Abdel-Fattah, M., Abdel-Rahman, A.M. and Nassar, P.E., 2004. Cenozoic volcanism in the Middle East: petrogenesis of alkali basalts from Northern Lebanon. Geological Magazine, 141(5): 545–63.
https://doi.org/10.1017/S0016756804009604
Aistov, L., Melnikov, B., Krivyakin, B., Morozov, L., Kiristaev, V. and Romanko, E., 1984. Geology of the Khur Area (Central Iran). Geological Survey of Iran, Tehran, Report 20, 132 pp.
Bogaard, P.J.F. and Worner, G., 2003. Petrogenesis of basanitic to tholeiitic volcanic rocks from the Miocene Vogelsberg, Central Germany. Journal of Petrology, 44(3): 569–602.
https://doi.org/10.1093/petrology/44.3.569
Fitton, J.G. and Upton, B.G.J., 1987. Alkaline Igneous Rocks, Blackwell, London, 576 pp.
Ghasemi, H., Barahmand, M. and Sadeghian, M., 2011. The Oligocene basaltic lavas of east and southeast of Shahroud: Implication for back-arc basin setting of Central Iran Oligo-Miocene basin. Petrological Journal, 2(7): 77-94. (in Persian with English abstract) Retrieved November 1 2023 from
https://ijp.ui.ac.ir/article_16081.html?lang=en
Ghasemi, H., Rostami Hossuri, M., Sadeghian, M. and Kadkhodaye Arab, F., 2016. Back-arc extensional magmatism in the Oligo-Miocene basin of the Northern edge of Central Iran. Scientific Quarterly Journal of Geosciences, 25(99): 239–252. (in Persian with English abstract)
https://doi.org/10.22071/gsj.2016.40915
Goli, Z., Torabi, G. and Arai, S., 2021. High-K calc-alkaline Eocene volcanic rocks from the Anarak area (Central Iran): A key structure for the early stages of oceanic basin closure and the beginning of collision. Geotectonics, 55(4): 600–617.
https://doi.org/10.1134/S0016852121040075
Gorton, M.P. and Schandl, E.S., 2000. From continents to island arcs: a geochemical index of tectonic setting for arc-related and within-plate felsic to intermediate volcanic rocks. The Canadian Mineralogist, 38(5): 1065–1073.
https://doi.org/10.2113/GSCANMIN.38.5.1065
Hollocher, K., Robinson, P., Walsh, E. and Roberts, D., 2012. Geochemistry of amphibolite-facies volcanics and gabbros of the Storen Nappe in extensions west and southwest of Trondheim, western Gneiss region, Norway: A key to correlations and paleotectonic settings. American Journal of Science, 312(4): 357–416.
https://doi.org/10.2475/04.2012.01
Jamshidzaei, A., Torabi, G., Morishita, G. and Tamura, A., 2021. Eocene dike swarm and felsic stock in Central Iran: Roles of metasomatized mantle wedge and Neo-Tethyan slab. Journal of Geodynamics, 145 (1): 101844.
https://doi.org/:10.1016/j.jog.2021.101844
Kiseeva, E.S., Kamenetsky, V.S., Yaxley, G.M. and Shee, S.R., 2017. Mantle melting versus mantle metasomatism–“The chicken or the egg” dilemma. Chemical Geology, 455(20): 120–130.
https://doi.org/10.1016/j.chemgeo.2016.10.026
Mohammadi, N., Sodoudi, F., Mohammadi, E. and Sadidkhouy, A., 2013. New constraints on lithospheric thickness of the Iranian plateau using converted waves. Journal of Seismology, 17(3): 883–895.
https://doi.org/10.1007/s10950-013-9359-2
Moradi, S., Khaksar, T., Nazarinia, A. and Hussain, A., 2022. Petrology and geochemistry of Plio-Quaternary high-Nb basalts from Shahr-e-Babak area: Insights into post-collision magmatic processes in the Kerman Cenozoic Magmatic Arc. Geologica Acta, 20(8): 1–19.
https://doi.org/10.1344/GeologicaActa2022.20.8
Rajabi, S. and Torabi, G., 2012. Petrology of mantle peridotites and volcanic rocks of the narrowest Mesozoic ophiolitic zone from central Iran (Yazd province). Neues Jahrbuch fur Geologie und Palaeontologie - Abhandlungen, 265(1): 49–78.
https://doi.org/10.1127/0077-7749/2012/0245
Rajabi, S., Torabi, G. and Arai, S., 2014. Oligocene crustal xenolith-bearing alkaline basalt from Jandaq area (Central Iran): implications for magma genesis and crustal nature. Island Arc, 23(2): 125–141.
https://doi.org/10.1111/iar.12063
Ramezani, J. and Tucker, R. D., 2003. The Saghand region, central Iran: U-Pb geochronology, petrogenesis and implications for Gondwana tectonics. American Journal of Science, 303(7): 65–622.
http://dx.doi.org/10.2475/ajs.303.7.622
Rostami-Hossouri, M., Ghasemi, H., Pang, K.N., Shellnutt, J.G., Rezaei-Kahkhaei, M., Miao, L., Mobasheri, M., Iizuka, Y., Lee, H-Y. and
Lin, T-H., 2020. Geochemistry of continental alkali basalts in the Sabzevar region, northern Iran: implications for the role of pyroxenite in magma genesis. Contributions to Mineralogy and Petrology, 175(5): 1–22.
https://doi.org/:10.1007/s00410-020-01687-z
Rudnick, R.L., McDonough, W.F. and Chappell, B.W., 1993. Carbonatite metasomatism in the northern Tanzanian mantle: petrographic and geochemical characteristics. Earth and Planetary Science Letters, 114(4): 463–475.
https://doi.org/10.1016/0012-821X(93)90076-L
Salim, H., Torabi, G., Shirdashtzadeh, N., Sahlabadi, M. and Morishita, T., 2022. Early Oligocene continental alkalibasalts of the Central Toveireh area (Southwest of Jandaq, Isfahan Province, Iran). Geotectonics, 56(2): 241–256.
https://doi.org/10.1134/s001685212202011x
Shakerardakani, F., Neubauer, F., Bernroider, M., Von Quadt, A., Peytcheva, I., Liu, X., Genser, J., Monfaredi, B. and Masoudi, F., 2017. Geochemical and isotopic evidence for Carboniferous rifting: mafic dikes in the central Sanandaj-Sirjan zone (Dorud-Azna, West Iran). Geologica Carpathica, 68(3): 229–247.
https://doi.org/10.1515/geoca-2017-0017
Sharkovski, M., Susov, M., Krivyakin, B., Morozov, L., Kiristaev, V. and Romanko, E., 1984. Geology of the Anarak Area (Central Iran), Geological Survey of Iran, Technoexport, Report 19: 143 pp.
Shaw, A.M., Hilton, D.R., Fischer, T.P., Walker, J.A. and Alvarado, G.E., 2003. Contrasting He-C relationships in Nicaragua and Costa Rica: insights into C cycling through subduction zones. Earth and Planetary Science Letters, 214(3–4): 499–513.
https://doi.org/10.1016/S0012-821X(03)00401-1
Sun, S.S. and McDonough, W.F., 1989. Chemical and isotopic systematics of oceanic basalts: Implications for mantle composition and processes. In: A.D. Saunders and M.J. Norry, (Editors) Magmatism in ocean basins. Geological Society London, Special Publications, 42(1): 313–345.
https://doi.org/10.1144/GSL.SP.1989.042.01.19
Torabi, G., 2010. Early Oligocene alkaline lamprophyric dikes from the Jandaq area (Isfahan Province, Central Iran): Evidence of Central-East Iranian microcontinent confining oceanic crust subduction. Island Arc, 19(2): 277–291.
https://doi.org/10.1111/j.1440-1738.2009.00705.x
Torabi, G., 2011. Middle Eocene volcanic shoshonites from western margin of Central-East Iranian Microcontinent (CEIM), a mark of previously subducted CEIM-confining oceanic crust. Petrology, 19(7): 675–689.
https://doi.org/10.1134/S0869591111030039
Verma, S.P. and Agrawual, S., 2011. New tectonic discrimination diagrams for basic and ultrabasic volcanic rocks through log-transformed ratios of high field strength elements and implications for petrogenetic processes. Revista Mexicana de Ciencias Geológicas, 28(1): 24–44. Retrieved October 14, 2023 from
https://www.redalyc.org/articulo.oa?id=57220090003
Winchester, J.A. and Floyd, P.A., 1977. Geochemical discrimination of different magma series and their differentiation products using immobile elements. Chemical Geology, 20: 249–284.
https://doi.org/10.1016/0009-2541(77)90057-2
Zeng, G., Chen, L.H., Xu, X.S., Jiang, S.Y. and Hofmann, A.W., 2010. Carbonated mantle sources for Cenozoic intra-plate alkaline basalts in Shandong, North China. Chemical Geology, 273(1–2): 35–45.
https://doi.org/10.1016/j.chemgeo.2010.02.009
Zhang, G., Peng, R., Qiu, H., Wen, H., Feng, Y., Chen, B., Zhang, L., Liu, S. and Liu, T., 2020. Origin of Northeast Fujian basalts and limitations on the heterogeneity of mantle sources for Cenozoic alkaline magmatism across SE China: Evidence from zircon U–Pb dating petrological, whole-rock geochemical, and isotopic studies. Minerals 10(9): 1–18.
https://doi.org/:10.3390/min10090770
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