Petrology and geochemistry of the post eocene felsic intrusives in ardestan area, Northeast of Isfahan, Iran

Paper Details

Research Paper 01/12/2014
Views (265) Download (9)
current_issue_feature_image
publication_file

Petrology and geochemistry of the post eocene felsic intrusives in ardestan area, Northeast of Isfahan, Iran

Mehranfar Marzieh, M. Vossoughi Abedini, A. Nasr Esfahani, M. H. Emami
J. Bio. Env. Sci.5( 6), 338-344, December 2014.
Certificate: JBES 2014 [Generate Certificate]

Abstract

Felsic intrusions in the studied area are post Eocene and this region is located in the northeast of the Esfahan province. This area belongs to Uremia – daughter magmatic belt in Central Iran. Composition of Felsic intrusions are granodiorite and tonalite. The main minerals include: quartz, plagioclase, alkali feldspar and ferromagnesian minerals are amphibole are biotite. Most of ferromagnesian minerals alterated to chlorite and epidote. On the base of geochemical studies, granitoids are ranging from sub-alkaline, metaaluminous, magnesium series and I-type igneous rocks. These rocks enriched of LILE such as Rb, Ba, K, Ce and depletion of HFSE such as Y, Nb and Zr. REES chondrite normalized patterns indicate moderate to high enriched LREEs [(La/Yb)N= (1.27-18.22)] and a relatively depleted of HREEs [(Gd/Yb)N= )1/02-3/32)] with Eu Negative anomalies [Eu/Eu*= (9.55-9.57)]. Felsic magma are generated partial melting of crustal protoliths and mantle-derived basaltic magmas emplaced into the lower crust. These felsic intrusions rocks have mineralogical field and geochemical characteristics typical of volcanic arc granites related to an active continental margin. Probably, the Ardestan granitoids are the result of the subduction of neo- Tethyan oceanic plate below the Lut microcontinent and this oceanic residual plate during Mesozoic to Cenozoic time. Dehydration of subducted oceanic crust and partial melting of mantle wedge caused partial melting of subcontinental lithosphere, which resulted in the formation of metasomatized and enriched mafic arc magmas, and led to the formation of the Ardestan granitoid.

VIEWS 12

Agard P, Omrani J, Jolivet L, Moutherau F. 2005. Convergence history across Zagros (Iran): constraints from collisional and earlier deformation. International Journal of Earth Sciences (Geologische Rundschau). 94, 401–19.

Aghanabati AS. 1385. Geology of Iran, published by the Geological Survey of Iran. 586 p.

Ahmadian J, Hasckke MM, Mc Donald I, Regelous M, Ghorbani, MR, Emami MH, Murata M. 2009. High magmatic flux during Alpine- Himalayan collision, constraints from the Kal-e-Kafi complex, centeral Iran GSA Balletin. 121(5), 857-868.

Artist M, Confirmed MJA, Ahmadian vol, Bahadoran N. 1390. geochemical characteristics of the intrusive complex at Natanz, Isfahan north Journal of Petrology. 3 (1), 65 – 88.

Ballato P, Mulch A, Landgraf A, Strecker MR, Dalconi MC, Friedrich A, Tabatabaei SH. 2010. Middle to late Miocene Middle Eastern climate from stable oxygen and carbon isotope data, southern Alborz mountains, N Iran. Earth and Planetary Science Letters. 300, 125–38.

Batchelor RA, Bowden P. 1985, Petrogenetic interpretation of granitoid rock series uses multicationic parameters, Chemistry Geology. 48-55.

Berberian M, King GCP. 1981. Towards a paleogeography and tectonic evolution of Iran. Canadian Journal of Earth Sciences. 18, 1764–6.

Clemens JD, Stevens G, Farina F. 2011. the enigmatic sources of I- type granites, the peritectic connexion. Lithos. 126,174-181.

Cox KG, Bell JD, Pankhurst RJ. 1979. The interpretation of igneous rocks. George, Allen and Unwin, 45p.

Eftekhar C. 1359. Structural separation of the different parts of the state in relation to sedimentary basins, oil Association Journal. 82, 28-19.

Emami M H. 1981. Geologie de la region de Qom-Aran(Iran).Contribution a letude dynamique et geochimique du volcanisme tertiaire de Iran central. These doctrat d Etat, Grenoble, 489p.

Frost BR, Barens CG, Collins WJ, Arculus RA, Ellis DG, Froat CD. 2001, A Geochemical Classification for Graitic Rocks Journal. of Petrology. 11, 2033-2048.

Guffanti M, Clynne M A, Muffler lJP. 1996. Thermal and mass implications of magmatic evolution in the lassen volcanic region, California, and constraints on basalt influx to the lower crust. Journal Geophysics Research. 101, 3001-3013.

Haschke M, Ahmadian J, Murata M, McDonald I. 2010. copper mineralization prevented by arc-root delamination during Alpine-Himalayan collision in central, Iran.

Irvine TN, Baragar WRA. 1971. A guide to chemical classification of common volcanic rocks., Canadian Journal of Earth Sciences.8, 523-547.

Parad MA, Nystrom JO, Levi B. 1999. Multiple source for the Coastal Batholith of Central Chile, geochemical an Sr-Nd isotopic evidence and tectonic implication. Lithos.46, 505-521.

Patino DAE. 1993. Titanium substitution in biotite,an empirical model with applications to thermometry, O2 and H2O barometries and consequences for biotite stability, chemical Geology 108,133-162.

Pearce JA, Cann JR. 1983. Tectonic setting of basic volcanic rocks determined using trace element analyses، Earth Planet Science Letter. 19, 290-300.

Pilgrims M. 1386, Petrology of felsic volcanic rocks in southern West ARDESTAN, Master’s thesis, Islamic Azad University. Darvishzadeh AS. 1370. Geological Survey of Iran, today Nshrdansh Press. 901 p.

Pou F. 1390. Petrology and geochemistry of granitoid body Hassan Abad (West ARDESTAN). , MS Thesis Petrology Branch, Islamic Azad University

Pourhosseini F. 1981. Research Drmnsha Nznzvbzman deep intrusive, Tehran, Report No. 53 of Geology of the country, 163 p.

Radfar C. 1376. Geological Map 1, 100,000. Tehran, Geological and Mineral Exploration.

Sadeghi A. 1389. Petrographic and mineralogical study Dovarjin intrusive rocks. , MS Thesis Petrology Branch, Islamic Azad University.

Sadeghian M, Gloves M. 1390. granitoid petrogenesis Zafarghandi (South East ARDESTAN Journal of Petrology. 2(6), 70-47.

Schandl ES, Gorton MP. 2002. Application of high field strength elements to discriminate tectonic setting in VMS environments. Economic Geology.97, 629-642.

Shand SJ. 1943.The study of rocks .London, Thomas Murby and co Publishing, 236p.

Stocklin J. 1964. Structural history and tectonics of Iran, A review; Am. Assoc. Petrolium Geology . 52(7),1229-1258.

Taylor SR, McLennan SM. 1985. The continental crust, its composition and evolution. Blackwell, Oxford.

Whalen JB, Currie KL, Chappell BW. 1987 A-type Granites, geochemical characteristics, discrimination and petrogenesis. Contribution Mineralogy. 95, 407-419