تحولات زمین‌ شناسی الیگوسن زیرین منطقه چاه علی خان(شمال‌ شرق استان اصفهان)؛ بر پایه بررسی دایک‌ های آلکالی بازالت

در منطقه چاه علی‌ خان (شمال‌شرق استان اصفهان، شمال کویر دق سرخ)، دایک‌های بازیک به سن الیگوسن زیرین رخنمون دارند. این دایک­ها با دو روند عمومی nw-se و ne-sw به درون واحد‌های آتشفشانی و فلیش‌های ائوسن نفوذ کرده‌­اند. دایک‌های با امتداد شمال‌غرب‌- جنوب‌شرق جوان‌تر بوده و دایک‌های شمال‌شرق‌- جنوب‌غرب را قطع کرده­‌اند. هر دو سری دایک از نظر سنگ‌نگاری مشابه بوده و از کانی‌های پلاژیوکلاز، کلینوپیروکسن، الیوین، سانیدین، اسپینل کروم‌دار و ایلمنیت تشکیل شده اند. زئولیت، کلریت، سرپانتین، کلسیت و مگنتیت کانی های ثانویه هستند. این دایک‌ها دارای بافت‌های پورفیری، گلومروپورفیری، پوئی‌کیلیتیک، میکرولیتی پورفیری، تراکیتی (جریانی) و در بخش‌های داخلی دایک‌ها اینترگرانولار و گرانولار هستند. این بازالت‌ها از عناصر آلکالی، lree وlile غنی بوده و دارای نسبت بالای lree/hree (0/10-8/9la/yb=) هستند و در نمودار­های طبقه بندی که بر اساس عناصر کم تحرک و hfses ترسیم شده­اند، آلکالی بازالت نامیده میشوند. ماگمای سازنده این دایک‌های بازالتی در اثر ذوب‌بخشی یک گوشته لرزولیتی اسپینل و گارنت­دار که از قبل متاسوماتیسم کربناته شده، داشته است، ایجاد شده است. تشکیل دایک های آلکالی بازالتی چاه علی خان را می توان به فرورانش پوسته اقیانوسی اطراف خرد قاره شرق ایران مرکزی و ذوب ناشی از کاهش فشار در یک سامانه کششی پس از برخورد در منطقه انارک- جندق نسبت‌داد. این مذاب بازالتی حاصل درجه‌های پایین ذوب‌بخشی یک گوشته لرزولیتی متاسوماتیسم شده است که در شرایطی که پوسته قاره‌ای در الیگوسن زیرین دچار کشش شده، تولیدشده و از طریق گسل های منطقه صعود‌ کرده است.

the lower oligocene geological evolution of the chah-e-alikhan area (northeast of isfahan province); constrains from the study of alkali basalt dikes

the lower oligocene basic dikes are cropped out in the chah-e-alikhan area (northeast of isfahan province, north of the daq-e-sorkh desert). these dikes show ne-sw and nw-se trends and cross cut the eocene volcanic rocks and associated flysches. nw-se dikes are younger and cut the ne-sw ones. these dikes are similar in petrography and are composed of plagioclase, clinopyroxene, olivine, sanidine, cr-spinel and ilmenite. zeolite, serpentine, calcite and magnetite are secondary minerals. these dikes represent the porphyritic, glomeroporphyritic, poikilitic and trachytic textures. intergranular and granular textures can be seen at the center of the larger dikes. these basalts are enriched in alkalis (na2o+k2o), lree and lile (cs, rb, ba, pb) and have high values of lree/hree ratio (la/yb=8.9-10). in the classification diagrams, which are based on the incompatible elements and hfses, they are classified as alkali basalts. the primitive magma of these basaltic dikes has been produced by partial melting of a garnet-spinel lherzolite of the mantle previously suffered the carbonate metasomatism. the formation of the alkali basalt dikes of the chah-e-alikhan area can be ascribed to the former subduction of the central- east iranian microcontinent (ceim) confining oceanic crust and decompression melting induced by the extensional basin of the anarak‒jandaq area in early oligocene. the primary basaltic magma has been formed by low degree of partial melting of a metasomatised mantle lherzolite during continental crust extension episode in the lower oligocene and has been ascent through the faults.  introductionin the northwest of ceim (central-east iranian microcontinent), along the great kavir fault, volumes of alkali basalts with the lower oligocene age are outcropped as volcanic and subvolcanic (dike) rocks. in this research, the subvolcanic exposures of this basic magmatism in the the chah-e-alikhan area is discussed. the lower oligocene basic dikes are cropped out in the chah-e-alikhan area (northeast of isfahan, northeast of zavareh, and northwest of the ceim). these dikes show ne-sw and nw-se trends and cross cut the eocene volcanic rocks and associated flysches. in this paper, the geological and petrological aspects, as well as the geodynamic setting of alkali basalt dikes of the chah-e-alikhan area are discussed. study of these dikes, as a part of the cenozoic alkaline magmatism from northwest of the ceim, will be useful in understanding the geodynamical evolution of the central iran. analytical method the method of study is including petrography (field, library and microscopic studies) and whole rocks geochemical analysis of rocks. 13 fresh whole rock samples of alkali basalts from the chah-e-alikhan area were selected for the major and trace elements chemical analyses.whole rock geochemical analyses carried out by using a bruker s4 pioneer xrf at the central laboratory of the university of isfahan. trace element compositions of the selected samples were achieved by icp-ms (inductively coupled plasma-mass spectrometry) at the zarazma mineral studies company (tehran, iran). results and discussionthe rock-forming minerals of the chahe-e-alikhan basic dikes are cr-spinel, olivine, clinopyroxene, plagioclase, sanidine and ilmenite. zeolite, serpentine, calcite and magnetite are secondary minerals which are formed as a result of the alteration of primary minerals. petrographical characteristics indicate that these dikes are alkali basalt and represent the porphyritic, glomeroporphyritic and trachytic textures. intergranular and granular textures can be seen at the center of the larger dikes.these basalts are enriched in alkalis (na2o+k2o=4.5-5.4 wt%), liles (cs, rb, ba, pb) and have high values of lree/hree ratio (la/yb=8.9-10). trace elements ratio diagrams such as la/nb versus la/yb, dy/yb against la/yb, sm/yb versus la/yb (bogaard and worner, 2003) and ce/yb-ce (ellam, 1992) are used in order to determination of the depth, type and degree of partial melting of the source rock. based on the geochemical characteristics and diagrams, the primitive magma of the chah-e-alikhan alkali basalts possibly have been produced by about 5 to 10 percent partial melting of a garnet-spinel lherzolite, which is located at the depth of about 105 km, as a part of a mixed asthenospheric–lithospheric mantle. the elevated values of the zr/hf ratio and the na2o + k2o versus tio2 diagram (zeng et al., 2010) indicate that the primitive magma of the studied basic dikes previously suffered the carbonate metasomatism.the chah-e-alikhan alkali basalts show high values of the alkalis (na2o + k2o), enrichment in lree, hfse and lile. the subducted oceanic slab is the source of carbon and liles are the mobile components of subduction (shaw et al., 2003). considering that cs is a highly fluid mobile element, enrichment in cs relative to rb suggests that the fluid phases derived from a subducting slab are probably the metasomatic agents.the lower oligocene alkaline magmatism in the chah-e-alikhan area and the enrichment of the mantle with incompatible elements (metasomatism) can be attributed to two oceanic crust subduction events: (1) northeast ward neotethys subduction along the zagros thrust zone beneath the central iran from the triassic to the eocene (torabi, 2010); and (2) subduction of an oceanic crust along the great kavir fault, which is situated to the western margin of the ceim. the spreading of the last ocean crust started in the triassic and ended in the eocene. the remnants of this oceanic crust are found as ophiolitic melanges on the western side of the ceim, such as the nain, surk, and ashin ophiolites (rajabi and torabi, 2012; torabi, 2010). the geological history and position of the chah-e-alikhan alkali basalt dikes suggests that the the carbonate metasomatism of the mantle peridotites can be attributed to the subduction of the ceim confining oceanic crust.several tectonic discrimination diagrams have been used for determination of the tectonic setting of the chah-e-alikhan basalts. the la/yb versus th/nb (hollocher et al., 2012), ta/yb against th/yb (gorton and schandl, 2000) and df1 versus df2 (verma and agrawual, 2011) diagrams suggest a within-plate (continental) tectonic setting.the activity of the major faults of the area such as great kavir, chah mishury and chah gireh faults has been created a suitable inter-plate extensional system to ascending the lower oligocene alkali basalt magma in the chah-e-alikhan area. conclusionthe lower oligocene alkali basalts of the chah-e-alikhan area is a part of the intra-continental alkaline magmatism crosscuts the eocene volcanic rocks. the area provides a setting to study the cenozoic alkaline magmatism of the northwest of the ceim.these basalts are enriched in total alkalis, tio2, lree and liles. they have been produced by about 5 to 10 percent degree of partial melting of a garnet-spinel bearing lherzolite of a mixed lithospheric-asthenospheric mantle which is previously metasomatised. the mantle enrichment can be ascribed to the subduction of the ceim confining oceanic crust beneath the central iran from the triassic to the eocene. the grate kavir fault and related faults have played an important role in the lower oligocene alkaline magmatism in northwest of the ceim. acknowledgmentsthe authors thank the university of isfahan for financial support.