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WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN

Yıl 2017, Cilt: 155 Sayı: 155, 99 - 113, 03.12.2017
https://doi.org/10.19111/bulletinofmre.336499

Öz

Kaynakça

  • Alavi, M. 1991. Sedimentary and Structural characteristics of the Paleo-Tethys remnants in northeastern Iran. Geological Society of America Bulletin 103, 983-992.
  • Allen, M.B., Ghassemi, M.R., Shahrabi, M., Qorashi, M. 2003. Accommodation of late Cenozoic shortening in the Alborz range, northern Iran. Journal of Structural Geology 25, 659–672.
  • Annells, R.N., Arthurton, R.S., Bazley, R.A., Davies, R.G. 1975. Explanatory text of the Qazvin and Rasht quadrangles map: Tehran, Geological Survey of Iran, 94 p.
  • Annells, R.N., Arthurton, R.S., Bazley, R.A., Davies, R.G., Hamedi, M.A.R., Rahimzadeh, F. 1977. Geological map of Iran, Shakran sheet 6162: Geological Survey of Iran, scale 1:100 000.
  • Asadian, O. 1999. Geological map of Khalkhal, 1:100000. Geological Survey of Iran.
  • Axen, G. J., Patrick, S.L., Marty, G., Stockli, D., F., Hassanzadeh, J. 2001. Exhumation of the west-central Alborz Mountains, Iran, Caspian subsidence, and collision-related tectonics. Geology 29.6, 559-562.
  • Berberian, F., Berberian, M. 1981. Tectono-plutonic episodes in Iran. In: H. Gupta and F. Delany (Editors), Zagros-Hindu Kush-Himalaya Geodynamic Evolution. American Geophysical Union, Geodynamic Series 3, 5- 32.
  • Bonin, B. 2007. A-type granites and related rocks: evolution of a concept, problems and prospects. Lithos 97,1–29.
  • Boulin, J. 1981. Afghanistan structure. Greater India concept and eastern Tethys evolution. Tectonophysics 72, 261- 287.
  • Clark, G.C., Davies, R.G., Hamzepour, G., Jones, C.R. 1975. Explanatory text of Bandar-e-Anzali quadrangle map, 1:250,000. Geological Survey of Iran.
  • Clemens, J. D., Hollaway, J. R., White, A. J. R. 1986. Origin of an A-type granite: experimental constraints. American Mineralogist 71, 317-324.
  • Collins, W.J., Beams, S.D., White, A.J.R., Chappell, B.W. 1982. Nature and origin of A-type granites with particular reference to southeastern Australia. Contributions to Mineralogy and Petrology 80, 189–200.
  • Creaser, R.A., Price, R.C., Wormald, R. J. 1991. A-type granites revisited: Assessment of a residual-source model. Geology 19, 163–166.
  • Debon, F., Afzali, H., LeFort, P., Sonet, J., Zimmermann, J.L. 1987. Plutonic rocks and associations in Afghanistan: typology, age and geodynamic setting. Memoire Science de la Terre, Nancy 49, 132 pp.
  • Delaloy, M., Jenny, J., Stampfli, G. 1981. K-Ar dating in the eastern Elburz (Iran). Tectonophysics 79, 27-36.
  • De La Roche, H., Leterrier J., GrandIauale, P., Marcher, M. 1980. A classification of volcanic and plutonic rocks using R1- R2 diagrams and major element analysis. Chemical Geology 183-210.
  • Ding, X., Lundstrom, C., Huang, F., Li, J., Zhang, Z.M., Sun, X.M., Liang, J.L., Sun,W.D. 2009. Natural and experimental constraints on formation of the continental crust based on niobium–tantalum fractionation. International Geology Review 51, 473–501.
  • Eby, G. N. 1990. The A-Type granitoids: A Review for their occurrence and characteristics and speculations on their petrogenesis. Lithos 26, 115-134.
  • Erkül, A., Sözbilir, R., Erkül, F., Helvaci, C., Ersoy, Y., Sümer, Ö. 2008. Geochemistry of I-type granitoids in the Karaburun Peninsula, West Turkey: Evidence for Triassic continental arc magmatism following closure of the Palaeotethys. Island Arc 17, 394–418.
  • Foley, S., Tiepolo, M., Vannucci, R. 2002. Growth of early continental crust controlled by melting of amphibolite in subduction zones. Nature, 417, 837–840.
  • Frost, B. R. , Arculus, R. J. , Barnes, C. G. , Collins, W. J. , Ellis, D. J., Frost, C. D. 2001. A geochemical classification of granitic rock suites. Journal of Petrology 42, 2033 – 48.
  • Gamkrelidze, I.P., Shengelia, D.M. 2007. Pre-Alpine geodynamics of the Caucasus, suprasubduction regional metamorphism and granitoid magmatism. Bulletin of the Georgian national academy of sciences 175.
  • Ghavidel-Syooki, M. 2007. Palynostratigraghy and Palaeogegraphy of the Gorgan schists in southern Gorgan city (southeastern Caspian Sea), eastern Alborz range, northern Iran. CIMP Lisbon Abstracts 63-64.
  • Green, T.H. 1995. Significance of Nb/Ta as an indicator of geochemical processes in the crust-mantle system. Chemical Geology 120, 347–359.
  • Guest, B., Axen, G.J., Lam, P.S., Hassanzadeh, J. 2006. Late Cenozoic shortening in the west-central Alborz Mountains, northern Iran, by combined conjugate strike slip and thin-skinned deformation. Geosphere 2/1, 35–52.
  • Harris, N.B.W., Marzouki, F.M.H., Ali, S. 1986. The Jabel Sayid Complex, Arabian Shield: geochemical constraints on the origin of peralkaline and related granites. Journal of the Geological Society of London 143, 287- 295.
  • Hastie, A. R., Kerr, A. C., Pearce, J. A., Mitchell, S. F. 2007. Classification of Altered Volcanic Island Arc Rocks using Immobile Trace Elements: Development of the Th–Co Discrimination Diagram. Journal of Petrology 48, 2341-2357.
  • Hennig, D., Lehmann, B., Frei, D., Belyatsky, B., Zhao, X.F., Cabral, A.R., Zeng, P.S., Zhou, M.F., Schmidt, K. 2009. Early Permian seafloor to continental arc magmatism in the eastern Paleo-Tethys: U-Pb age and Nd-Sr isotope data from the southern Lancangjiang zone, Yunnan, China. Lithos 113, 408-422.
  • Huang, X.L., Xu, Y.G., Li, X.H., Li, W.X., Lan, J.B., Zhang, H.H., Liu, Y.S., Wang, Y.B., Li, H.Y., Luo, Z.Y., Yang, Q.J. 2008. Petrogenesis and tectonic implications of Neoproterozoic, highly fractionated A-type granites from Mianning, South China. Precambrian Research 165(3), 190-204.
  • Jackson, J., Priestley, K., Allen, M., Berberian, M. 2002. Active tectonics of the South Caspian Basin. Geophysical Journal International 148, 214–245,
  • Jassim, S. Z., Goff, J. C. 2006. Geology of Iraq. Dolin, Prague and Moravian Museum Brno. 338p.
  • Jurvanen,T., Elkund, O., Väisänen, M. 2005. Generation of A-type granitic melts during the late Svecofennian metamorphism in southern Finland. GFF 127, 139–147.
  • Katzir, Y., Eyal, M., Litvinovsky, B. A., Jahn, B. M., Zanvilevich, A. N., Valley, J. W., Beeri, Y., Pelly, I., Shimshilashvili, E. 2007. Petrogenesis of A-type granites and origin of vertical zoning in the Katharina pluton, Gebel Mussa (Mt. Moses) area, Sinai, Egypt. Lithos, 95(3), 208-228.
  • Kaur, P., Chaudhri, N., Paczek, I., Kroner, A., Hofmann, A. W. 2007. Geochemistry, zircon ages and whole rock Nd isotopic systematics for the Palaeoproterozoic A-type granitoids in the northern part of the Delhi belt, Rajasthan, NW India: implications for late Palaeoproterozoic crustal evolution of the Aravalli craton. Geological Magazine 144(2), 361-378.
  • Landenberger, B., Collins, W.J. 1996. Derivation of A-type Granites from a Dehydrated Charnockitic Lower Crust: Evidence from the Chaelundi Complex, Eastern Australia. Journal of Petrology 37, 145–170.
  • Madanipour, S., Ehlers, T. A., Yassaghi, A., Enkelmann, E. Siebel, W. 2015. Time-temperature U-Th-Pb-He modelling of the Lisar Granite in the Talesh Mountains,Evidence for Late Cenozoic exhumation pattern at NW Iranian Plateau. The first meeting of Tectonic and Structural Geology Association of Iran, Tehran.
  • Majidi. B. 1987. The geochemistry of ultrabasic and basic lava flows occurrences in northeastern Iran, In Geodynamic project in Iran. Geological Survey of Iran, Report No. 51,463-477.
  • Majidi, B. 1991. Ètude structurale de là region de Mashad (Iran). Les problemes des metamorphites, serpentinites et granitoides hercyniens. These de Docteur Ingenieur,Universite Scientifique et Medicale de Grenoble. 277 p.
  • Maniar, P.D., Piccolli, P.M. 1989. Tectonic discrimination of granitoids. Geological Society of America Bulletin 101, 635-643.
  • Manning, C.E., Bohlen, S.R. 1991. The reaction titanite + kyanite = anorthite + rutile and titanite-rutile barometry in eclogites. Contributions to Mineralogy and Petrology 109, 1–9.
  • McDonough, W.F. 1991. Partial melting of subducted oceanic-crust and isolation of its residual eclogitic Lithology. Philosophical Transactions of the Royal Society of London Series a-Mathematical Physical and Engineering Sciences 335, 407–418.
  • Mirnejad, H., Lalonde, A. E., Obeid, M., Hassanzadeh, J. 2013. Geochemistry and petrogenesis of Mashhad granitoids: An insight into the geodynamic history of the Paleo-Tethys in northeast of Iran. Lithos 170–171, 105–116.
  • Moix, P., Beccaletto, L., Kozur, H.W., Hochard, C., Rosselet, F., Stampfli, G.M. 2008. A new classification of the Turkish terrenes and sutures and its implication for the paleotectonic history of the region. Tectonophysics 451, 7-39.
  • Muttoni, G., Mattel, M., Balini, M., Zanchi, A., Gaetani, M., Berra, F. 2009. The drift history of Iran from the Ordovician to the Triassic. The Geological Society, London, Special Publications 312, 7-29.
  • Omrani, H., Moazzen, M., Oberhansli, R., Tsujimori, T., Bosuqet, R., Moayyed, M.1389. Metamorphic history of glaucophane-paragonite-zoisite eclogites from the Shanderman area, northern Iran. Journal of Metamorphic Geology 31, 791-812.
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WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN

Yıl 2017, Cilt: 155 Sayı: 155, 99 - 113, 03.12.2017
https://doi.org/10.19111/bulletinofmre.336499

Öz

The Late Jurassic aged Lisar granite in North Iran is in tectonic contact of the form of thrust and
strike slip faults with Upper Cretaceous sandy limestone and is covered by Paleogene polygenetic
conglomerate in the Talesh Mountain at the western continuation of the Alborz range. The rock
samples of the granite are pink coloured and coarse-gained with K-feldspar, quartz, plagioclase,
biotite and amphibole. The Lisar granite is more likely emplaced in an extensional environment
indicated with numerous space fi lling silica-rich aplitic veins in the rocks. The granite samples are
moderately altered and feldspars are changed to sericite and clay minerals and biotite is partially
converted to chlorite. The Lisar granite has derived from a high K magma and is A-type in nature,
belonging to A2
subgroup. The rock samples of granite are characterized by distinct negative Eu
anomaly and a decrease from LREE to HREE contents. The parental melts of the granite were
generated from partial melting of a lower continental crustal source with possible contribution from
the mantle materials. The Lisar granite represents Cimmerian post-collision magmatism in north
Iran following closure of Palaeotethys Ocean and subsequent collision. 

Kaynakça

  • Alavi, M. 1991. Sedimentary and Structural characteristics of the Paleo-Tethys remnants in northeastern Iran. Geological Society of America Bulletin 103, 983-992.
  • Allen, M.B., Ghassemi, M.R., Shahrabi, M., Qorashi, M. 2003. Accommodation of late Cenozoic shortening in the Alborz range, northern Iran. Journal of Structural Geology 25, 659–672.
  • Annells, R.N., Arthurton, R.S., Bazley, R.A., Davies, R.G. 1975. Explanatory text of the Qazvin and Rasht quadrangles map: Tehran, Geological Survey of Iran, 94 p.
  • Annells, R.N., Arthurton, R.S., Bazley, R.A., Davies, R.G., Hamedi, M.A.R., Rahimzadeh, F. 1977. Geological map of Iran, Shakran sheet 6162: Geological Survey of Iran, scale 1:100 000.
  • Asadian, O. 1999. Geological map of Khalkhal, 1:100000. Geological Survey of Iran.
  • Axen, G. J., Patrick, S.L., Marty, G., Stockli, D., F., Hassanzadeh, J. 2001. Exhumation of the west-central Alborz Mountains, Iran, Caspian subsidence, and collision-related tectonics. Geology 29.6, 559-562.
  • Berberian, F., Berberian, M. 1981. Tectono-plutonic episodes in Iran. In: H. Gupta and F. Delany (Editors), Zagros-Hindu Kush-Himalaya Geodynamic Evolution. American Geophysical Union, Geodynamic Series 3, 5- 32.
  • Bonin, B. 2007. A-type granites and related rocks: evolution of a concept, problems and prospects. Lithos 97,1–29.
  • Boulin, J. 1981. Afghanistan structure. Greater India concept and eastern Tethys evolution. Tectonophysics 72, 261- 287.
  • Clark, G.C., Davies, R.G., Hamzepour, G., Jones, C.R. 1975. Explanatory text of Bandar-e-Anzali quadrangle map, 1:250,000. Geological Survey of Iran.
  • Clemens, J. D., Hollaway, J. R., White, A. J. R. 1986. Origin of an A-type granite: experimental constraints. American Mineralogist 71, 317-324.
  • Collins, W.J., Beams, S.D., White, A.J.R., Chappell, B.W. 1982. Nature and origin of A-type granites with particular reference to southeastern Australia. Contributions to Mineralogy and Petrology 80, 189–200.
  • Creaser, R.A., Price, R.C., Wormald, R. J. 1991. A-type granites revisited: Assessment of a residual-source model. Geology 19, 163–166.
  • Debon, F., Afzali, H., LeFort, P., Sonet, J., Zimmermann, J.L. 1987. Plutonic rocks and associations in Afghanistan: typology, age and geodynamic setting. Memoire Science de la Terre, Nancy 49, 132 pp.
  • Delaloy, M., Jenny, J., Stampfli, G. 1981. K-Ar dating in the eastern Elburz (Iran). Tectonophysics 79, 27-36.
  • De La Roche, H., Leterrier J., GrandIauale, P., Marcher, M. 1980. A classification of volcanic and plutonic rocks using R1- R2 diagrams and major element analysis. Chemical Geology 183-210.
  • Ding, X., Lundstrom, C., Huang, F., Li, J., Zhang, Z.M., Sun, X.M., Liang, J.L., Sun,W.D. 2009. Natural and experimental constraints on formation of the continental crust based on niobium–tantalum fractionation. International Geology Review 51, 473–501.
  • Eby, G. N. 1990. The A-Type granitoids: A Review for their occurrence and characteristics and speculations on their petrogenesis. Lithos 26, 115-134.
  • Erkül, A., Sözbilir, R., Erkül, F., Helvaci, C., Ersoy, Y., Sümer, Ö. 2008. Geochemistry of I-type granitoids in the Karaburun Peninsula, West Turkey: Evidence for Triassic continental arc magmatism following closure of the Palaeotethys. Island Arc 17, 394–418.
  • Foley, S., Tiepolo, M., Vannucci, R. 2002. Growth of early continental crust controlled by melting of amphibolite in subduction zones. Nature, 417, 837–840.
  • Frost, B. R. , Arculus, R. J. , Barnes, C. G. , Collins, W. J. , Ellis, D. J., Frost, C. D. 2001. A geochemical classification of granitic rock suites. Journal of Petrology 42, 2033 – 48.
  • Gamkrelidze, I.P., Shengelia, D.M. 2007. Pre-Alpine geodynamics of the Caucasus, suprasubduction regional metamorphism and granitoid magmatism. Bulletin of the Georgian national academy of sciences 175.
  • Ghavidel-Syooki, M. 2007. Palynostratigraghy and Palaeogegraphy of the Gorgan schists in southern Gorgan city (southeastern Caspian Sea), eastern Alborz range, northern Iran. CIMP Lisbon Abstracts 63-64.
  • Green, T.H. 1995. Significance of Nb/Ta as an indicator of geochemical processes in the crust-mantle system. Chemical Geology 120, 347–359.
  • Guest, B., Axen, G.J., Lam, P.S., Hassanzadeh, J. 2006. Late Cenozoic shortening in the west-central Alborz Mountains, northern Iran, by combined conjugate strike slip and thin-skinned deformation. Geosphere 2/1, 35–52.
  • Harris, N.B.W., Marzouki, F.M.H., Ali, S. 1986. The Jabel Sayid Complex, Arabian Shield: geochemical constraints on the origin of peralkaline and related granites. Journal of the Geological Society of London 143, 287- 295.
  • Hastie, A. R., Kerr, A. C., Pearce, J. A., Mitchell, S. F. 2007. Classification of Altered Volcanic Island Arc Rocks using Immobile Trace Elements: Development of the Th–Co Discrimination Diagram. Journal of Petrology 48, 2341-2357.
  • Hennig, D., Lehmann, B., Frei, D., Belyatsky, B., Zhao, X.F., Cabral, A.R., Zeng, P.S., Zhou, M.F., Schmidt, K. 2009. Early Permian seafloor to continental arc magmatism in the eastern Paleo-Tethys: U-Pb age and Nd-Sr isotope data from the southern Lancangjiang zone, Yunnan, China. Lithos 113, 408-422.
  • Huang, X.L., Xu, Y.G., Li, X.H., Li, W.X., Lan, J.B., Zhang, H.H., Liu, Y.S., Wang, Y.B., Li, H.Y., Luo, Z.Y., Yang, Q.J. 2008. Petrogenesis and tectonic implications of Neoproterozoic, highly fractionated A-type granites from Mianning, South China. Precambrian Research 165(3), 190-204.
  • Jackson, J., Priestley, K., Allen, M., Berberian, M. 2002. Active tectonics of the South Caspian Basin. Geophysical Journal International 148, 214–245,
  • Jassim, S. Z., Goff, J. C. 2006. Geology of Iraq. Dolin, Prague and Moravian Museum Brno. 338p.
  • Jurvanen,T., Elkund, O., Väisänen, M. 2005. Generation of A-type granitic melts during the late Svecofennian metamorphism in southern Finland. GFF 127, 139–147.
  • Katzir, Y., Eyal, M., Litvinovsky, B. A., Jahn, B. M., Zanvilevich, A. N., Valley, J. W., Beeri, Y., Pelly, I., Shimshilashvili, E. 2007. Petrogenesis of A-type granites and origin of vertical zoning in the Katharina pluton, Gebel Mussa (Mt. Moses) area, Sinai, Egypt. Lithos, 95(3), 208-228.
  • Kaur, P., Chaudhri, N., Paczek, I., Kroner, A., Hofmann, A. W. 2007. Geochemistry, zircon ages and whole rock Nd isotopic systematics for the Palaeoproterozoic A-type granitoids in the northern part of the Delhi belt, Rajasthan, NW India: implications for late Palaeoproterozoic crustal evolution of the Aravalli craton. Geological Magazine 144(2), 361-378.
  • Landenberger, B., Collins, W.J. 1996. Derivation of A-type Granites from a Dehydrated Charnockitic Lower Crust: Evidence from the Chaelundi Complex, Eastern Australia. Journal of Petrology 37, 145–170.
  • Madanipour, S., Ehlers, T. A., Yassaghi, A., Enkelmann, E. Siebel, W. 2015. Time-temperature U-Th-Pb-He modelling of the Lisar Granite in the Talesh Mountains,Evidence for Late Cenozoic exhumation pattern at NW Iranian Plateau. The first meeting of Tectonic and Structural Geology Association of Iran, Tehran.
  • Majidi. B. 1987. The geochemistry of ultrabasic and basic lava flows occurrences in northeastern Iran, In Geodynamic project in Iran. Geological Survey of Iran, Report No. 51,463-477.
  • Majidi, B. 1991. Ètude structurale de là region de Mashad (Iran). Les problemes des metamorphites, serpentinites et granitoides hercyniens. These de Docteur Ingenieur,Universite Scientifique et Medicale de Grenoble. 277 p.
  • Maniar, P.D., Piccolli, P.M. 1989. Tectonic discrimination of granitoids. Geological Society of America Bulletin 101, 635-643.
  • Manning, C.E., Bohlen, S.R. 1991. The reaction titanite + kyanite = anorthite + rutile and titanite-rutile barometry in eclogites. Contributions to Mineralogy and Petrology 109, 1–9.
  • McDonough, W.F. 1991. Partial melting of subducted oceanic-crust and isolation of its residual eclogitic Lithology. Philosophical Transactions of the Royal Society of London Series a-Mathematical Physical and Engineering Sciences 335, 407–418.
  • Mirnejad, H., Lalonde, A. E., Obeid, M., Hassanzadeh, J. 2013. Geochemistry and petrogenesis of Mashhad granitoids: An insight into the geodynamic history of the Paleo-Tethys in northeast of Iran. Lithos 170–171, 105–116.
  • Moix, P., Beccaletto, L., Kozur, H.W., Hochard, C., Rosselet, F., Stampfli, G.M. 2008. A new classification of the Turkish terrenes and sutures and its implication for the paleotectonic history of the region. Tectonophysics 451, 7-39.
  • Muttoni, G., Mattel, M., Balini, M., Zanchi, A., Gaetani, M., Berra, F. 2009. The drift history of Iran from the Ordovician to the Triassic. The Geological Society, London, Special Publications 312, 7-29.
  • Omrani, H., Moazzen, M., Oberhansli, R., Tsujimori, T., Bosuqet, R., Moayyed, M.1389. Metamorphic history of glaucophane-paragonite-zoisite eclogites from the Shanderman area, northern Iran. Journal of Metamorphic Geology 31, 791-812.
  • Pearce, J.A. 1996. Sources and settings of granitic rocks. Episodes 19, 120–125.
  • Peccerillo, A., Barberio, M.R., Yirgu, G., Ayalew, D., Barbieri, M., Wu, T.W. 2003. Relationships between mafic and peralkaline silicic magmatism in continental rift settings: a petrological, geochemical and isotopic study of the Gedesma Volcano, Central Ethiopian Rift. Journal of Petrology 44 (11), 2003–2032.
  • Rezaeian M., Carter, A., Hovius, N., Allen, M. B. 2012. Cenozoic exhumation history of the Alborz Mountains, Iran: New constraints from low-temperature chronometry. Tectonics, 31(2).
  • Ritz, J.F., Nazari H., Ghassemi, A., Salavati R., Shafei A., Solaymani S., Vernant, P. 2006. Active transtension inside central Alborz: A new insight into northern Iran–southern Caspian geodynamics. Geology 34/ 6, 477–480.
  • Ruban, D.A., AL-Husseini, M.I., Iwasaki, Y. 2007. Review of Middle East Paleozoic plate tectonics. GeoArabia 12(3), 35-56.
  • Rudnick, R.L., Barth, M., Horn, I., McDonough, W.F. 2000. Rutile-bearing refractory eclogites: Missing link between continents and depleted mantle. Science, 287, 278–281.
  • Şengör, A.M.C. 1979. Mid-Mesozoic closure of Permo-Triassic Tethys and its implications. Nature 279, 590-593.
  • Şengör, A.M.C. 1990. A new model for the late Palaeozoic–Mesozoic tectonic evolution of Iran and implications for Oman. In: Robertson, A. H., Searle, M. P. & Ries, A. C. (eds) The Geology and Tectonics of the Oman Region. Geological Society, London, Special Publications 49, 797–831.
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  • Stampfli, G.M., Kozur, H.W. 2006. Europe from the Variscan to the Alpine cycles. In: Gee, D.G., Stephenson, R.A. (Eds.), European lithosphere dynamics. Memoir of the Geological Society London, 57-82.
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  • Streckeisen A. 1976. To each plutonic rocks its proper name. Earth Science Reviews 12, 1-33.
  • Sun S.S., McDonough, W.F. 1989. Chemical and isotopic systematic of oceanic basalts; implications for mantle composition and processes. In: Saunders, A.D., Norry, M.J. (eds.) Magmatism in the ocean basins. Geological Society of London 42, 313-345.
  • Sylvester, P.J. 1989. Post-collisional alkaline granites. Journal of Geology 97, 261–280.
  • Taylor, R.P., Strong, D.F., Fryer, B.J. 1981. Volatile control of contrasting trace element distributions in peralkaline granitic and volcanic rocks. Contributions to Mineralogy and Petrology 77, 267–271.
  • Watson, E.B., Harrison T.M. 1984. Accessory minerals and the geochemical evolution of crustal magmatic systems: a summary and prospectus of experimental approaches. Physics of Earth and Planetary Interiors 35, 19–30.
  • Whalen, J.B., Currie, K.L., Chappell, B.W. 1987. A-type granites: geochemical characteristics, discrimination and petrogenesis. Contributions to Mineralogy and Petrology 95, 407-419
  • Zhanchetta, S., Zanchi, A., Villa, I., Poli, S., Muttoni, G. 2009. The Shanderman eclogites: a late carboniferous high- pressure event in the NW Talesh Mountions (NW Iran). Geological Society London, Special publications, 57-78.
  • Zanchi, A., Zanchetta, S., Berra, F., Mattei, M., Garzanti, E., Molyneux, S., Nawab, A., Sabouri, J. 2009. The Eo- Cimmerian (Late-Triassic) orogeny in North Iran. In: Brunet, M.-F.,Wilmsen, M., Granath, J. W. (eds) South Caspian to Central Iran Basins. Geological Society of London Special Publications 312, 31–55.
  • Zhang, C.-Z., Li B., Cai, J.-X.a, Tang X.-C., Wei, Q.-G., Zhang, Y.-X. 2008. A-type granite and adakitic magmatism association in Songpan-Garze fold belt, eastern Tibetan Plateau: Implication for lithospheric delamination: Comment. Lithos 103, 562–564.
Toplam 68 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Roghieh Bozorg Seghınsara Bu kişi benim

Hossein Sheikhi Karızakı Bu kişi benim

Mohssen Moazzen Bu kişi benim

Mohsen Pourkermanı Bu kişi benim

Afshin Ashja Ardalan Bu kişi benim

Yayımlanma Tarihi 3 Aralık 2017
Yayımlandığı Sayı Yıl 2017 Cilt: 155 Sayı: 155

Kaynak Göster

APA Seghınsara, R. B., Karızakı, H. S., Moazzen, M., Pourkermanı, M., vd. (2017). WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN. Bulletin of the Mineral Research and Exploration, 155(155), 99-113. https://doi.org/10.19111/bulletinofmre.336499
AMA Seghınsara RB, Karızakı HS, Moazzen M, Pourkermanı M, Ardalan AA. WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN. Bull.Min.Res.Exp. Aralık 2017;155(155):99-113. doi:10.19111/bulletinofmre.336499
Chicago Seghınsara, Roghieh Bozorg, Hossein Sheikhi Karızakı, Mohssen Moazzen, Mohsen Pourkermanı, ve Afshin Ashja Ardalan. “WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN”. Bulletin of the Mineral Research and Exploration 155, sy. 155 (Aralık 2017): 99-113. https://doi.org/10.19111/bulletinofmre.336499.
EndNote Seghınsara RB, Karızakı HS, Moazzen M, Pourkermanı M, Ardalan AA (01 Aralık 2017) WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN. Bulletin of the Mineral Research and Exploration 155 155 99–113.
IEEE R. B. Seghınsara, H. S. Karızakı, M. Moazzen, M. Pourkermanı, ve A. A. Ardalan, “WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN”, Bull.Min.Res.Exp., c. 155, sy. 155, ss. 99–113, 2017, doi: 10.19111/bulletinofmre.336499.
ISNAD Seghınsara, Roghieh Bozorg vd. “WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN”. Bulletin of the Mineral Research and Exploration 155/155 (Aralık 2017), 99-113. https://doi.org/10.19111/bulletinofmre.336499.
JAMA Seghınsara RB, Karızakı HS, Moazzen M, Pourkermanı M, Ardalan AA. WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN. Bull.Min.Res.Exp. 2017;155:99–113.
MLA Seghınsara, Roghieh Bozorg vd. “WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN”. Bulletin of the Mineral Research and Exploration, c. 155, sy. 155, 2017, ss. 99-113, doi:10.19111/bulletinofmre.336499.
Vancouver Seghınsara RB, Karızakı HS, Moazzen M, Pourkermanı M, Ardalan AA. WHOLE ROCK GEOCHEMISTRY AND TECTONIC SETTING OF JURASSIC AGED LISAR GRANITE, TALESH MOUNTAINS, NORTH IRAN. Bull.Min.Res.Exp. 2017;155(155):99-113.

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