- Alexeiev DV, Kröner A, Hegner E, Rojas-Agramonte Y. Middle to Late Ordovician arc system in the Kyrgyz Middle Tianshan: From arc-continent collision to subsequent evolution of a Paleozoic continental margin. Gondwana Res. 2016;39:261-291.
- Faure M, Lin W, Chu Y, Lepvrier C. Triassic tectonics of the southern margin of the South China Block. Comptes Rendus Geoscience. 2016;348(1):5-14.
- McCollom TM, Bach W. Thermodynamic constraints on hydrogen generation during serpentinization of ultramafic rocks: Geochim Cosmochim Acta. 2009;73(3):856- 875.
- Frost BR, Evans KA, Swapp SM, Beard JS and Mothersole FE. The process of serpentinization in dunite from New Caledonia. Lithos. 2013;178:24–39.
- Hilairet N, Reynard B, Wang Y, Daniel I, Merkel S, Nishiyama N, Petitgirard S. High-pressure creep of serpentine, interseismic deformation, and initiation of subduction. Science. 2007;318(5858):1910-1913.
- Hattori KH and Guillot S. Volcanic fronts form as a consequence of serpentinite dehydration in the forearc mantle wedge. Geology. 2003;31(6):525–528.
- Tatsumi Y. The subduction factory: how it operates in the evolving Earth. GSA Today. 2005;15(7):4.
- Mével C. Serpentinization of abyssal peridotites at mid-ocean ridges. Comptes Rendus Géoscience. 2003;335:825–852.
- Bach W, Garrido CJ, Paulick H, Harvey J, Rosner M. Seawater–peridotite interactions: first insights from ODP Leg 209, MAR 15°N. Geochemistry, Geophysics, Geosystems. 2004;5(9):22.
- Modjarrad M. Geochemistry and crystal shape, size and spatial distribution in arc-related gabbro, Urmia, NW Iran. Geochimica Acta. 2022a; DOI: 10.1007/s11631-022-00557-8.
- Moazzen M, Modjarrad M. Contact metamorphism and crystal size distribution studies in the Shivar aureole, NW Iran. Geol J. 2005;40:499-517.
- Modjarrad M. Crystal size distribution of amphiboles from Bezow dacites, Urmia, Iran. Neues Jahrbuch Fur Geologie Und PalaontologieAbhandlungen. 2015;276:101-110.
- Modjarrad M, Sheykhbaglou S. Crystal size distribution of amphibole and plagioclase from Zanbil adakitic dacites, Urmia-Iran: Evidence for magma mixing and textural coarsening. Acta Geodynamic Geomaterials. 2016;181:89-101.
- Cashman KV, Ferry JM. Crystal size distribution (CSD) in rocks and the kinetics and dynamics of crystallization III. Metamorphic crystallization. Contribut Mineral Petrol. 1988;99:410.
- Hajmolla Ali A, Shahrabi M. Geological map of Silvana, N. 4964. Geological Survey of Iran. 2006; Tehran.
- Sheikholeslami MR. Deformations of Palaeozoic and Mesozoic rocks in southern Sirjan, Sanandaj–SirjanZone, Iran. J Asian Earth Sci. 2015;106:130-149.
- Alavi M. Regional stratigraphy of the Zagros fold-thrust belt of Iran and its proforeland evolution. Am J Sci. 2004;304(1):1-20.
- Allen MB, Kheirkhah M, Emami MH, Jones SJ. Right-lateral shear across Iran and kinematic change in the Arabia—Eurasia collision zone. Geophysic J Int. 2011;184(2):555-574.
- Aziz H, Asahara Y. Juvenile granite in the Sanandaj–Sirjan Zone, NW Iran: Late Jurassic–Early Cretaceous arc–continent collision. Int GeolRev. 2013;55:1523-1540.
- Golonka J. Plate tectonic evolution of the southern margin of Eurasia in the Mesozoic and Cenozoic. Tectonophysics. 2004;381(1-4):235-273.
- Golonka J, Oszczypko N, Ślączka A. Late Carboniferous-Neogene geodynamic evolution and paleogeography of the circum-Carpathian region and adjacent areas. Ann Societat Geologorum Poloniae. 2000;70(2):107-136.
- Robertson AHF, Clift PD, Degnan PJ, Jones G. Palaeogeographic and palaeotectonic evolution of the Eastern Mediterranean Neotethys. Palaeogeography Palaeoclimatol Palaeoecol. 1991;87(1-4):289-343.
- Eren Rizeli M, Wang KL, Bingol AF, Beyarslan M. Mineral chemistry and petrology of mantle peridotites from the Guleman ophiolite (SE Anatolia, Turkey): evidence of a fore arc setting. 13th International Conference on Gondwana to Asia, At: Trivandrum, India. 2016;22.
- Shafaii Moghadam H, Li QL, Stern RJ, Chiaradia M, Karsli O, Rahimzadeh B. The Paleogene Ophiolite Conundrum of the Iran-Iraq Border Region. J Geol Soc. 2020.
- Alizadeh A. Dating of the southern Urmia colored mélange. 30th symposium of Earth Sciences of Iran 2012; Tehran.
- Higgins MD. Measurement of crystal size distributions. Am Mineral. 2000;85:1105–16.
- Page BM, De Vito LA, Coleman RG. Tectonic emplacement of serpentinite southeast of San Jose,California. Int Geol Rev. 1999;41:494–505.
- Azer MK, Khalil AE S. Petrological and mineralogical studies of Pan-African serpentinites at Bir Al-Edeid area, Central Eastern Desert, Egypt. J Afr Earth Sci. 2005;43(5):525-536.
- Francis GH. The serpentinite mass in Glen Urquhart, Invernessshire, Scotland. Am J Sci. 1956;254:201–226
- Hopkinson L, Beard JS and Boulter CA. The hydrothermal plumbing of a serpentinite-hosted detachment: Evidence from the West Iberia non-volcanic rifted continental margin. Marine Geol. 2004;204:301–315.
- Boudier F, Baronnet A, Mainprice D. Serpentine mineral replacements of natural olivine and their seismic implications: Oceanic lizardite versus subduction-related antigorite. J Petrol. 2009;51(1-2):495-512.
- Mohammadi N, Ahmadipour H, Peighambari S. Investigation of deformational behavior of serpentinites in Baft ophiolitic malange (Kerman) and its effects on the sesmic potential of the region. Iran J Geol. 2013;6(24):3-17.
- Reinen LA. Seismic and aseismic slip indicators in serpentinite gouge. Geology. 2000;28(2):135-138.
- O’Brien J, Rodgers KA. Alpine-type serpentinites from the Auckland Province—III. Petrography, mineralogy, petrochemistry, and petrogenesis. J Royal Soc New Zealand. 1974;4(2):141-159.
- Evans BW. The serpentinite multisystem revised: chrysotile is metastable. Int Geol Rev. 2004;46:479–506.
- Iyer K, Austrheim H, John T, Jamtveit B. Serpentinization of the oceanic lithosphere and some geochemical consequences: constraints from the Leka Ophiolite Complex, Norway. Chem Geol. 2008;249:66–90.
- Christensen NI. Serpentinites, peridotites, and seismology. Int Geol Rev. 2004;46(9):795-816.
- Viti C, Mellini M. Mesh textures and bastites in the Elba retrograde serpentinites. Eur J Mineral. 1998;10:1341–1359.
- Viti C, Collettini C, Tesei T, Tarling MS, Smith S. Deformation Processes, Textural Evolution and Weakening in Retrograde Serpentinites. Minerals. 2018;8:241.
- Roume´jon S, Cannat M, Pierre Agrinier P, Godard M, Andreani M. Serpentinization and Fluid Pathways in Tectonically Exhumed Peridotites from the Southwest Indian Ridge (62–65-E). J Petrol. 2015;56(4):703-734.
- Bromiley GD, Pawley AR. The stability of antigorite in the systems MgO–SiO2–H2O (MSH) and MgO–Al2O3–SiO2–H2O (MASH): the effects of Al3+ substitution on high pressure stability. Am Mineral. 2003;88:99–108.
- Rezaie MDA, Modjarrad M (2018). The Ultramafic rocks of Silvana ophiolite. 25th symposium of crystallography and mineralogy of Iran. 2018; Yazd, Iran.
- Deschamps F, Godard M, Guillot S, Hattori K. Geochemistry of subduction zone serpentinites: A review. Lithos. 2013;178:96-127.
- Abdollah K, and Modjarrad M. Serpentinites of Ziveh Gysian south of Urmia, 3th international Congress of Earth Sciences of Iran. 2018; Tehran.
- Modjarrad M. Petrology of the Maku - Poldasht young lavas: Attitude to the olivine and bubbles sizedistribution. Appliesd Geochemistry (AAG), in press 2022b; (in Persian).
- Cashman KV. Crystal Size Distribution (CSD) Analysis of Volcanic Samples: Advances and Challenges. Front Earth Sci. 2020;8.
- Higgins MD. Quantitative textural measurements in igneous and metamorphic petrology. Cambridge University Press. 2006; NewYork, 277p.
- Modjarrad M. Crystal size distribution studies on the leucite, pyroxene and olivine at the eastern Urmia Lake volcanic rocks- magma mixing possibility and residence time at the chamber. Iran J Crystallography Mineral. 2019;27:55-68 (in Persian).
- Marsh BD. On the interpretation of crystal size distributions in magmatic systems. J Petrol. 1998;39:553–600.
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