipak A.A., "Geochemistry of subalkaline and alkaline extrusives from the Kermanshah ophiolite, Zagros Suture Zone, Western Iran: implications for Tethyan plate tectonics", Journal of Asian Earth Sciences, 17(3) (1999) 319-332.
10. Sarkarinejad, K., "Structures and micro structures related to steady state mantle flow in the Neyriz ophiolite, Iran", Journal of Asian Earth Sciences, 25 (2005):859-881.
11. Allahyari K., Saccani E., Pourmoafi M., Beccaluva L., Masoudi F., "petrology of mantle peridotites and intrusive mafic rocks from the Kermanshah ophiolitic complex (Zagros belt, Iran): implications for the geodynamic evolution of the Neo-Tethyan oceanic branch between Arabia and Iran", Ofioliti, 35(2) (2010) 71–90.
12. Shafaii Moghadam, H., Corfu, F., and Stern, R.J., "U-Pb Zircon ages of Late Cretaceous Nain-Dehshir ophiolite, Central Iran", J. Geol. Soc. London 170 (2013):175-184.
13. Saccani E., Allahyari K., Beccaluva L. and Bianchini G., "Geochemistry and petrology of the Kermanshah ophiolites (Iran): Implication for the interaction between passive rifting, oceanic accretion, and OIB-type components in the Southern Neo-Tethys Ocean", Gondwana Research, 24(1) (2013) 392-411.
14. Whitechurch H., Omrani J., Agard P., Humbert F.,Montigny R., Jolivet L., "Evidence for Paleocene–Eocene evolution of the foot of the Eurasian margin (Kermanshah ophiolite, SW Iran) from bacK–Arc to arc: implications for regional geodynamics and obduction", Lithos, 182-183 (2013) 11–32.
15. Allahyari K., Saccani E., Rahimzadeh B., Zeda O., "Mineral chemistry and petrology of highly magnesian ultramafic cumulates from the Sarve-Abad (Sawlava) ophiolites (Kurdistan, NW Iran): new evidence for boninitic magmatism in intra-oceanic fore-arc setting in the Neo-Tethys between Arabia and Iran", Journal of Asian Earth Sciences, 79 (2014) 312–328.
16. Saccani E., Allahyari K., Rahimzadeh B., "Petrology and geochemistry of mafic magmatic rocks from the Sarve-Abad ophiolites (Kurdistan region, Iran): evidence for interaction between MORB-type asthenosphere and OIB-type components in the southern Neo-Tethys Ocean", Tectonophysics, 621 (2014) 132–147.
17. Aswad K.J., Aziz N.R. and Koyi H.A., "Cr-spinel compositions in serpentinites and their implications for the petrotectonic history of the Zagros Suture Zone, Kurdistan Region, Iraq", Geological Magazine, 148(5-6) (2011) 802-818.
18. Braud J., "La suture du Zagros au niveau de Kermanshah (Kurdistan Iranien): reconstitution pale´oge´ographique, e´volution ge´odynamique, magmatique et structurale", The`se, Universite´ Paris-Sud, (1987) 489.
19. Shahidi M., Nazari H., "Geological map of Harsin, 1/100.000 scale", Geological survey of Iran, (1997).
20. Moradpour, A., Zarei Sahamieh, R., Ahmadi Khalaji, A., and Sarikhani, R., "Textural records and geochemistry of the Kermanshah mantle peridotites (Iran): implications for the tectonic evolution of southern Neo-Tethys", Journal of Geosciences, 3(2017):165-186.
21. سودی اجیرلو، مجید، حاجی علیاوغلی، رباب و موذن، محسن.، شیمی کانیایی و جایگاه زمینساختی دایکهای
دیابازی مجموعه افیولیتی کامیاران، غرب ایران مجله بلورشناسی و کانیشناسی ایران، 3، صص. (1396) ۶۰۹-۶۱۸.
22. ویسی نیا، ایوب، پترولوژی، ژئوشیمی و خاستگاه تکتونیکی مجموعه پریدوتیتی گرماب، افیولیت های کرمانشاه،
شمال شرق کامیاران، پایاننامه کارشناسی ارشد، دانشگاه زنجان، 210 ص (1395).
23. Delaloye M., Desmons J., "Ophiolites and melange terranes in Iran: a geochronological study and its paleotectonic implications", Tectonophysics, 68 (1-2) (1980) 83–111.
24. Fabien, H., "Les ophiolites de Kermanshah (Iran): Naissance dun arc intra-oceanique Eocene en fin de subduction de la Neotethys", Memori de stage de Recherche Master 2, (2005) 57p.
25. Aghanabati, A., "Geological Maps of Kermanshah Quadrangle, Scale, 1: 250000", Geological Survey of Iran, Tehran (1978).
26. Braud J., "Geological map of Kermanshah 1/250.000 scale", Geological survey of Iran, (1978).
27. Braud, J., "Les formations du Zagros dans la region de Kermanshah (Iran)", et leurs rapports structuraux Imp. Jouve (1970).
28. Mason, B. and Moore, C.B., "Principles of Geochemistry", Wiley & Sons, New York (1982).
29. Le Bas, M.J., Le Maitre, R.W., Streckeisen, A., Zanettin, B., "A chemical classification of volcanic rocks based on the total alkali-silica diagram", J. Petrol. 27 (1986):745-750.
30. Winchester, J.A. Floyd, P.A., "Geochemical discrimination of different magma and their differentiation products using immobile elements", Chem. Geol., 20 (1977): 325-343.
31. Irvine, T.N., Baragar, W.R.A., "A guide to the chemical classification of the common volcanic rocks", Can. J. Earth Sci., 8 (1971): 523-548.
32. Hastie, A.R., Kerr, A.C., Pearce, J.A., Mitchell, S.F., "Classification of altered volcanic island arc rocks using immobile trace elements: Development of the Th-Co discrimination diagram", Journal of Petrology, 48 (2007): 2341-2357.
33. Tepper, J.H., Nelson, B.K., Bergantz, G. W. Irving, A. J., "Petrology of the Chilliwack batholith, North Cascades, Washington: generation of calc-alkaline granitoids by melting of mafic lower crust with variable water fugacity", Contributions to Mineralogy and Petrology 113 (1993): 333-351.
34. Leat, P.T., Pearce, J.A., Barker, P.F., Millar, I.L., Barry, T.L., Larter, R.D., "Magma genesis and mantle flow at a subducting slab edge: the South Sandwich arc-basin system. Earth Plenet", Sci. Lett 227 (2004): 17-35.
35. Neill, O., "The Transition between spinel peridotite and garnet peridotite, and its use as a geobarometer", Con. Min. Pet., 77 (1981):185-194.
36. Baier, J., Aude´tat, A. Keppler, H., "The origin of the negative niobium–tantalum anomaly in subduction zone magmas", Earth and Planetary Science Letters 267 (2008): 290-300.
37. Pearce, J.A., Harris. N.B.W. Tindle, A.G.,"Trace element discrimination diagrams for the tectonic interpretation of granitic rocks", J. Petrol., 25 (1984):956-983.
38. Peng, T., Wang Y., Zhao G., Fan W. Peng B., "Arc-like volcanic rocks from the southern Lancangjiang zone, SW China: Geochronological and geochemical constraints on their petrogenesis and tectonic implication", Lithos 102 (2007): 358- 373.
39. Stern, R. J., Kohut, E. J., Bloomer, S. H., Leybourne, M., Fouch, M. Vervoot, J., "Subduction factory processes beneath the Guguan cross-chain, Mariana Arc: no role for sediments, are serpentinites important", Contributions to Mineralogy and Petrology, 151 (2006):202-221.
40. Tian, L., Castillo, P. R., Hawkins, J. W., Hilton, D. R., Hanan, B. H. Pietruszka, A. J., "Major and trace element and Sr-Nd isotope signatures of lavas from the central Lau Basin: implications for the nature and influence of subduction components in the back-arc mantle", Journal of Volcanology and Geothermal Research, 178 (2008):657-670.
41. Monnier, C., Girardeau, J., Maury, R, C., Cotton, J., "Back-arc basin origin for the East Sulawesi ophiolite (eastern Indonesia)", Geology23 (1995):851-854.
42. Plank, T., "Constraints from Thorium/Lanthanum on Sediment Recycling at Subduction Zones and the Evolution of the Continents", J. Petrol 46 (2005):921-944.
43. Rolland, Y., Pêcher, A., Picard C., "Middle cretaceous back arc formation and arc evolution along the Asian margin: the Shyok Suture Zone in northern Ladakh (NW Himalaya)", Tectonophysics 325 (2000):145-173.
44. Caulfield, J. T., Turner, S. P., Dosseto, A., Pearson, N. J. Beier, C., "Source depletion and extent of melting in the Tongan sub-arc mantle. Earth and Planetary Science Letters. 273 (2008) 279- 288.
45. Pearce, J. A., Stern, R. J., Bloomer, S. H. Fryer, P., "Geochemical mapping of the Mariana arc-basin system: implications for the nature and distribution of subduction components", Geochem. Geophys. Geosyst, 6 (2005) Q07006, doi: 10.1029/2004GC000895.
46. Lin, P. N., Stern, R. J. Bloomer, S. H., "Shoshonitic volcanism in the northern Mariana arc: 2. Large ion lithophile and rare element abundances: Evidence for the source of incompatible element enrichments in intra oceanic arcs", J. Geophys. Res. 94 (1989): 497- 4514.
47. Dilek, Y., "Ophiolite concept and its evolution, in Dilek, Y., Newcomb, S., eds., "Ophiolite Concept and the Evolution of Geological Thought", Geological Society of America Special Paper 373 (2003):1- 16.
48. Boynton, W.V., "Cosmochemistry of the rare earth elements: meteorite studies. In: Henderson, P. (Ed.), Rare Earth Element Geochemistry", Elsevier, Amsterdam, 522p. (1984) 63-114.
49. Sun, S. S. and McDonough, W. F., "Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and process. In: Saunders, A.D., Norry, M.J. (Eds.), Magmatism in the Ocean Basins", Geological Society of London, Special Publication, 42 (1989):313- 345.
50. Gill, J.B., "Orogenic Andesites and Plate Tectonics", 390 pp., Springer, Berlin (1981).
51. Sommer, C. A., Lima, E. F., Nardi, L. V. S., Liz, J. D. and Waichel, B. L., "The evolution of Neoproterozoic magmatism in Southernmost Brazil: shoshonitic, high- K tholeiitic and silica- saturated, sodic alkaline volcanism in post collisional basins", Anais da Academia Brasileira de Ciencias 78 (2006): 573- 589.
52. Meschede, M., "A method of discriminating between different types of mid-ocean ridge basalts and continental Tholeiites with the Nb-Zr-Y diagram", Chem. Geol., 56 (1986):207-218.
53. Wood, D.A., "The application of a Th-Hf-Ta diagram to problems of tectonomagmatic classification and to establishing the nature of crustal contamination of basaltic lavas of the British Tertiary volcanic province", Earth Planet Science Letters 50 (1980): 11-30.
54. Pearce, J. A. Cann, J. R., "Tectonic setting of basic volcanic rocks determined using trace element analyses. Earth and Planetary science", Letters 19 (1973): 290-300.
55. Saunders, A., and Tarney, J., "Back-arc basins. In: Floyd, P.A. (Ed.), Oceanic Basalt. Blackie and Sons, Glasgow, U.K, pp. (1991) 219-263.
56. Prytulak, J. and Elliott, T., "TiO2 enrichment in ocean island basalts", Earth and Planetary Science Letters 263 (2007): 388-403.
57. Pearce, J.A. and Norry, M.J., "Petrogenetic Implications of Ti, Zr, Y, and Nb Variations in Volcanic Rocks", Contributions to Mineralogy and Petrology, 69(1) (1979): 33-47.
58. Xia, B., Chen, G., Wang, R. and Wang, Q., "Seamount volcanism associated with the Xigaze ophiolite، southern Tibet", Journal of Asian Earth Sciences 32(5) (2008): 396-405.
59. Pearce, J.A., "Role of the sub-continental lithosphere in magma genesis at active continental margins. In: C.J. Hawkesworth, M.J. Norry (Editors.), Continental Basalts and Mantle Xenoliths", Shiva publishing, Nantwich, pp. (1983) 230-249.
60. Pearce, J. A. Peate, D. W., "Tectonic implications of the composition of volcanic arc magmas", Annual Reviews of Earth and Planetary Sciences 23(1995):251- 285.
61. Stacey, C. and Wade, C., "Stratigraphy of the lower Gawler Range Volcanics in the Roopena area, north-eastern Eyre Peninsula", Geological Survey of South Australia (2016). Report Book 2015/00021.
62. DePaolo D. J. Daley E. E., "Neodymium isotopes in basalts of the southwest basin and range and lithospheric thinning during continental extension", Chemical Geology 169 (2000): 157-185.
63. Aldanmaz, E., Pearce, J. A., Thirlwall, M. F. Mitchell J. G., "Petrogenetic evolution of late Cenozoic, post-collision volcanism in western Anatolia, Turkey", Journal of Volcanology Geothermal Research 102 (2000): 67-95.
64. Geng, H., Sun, M., Yuan, C., Xiao, W.J., Xian, W.S., Zhao, G.C., Zhang, L.F., Wong, K. Wu F.Y., "Geochemical, Sr–Nd and zircon U–Pb–Hf isotopic studies of Late Carboniferous magmatism in the West Junggar, Xinjiang: implications for ridge subduction", Chemical Geology 266 (3-4) (2009): 364-389.
65. Varekamp J., Hesse A. Mandeville C. "Back-arc basalts from the Loncopue graben (Province of Neuquen, Argentina)", Journal of volcanology and geothermal research 197(1): (2010)313- 328.
66. Furman, T., "Geochemistry of East African Rift basalts: An overview", Journal of African Earth Sciences 48 (2007): 147-160.
67. Zhao, J.H. and Zhou, M.F., "Geochemistry of Neoproterozoic mafic intrusions in the Panzhihua district (Sichuan Province, SW China) Implications for subduction-related metasomatism in the upper mantle", Precambrian Research 152 (2007): 27-47.
68. Shaw J. E., Baker J. A., Menzies M. A., Thirl wall M. F., Ibrahim K. M., "Petrogenesis of the largest intraplate volcanic field on the Arabian Plate (Jordan): a mixed lithosphere- asthenosphere source activated by lithospheric extension", Journal of Petrology, 44 (2003): 1657-1679.
69. Li Z., Chen B., "Geochronology and geochemistry of the Paleoproterozoic meta- basalts from the Jiao- Liao- Ji Belt, North China Craton: Implications for petrogenesis and tectonic setting", Precambrian Research 255 (2014): 653- 667.
70. Fleche M. R., Camire G. Jenner G. A., "Geochemistry of post-Acadian, Carboniferous continental intraplate basalts from the Maritimes Basin, Magdalen Islands, Quebec, Canada", Chemical Geology 148 (1998): 115-136.
71. Turner S., Hawkesworth C., Rogers N., Bartlett J., Worthington T., Hergt J., Pearce J. Smith I., "238U- 230Th disequilibria, magma petrogenesis and flux rates beneath the depleted Tonga- Kermadec island arc", Geochimica et Cosmochimica Acta 61: 4855- 4884.
72. Class, C., Miller, D. M., Goldstein, S. L. and Langmuir, C. H., "Distinguishing melt and fluid subduction components in Umnak volcanics, Aleutian Arc", Geochemistry Geophysics Geosystems 1(6) (2000): 10.1029/1999GC000010.
73. Munker C., "The isotope and trace element budget of the Cambrian Devil River arc system, New Zealand: identification of four source components", Journal of Petrology 41 (2000): 759-788.
74. Marchev P., Raicheva R., Downes H., Vaselli O., Chiaradia M., Moritz R., "Compositional diversity of Eocene-Oligocene basaltic magmatism in the Eastern Rhodopes, SE Bulgaria: Implications for genesisand tectonic setting", Tectonophysics, 393. (2004):301-328.
75. Shen, P., Pan, H., Seitmuratova, E., Yuan, F. and Jakupova, S.," A Cambrian intra-oceanic subduction system in the Bozshakol area, Kazakhstan", Lithos, 224 (2015): 61-77.
76. Woodhead, J.D., Hergt, J.M., Davidson, J.P., and Eggins, S.M., "Hafnium isotope evidence for “conservative” element mobility during subduction zone processes", Earth and Planetary Science Letters, 192 (2001):331- 346.
77. Hawkesworth, C. J., Turner, S. P., McDermott, F., Peate, D. W. and van Calsteren, P., "U-Th isotopes in arc magmas: implication for element transfer from subducted crust", Science Journal 276 (1997): 551-555.
78. Zhengfu, G., Marjorie, W., Maoliang, Z. and Lihong, Z., "Post- collisional, K- rich mafic magmatism in south Tibet: constraints on Indian slab to wedge transport processes and plateau uplift", Contribution to Mineralogy and Petrology 165(6) (2013): 1311-1340.
79. Babaie, H.A., Ghazi, M.A., Babaei, A., la Tour, T.E., Hassanipak, H.H., "Geochemistry of arc volcanic rocks of the Zagros Crush zone, Nyriz, Iran", J. Asian Earth Sci.19 (2001): 61-76.
80. Wrobel-Daveau J.C., Ringenbach J.C., Tavakoli S., Ruiz G., Masse P., Frizonde Lamotte D., "Evidence for mantle exhumation along the Arabian margin in the Zagros (Kermanshah area, Iran). Arabian Journal of Geosciences", Springer Berlin/ Heidelberg, (2010) 499–513.
81. 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 (11–12) (2005) 1513–1533.
82. Desmons, J., and Beccaluva, L. "Mid- ocean ridge and island- arc affinities in ophiolites from Iran: palaeographic implications", complementary reference, Chemical Geology 39 (1983):39- 63.
83. Azizi, H., and Asahara, Y. "Juvenile granite in the Sanandaj–Sirjan Zone, NW Iran: Late Jurassic-Early Cretaceous arc-continent collision", Int. Geol. Rev., 55 (2013):1523-1540.
84. Azizi H., Tanaka T., Asahara Y., Chung S.L. and Zarrinkoub M.H., "Discrimination of the age and tectonic setting for magmatic rocks along the Zagros thrust zone, northwest Iran, using the zircon U-Pb age and Sr-Nd isotopes", Journal of Geodynamics, 52 (2011) 304-320.
85. Moinvaziri, H. Azizi, B. Mehrabi. F. Izadi., "Oligocene Magmatism in the Zagros Thrust Zone (Sahneh- Marivan) Area: Evidences for the second Neotethyan Subduction Occurrence in the Paleogene, Journal of Science, University of Tehran 34 (2008):113-122.
86. Azizi, H. and Moinevaziri, H. "Review of the tectonic setting of Cretaceous to Quaternary volcanism in northwestern Iran", Journal of Geodynamics 47(4) (2009): 167-179.
87. Ghasemi A., Talbot C. J., "A new tectonic scenario for the Sanandaj–Sirjan Zone (Iran)", J, Asian Earth Sci., 26 (2006):683-693.