ژئوشيمي توده گرانيت- گنايس ميلونيتي تورمالين دار شمال شرق معدن ژان، استان لرستان

Geochemistry of mylonitic tourmaline-bearing granite- gneiss pluton in the northeast of June mine

توده گرانيت- گنايس ميلونيتي شمال شرق معدن ژان، جزئي از مجموعه ماگمايي- دگرگوني شمال غرب شهرستان ازنا در استان لرستان و در پهنه ساختاري سنندج- سيرجان واقع شده است. اين مجموعه ماگمايي- دگرگوني شامل گرانيت- گنايس ، آمفيبوليت ، مرمر و شيست است. گرانيت - گنايس مورد بررسي، داراي بافت اصلي لپيدوگرانوبلاستيك و كاني هاي اصلي كوارتز، آلكالي فلدسپار (ميكروكلين پرتيتي)، پلاژيوكلاز، كاني هاي فرعي مسكويت فنژيتي، اپيدوت (ماگمايي)، آلانيت، تورمالين، زيركن، اسفن و كاني متداول بيوتيت است. اين توده گرانيتوئيدي از نظر ژئوشيميايي پرآلومين تا كمي متاآلومين، كالك آلكالن تا حدودي آلكالن بوده و در موقعيت زمين ساختي پس از برخورد در حاشيه فعال قاره واقع شده است. در نمودار SNX در برابر SNY در دو محدوده هم زمان با دگرشكلي و مراحل پاياني دگرشكلي هم پوشاني دارند و از نوع آلكالن- كلسيك هستند. اين توده گرانيتوئيدي داراي ماهيت A-type است و در زيرگروه A2 قرار مي گيرد.

IntroductionStudied mylonitic granite-gneiss body is located in the Northwest of the Azna region in the Lorestan province close to the June dimension stone mine. It is a part of the metamorphic- magmatic complex including granite-gneiss، amphibolite، marble and schist. The crystalline basement is attributed to late-Neoproterozoic and it indicates a Panafrican basement، which yields a laser-ablation ICP–MS U–Pb zircon ages of 608 ± 18 Ma and 588 ± 41 Ma (Shakerardakani et al.، 2015). There are two granite-gneiss plutons in the complex that are Galeh– Dezh (Shabanian et al.، 2009)، and June plutons. The Galeh-Doz pluton are previously proposed as syn-deformation pluton with a major S-shaped bend which has been imparted during dextral shearing with a Late Cretaceous (Mohajjel and Fergusson، 2000). However، new age dating on the pluton using U–Pb in the magmatic zircon produced the late-Neoproterozoic dates (Nutman et al.، 2014; Shakerardakani et al.، 2015). The granite-gneiss plutons show mylonitic fabrics and microstructures (Shabanian et al.، 2010). The geochemical characteristics of mylonitic granite-gneiss body near June mine in NW Azna، is in the focus of our research. Materials and methodsPetrographic investigations of 30 thin sections were made. Then eight samples were selected and analyzed for whole rock major، trace and REE ompositions by ICP-emission spectrometry and ICP-mass spectrometry using natural rock standards as reference samples for calibration at the ACME Analytical Laboratories in Vancouver، British Columbia، Canada. ResultsThe studied gneiss- granitic body has lepido-granoblastic texture as its major texture. It variably shows evidence of dynamic deformation from ultramylonite to protomylonite. The gneiss- granite consists of quartz، alkali feldspar (mostly as perthite)، plagioclase، biotite، white mica (muscovite and phengitic muscovite). Accessory phases in the granitoid include، tourmaline، zircon، magmatic epidote، allanite، apatite، and magnetite. The mylonitic gneiss-granite has a mantled porphyroclast texture that may be characterized by large asymmetrical porphyroclasts of K-feldspar and plagioclase with a mantle which includes white-mica، biotite، quartz and feldspar aggregates. Some of the petrographic evidence show dynamic deformation during the crystallization such as grain boundary migration (GBM) or sub-grain rotation (SGR)، patchy perthite. Evidence of strain، such as deformation twins، bent or curved twins، undulatory extinction occur characteristically in plagioclase and display dynamic deformation in solid state. The rocks exhibit identical compositional ranges with 71.24–78.35 wt.% SiO2; high levels of alkalies (Na2O ranges from 3.07 to 4.02 %، K2O varies from 4.18 to 5.53 %); low levels of Fe2O3tot (0.80 to 2.60 %). Also، the trace element compositions display significant variations، such as Zr (157.7-330.5 ppm)، Eu (0.07-0.28 ppm)، Nb (40.9-77.3 ppm)، Ga (19.7-25.97 ppm). The studied rocks are strongly enriched in LREE and HFSE and show a strong depletion in Ba، Sr، Eu and Ti and enrichment in Rb and Zr. The element contents are also similar to typical A-type granite (Whalen et al.، 1987). The rocks are alkali to alkali-calcic، metaluminous to mildly peraluminous granite and ferroan in new geochemical classification scheme for granitoids (proposed by Frost et al.، 2001). DiscussionThe chondrite-normalized rare-earth element patterns of the mylonitic gneiss- granitic rocks indicate the LREE over HREE fractionation with significant negative Eu anomalies. Primitive-mantle-normalized spidergrams (Sun and McDonough، 1989) normalized trace element patterns with negative Ba and Nb anomalies، and positive Rb، Th and Ce anomalies، simulate the collisional and post-collisional granitoids of Pearce et al (Pearce et al.، 1984). All of the samples fall in the A2 group in Eby classification (Eby، 1992). On the tectonic discrimination plots، the granites show a within-plate granite (WPG) character (Pearce et al.، 1984