@article { author = {Goodarzi, Masoumeh and Mohammadi, Seyyed Saeid and Zarrinkoub, Mohammad Hossein}, title = {Petrography, geochemistry and tectonic setting of Salmabad Tertiary volcanic rocks, southeast of Sarbisheh, eastern Iran}, journal = {Journal of Economic Geology}, volume = {6}, number = {2}, pages = {217-234}, year = {2014}, publisher = {Ferdowsi University of Mashhad}, issn = {2008-7306}, eissn = {2423-5865}, doi = {10.22067/econg.v6i2.24938}, abstract = {Introduction The area reviewed and studied in this paper is located 5 km southeast of Sarbisheh city at eastern border of the Lut block (Jung et al., 1983; Karimpour et al., 2011; Richards et al., 2012) in eastern Iran between 59° 47′ and 59° 53′ E longitude and 32°30′ and 32°34′ N latitude. The magmatic activity in the Lut block began in middle Jurassic (165-162 Ma) and reached its peak in Tertiary (Jung et al., 1983). Volcanic and subvolcanic rocks of Tertiary age cover over half of Lut block with up to 2000 m thickness and formed due to subduction prior to the collision of the Arabian and Asian plates (Camp and Griffis, 1982; Tirrul et al., 1983; Berberianet et al., 1982). Most of magmatic activity in the Lut block formed in middle Eocene (Karimpour et al., 2011) The andesitic volcanics were erupted together with the dacites and rhyodacites during a time interval of some 50 Ma from early Cretaceous to early Neogene. It can be assumed that the intensity of the volcanic activity was varying significantly during this time span (Jung et al., 1983).Tertiary volcanic rocks (Eocene-Oligocene to Pliocene) with intermediate composition associated with pyroclastic rocks cropped out in eastern parts of Salmabad village, southeast of Sarbisheh. The main purpose of this paper is better understand the tectono-magmatic setting of the Tertiary volcanic rocks in southeast of Sarbisheh, eastern Iran based on geochemical characteristics. Materials and methods Eleven samples were analyzed for major elements by inductively coupled plasma (ICP) technologies and trace elements were analyzed using inductively coupled plasma mass spectrometry (ICP-MS), following a lithium metaborate/tetraborate fusion and nitric acid total digestion, at the SGS Laboratories, Toronto, Canada. Results In the Salmabad area, Tertiary volcanic rocks with mainly intermediate (andesitic) composition are exposed associated with pyroclastic deposits such as tuff, breccia and agglomerate. Extrusive rocks include andesite (pyroxene andesite) and basaltic andesite. Zoning, sieve texture and embayment of plagioclase phenocrysts and existence of reaction rims around pyroxenes are evidences for disequilibrium conditions during magma crystallization. These rocks have medium to high-K calc-alkaline nature and show enrichment in LILE (except for Ba) and depletion of HFSE. The Salmabad area lavas have 102-155 ppm total REE and display coherent REE patterns characterized by enrichment in LREEs relative to HREEs ((La/Yb)N=7.35-9.71; (Ce/Yb)N=5.43-6.81)), nearly flat HREEs ((Tb/Yb)N=1.05-1.40) and weak negative Eu anomalies (average Eu/Eu*=0.78). Geochemical characteristics of the Salmabad volcanic rocks such as enrichment in LREEs relative to HREEs in association with enrichment in LILE and negative anomalies of Nb, Ti and P show their relation to subduction zone. The range of Mg# is 45.1-57.1 for the Salmabad andesites and 69.8 in basaltic andesite indicating the involvement of mantle components. The isotopic compositions (87Sr/86Sr)i=0.7045 and εNd(t)=3.1 for the Salmabad andesites point to a mantle origin. Discussion Orogenic magmas are defined geochemically as showing diagnostic Nb-Ta trough and enrichment in large ion lithophile elements (LILE) such as Th, Pb, Sr and K in primitive mantle normalized trace element variation diagrams (Kuscu and Geneli, 2010). The origin of this kind of geochemical signature is commonly interpreted as subduction-related setting (Gill, 2010), in sources that had undergone mantle wedge metasomatism (Seghedi et al., 2001) or crustal contamination of mantle-derived magmas (Harangi et al., 2007). The andesitic magma in Salmabad area displays an orogenic signature, i.e., enrichment in LILE and Th, and relative depletion in Nb, Ti and P. The dominance of positive εNd(t) values (3.1) for the studied rocks indicate a mantle origin. High values of Sr, Th and U in these rocks can be related to crustal contamination. Thus, the orogenic signature of these rocks is attributed to the mantle source, presumably metasomatized by the Sistan ocean subduction. The trace element features are consistent with the roles played by subducted sediments and fluid released from the subducted slab in magma genesis. Acknowledgements The authors would like to thank reviewers for the constructive comments which greatly contributed to the improvement of the manuscript. References Berberian, F., Muir, I.D., Pankhurst, R.J. and Berberian, M., 1982. Late Cretaceous and early Miocene Andean type plutonic activity in northern Makran and Central Iran. Journal of the Geological Society, 139(5): 605-614. Camp, V.E. and Griffis, R., 1982. Character, genesis and tectonic setting of igneous rocks in the Sistan suture zone, eastern Iran. Lithos, 15(3): 221-239. Gill, R., 2010. Igneous rocks and processes. Wiley-Blackwell, Malaysia, 428 pp. Harangi, S., Downes, H., Thirlwall, M., Gmeling, K., 2007. Geochemistry, Petrogenesis and Geodynamic Relationships of Miocene Calc-alkalineVolcanic Rocks in the Western Carpathian arc, Eastern Central Europe. Journal of petrology, 48(12): 2261-2287. Jung, D., Keller, J., Khorasani, R., Marcks, Chr., Baumann, A. and Horn, P., 1983. Petrology of the Tertiary magmatic activity the northern Lut area, East of Iran. Ministry of mines and metals, Geological survey of Iran, geodynamic project (geotraverse) in Iran, Tehran, Report 51, pp. 285-336. Karimpour, M.H., Stern, C.R., Farmer, L., Saadat, S. and Malekezadeh, A., 2011. Review of age, Rb-Sr geochemistry and petrogenesis of Jurassic to Quaternary igneous rocks in Lut Block, Eastern Iran. Geopersia, 1(1):19-36. Kuscu, G.G. and Geneli, F., 2010. Review of post-collisional volcanism in the central Anatolian volcanic province(Turkey), with special reference to the Tepekoy volcanic complex. International Journal of Earth Sciences, 99(3): 593-621. Richards, J.P., Spell, T., Rameh, E., Razique, A. and Fletcher T., 2012. High Sr/Y Magmas Reflect Arc Maturity,High Magmatic Water Content, and Porphyry Cu ± Mo ± Au Potential:Examples from the Tethyan Arcs of Central and Eastern Iran and Western Pakistan. Economic Geology, 107(2): 295–332. Seghedi, I., Downes, H., Pecskay, Z., Thirlwall, M.F., Szakacs, A., Prychodko, M. and Mattey, D., 2001. Magmagenesis in a subduction-related post-collisional volcanic arc segment: the Ukrainian Carpathians. Lithos, 57(4): 237–262. Tirrul, R., Bell, I.R., Griffis, R.J. and Camp, V.E., 1983. The Sistan suture zone of eastern iran. Geological Society of America Bulletin, 94(1): 134-156.}, keywords = {Andesite,enriched mantle,Oligocene,calc-alkaline,Sarbisheh}, title_fa = {سنگ شناسی، ژئوشیمی و جایگاه زمین‌ ساختی سنگهای آتشفشانی ترشیری سلم‌ آباد (جنوب شرق سربیشه)، شرق ایران}, abstract_fa = {منطقه مورد مطالعه در 5 کیلومتری جنوب شرق سربیشه در استان خراسان جنوبی، در حاشیه خاوری بلوک لوت و در حدفاصل زون زمین‌درز سیستان واقع شده است. در این محدوده، رخنمون قابل توجهی از فعالیتهای آتشفشانی ترشیری با ترکیب کلی حدواسط (آندزیتی) به همراه نهشته های آذرآواری متشکل از توف، برش و آگلومرا وجود دارد. سنگهای گدازه ای شامل آندزیت (پیروکسن آندزیت) و آندزیت بازالتی می باشند. منطقه بندی، بافت غربالی و خوردگی خلیجی در فنوکریست های پلاژیوکلاز و وجود حاشیه های واکنشی در اطراف پیروکسن ها از نشانه های شرایط عدم تعادل حین انجماد ماگما می باشد. این سنگها دارای ماهیت کالک‌آلکالن پتاسیم متوسط تا پتاسیم بالا هستند و غنی شدگی LILE (به استثنای Ba) و تهی شدگی HFSE نشان می دهند. میزان کل عناصر نادر خاکی در گدازه های منطقه سلم آباد 102تا 155 ppm بوده و الگوی یکنواخت با غنی شدگی LREE نسبت به HREE (71/9-35/7N=(La/Yb) و 81/6-43/5N=(Ce/Yb))، طرح نسبتاً تخت عناصر نادر خاکی سنگین (40/1-05/1N=(Tb/Yb)) و آنومالی منفی ضعیف Eu (میانگین 78/0Eu/Eu*=) نشان می دهند. ویژگیهای ژئوشیمیایی سنگهای آتشفشانی سلم‌آباد نظیر غنی شدگی LREEها نسبت به HREEها به همراه غنی شدگی در LILEها و وجود بی هنجاری منفی Nb، Ti و P در روند تغییرات عناصر کمیاب بیانگر وابستگی آنها به مناطق فرورانش است. مقدار Mg# در آندزیت های سلم آباد بین 4/45 تا 1/57 و در آندزیت های بازالتی 8/69 است که بیانگر نقش اجزای گوشته ای در تشکیل آنهاست. مقدارSr 86Sr/87 اولیه برای آندزیت های سلم آباد 7045/0 و مقدار Nd(t)ε برابر1/3 می باشد که منشأ گوشته ای آنها را تأیید می نماید.}, keywords_fa = {آندزیت,گوشته غنی شده,الیگوسن,کالک‌آلکالن,سربیشه}, url = {https://econg.um.ac.ir/article_29898.html}, eprint = {https://econg.um.ac.ir/article_29898_1881cdfcbcd9d81f18c57f4c266778ed.pdf} }