petrogenesis of granitoids, u-pb zircon geochronology, sr-nd petrogenesis of granitoids, u-pb zircon geochronology, sr-nd isotopic characteristics, and important occurrence of tertiary mineralization within the lut block, eastern iran

Authors

محمد حسن کریم پور

آزاده ملکزاده شفارودی

جی لنگ فارمر

چارلز استرن

abstract

tertiary intrusive granitoids within the lut block in the khorasan razavi and south khorasan provinces are mainly sub-volcanic with porphyry texture and their composition varies from granite to diorite but monzonite is dominant. with the exception of hired, these are classified as belonging to the magnetite-series of i-type granitoids. chemically, these rocks are meta-aluminous. those with mineralization are k-rich and those without mineralization such as najmabad are na-rich. all intrusive rocks plot in the field of calc-alkaline to adakite except najmabad that plot in the adakite field. based on low content of nb ( 30), low initial 87sr/86sr ( 17 ppm), low ratio of zr/nb ( 0.707) and low initial εnd value (-3), magmas in the kaybar-kuh were more contaminated in the continental crust. based on depletion in hree and high ratio of (la/yb)n (17-23), magma in najmabad originated in the deep region in which garnet was present. based on ree pattern and ration of eu/eu* (0.8-1), intrusive rocks within maherabad, khoopik, chah-shaljami, kuh shah and dehsalm are calc-alkaline and their magma formed in an oxidant condition whereas kaybar kuh magma with low ratio of eu/eu* (<0.8) was contaminated in the continental crust under reduced conditions. the age of these granitoids is between middle eocene and lower oligocene. kaybar-kuh (43.3 ma) is situated in the north and chah-shaljami (33.3 ma) in the south. the initial 87sr/86sr ratios decrease from north (0.7077) to south (0.7047) as the age decreases. εnd of maherabad, khoopik, dehsalm, and chah-shaljami granitoids is between +0.5 and +2.49 and the initial 87sr/86sr ratio is less than 0.7055. the age of the source rock (tdm, which was calculated based on sm-nd isotopes) indicates that these magma originated from oceanic crust with different ages. kaybar-kuh originated from the oldest oceanic crust (840 ma) and was contaminated more in continental crust, but najmabad originated from a younger oceanic crust (360 ma) with minor contamination. dehsalm and chah-shaljami magma which had some differences with maherabad and khoopik, originated from oceanic crust of 200 ma. the period between 42 and 33 ma (middle eocene to lower oligocene) is the most important stage of mineralization in eastern iran especially in south khorasan. some of the major systems, which are identified so far are: porphyry cu-au, reduced intrusive related au, high sulfidation au, fe- skarn, pb-zn-sb vein and iocg deposits. granitoid rocks formed between 42 and 33 ma within the lut block and northern area has great potential for exploring porphyry cu-au, iocg, fe, pb-zn, au etc.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

sr-nd isotopic characteristic, u-pb zircon geochronology, and petrogenesis of najmabad granodiorite batholith, eastern iran

the study area is located south of ghonabad in eastern iran. this area is situated between two major faults, darouneh to the north and dashtbyaz to the south. the movements of these faults cased major dislocation of this block. najmabad granodiorite to granite batholith is elongated trending east-west 2×8 km2. mineralization is associated with granite and monzonite. alteration zones are: propyl...

full text

u-pb zircon geochronology, sr-nd isotope geochemistry, and petrogenesis of oxidant granitoids at keybarkuh, southwest of khaf

keybarkuh area is located 70 km southwest of khaf, khorasan razavi province. the study area is situated in northeastern lut block. the rock units in the area are paleozoic metamorphic rocks and cretaceous to tertiary subvolcanic intrusions intruded as dike, stock and batholith; their composition varies from granite to diorite. based on magnetic susceptibility, the intrusive rocks are divided in...

full text

Adakite magmatism within the Sabzevar ophiolite zone, NE Iran: U-Pb geochronology and Sr-Nd isotopic evidences

Numerous post-ophiolite intrusions exposed into the late Cretaceous–Paleocene Sabzevar ophiolite belt, northeast Iran. The intrusions consist of calc-alkaline intermediate to felsic rocks with metaluminous to peraluminous in nature and adakitic affinities. Based on U-Th-Pb dating on separated zircons by SHRIMP Ⅱ, the emplacement age of these rocks into the ophiolite zone is constrained to ~45 M...

full text

geology, mineralization, rb-sr & sm-nd geochemistry, and u–pb zircon geochronology of kalateh ahani cretaceous intrusive rocks, southeast gonabad

kalateh ahani is located 27 km southeast of gonabad within the khorasan razavi province. the area is part of lut block. sub-volcanic monzonitic rocks intruded regional metamorphosed shemshak formation (jurassic age). magnetic susceptibility of less altered monzonitic rocks is 0.6%., as, pb and zn > 1%, au up to 150 ppb and sn = 133 ppm. the sn content of vein in the northern part of kalateh aha...

full text

U–Pb zircon geochronology, petrochemical and Sr–Nd isotopic characteristic of Late Neoproterozoic granitoid of the Bornaward Complex (Bardaskan-NE Iran)

http://dx.doi.org/10.1016/j.jseaes.2015.05.019 1367-9120/ 2015 Elsevier Ltd. All rights reserved. ⇑ Corresponding author. Tel.: +98 5138218146, mobile: +98 9155011318; fax: +98 5138212402. E-mail addresses: [email protected] (R.M. Bagherzadeh), [email protected] (M.H. Karimpour), [email protected] (G.L. Farmer), [email protected] (C.R. Stern), [email protected] (J.F. Santos)...

full text

u-pb zircon geochronology, rb-sr and sm-nd isotope geochemistry, and petrogenesis of granitiod rocks at kaje prospecting area, northwest ferdows: evidence for upper cretaceous magmatism in lut block

granitoid rocks of kaje area, northwest ferdows, with the composition of diorite, monzodiorite, monzonite, monzogranite, syenogranite and granite, with calk-alkaline and high potassium affinities, have trace and rare earth element geochemical characteristics similar to those from subduction zones, belonging to i-type granitoid rocks. most of these rocks are oxidized (magnetite series), while on...

full text

My Resources

Save resource for easier access later


Journal title:
زمین شناسی اقتصادی

جلد ۴، شماره ۱، صفحات ۱-۰

Keywords

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023