Your search keyword '"Monzogranite"' showing total 81 results

1. Hydrothermal alteration processes in monzogranite: a case study from the Eastern Desert of Egypt: implications from remote sensing, geochemistry and mineralogy

Author

Amira M. El Tohamy

Subjects

Monzogranite, Uranium, REEs, Wadi Sikait, Eastern Desert, Egypt, Environmental sciences, GE1-350, Chemistry, QD1-999

Abstract

Abstract The South Eastern Desert (SED) of Egypt is one of the most promising areas in Egypt; it is widely explored for exploring the rare earth elements (REEs) and uranium-bearing ores. It is a main part of the Arabian-Nubian Shield (ANS). Therefore, the present study concerns with Sikait-Nugrus area as one of the most prolific sites in this region. The study provides a detailed geological, structural, and mineralogical investigation of the monzogranites to describe and characterize the various alteration types and sequence. For this purpose, remote sensing, geochemical and petrographical techniques were applied. The remote sensing technique helped in constructing a detailed geologic map of the study area to follow up strictly the alteration zone of the Sikait-Nugrus area. Petrographically, the granites predominates in the study area, they are described as slightly and highly altered monzogranites. The slightly altered one is composed mainly of quartz (~ 20–35%), alkali feldspar (~ 25–30%), plagioclase (~ 25–30%), and mica (~ 5–15%), while accessory minerals are represented by zircon and monazite. On the other hand, the portion of this granite close to the shearing zone is intensively altered and characterized by sericitization as the main alteration processes. This sheared portion is characterized by accessory minerals as, uranothorite, allanite, fluorite and Nb-minerals (ishikawaite). Minerlogically, the altered monzogranites are predominated by the following mineral groups: (1) radioactive minerals as uranyl silicates (soddyite, uranophane and kasolite), and thorium minerals (thorite and uranothorite), (2) Nb–Ta minerals (betafite, plumbobetafite, columbite, fergusonite, and aeschynite), (3) REE minerals (monazite, cheralite and xenotime), and (4) zircon and fluorite as accessory minerals. Geochemically, the recorded pattern of the REEs tetrad effect (M-type) for the highly altered samples indicate that these granites are highly evolved and affected by late stage of hydrothermal alteration and the effective water-rich alteration processes that connected to intensive physico-chemical changes. The total REE concentrations equal 241.8 and 249.75 ppm for the highly and slightly altered samples. A significant mass change (MC) was analyzed by the isocon technique (22.95 & 11.11) and volume change (VC) (1.8 &-7.99) for the highly and slightly altered samples, respectively. The mass balance calculations and the isocon diagrams revealed that some major oxides were removed from the slightly altered monzogranites and transformed later into highly altered monzogranites with increasing the alteration intensity due to the impacts of hydrothermal alteration processes. The studied area is virgin, where no detailed studies have been applied to this region. It is extendable to other parts of the Arabian-Nubian Shield in around the Red Sea in Egypt, Sudan, Saudi Arabia and Yemen. The applied technical workflow is also extendible to other surface analogues everywhere.

Published

2024

2. Hydrothermal alteration processes in monzogranite: a case study from the Eastern Desert of Egypt: implications from remote sensing, geochemistry and mineralogy.

Author

El Tohamy, Amira M.

Subjects

*SILICATE minerals, *RARE earth metals, *RADIOACTIVE substances, *HYDROTHERMAL alteration, *GEOLOGICAL maps, *RARE earth oxides, *ZIRCON

Abstract

The South Eastern Desert (SED) of Egypt is one of the most promising areas in Egypt; it is widely explored for exploring the rare earth elements (REEs) and uranium-bearing ores. It is a main part of the Arabian-Nubian Shield (ANS). Therefore, the present study concerns with Sikait-Nugrus area as one of the most prolific sites in this region. The study provides a detailed geological, structural, and mineralogical investigation of the monzogranites to describe and characterize the various alteration types and sequence. For this purpose, remote sensing, geochemical and petrographical techniques were applied. The remote sensing technique helped in constructing a detailed geologic map of the study area to follow up strictly the alteration zone of the Sikait-Nugrus area. Petrographically, the granites predominates in the study area, they are described as slightly and highly altered monzogranites. The slightly altered one is composed mainly of quartz (~ 20–35%), alkali feldspar (~ 25–30%), plagioclase (~ 25–30%), and mica (~ 5–15%), while accessory minerals are represented by zircon and monazite. On the other hand, the portion of this granite close to the shearing zone is intensively altered and characterized by sericitization as the main alteration processes. This sheared portion is characterized by accessory minerals as, uranothorite, allanite, fluorite and Nb-minerals (ishikawaite). Minerlogically, the altered monzogranites are predominated by the following mineral groups: (1) radioactive minerals as uranyl silicates (soddyite, uranophane and kasolite), and thorium minerals (thorite and uranothorite), (2) Nb–Ta minerals (betafite, plumbobetafite, columbite, fergusonite, and aeschynite), (3) REE minerals (monazite, cheralite and xenotime), and (4) zircon and fluorite as accessory minerals. Geochemically, the recorded pattern of the REEs tetrad effect (M-type) for the highly altered samples indicate that these granites are highly evolved and affected by late stage of hydrothermal alteration and the effective water-rich alteration processes that connected to intensive physico-chemical changes. The total REE concentrations equal 241.8 and 249.75 ppm for the highly and slightly altered samples. A significant mass change (MC) was analyzed by the isocon technique (22.95 & 11.11) and volume change (VC) (1.8 &-7.99) for the highly and slightly altered samples, respectively. The mass balance calculations and the isocon diagrams revealed that some major oxides were removed from the slightly altered monzogranites and transformed later into highly altered monzogranites with increasing the alteration intensity due to the impacts of hydrothermal alteration processes. The studied area is virgin, where no detailed studies have been applied to this region. It is extendable to other parts of the Arabian-Nubian Shield in around the Red Sea in Egypt, Sudan, Saudi Arabia and Yemen. The applied technical workflow is also extendible to other surface analogues everywhere. [ABSTRACT FROM AUTHOR]

Published

2024

3. Late Palaeozoic potassic igneous rocks of the Molo‐Sarychat pluton in the eastern Kyrgyz Tien Shan: Geochemistry, U–Pb zircon geochronology and implications for related skarn‐porphyry Mo‐W‐Cu‐Au mineralization.

Author

Soloviev, Serguei G., Kryazhev, Sergey G., Semenova, Dina V., Kalinin, Yury A., and Bortnikov, Nikolay S.

Subjects

*IGNEOUS rocks, *HYDROTHERMAL alteration, *MONZONITE, *GEOLOGICAL time scales, *LAMPROPHYRES, *METALLOGENY

Abstract

The Molo‐Sarychat multiphase pluton is situated along the fault systems of the 'Main Structural Line of Tien Shan' (known also as the 'Nikolaev Line'). It comprises mafic to intermediate (monzodiorite, monzonite) and silicic (quartz monzonite, monzogranite and leucogranite‐alaskite) rocks, followed by the late mafic (monzodiorite‐porphyry to lamprophyre) dikes. Isotopic U‐Pb zircon dating of quartz monzonite and monzogranite indicates their Early Permian age (ca. 293 to 286 Ma). The rocks appear to have been produced by remelting of a partially crystallized (mush) magma batch at deeper levels, which is evident by the presence of zircon antecrysts dated at some 306 to 320 Ma. These geochronological data are consistent with a post‐collisional setting of the pluton that occurred after the cessation of subduction, which affected the Middle Tien Shan in the Late Palaeozoic. Geochemical signatures of the igneous rocks from the Molo‐Sarychat pluton correspond to high‐K calc‐alkaline to shoshonitic series intrusions emplaced in a post‐collisional setting. An initial shoshonitic magma was produced by a low‐degree partial melting of the metasomatically enriched upper mantle, with amphibole fractionation in a deep (lower crustal) magma chamber. In this evolution, a generation, under the influence of mantle‐supplied fluids and heat, granitic magmas in the crustal protolith can be suggested, with further mixing/mingling of the mantle‐derived mafic (shoshonitic) magma and mantle‐induced crustal granitic magma, followed by the magma fractionation and emplacement at shallower crustal levels. The skarn‐porphyry Mo‐Cu‐W(‐Au) mineralization associated with the Molo‐Sarychat pluton complements the group of similar deposits associated with high‐K calc‐alkaline to shoshonitic series intrusions in the Middle Tien Shan and globally. The characteristic Mo‐W‐Cu‐Au metal assemblage and the high endowment in W and particularly Mo can be related to the fertilization of subduction‐modified subcontinental mantle in these metals, and its subsequent involvement in the magma generation in post‐collisional setting. A certain role of crustal magma sources in the strong Mo endowment can be considered that would be consistent with some A‐type granitoid affinity of the igneous rocks. The Early Permian age of these high‐potassic intrusions supporting their post‐collisional emplacement is remarkably similar to the age of hydrothermal alteration assemblages, previously reported for the super‐large Kumtor Au deposit situated in a similar post‐collisional setting nearby. [ABSTRACT FROM AUTHOR]

Published

2024

4. 北秦岭翠华山-库峪一带晚中生代花岗岩黑云母地球化学特征及成因.

Author

陈楠, 黄艳娜, 黎敦朋, 付一航, and 杨小敏

Abstract

Copyright of Journal of Fuzhou University is the property of Journal of Fuzhou University, Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. Geology and Petrography of the Ash-Sharqi Granitoid Pluton, Southwestern Yemen.

Author

Malek, Abdul-Hamid and Nasher, Mukhtar A.

Subjects

GEOLOGY, PETROLOGY, GRANODIORITE, EXCLAVES, RAPAKIVI

Abstract

A reconnaissance study of the Ash-Sharqi area displays that this area is covered by Tertiary rift-related volcanic rocks and their associated plutonic rocks with some exposures of Mesozoic sandstones. These volcanic rocks belong to the Yemen Trap Series (YTS) that form the lower part of the Yemen Volcanic Group (YVG), which consists of a part of the Afro-Arabian continental flood basalt province. The plutonic rocks are represented by intrusion composed of granitoid rocks located in the center of the study area, which is the subject of this paper. These granitoid rocks range in composition from granite (G) to quartz-monzonite - quartz-monzodiorite - quartz diorite (QM-QMD-QD) and are composed of plagioclase (An32-46: Andesine), K-feldspars, quartz, hornblende with minor, biotite, opaques, allanite and zircon. Secondary minerals are represented by chlorite, sericite calcite sphene, hematite epidote, and kaolinite. These rocks show variations in their colors (color index 6 to 47 vol. %) and grain sizes, which reflect changes in mineral composition and textures. They have equigranular, porphyritic, rapakivi, and anti-rapakivi textures and contain enclaves of various sizes of basalt and diorite blocks. Xenocrysts of pyroxene and plagioclase are found and detonated during the magma-mingling processes. Finally, these granitoid rocks are subjected to various degrees of hydrothermal alterations, including silicification, argillization, hematitization, chloritization, epidotization, sericitization, carbonation and spheronization. [ABSTRACT FROM AUTHOR]

Published

2024

6. Evolution characteristics of fracture volume and acoustic emission entropy of monzogranite under cyclic loading

Author

Liyuan Liu, Zhou Zhang, Tao Wang, Sheng Zhi, and Jiong Wang

Subjects

Cyclic load, Monzogranite, Fracture volume, Fracture volume strain ratio, Acoustic emission entropy, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract The volume evolution behavior of rock fissures and the characteristics of acoustic emission under cyclic loading are critical for rock stability analysis. To study the volume change behavior of monzogranite fissures and the characteristics of acoustic emission signals under cyclic loading, we selected samples of monzogranite at − 1600 m from a gold mine located in the Jiaodong Peninsula at a depth of − 1600 m and investigated the samples using triaxial cyclic loading—unloading tests and acoustic emission monitoring. As the volume change behavior of the monzogranite fissures and acoustic emission signals were monitored and recorded, the calculated fracture volume strain ratio coefficient and acoustic emission entropy value were proposed to describe the evolution process of fissures inside the rock. The research results showed that the volume strain ratio curve of the rock fractures exhibited a logarithmic variation characteristic during the cyclic loading and unloading, and the fracture volume strain ratio better reflected the relative scale of the internal fracture strain in the rock to the total volume strain. The acoustic emission entropy value reflected the crack evolution behavior during the loading and failure processes, which was a rapid decline in the initial stage of loading and a rapid upward trend in the failure stage. The observed “V”-shaped change in the acoustic emission entropy can be used as an early warning for rock failure. The research results can provide theoretical guidance for rock stability analysis.

Published

2024

7. Molybdenite-bearing vugs in microgranite in the Preissac pluton, Québec, Canada: Relicts of aqueous fluid pockets?

Author

Mulja, Thomas and Williams-Jones, Anthony E.

Subjects

*FLUIDS, *STABLE isotopes, *DIKES (Geology), *IGNEOUS intrusions, *MUSCOVITE, *MOLYBDENUM, *BATHOLITHS

Abstract

Field, petrochemical, and stable isotope data from peraluminous microgranite dikes and their molybdenite-bearing vugs in the Archean Preissac-Lacorne batholith, Québec, provide evidence for the transport and deposition of molybdenum by an aqueous fluid that exsolved from a felsic magma. A model is proposed in which the microgranite-forming liquid fractionated from a magma that was parental to and intruded less-evolved muscovite monzogranite. Fluid saturation is interpreted to have occurred immediately prior to emplacement, allowing sufficient time for small spherical pockets of fluid to form and rise through the liquid but insufficient time for them to leave the system. These fluid pockets scavenged molybdenum and other components during their migration but were frozen in situ to form molybdenite-bearing vugs as a result of the quenching of the magma. We therefore conclude that the vugs are relicts of the exsolved fluid pockets and that the molybdenite in them reflects the concentration of molybdenum in the fluid, estimated from volumetric relationships to have reached ~7800 ppm. [ABSTRACT FROM AUTHOR]

Published

2024

8. Caracterización Petrográfica del Granito Puerta de Allega, Sierra de Ancasti, Catamarca.

Author

SANTILLÁN, María Lourdes, Gregorio FUENTES, Tomás, ARCE, María Noelia, and Guillermo SARDI, Fernando

Subjects

PETROGRAPHIC microscope, LITHOFACIES, MUSCOVITE, SCHISTS, GRANODIORITE

Abstract

Copyright of Instituto Superior de Correlacion Geologica, Serie Correlacion Geologica is the property of Instituto Superior de Correlacion Geologica (INSUGEO-CONICET) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

9. Evolution characteristics of fracture volume and acoustic emission entropy of monzogranite under cyclic loading

Author

Liu, Liyuan, Zhang, Zhou, Wang, Tao, Zhi, Sheng, and Wang, Jiong

Published

2024

10. Late Triassic magmatic rocks in the southern East Kunlun Orogenic Belt, northern Tibetan Plateau: Petrogenesis and tectonic implications.

Author

Ren, Xiang, Dong, Yunpeng, He, Dengfeng, Sun, Shengsi, Zhang, Bin, Zhou, Bo, Hui, Bo, and Yue, Yuangang

Subjects

*OROGENIC belts, *IGNEOUS rocks, *PETROGENESIS, *MAFIC rocks, *TRIASSIC Period, *GEOCHEMISTRY, *URANIUM-lead dating, *FELSIC rocks

Abstract

The East Kunlun Orogenic Belt (E-KOB) documents successive subduction and accretion processes of the Paleo-Tethyan Ocean. However, the tectonic regime of the E-KOB at the late orogenic stage remains ambiguous. This study presents new results of whole-rock geochemistry and zircon U-Pb-Hf isotopes of the Xidatan pluton in the southern E-KOB. Detailed investigation reveals that the pluton is composed of quartz monzodiorite, host monzogranite, and igneous microgranular enclaves (IMEs). Zircon U-Pb dating results suggest that they are coeval magmatic rocks emplaced at ca. 206–203 Ma. Geochemical studies reveal that the quartz monzodiorite and IMEs share a common magma source, evidenced by consistent compositions of major elements, congruently enriched LREEs and LILEs, and consistently moderately depleted HFSEs and HREEs. Enriched to slightly juvenile zircon Hf isotopes (εHf(t) = −4.24 to +0.49) indicate that the primitive magmas of the quartz monzodiorite and IMEs involve the addition of mantle-derived magmas. The quartz monzodiorite and IMEs have identical ages, and consistent isotope features with the host monzogranite, together with the observation of ingestion of xenocrysts from host felsic rocks into the IMEs indicating that they were produced through the mixing of the mantle-derived mafic magmas and host felsic magmas. In contrast, The host monzogranite has moderately high SiO2 and Na2O+K2O, but low Fe2O3T and MgO contents. It shows crust-like trace element patterns such as strong enrichments in LREEs and LILEs, but remarkable depletions in HREEs. Along with enriched zircon Hf isotopes (εHf(t) = −3.51 to −0.25), the host monzogranite was most likely to have originated from partial melting of lower crustal mafic rocks induced by underplated mantle-derived magmas. Considering abundant Late Triassic igneous rocks across the E-KOB, these new data provide further evidence that the Late Triassic magmatism in the E-KOB may be related to the delamination of thickened orogenic root under an extensional setting. [ABSTRACT FROM AUTHOR]

Published

2023

11. 加拿大纽芬兰岛 Indian Head Range 地块格林 威尔期二长花岗岩年龄, Nd-Hf 同位素特征--块体属性与演化新证据

Author

王朝阳, 王涛, and 张颖慧

Abstract

Copyright of Acta Petrologica et Mineralogica / Yanshi Kuangwuxue Zazhi is the property of Acta Petrologica et Mineralogica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

12. Petrogenesis and tectonic implication of the Triassic monzogranite from the central segment of the East Kunlun Orogen, NW China.

Author

Zhang, Mingdong, Tan, Shucheng, Ruan, Mengfei, Li, Liang, and Yan, Qinghe

Subjects

*FERRIC oxide, *TETHYS (Paleogeography), *PLAGIOCLASE, *OROGENIC belts, *MINERALS

Abstract

• I-type monzogranites in the East Kunlun Orogen Belt were emplaced at 251–221 Ma. • The studied monzogranites were generated by partial melting of ancient lower crust. • The Early Triassic monzogranites were formed in a localized extensional environment during a subduction-dominated stage. • The Late Triassic (ca. 232–221 Ma) monzogranites were formed in a post-collisional environment. The Triassic granitoids in the East Kunlun Orogenic Belt (EKOB) are crucial for understanding the tectonic evolution of the Paleo-Tethys Ocean. This study presents zircon U–Pb ages, Lu–Hf isotopes, whole-rock major and trace elements, and Sr–Nd isotope compositions from monzogranite plutons in the central segment of EKOB to constrain their petrogenesis and tectonic evolution. These monzogranites are dominant composed of mineral assemblages of K-feldspars, plagioclase, minor biotite and accessory minerals. U–Pb dating of zircons from the Xinle South (XLS), Nanshankou (NSK) and Changgou South (CGS) plutons yield ages of 251 Ma, 232 Ma and 221 Ma, respectively. The studied monzogranites have relatively high SiO 2 and Al 2 O 3 , but have low contents of TiO 2 , Fe 2 O 3 T, MgO relative to the coeval granodiorites. These monzogranites are classified as fractionated I-type granites, ranging from calc-alkaline to high-K calc-alkaline compositions. Their negative εNd(t) values (−4.2 to −6.3) and zircon εHf(t) values (−6.1 to −9.3) suggest that magma generation occurred through partial melting of ancient lower crust, followed by extensive fractional crystallization. Integrating our new data with regional geological evidence, we propose that the Early Triassic XLS monzogranite emplaced in a localized extensional environment linked to the northward subduction of the Paleo-Tethys oceanic plate. In contrast, during the post-collisional extensional phase of the Late Triassic, the formation of the NSK and CGS monzogranite plutons was directly influenced by asthenospheric upwelling, lower crust delamination, and subsequent continental rifting. [ABSTRACT FROM AUTHOR]

Published

2024

13. Geochemistry, origin and anatexis temperature of monzogranite formation in Mount Khalaj (Mashhad, Iran)

Author

Ramin Samadi, Ghodrat Torabi, and Hassan Mirnejad

Subjects

petrography, geochemistry, monzogranite, mesozoic, khalaj, mashhad, Geology, QE1-996.5

Abstract

Introduction Granitoids are the main rock units in the continental crust. Study of granitoids reveals significant information on tectonic mantle and upper crust. Many researchers have investigated petrogenesis and origin of granitoids (e.g., Chappell and White, 2001; Barbarin, 1999; Frost et al., 2001). For example, Chappell and White (1992), Pitcher (1993) and Chappell et al., (1998) have divided granites into two major groups of: (1) I-type granites (high-temperature or Cordellerian granitoids, including low-K granitoid to high-Ca tonalite, without inherited zircons) formed by partial melting of mafic rocks at >1000 ℃ in mantle or subduction zones of continental margins, and (2) S-type (low-temperature or Caledonian granitoids with inherited zircons) granites formed by partial melting of felsic crust at ~700-800 ℃. Northeast of Iran is a key location for studying the Cimmerian Orogeny, which is related to the Late Triassic collision between it and Eurasia, and the closure of the Paleo-Tethys (Samadi et al., 2014). Mesozoic Mashhad granitoids have cropped out along with the Paleo-Tethys suture zone. Distinct granitoid suites, i.e., monzogranite, granodiorite, tonalite, and diorite occur in Mount Khalaj located in the south of Mashhad. It comprises of monzogranite and granodiorite. However, monzogranite is the most abundant. To study the plutonic events during the Turan and Central Iran collision, the origin and tectonic setting of monzogranite of Mount Khalaj are investigated in this study based on whole rock geochemical data. Materials and methods This research study is based on field studies and petrography. Fresh thin sections samples were selected for geochemical analysis. Whole rock composition was measured on pressed powder tablets by X-ray fluorescence (XRF) using a Philips PW 1480 wavelength dispersive spectrometer with a Rh-anode X-ray tube and a 3 MeV electron beam Van de Graaff Accelerator, at the center for Geological Survey of Iran. The trace element data of a sample was measured at the Activation Laboratories, Ontario, Canada (ActLabs). Samples were digested by lithium metaborate/tetraborate fusion and analyzed with a Perkin Elmer Sciex ELAN 6000, 6100 or 9000 ICP/MS. GCDkit 4.1 and CorelDraw software packages were used for plotting diagrams and calculation of saturation temperatures. Results The Khalaj granitoid is mineralogically composed of quartz, potassic feldspar, plagioclase, mica, and accessory minerals of zircon and apatite. Geochemically, it is an unaltered acidic intrusion with ~72-73 wt.% SiO2. It is a granitoid (monzogranite) based on various classification diagrams (e.g., Cox et al., 1979; etc.). It shows the peraluminous nature (A/CNK~ 1.08-1.24) with negative Eu anomaly of ~0.62-0.73 (Eu/Eu*

Published

2021

14. Petrogenesis and Tectonic Implications of Jurassic Granites in the Xingcheng Area, Northeastern North China Craton.

Author

MU, Maosong, YANG, Debin, XU, Wenliang, QUAN, Yikang, HAO, Leran, YANG, Haotian, and WANG, Anqi

Subjects

*GRANITE, *PETROGENESIS, *ADAKITE, *CONTINENTAL margins, *ROCK concerts, *SUBDUCTION

Abstract

New integrated geochemical studies are reported for Jurassic granites of the Xingcheng area in the northeastern North China Craton. U–Pb zircon data indicate that the Huashan and Taili monzogranites were emplaced during the Early (189 ± 2 Ma) and Late (155 ± 1 Ma) Jurassic, respectively. They are typical of high‐K calc‐alkaline series rocks and I‐type granites, according to our whole‐rock geochemical researches. Both Early and Late Jurassic monzogranites show adakitic rock characteristics because of their high Sr contents (221–347 ppm) and Sr/Y ratios (28.7–37.5), and low Y contents (7.83 –14.7 ppm). The Early Jurassic monzogranite samples have an (87Sr/86Sr)i ratio of 0.7046, ∊Nd(t) values of –11.62 to –11.51, and ∊Hf(t) values of –13.6 to –6.4, whereas the Late Jurassic monzogranites have higher (87Sr/86Sr)i ratios of 0.7069–0.7071 and lower ∊Nd(t) (–20.65 to –20.46) and ∊Hf(t) (–27.6 to –20.0) values. We suggest that the Early Jurassic adakitic rocks were derived from partial melting of thickened lower crust contaminated with mantle‐derived materials, related to subduction of the Paleo‐Pacific Plate. The Late Jurassic adakitic rocks were derived from partial melting of thickened lower crust in an extensional tectonic setting associated with an active continental margin. [ABSTRACT FROM AUTHOR]

Published

2021

15. 滇西潞西地区晚寒武世岩浆构造热事件的新认识.

Author

宋冬虎, 刘兵, 路永岩, 刘晓玮, 包佳凤, 王燕, 刘军平, 孙柏东, and 田素梅

Abstract

Copyright of Geology & Resources is the property of Geology & Resources Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

16. The effects of freeze-thaw cycles and block size on the use of the Gümüşhane Granitoid (Gümüşhane/Turkey) as building stone.

Author

Dağ, Serhat, Alemdağ, Selçuk, and Kaya, Ayberk

Abstract

The present study aims to examine the usability of the Gümüşhane Granitoid as a building stone taking into consideration the short-term freeze-thaw cycles and mean block volume. A total of 180 specimens were used in the study prepared from the block samples compiled from 10 different areas in the Gümüşhane (NE Turkey) provincial borders. Mean block volume was calculated about 8 dm3 during the discontinuity studies carried out on the Gümüşhane Granitoid; as a result of which, it was determined that the granitoids are suited for obtaining blocks. The annual freeze-thaw cycle map of Turkey was used for determining the number of freeze-thaw cycles to be applied on the rocks in addition to taking into account the weathering of monzogranites. A total of 25 freeze-thaw cycle tests were applied on the rocks with experimental studies repeated at every 5 cycles. It was determined following the freeze-thaw tests that significant changes have occurred especially in the strength and water absorption parameters of the monzogranites and that they have been affected negatively. This indicates that the monzogranites are not suited for outdoor use as building stone in regions such as the Gümüşhane province and regions with similar climate characteristics, but that they can be used in a lot of regions with more moderate climates. As a building stone, monzogranites can be used either as cobblestone, curbstone, or paving stone subject to their mean block volume. It is considered that the widespread of the Gümüşhane Granitoid may provide a substantial economical income to the country. [ABSTRACT FROM AUTHOR]

Published

2021

17. Geochemistry and zircon U–Pb ages of the Neoproterozoic Shimian plutons on the western margin of the Yangtze Block, Sichuan Province.

Author

Xie, Qi‐Feng, Cai, Yuan‐Feng, and Zhai, Ming‐Guo

Subjects

*GEOCHEMISTRY, *ZIRCON, *IGNEOUS intrusions, *ISOTOPIC analysis, *LASER ablation inductively coupled plasma mass spectrometry, *PROVINCES

Abstract

The Shimian Neoproterozoic plutons are located on the western margin of the Yangtze Block and are important for reconstructing the tectonic environment of this region. We present in situ zircon LA–ICP–MS U–Pb geochronological and Hf isotopic analyses for the plutons, as well as whole‐rock major‐ and trace‐element compositions. The monzogranite and syenogranite yield concordant ages of 773.6 ± 5.6 Ma and 812.2 ± 1.8 Ma, respectively, which indicates that they formed during the Tonian of the Neoproterozoic. The samples have very similar geochemistry, with high SiO2 (71.45–75.46 wt%) and Al2O3 (12.38–14.36 wt%) contents. The samples have a geochemical characteristics typical of peraluminous A‐type granites, including high Ga/Al and Rb/Sr ratios and elevated contents of high‐field‐strength elements. The samples also display high Rb/Sr (13.9–23.0) and Rb/Nb (12.5–19.2) ratios. The monzogranite and syenogranite yield positive εHf(t) values (+1.6 to +9.4 and + 5.2 to +9.8, respectively) and T2DM ages of 1.54–1.22 Ga and 1.51–1.21 Ga, respectively, which indicates that they were derived from partial melting of Mesoproterozoic crust or contamination with upper mantle. We propose that the syenogranite and monzogranite formed in a syn‐orogenic extensional setting during the Tonian period and that continuous subduction was responsible for the Neoproterozoic magmatic activities. [ABSTRACT FROM AUTHOR]

Published

2021

18. GÜMÜŞHANE YÖRESİNDE YÜZEYLENEN MAGMATİK KÖKENLİ BAZI KAYALARIN JEOMEKANİK ÖZELLİKLERİ ARASINDAKİ İLİŞKİLERİN ARAŞTIRILMASI

Author

Fatih Alkan and Serhat Dağ

Subjects

andesite, monzogranite, geomechanical property, petrographical property, statistical analysis, andezit, monzogranit, jeomekanik özellik, petrografik özellik, i̇statistiksel analiz, Technology, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Bu çalışmada, Gümüşhane il merkezinde yüzeylenen andezit ve monzogranit bileşimindeki magmatik kökenli kayaların jeomekanik özellikleri belirlenmiş ve aralarındaki görgül ilişkiler araştırılmıştır. Deneysel çalışmalar sonucunda, andezit ve monzogranitlerin özgül ağırlık, birim hacim ağırlık, ağırlıkça su emme, hacimce su emme ve gözeneklilik değerleri belirlenmiştir. Her iki kaya türü için kuru ve doygun koşullarda P ve S dalga hızı ölçümleri gerçekleştirilmiştir. Bu değerlere bağlı olarak dinamik elastik parametreler saptanmıştır. Mekanik özelliklerden tek eksenli basınç dayanımı, nokta yükü dayanım indeksi ve dolaylı çekilme dayanımı ile statik elastik parametrelerden elastisite modülü ve poisson oranı değerleri belirlenmiştir. Yapılan istatistiksel değerlendirmeler sonucunda, en yüksek korelasyon katsayısı andezitlerde r: 0.90 ve monzogranitlerde r: 0.94 değeri ile P ve S dalga hızı ölçümlerine ait verilerden elde edilmiştir. En düşük korelasyon katsayısı değeri ise monzogranitlerde Kuvars/Alkali Feldispat oranı ile gözeneklilik arasında tespit edilmiştir. Yapılan analizler neticesinde istatistiksel olarak anlamlı bulunan ve yüksek korelasyon katsayısına sahip ilişkilerin çalışma açısından önemli olduğu ve ilgili parametrelerin dolaylı tahminlerinde kullanılabilir nitelikte olduğu öngörülmüştür.

Published

2018

19. A Late Cretaceous felsic magmatic suite from the Tengchong Block, western Yunnan: integrated geochemical and isotopic investigation and implications for Sn mineralization.

Author

Sun, Zhuanrong, Dong, Guochen, Santosh, M, Mo, Xuanxue, Dong, Pengsheng, Wang, Weiqing, and Fu, Bin

Subjects

*RARE earth metals, *STRONTIUM, *TANTALUM, *PLAGIOCLASE, *MINERALIZATION, *FELSIC rocks, *ZIRCON, *ORES

Abstract

The Tengchong Block within the Sanjiang Tethys belt in the southeastern part of the Tibetan plateau experienced a widespread intrusion of a felsic magmatic suite of granites in its central domain during Late Cretaceous times. Here, we investigate the Guyong and Xiaolonghe plutons from this suite in terms of their petrological, geochemical, and Sr–Nd, zircon U–Pb and Lu–Hf–O isotopic features to gain insights into the evolution of the Neo-Tethys. The Guyong pluton (76 Ma) is composed of metaluminous monzogranites, and the Xiaolonghe pluton (76 Ma) is composed of metaluminous to peraluminous medium- and fine-grained syenogranite. A systematic decrease in Eu, Ba, Sr, P and Ti concentrations; a decrease in Zr/Hf and LREE/HREE ratios; and an increase in the Rb/Ba and Ta/Nb ratios from the Guyong to Xiaolonghe plutons suggest fractional crystallization of biotite, plagioclase, K-feldspar, apatite, ilmenite and titanite. They also show the characteristics of I-type granites. The negative zircon εHf(t) isotopic values (−10.04 to −5.22) and high δ18O values (6.69 to 8.58 ‰) and the negative whole-rock εNd(t) isotopic values (−9.7 to −10.1) and high initial 87Sr/86Sr ratios (0.7098–0.7099) of the Guyong monzogranite suggest that these rocks were generated by partial melting of the Precambrian basement without mantle input. The zircon εHf(t) isotopic values (−10.63 to −3.04) and δ18O values (6.54 to 8.69 ‰) of the Xiaolonghe syenogranite are similar to the features of the Guyong monzogranite, and this similarity suggests a cogenetic nature and magma derivation from the lower crust that is composed of both metasedimentary and meta-igneous rocks. The Xiaolonghe fine-grained syenogranite shows an obvious rare earth element tetrad effect and lower Nb/Ta ratios, which indicate its productive nature with respect to ore formation. In fact, we discuss that the Sn mineralization in the region was possible due to Sn being scavenged from these rocks by exsolved hydrothermal fluids. We correlate the Late Cretaceous magmatism in the central Tengchong Block with the northward subduction of the Neo-Tethys beneath the Burma–Tengchong Block. [ABSTRACT FROM AUTHOR]

Published

2020

20. Morphology, trace elements, and geochronology of zircons from monzogranite in the Northeast Xing'an Block, northeastern China: constraints on the genesis of the host magma.

Author

Deng, Changzhou, Sun, Guangyi, Sun, Deyou, Han, Jinsheng, Yang, Dongguang, and Tang, Zongyuan

Subjects

*LASER ablation inductively coupled plasma mass spectrometry, *URANIUM, *TRACE elements, *GEOLOGICAL time scales, *ZIRCON, *MAGMAS

Abstract

The morphology, trace-element composition and geochronology of 43 zircon grains from two monzogranite samples from the Northeast Xing'an Block, northeastern China, were determined using cathodoluminescence imaging and laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS). Three morphological subtypes (S3, S8 and S9) are recognized in the zircon grain samples, and subtype S8 is dominant, reflecting a calc-alkaline, moderately aluminous, high-pressure crystallization medium and a crystallization temperature of 700 ± 50 °C. The zircon grains are characterized by oscillatory zoning, relatively high Th/U ratios (0.3–1.0), steep chondrite-normalized rare-earth element patterns, high Hf contents (>9000 ppm), positive Ce (Ce/Ce* = 4.84 to 2914) and negative Eu (Eu/Eu* = 0.24 to 0.90) anomalies, indicating a magmatic source. The 206Pb/238U ages of the two monzogranite samples are 180 ± 1 and 181 ± 1 Ma, respectively, implying an Early Jurassic emplacement age for the intrusion. The disparate geochemical behaviors of Hf, Th, and Nb within the zircons, as well as the U/Yb, Nb/Yb, Th/U, Nb/Hf, Th/Nb, and Hf/Th ratios, suggest a continental-crust source in a compressional-magmatic-arc or orogenic-tectonic setting, and a calc-alkaline parent magma. All of the grains show relatively high Ce4+/Ce3+ ratios, suggesting that they were derived from an oxidized magma, which favors enrichment of Cu-Mo elements in the granite porphyry. [ABSTRACT FROM AUTHOR]

Published

2019

21. Geochemical Characteristics and LA-ICP-MS Zircon U-Pb Geochronology of Xujiawan Monzogranite in the Eastern Part of North Huaiyang and Their Geological Significance

Author

CHEN Fang, DU Jian-guo, WAN Qiu, QIU Jun-qiang, and TANG Jin-lai

Subjects

north huaiyang tectonic belt, monzogranite, geochemistry, la-icp-ms zircon u-pb dating, early cretaceous, Geology, QE1-996.5, Ecology, QH540-549.5

Abstract

The Xujiawan monzogranitic intrusion is located at the junction of the Tongbai-Tongcheng fault and the Tancheng-Lujiang fault in North Huaiyang tectonic belt. The rocks intruded into the Neoproterozoic metamorphic rocks as stocks. In this study, major and trace element contents of the rocks are determined by Atomic Absorption Spectrometer and Inductively Coupled Plasma-Mass Spectrometry (ICP-MS). Results show that these rocks have high contents of SiO2 and Al2O3 and are alkali-rich and peraluminous with low Mg# values. They are rich in large ion lithophile elements such as Rb and Ba, but are poor in Sr. They are rich in high field strength elements such as Y, Th, Nb, Hf, U, but are poor in Ta, P, Ti. In general, these rocks are deplete in HFSE but enriched in LILE. They have high LaN/YbN and LREE/HREE ratios and have weak Ce anomalies. Major and trace elements indicate that these rocks belong to peraluminous A-type granite. LA-ICP-MS Zircon U-Pb dating of Xujiawan monzogranite yield ages of 128.0 0.9 Ma to 129.6 1.4 Ma, indicating that these intrusions were produced by the early Cretaceous magmatism. Xujiawan monzogranite may have formed in a post-collisional extensional setting. The magma may be derived from the mantle and contaminated by the continental crust.

Published

2016

22. Zircon as a Mineral Indicating the Stage of Granitoid Magmatism at Northern Chukotka, Russia

Author

Viktor I. Alekseev and Ivan V. Alekseev

Subjects

zircon, biotite granite, monzogranite, zinnwaldite granite, ongonite, North Chukotka, Geology, QE1-996.5

Abstract

A comparative study of the zircon composition and texture in granites of a three-stage Late Cretaceous magmatism in the Chaun area, Chukotka, Russia, was conducted in biotite granites (BG), quartz monzonites-monzogranites (MG), and zinnwaldite granites (ZG). The significance of the study entails determining the mineralogical indicators of similar granitoids in areas of multi-stage petrogenesis. It is shown that in the rock series of Northern Chukotka, BG → MG → ZG, a morphological evolution of zircon takes place: a reduction in size, elongation, a growing complexity of the crystallography, and an individual texture. In later generations of zircon, as a result of the recrystallization and metasomatism, rare-metal overgrowths, defects in the crystal structure, pores and fissures, and mineral inclusions appear, whereas the crystal-face indices and patterns become more complicated. We can observe the geochemical evolution of zircon: a gradual change in the concentration of trace elements (Hf, U, Y, Th, Nb, and Ti), rare earth elements (Yb, Er, and Dy, as well as Ce and Nd), and uncommon elements (Ca and Al). Rare elements (REE, Y, Hf, Nb, U, and Th) at the post-magmatic stage of the regional history acquired economic abundances. Zircon is therefore indicative of productive ore-magmatic systems.

Published

2020

23. Rapid exhumation of the northern Jiaobei Terrane, North China Craton in the Early Cretaceous: Insights from Al-in-hornblende barometry and U-Pb geochronology.

Author

Cai, Ya-Chun, Li, Xing-Hui, Fan, Hong-Rui, Zhang, Yong-Wen, Hu, Fang-Fang, Yang, Kui-Feng, Liu, Xuan, and Zhao, Kui-Dong

Subjects

*CRETACEOUS stratigraphic geology, *BAROMETRY, *GEOLOGICAL time scales, *GEOCHEMISTRY

Abstract

The Guojialing and Aishan plutons in the northern Jiaobei Terrane represent the magmatic products of the lithospheric thinning of the North China Craton in the Early Cretaceous. The exhumation history of the terrane in response to the thinning process and its effect on the formation and preservation of coeval gold deposits remain poorly constrained. Granodiorites from the Guojialing pluton and monzogranites from the Aishan pluton contain zircon grains with U-Pb ages of ca. 130 Ma and ca. 116 Ma, respectively. Using the Al-in-hornblende barometry, the Guojialing and Aishan plutons had crystallization pressures of 3.2–5.4 kbar (∼12 km) and 1.5–2.6 kbar (∼5 km), respectively. Using the hornblende-plagioclase thermometry, the Guojialing and Aishan plutons had crystallization temperatures of 628–697 °C and 702–745 °C, respectively. Fluid inclusion microthermometric data show that auriferous quartz veins in the Daliuhang deposit formed at temperatures between 243 and 322 °C at a depth of 7–11 km which was similar to the emplacement depth of the Aishan pluton. These thermobarometric and geochronological data reveal ∼7 km uplift between 130 Ma and 116 Ma, but negligible exhumation for the gold deposits after its formation until 116 Ma. Combining previous results, we envisage that the exhumation magnitude of the Guojialing intrusions were nearly the same in the wide area with slight differences between the core and margin of a single pluton. Numerous gold deposits in the Jiaobei Terrane formed during or after the late stage of rapid exhumation of granitoids, and were uplifted with similar depths to the Aishan pluton since ca. 116 Ma. The rapid exhumation of the Guojialing pluton was with the regional extension, and might be genetically associated with the intensive delamination of destabilized lithospheric root and dense residues. [ABSTRACT FROM AUTHOR]

Published

2018

24. Excess Lifetime Cancer Risk Associated with Granite Bearing Radioactive Minerals and Valuable Metals, Monqul Area, North Eastern Desert, Egypt

Author

Abdel Gawad, A. E., Ali, K. G., Wahed, A. A. A., Alsafi, K., Khafaji, M., Albahiti, S., Khalil, M., Masoud, M. S., Hanfi, M. Y., Abdel Gawad, A. E., Ali, K. G., Wahed, A. A. A., Alsafi, K., Khafaji, M., Albahiti, S., Khalil, M., Masoud, M. S., and Hanfi, M. Y.

Abstract

The present work is concerned with assessing the cancer risk contributed by the studied granite types including valuable metals, such as Cu, Au, and Ba mineralization, as well as radioactive-bearing mineralization, such as monazite and zircon, in south Monqul at Wadi Makhrag El Ebel, north Eastern Desert, Egypt. The mineralization analyses illustrated that copper mineralization containing chrysocolla and tenorite minerals were restricted to the alteration zone, especially (argillic, phyllic, and propylitic) in monzogranite. However, barite veinlets had an ENE–WSW trend, while gold mineralization was confined to quartz veins having NE–SW trends. Monazite and zircon are radioactive-bearing minerals recorded in monzogranite causing high radioactive zones in south Monqul. The radionuclide activity concentrations were detected in the studied monzogranites. The mean values of AU (103 ± 91 Bq kg−1), ATh (78 ± 19 Bq kg−1), and AK (1484 ± 334 Bq kg−1) in the monzogranite samples were higher than the recommended worldwide average. The change in radioactive-transporting minerals found inside granite faults caused the high amounts of radioactivity seen in the samples. Due to the monzogranites being applied in building materials, the radiological hazards were assessed by calculating risk indices such as annual effective dose (AED) and excess lifetime cancer risk (ELCR). The acceptable limit for the ELCR readings was surpassed. As a result, the investigated monzogranite samples are not suitable for use in infrastructure materials. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2022

25. The late-Variscan peraluminous Valdepeñas pluton (southern Central Iberian Zone)

Author

J. ERRANDONEA-MARTÍN, M. CARRACEDO-SÁNCHEZ, F. SARRIONANDIA, J.F. SANTOS ZALDUEGUI, S. GARCÍA DE MADINABEITIA, and J.I. GIL-IBARGUCHI

Subjects

Peraluminous, Monzogranite, Metaigneous source, Central Iberian Zone, Valdepeñas., Science, Geology, QE1-996.5

Abstract

The Valdepeñas pluton is the easternmost outcrop of the Cáceres-Valdepeñas magmatic alignment (southern Central Iberian Zone). This massif is constituted by a cordierite-bearing porphyritic monzogranite and may be grouped within the so-called “Serie Mixta” granitoids. The Valdepeñas monzogranite is of magnesian [FeOt/(FeOt+MgO)~0.76], alkali-calcic [(Na2O+K2O)–CaO=7.8–8.5] and peraluminous (A/CNK=1.14–1.20). Multielemental- and REE-normalized patterns are comparable to those of similar rocks in the Nisa- Alburquerque-Los Pedroches magmatic alignment, and slightly differ from those of the Montes de Toledo batholith, both in the southern Central Iberian Zone. The U-Pb zircon age of 303±3Ma is consistent with the late-orogenic character of the intrusion and is in accordance with most of the granitic peraluminous intrusions in the southern Central Iberian Zone. 86Sr/87Sr300Ma ratios (0.707424–0.711253), εNd300Mavalues (-5.53 to -6.68) and whole-rock major and trace element compositions of the studied rocks, suggest that the parental magma of the Valdepeñas monzogranite could derive from a crustal metaigneous source. The U-Pb ages (552–650Ma) of inherited zircon cores found in Valdepeñas monzogranite samples match those often found in Lower Paleozoic metavolcanics and granitic orthogneisses of Central Iberia and, furthermore, point to Upper Neoproterozoic metaigneous basement rocks as possible protoliths at the magma source. Based on the solubility of monazite in peraluminous melts, the estimated emplacement temperature of the studied monzogranite is 742–762ºC. The results obtained in this work would contribute to a better understanding of the origin of the “Serie Mixta” granitoids.

Published

2017

26. The late-Variscan peraluminous Valdepeñas pluton (southern Central Iberian Zone).

Author

ERRANDONEA-MARTIN, J., CARRACEDO-SÁNCHEZ, M., SARRIONANDIA, F., ZALDUEGUI, J. F. SANTOS, DE MADINABEITIA, S. GARCÍA, and GIL-IBARGUCHI, J. I.

Subjects

*MAGMAS, *IGNEOUS rocks, *GRANITE, *ZIRCON, *MONAZITE

Abstract

The Valdepeñas pluton is the easternmost outcrop of the Cáceres-Valdepeñas magmatic alignment (southern Central Iberian Zone). This massif is constituted by a cordierite-bearing porphyritic monzogranite and may be grouped within the so-called "Serie Mixta" granitoids. The Valdepeñas monzogranite is of magnesian [FeOt/(FeOt+MgO)~0.76], alkali-calcic [(Na2O+K2O)-CaO=7.8-8.5] and peraluminous (A/CNK=1.14-1.20) composition. Multielemental- and REE-normalized patterns are comparable to those of similar rocks in the Nisa- Alburquerque-Los Pedroches magmatic alignment, and slightly differ from those of the Montes de Toledo batholith, bOth in the southern Central Iberian Zone. The U-Pb zircon age of 303±3Ma is consistent with the late-orogenic character of the intrusion and is in accordance with most of the granitic peraluminous intrusions in the southern Central Iberian Zone. 86Sr/87Sr300Ma ratios (0.707424-0.711253), εNd300Ma values (-5.53 to -6.68) and whole-rock major and trace element compositions of the studied rocks, suggest that the parental magma of the Valdepeñas monzogranite could derive from a crustal metaigneous source. The U-Pb ages (552-650Ma) of inherited zircon cores found in Valdepeñas monzogranite samples match those often found in Lower Paleozoic metavolcanics and granitic orthogneisses of Central Iberia and, furthermore, point to Upper NeoprOterozoic metaigneous basement rocks as possible prOtoliths at the magma source. Based on the solubility of monazite in peraluminous melts, the estimated emplacement temperature of the studied monzogranite is 742-762°.C. The results obtained in this work would contribute to a better understanding of the origin of the "Serie Mixta" granitoids. [ABSTRACT FROM AUTHOR]

Published

2017

27. Conservazione dell’architettura funeraria etrusca. Il caso dell’ipogeo di marciana scavato nel granito

Author

Giuseppe Centauro, Carlo Garzonio, and Michelangelo Zecchini

Subjects

Etruscan funerary architecture, Cruciform plan hypogeum, toponymy, monzogranite, Architecture, NA1-9428, Archaeology, CC1-960

Abstract

The problematic nature of Etruscan funerary architecture conservation due to the peculiar environmental conditions consisting of underground positions with flows of visitors represents a typical aim of the archaeological restoration The study case should be considered as emblematic for the iconographic relevance of the gentilitial etruscan tomb, of late orientalizing or archaic age, and for the particular physical nature of the hypogeum which is entirely excavated in a granodiorite rockmass in the center of Marciana village (Isola d 'Elba). The documental uniqueness of the hypogeum, currently under final determination, and the exceptional nature of the environment of the ancient site as well as the necessary radical measures to safeguard and specific intervention of consolidation and restoration are described from multiple viewpoints. In addition to the aspects relating to the conservation problems, the cruciform plan chronology of this extraordinary hypogeum was taken in account.

Published

2016

28. Chemical and boron isotopic compositions of tourmalines from the Lianyunshan Nb-Ta pegmatite in northeastern Hunan, China: Insights into fluid and metallogenic sources.

Author

Madayipu, Nuerkanati, Li, Huan, Algeo, Thomas J., Elatikpo, Safiyanu Muhammad, Zheng, Han, Wu, Qian-Hong, Chen, Yuan-Lin, and Sun, Wen-Bo

Subjects

*BORON isotopes, *TOURMALINE, *CHEMICAL fingerprinting, *RARE earth metals, *MUSCOVITE

Abstract

[Display omitted] • Tourmalines of the Lianyunshan Complex record host-rock chemistry. • Lianyunshan tourmalines are schorlitic alkali type with dominant hydroxyl species. • MgFe -1 alkali-deficiency vectors are the dominant elemental exchange vectors. • Lianyunshan tourmaline boron isotopes indicate a crustal boron source. • Key geochemical differences fingerprint rare-metal-productive vs barren deposits. Although tourmaline is common in pegmatite-related Nb-Ta deposits and metasedimentary cover rocks in the Lianyunshan Complex of northeastern Hunan Province, South China, its fluid sources and genetic relationship to the host pegmatite remain unresolved. In this contribution, we chose the less-studied tourmaline minerals and analyzed their chemical (major, trace, and rare earth elements) and boron isotopic compositions to shed light on the process of pegmatite-related Nb-Ta mineralization. Lianyunshan tourmalines are both metasedimentary-hosted (Tourmalines I and II) and pegmatite-hosted (Tourmaline III), belong to the alkali group, have mainly schorlitic compositions, and contain dominantly hydroxyl anionic species. Element substitution is controlled by the activities MgFe -1 , alkali-deficiency vector R1Al[ Na (FeMg)] -1 , AlO[ R (OH)] -1 , and □Al(NaR) -1. Lianyunshan tourmalines define a trend consistent with foitite to magnesio-foitite compositions. Lianyunshan tourmalines are poor in Fe3+, with a Fe3+/Fe2+ ratio of zero in all samples. This feature, as well as their non-alignment with the FeAl -1 vector, suggests precipitation from a reduced fluid. Fluid salinity may have been moderate to low given the low Na contents of all samples (0.60–0.66 apfu). Tourmaline I is rich in Mg and Ti, but the contents of these elements decrease in Tourmalines II and III. Fluid fractionation may have played a role in the decreasing Mg and Ti contents with corresponding enrichment in the contents of Fe, Na and X□ as Tourmalines II and III precipitated. Unusual enrichment of Li is found in the pegmatite-hosted Tourmaline III (mean 97 ppm) relative to Tourmalines I and II (means ∼ 31–33 ppm), and of Sn in Tourmaline II (mean 291 ppm) relative to Tourmalines I and III (means ∼ 3–10 ppm). δ11B values are similar for Tourmalines I (–14.21 to –12.09 ‰), II (–15.07 to –13.71 ‰), and III (–14.48 to –13.55 ‰), being consistent with the δ11B of typical S-type granites (∼−16 to −8 ‰) such as the S-type muscovite monzogranite host of the Lianyunshan tourmalines. We conclude that the Lianyunshan tourmalines precipitated from an evolved melt that formed muscovite monzogranite. [ABSTRACT FROM AUTHOR]

Published

2023

29. Generation of crystal-poor rhyolites from a shallow plutonic reservoir in the Famatinian arc (Argentina)

Author

Facundo A. Escribano, Julien Cornet, Giuliano C. Camilletti, Juan E. Otamendi, Paula Armas, Eber A. Cristofolini, and Olivier Bachmann

Subjects

Famatinian arc, Monzogranite, Crystal-poor rhyolite, Upper-crustal mushes, Melt extraction, Volcanic feeding, Geophysics, Geochemistry and Petrology

Abstract

The Ordovician rocks of Sierra Las Planchadas are an exceptionally preserved natural example of a plutonic-volcanic connection. Located in northwestern Argentina, the Las Planchadas Formation consists of a monzogranitic batholith that displays a window into the source of large subvolcanic rhyolitic rocks, cryptodomes and volcanic feeder-dykes. Mafic intrusions and felsic dykes occur cutting the plutonic rocks. Grain-scale relationships, whole-rock compositions and mineral chemistry indicate that monzogranites and rhyolites are two comagmatic members which differentiated within upper crust magma reservoirs. Monzogranites accumulated some plagioclase and trapped a large volume of melt, denoted by a high modal percentage (~64–71%) of near-solidus minerals, comprised of alkali feldspar, albite-rich plagioclase (An

Published

2022

30. 北淮阳东段徐家湾岩体地质和地球化学特征及 LA-ICP-MS 锆石 U-Pb 年龄.

Author

陈芳, 杜建国, 万秋, 邱军强, and 汤金来

Abstract

The Xujiawan monzogranitic intrusion is located at the junction of the Tongbai-Tongcheng fault and the Tancheng-Lujiang fault in North Huaiyang tectonic belt. The rocks intruded into the Neoproterozoic metamorphic rocks as stocks. In this study, major and trace element contents of the rocks are determined by Atomic Absorption Spectrometer and Inductively Coupled Plasma-Mass Spectrometry (ICP-MS). Results show that these rocks have high contents of SiO2 and Al2O3 and are alkali-rich and peraluminous with low Mg# values. They are rich in large ion lithophile elements such as Rb and Ba, but are poor in Sr. They are rich in high field strength elements such as Y, Th, Nb, Hf, U, but are poor in Ta, P, Ti. In general, these rocks are deplete in HFSE but enriched in LILE. They have high LaN/YbN and LREE/HREE ratios and have weak Ce anomalies. Major and trace elements indicate that these rocks belong to peraluminous A-type granite. LA-ICP-MS Zircon U-Pb dating of Xujiawan monzogranite yield ages of 128.0 0.9 Ma to 129.6 1.4 Ma, indicating that these intrusions were produced by the early Cretaceous magmatism. Xujiawan monzogranite may have formed in a post-collisional extensional setting. The magma may be derived from the mantle and contaminated by the continental crust. [ABSTRACT FROM AUTHOR]

Published

2016

31. Radiological Hazard Evaluation of Some Egyptian Magmatic Rocks Used as Ornamental Stone: Petrography and Natural Radioactivity

Author

Lasheen, E. S. R., Rashwan, M. A., Osman, H., Alamri, S., Khandaker, M. U., Hanfi, M. Y., Lasheen, E. S. R., Rashwan, M. A., Osman, H., Alamri, S., Khandaker, M. U., and Hanfi, M. Y.

Abstract

Magmatic rocks represent one of the most significant rocks due to their abundance, durability and appearance; they can be used as ornamental stones in the construction of dwellings. The current study is concerned with the detailed petrography and natural radioactivity of seven magmatic rocks. All are commercial granitic rocks and are identified as black Aswan, Nero Aswan, white Halayeb, Karnak, Verdi, red Hurghada and red Aswan. Their respective mineralogical com-positions are classified as porpheritic granodiorite, granodiorite, tonalite, monzogranite, syenogran-ite, monzogranite and syenogranite. A total of nineteen samples were prepared from these seven rock types in order to assess their suitability as ornamental stones. Concentrations of 226Ra, 232Th and 40K radionuclides were measured using NaI (Tl) scintillation gamma-ray spectrometry. Among the studied magmatic rocks, white Halayeb had the lowest average values of226Ra (15.7 Bq/kg),232Th (4.71 Bq/kg) and40K (~292 Bq/kg), all below the UNSCEAR reported average world values or rec-ommended reference limits. In contrast, the other granitic rocks have higher values than the recom-mended limit. Except for the absorbed dose rate, other radiological hazard parameters including radium equivalent activity, annual effective dose equivalent, external, and internal hazard indices reflect that the White Halyeb rocks are favorable for use as ornamental stone in the construction of luxurious and high-demand residential buildings. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2021

32. Generation of crystal-poor rhyolites from a shallow plutonic reservoir in the Famatinian arc (Argentina).

Author

Escribano, Facundo A., Cornet, Julien, Camilletti, Giuliano C., Otamendi, Juan E., Armas, Paula, Cristofolini, Eber A., and Bachmann, Olivier

Subjects

*DIKES (Geology), *IGNEOUS intrusions, *PLAGIOCLASE, *BATHOLITHS, *TRACE elements, *MAGMAS

Abstract

The Ordovician rocks of Sierra Las Planchadas are an exceptionally preserved natural example of a plutonic-volcanic connection. Located in northwestern Argentina, the Las Planchadas Formation consists of a monzogranitic batholith that displays a window into the source of large subvolcanic rhyolitic rocks, cryptodomes and volcanic feeder-dykes. Mafic intrusions and felsic dykes occur cutting the plutonic rocks. Grain-scale relationships, whole-rock compositions and mineral chemistry indicate that monzogranites and rhyolites are two comagmatic members which differentiated within upper crust magma reservoirs. Monzogranites accumulated some plagioclase and trapped a large volume of melt, denoted by a high modal percentage (~64–71%) of near-solidus minerals, comprised of alkali feldspar, albite-rich plagioclase (An <30), and late crystallized quartz. The formation of felsic dykes and rhyolitic cryptodomes is the result of a late melt extraction stage facilitated by the injection of hot mafic magmas from deeper in the system. The mafic-induced thermal reactivation increased the amount of melt-filled pore stored within a highly-crystallized monzogranite reservoir. The breakdown of the low-temperature phases overpressurized the mush and opened a network of microfractures into which residual melts, depleted in feldspar-compatible trace elements (Ba, Sr, and Eu), infiltrated. The draining system involved thin interconnected vein-like channels that merged into wider sheet-like conduits. Our results suggest that channelized segregation of late-stage melts in the subvolcanic environment is a mechanism for triggering rhyolitic eruptions. • Las Planchadas Formation exposes a monzogranitic-rhyolitic stratified magma chamber of the Famatinian magmatic arc. • The plutonic-volcanic construction involved low-pressure crystal fractionation within a single upper-crustal magmatic system. • Thermal reactivation drove late remobilization of residual melts depleted in feldspar-controlled trace elements. • Channelling of felsic melt through a highly crystallized reservoir acted as a potential volcanic feeding mechanism. [ABSTRACT FROM AUTHOR]

Published

2022

33. Magma mixing and crust–mantle interaction in the Triassic monzogranites of Bikou Terrane, central China: Constraints from petrology, geochemistry, and zircon U–Pb–Hf isotopic systematics.

Author

Yang, Li-Qiang, Deng, Jun, Qiu, Kun-Feng, Ji, Xing-Zhong, Santosh, M., Song, Kai-Rui, Song, Yao-Hui, Geng, Jian-Zhen, Zhang, Chuang, and Hua, Bei

Subjects

*MAGMAS, *GRANITE, *CRUST-mantle model, *PETROLOGY, *TRIASSIC Period, *URANIUM-lead dating, *HAFNIUM isotopes

Abstract

Mafic microgranular enclaves (MMEs) are common in the monzogranites from the Yangba pluton in the Bikou Terrane of central China. Zircon LA-ICP-MS U–Pb dating yields ages of 208.7 ± 0.7 Ma and 209.3 ± 0.9 Ma for the host monzogranites, and 211.9 ± 0.8 Ma for the MMEs, indicating formation from coeval magmas. The field occurrence and textures including spheroidal shapes, transitional contacts, igneous mineral assemblages, acicular apatites, and oscillatory zoning with repeated resorption surfaces in plagioclase, indicate that the MMEs crystallized from mafic magma that was injected into and mingled with the host felsic magma. The host monzogranites are intermediate-felsic, metaluminous, and lack typical peraluminous minerals or alkaline mafic minerals, suggesting their I-type affinity. The monzogranites display depletion in high field strength elements, with Nb and Ta anomalies, and enrichment in large ion lithophile elements and light rare earth elements (LREE), with slightly negative Eu anomalies (Eu/Eu ∗ = 0.72–0.93). The MMEs from the Yangba pluton are intermediate, metaluminous, and have higher K 2 O, Al 2 O 3 , Fe 2 O 3 T , MgO, Ni, and Cr contents than the pluton. The MMEs also display much higher total rare earth element (REE) concentrations and REE patterns that are sub-parallel to those of the host rocks, enrichments in Rb, Th, U, K, and LREE, and depletions in Ba, Nb, Ta, and Ti. These features are similar to those of the host rocks, indicating crust–mantle interaction during their petrogenesis. Zircons from the MMEs have highly variable ε Hf ( t ) values (−5.5 to +8.7) with corresponding two-stage Hf model ages ( T DM2 ) of 1.14 to 1.42 Ga, indicating they were derived from depleted mantle with crustal contamination. In contrast, zircons from host monzogranite show ε Hf ( t ) values ranging from −1.7 to +2.7, with T DM2 of 1.13 to 1.21 Ga, corresponding to that of the basement rocks in the Bikou Terrane, which indicates that these granitic magmas were probably derived from the Neoproterozoic juvenile lower crust with minor contribution of Mesoproterozoic ancient lower crust. The integrated petrology and elemental and isotopic geochemistry suggest that the MMEs and host monzogranites were generated by the interaction of a granitic magma and a mafic magma in the lower crust. We envisage that Neoproterozoic subcontinental lithosphere mantle-derived mafic magma intruded the lower continental crust during Late Triassic, following the Late Permian to Early Triassic collision between the South China and North China Blocks. [ABSTRACT FROM AUTHOR]

Published

2015

34. The late-Variscan peraluminous Valdepeñas pluton (southern Central Iberian Zone)

Subjects

Central iberian zone, Peraluminous, Monzogranite, Metaigneous source, Valdepeñas

Published

2021

35. Mineral chemistry, magmatic series and geotectonic setting of Ghaidou monzogranite southeast of Khomein (Sanandaj-Sirjan zone).

Author

Tabatabaei manesh, Seyed Mohsen, Mirlohi, Akram Sadat, Kargaran, Gloria, and Sharifi, Mortaza

Subjects

*GRANITE, *METAMORPHIC rocks, *METAMORPHISM (Geology), *PEGMATITES, *DIKES (Geology), *SILLIMANITE, *CYANITE

Abstract

The Ghaidou monzogranite in the southeast of Khomein constitute a part of rock complex from the northern part of the Sanandaj-Sirjan zone. This body intruded into the Jurassic micaschists and created a metamorphic aureole. Also, aplitic veins, tourmaline bearing pegmatitic dikes, felsic microgranular enclaves and surmicaeous enclaves are observed in this area. The predominant minerals of these rocks are K-feldspar (orthoclase and microcline), Na-plagioclase (Albite-oligoclase in the monzogranite and oligoclase in the felsic microgranular enclaves), quartz and black mica (Annite) -as the main mineralswith minor amount of tourmaline (schorle), garnet, white mica (phengite), sillimanite, kyanite, zircon, apatite and ilmenite. On the basis of biotites mineral chemistry, these phases are enriched in FeO and Al2O3 and relatively low in TiO2. These minerals are magmatic and primary and thermometry results yielded 660-690 °C. According to the chemical composition of primary igneous biotites in the enclaves and monzogranites, these rocks have calc-alkaline, peraluminous and an orogenic continental collision affinity characteristics of S-type granites. Also, the biotite composition and the presence of ilmenite point to low oxygen fugacity and redox conditions during magma crystallization. Based on the available data, the generation of these rocks can be related to Arabian-Eurasia collision zone. [ABSTRACT FROM AUTHOR]

Published

2014

36. Geochronology of granitoids from Psunj and Papuk Mts., Croatia

Author

Domagoj Jamičić, György Buda, Christoph Hauzenberger, Eva Klötzli, Urs Klötzli, and Marija Horvat

Subjects

Geochronology, Earth and Planetary Sciences (miscellaneous), Geochemistry, Late Devonian extinction, zircon geochronology, monzogranite, Late Devonian, Psunj Mt, Papuk Mt, Croatia, 010503 geology, 010502 geochemistry & geophysics, 01 natural sciences, Geology, 0105 earth and related environmental sciences

Abstract

Detailed cathodoluminescence (CL) and back scattered electron (BSE) imaging of zircon crystals, coupled with in-situ U-Pb zircon dating by Laser Ablation Multi-Collector Inductively Coupled Plasma Mass Spectrometry (LA-MC-ICP-MS) were used to develop new insights into the evolution of a monzogranite from Omanovac Quarry (Psunj Mt.), and of monzogranites from Šandrovac Quarry and Kišeljevac Creek (Papuk Mt.), both located in the Slavonian Mountains (Croatia).U-Pb isotopic data yielded a concordia age of 380 ± 4 Ma for the monzogranite from Omanovac Quarry, and 382 ± 2 Ma and 383 ± 5 Ma for monzogranites from Šandrovac Quarry and Kišeljevac Creek. The results suggest Late Devonian magmatic activity.

Published

2018

37. Petrology of Exposed Basement Rocks around Shintaku of North Central Nigeria.

Author

Od, O.

Subjects

*PETROLOGY, *GRANITE, *QUARTZ, *METAMORPHIC rocks, *GEOLOGY

Abstract

The study area is part of the Basement Complex of North Central Nigeria. The study aims at identifying the rock types and interpretation of the structural elements. The major rock units in the area comprises of porphyritic granite, gneiss and schist. Structural evidence shows that the rocks are deformed and where intruded by the granite. Petrographic analysis reveals the existence of feldspar phenocrysts in a groundmass of quartz and biotite. The granite is composed of quartz (25-35%), plagioclase (15-20%), orthoclase (10-20%), microcline (5-25%), biotite (15-20%) and other accessory minerals. The granites displayed a porphyritic texture while the schist and gneisses exhibit planar and linear structures. Variation in structural trend and mineralogical composition is due to the series of deformational activities which has affected the rocks during geologic time. [ABSTRACT FROM AUTHOR]

Published

2013

38. Assessment of weathering processes effect on engineering properties of Alvand granitic rocks (west of Iran), based on weathering indices.

Author

Khanlari, G., Heidari, M., and Momeni, A.

Subjects

WEATHERING, GRANITE, PLUTONIUM, GRANODIORITE, ANALYTICAL chemistry

Abstract

The Alvand batholith is one of the largest plutonic bodies in the west of Iran. In this research, several physico-mechanical tests have been performed on granodiorite and porphiroid monzogranite consisting of five degrees of weathering in Hamedan area, west of Iran. Furthermore, weathering process of Alvand granitoid is studied by chemical analysis and petrographical studies. The results indicated that engineering properties of weathered granodiorite and monzogranite vary over the wide range depending on the degree of weathering. On the other hand, this research is focused on the assessment of relationship between weathering indices and uniaxial compressive strength. For this reason, some of the most important weathering indices are reviewed. It should be noted that, application of these chemical, engineering and petrographical indices are good quantitative indicators for describing the degree of weathering. Using these indices for the assessment of uniaxial compressive strength of granodiorite and monzogranite rocks, yields suitable and meaningful results. [ABSTRACT FROM AUTHOR]

Published

2012

39. Geochemical and Nd isotope constraints on petrogenesis of granitoids from NW part of the eastern Dharwar craton: Possible implications for late Archaean crustal accretion

Author

Dey, Sukanta, Pandey, U.K., Rai, A.K., and Chaki, Anjan

Subjects

*ANALYTICAL geochemistry, *NEODYMIUM, *ISOTOPES, *PETROGENESIS, *GRANITE, *CRATONS, *ARCHAEAN stratigraphic geology

Abstract

Abstract: Geochemical and Nd isotope data on granitoids of the NW part of the late Archaean eastern Dharwar craton are presented to elucidate their petrogenesis and role in crust formation. The granitoids are divided into three suites viz. trondhjemite–granodiorite gneisses, biotite monzogranites and porphyritic biotite granodiorites. The gneisses are pre- to syn-kinematic (with respect to deformation in the adjacent Hungund–Kushtagi schist belt), which show variable SiO2 and Al2O3, enriched LREE and depleted HREE with slightly negative to no Eu anomalies. They display unusual chemistry in having higher FeO(T), K2O, Ba, Cr and Ni compared to the typical Archaean tonalite–trondhjemite–granodiorite (TTG). The biotite monzogranites are mostly syn- to late-kinematic and exhibit evolved calc-alkaline compositions with high SiO2, K2O, LILE and LREE, depleted to undepleted HREE and strongly negative to no Eu anomalies. The porphyritic granodiorites show syn- to late-kinematic calc-alkaline, sanukitoid-like character with a wide range of SiO2, higher TiO2, P2O5, Sr, Ba, Cr and Ni, and lower Rb. They, however, uniquely display higher K2O, ΣREE and Th than typical sanukitoids. The trondhjemite–granodiorite gneisses are interpreted as product of melting of a subducted basaltic slab followed by slight contamination from the overlying metasomatized mantle wedge. Subsequent melting of the extremely metasomatized mantle wedge resulted in formation of the parental magma of the porphyritic granodiorites. Intrusion of the latter triggered melting of the TTG crust accreted earlier and generated the evolved monzogranites. The monzogranites occurring east of the Hungund–Kushtagi schist belt show higher εNd but lower T DM ages than those occurring to the west, indicating that terranes with different histories were juxtaposed by lateral accretion. [Copyright &y& Elsevier]

Published

2012

40. UNIDADES, PETROGRAFÍA Y COMPOSICIÓN QUÍMICA DEL COMPLEJO MIGMATÍTICO DE MITÚ EN LOS ALREDEDORES DE MITÚ.

Author

Rodríguez García, Gabriel, Sepúlveda Ospina, Janeth, Ramírez Cardona, Carolina, Ortiz Párraga, Francy Helena, Ramos Carvajal, Keepler, Bermúdez Cordero, José Gilberto, and Sierra Rojas, María Isabel

Subjects

MIGMATITE, BIOSTRATIGRAPHY, PETROLOGY, SCHLIEREN methods (Optics), BIOTITE

Abstract

Copyright of Boletin de Geologia is the property of Universidad Industrial de Santander and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

41. Petrographic, geochemical and isotopic constraints on magma dynamics and mixing in the Miocene Monte Capanne monzogranite (Elba Island, Italy)

Author

Gagnevin, D., Daly, J.S., and Poli, G.

Subjects

*PETROLOGY, *GEOCHEMICAL prospecting, *AGRICULTURAL chemicals

Abstract

The Monte Capanne pluton (Tuscan Magmatic Province, Elba Island, Italy) displays a great variety of magmatic products. Mafic microgranular enclaves (MME) are widespread and display variable size, texture and composition. Petrographic and mineralogical features highlight the importance of magma mixing in their genesis. In particular, patchy-zoned phenocrysts and corroded An-rich plagioclase are common in the MME, which, together with their abundance in the monzogranitic host, suggest that mixing between mantle and crustal-derived magmas occurred relatively early in the crystallisation history of the pluton. A gabbroic enclave is characterised by the abundance of An-rich plagioclase and amphibole, the latter possibly replacing former clinopyroxene. Differences in biotite composition between MME reflect the heterogeneous nature of the mafic magmas prior to the enclave formation. The importance of magma mixing is also evident in K-feldspar megacrysts, which commonly exhibit resorption surfaces followed rimward by a high-Ba zone. Hybrid Orano dykes, which are the latest magmas injected into the Monte Capanne pluton, display specific disequilibrium textures (i.e. sieve-textured plagioclase phenocrysts) and mineral content (i.e. abundance of amphibole) compared to the MME.The genesis of most MME, which display a wide spectrum of major and trace element compositions compared to the host monzogranite, involves a complex interplay between mixing and crystallisation following the input of mantle-derived magma into a silicic magma chamber. Possible loss of the liquid phase from the evolving basic magma may have produced MME distinctively depleted in LREE and enriched in MgO. Fingerprinting the chemical and isotopic signature of the basic magma involved in the genesis of the MME is further complicated by subsequent (but limited) exchange between MME and host. The basic magma is inferred to be similar to coeval high-K calc-alkaline volcanic rocks occurring on Capraia Island.Isotopically, the monzogranite and its MME display distinctive trends pointing towards a low-ɛNd end-member, represented by a garnet mica schist xenolith. We propose that these trends, together with the abundance of variably digested metasedimentary xenoliths dispersed throughout the pluton, reflect assimilation of metapelitic crust early in the evolution of the pluton during storage of the magma within the Tuscan basement, i.e. prior to the final emplacement of the pluton at upper crustal levels.The hybrid Orano dykes, which were injected at the end of the Monte Capanne crystallisation history, display distinctive trace element compositions, similar to REE-Sr-Ba-rich andesites on Capraia. The Orano dykes originated from a deeper level of magma storage and interacted with a crystal-rich enclave-bearing monzogranitic mixture.The proposed scenario involving periodic recharge by mantle-derived magmas and crustal assimilation is also in agreement with isotopic variations observed within a zoned K-feldspar megacryst, which exhibits a core with high 87Sr/86Sr and a rimward decrease of 87Sr/86Sr, arguing for a high 87Sr/86Sr silicic system replenished by lower 87Sr/86Sr mantle-derived magmas. [Copyright &y& Elsevier]

Published

2004

42. The Archean Chalice gold deposit: a record of complex, multistage, high-temperature hydrothermal activity and gold mineralisation associated with granitic rocks in the Yilgarn Craton, Western Australia

Author

Bucci, Louis A., Hagemann, Steffen G., Groves, David I., and Standing, Jonathan G.

Subjects

*GOLD, *SILICATES

Abstract

The Chalice gold deposit (∼20 t Au produced), in the southwestern portion of the Late-Archean Norseman–Wiluna greenstone belt of the Yilgarn Craton, Western Australia, is hosted both in a sequence of intercalated mafic and ultramafic amphibolites and a post-peak metamorphism monzogranite dike. The deposit is flanked on the western side by calc-alkaline plutonic rocks, and to the east by a predominantly monzogranitic pluton, with at least four generations of monzogranitic dikes that intrude the local mine stratigraphy. Locally, four deformation events (D1–D4) have affected this sequence of amphibolites, and two stages of gold mineralisation are recognised, controlled by the progressive D2 event.Main Stage gold mineralisation (95% of the resource), which is demonstrably later than all granitic bodies except second generation and subsequent monzogranite dikes, is controlled by localised D2 asymmetric folds developed in the mafic amphibolite. It is expressed as veins and wall-rock replacement, characterised by a prograde assemblage of quartz–diopside–plagioclase–K-feldspar–titanite–pyrrhotite–pyrite–magnetite±garnet, hornblende, scheelite and biotite. Second Stage gold mineralisation (5% of the resource) is associated with the intrusion of a monzogranite dike and is expressed as disseminated gold in the dike, as well as foliation-discordant veins of quartz–gold, quartz–diopside–gold, actinolite–gold and molybdenite–tellurobismuthite–gold.Detailed field mapping and petrography suggest that Main Stage gold mineralisation at Chalice is equivalent to hypozonal orogenic lode–gold mineralisation in other Archean greenstone belts of the Yilgarn Craton, whereas monzogranite-associated Second Stage gold mineralisation is atypical of such deposits. The Main Stage mineralisation cannot be correlated to any particular granitoid in the local environment, although temporally, it is bracketed by granitic magmatism. A deep magmatic or metamorphic source cannot be resolved from the field data. It is also uncertain as to whether Second Stage mineralisation represents a true magmatic-gold event, or is a product of the assimilation and remobilisation of Main Stage gold, during the intrusion of the monzogranite dike. However, its distinctive metal association of Au–Bi–Mo–Te–W suggests the former. Irrespective of this uncertainty, Chalice remains as a deposit which is more intimately related both spatially and temporally to granitic magmatism than other Yilgarn deposits. [Copyright &y& Elsevier]

Published

2002

43. An Account of Field and Petrographic Characteristics of Granitic Rocks of Cherlapally Area, Nalgonda District, Telangana

Author

N. Ningam and P. R. C. Phani

Subjects

monzogranite, Geology, FOS: Earth and related environmental sciences, granodiorite, syenogranite, migmatite

Abstract

Field geological and petrographic characteristics of granitic rocks of Cherlapally area, Nalgonda district, Telangana, within the eastern Dharwar craton are described in this paper. Field traverses revealed four types of granitic rocks in the study are viz., quartz diorite, granodiorite, monzogranite and syenogranite. The variations in the texture and mineralogical composition of these plutons are so distinct that the term 'migmatite' has to be applied, wherein mutual field relations always remain enigmatic. The complex nature of the batholiths is also evident from the structural fabrics observed in the present investigation. N. Ningam | P. R. C. Phani "An Account of Field and Petrographic Characteristics of Granitic Rocks of Cherlapally Area, Nalgonda District, Telangana" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd25202.pdf

Published

2019

44. Zircon as a Mineral Indicating the Stage of Granitoid Magmatism at Northern Chukotka, Russia

Author

V. I. Alekseev and Ivan V. Alekseev

Subjects

Recrystallization (geology), biotite granite, Geochemistry, monzogranite, zircon, engineering.material, 010502 geochemistry & geophysics, Zinnwaldite, 01 natural sciences, Russia, 010503 geology, Metasomatism, Quartz, 0105 earth and related environmental sciences, Petrogenesis, Mineral, lcsh:QE1-996.5, ongonite, lcsh:Geology, North Chukotka, zinnwaldite granite, engineering, General Earth and Planetary Sciences, Geology, Biotite, Zircon

Abstract

A comparative study of the zircon composition and texture in granites of a three-stage Late Cretaceous magmatism in the Chaun area, Chukotka, Russia, was conducted in biotite granites (BG), quartz monzonites-monzogranites (MG), and zinnwaldite granites (ZG). The significance of the study entails determining the mineralogical indicators of similar granitoids in areas of multi-stage petrogenesis. It is shown that in the rock series of Northern Chukotka, BG &rarr, MG &rarr, ZG, a morphological evolution of zircon takes place: a reduction in size, elongation, a growing complexity of the crystallography, and an individual texture. In later generations of zircon, as a result of the recrystallization and metasomatism, rare-metal overgrowths, defects in the crystal structure, pores and fissures, and mineral inclusions appear, whereas the crystal-face indices and patterns become more complicated. We can observe the geochemical evolution of zircon: a gradual change in the concentration of trace elements (Hf, U, Y, Th, Nb, and Ti), rare earth elements (Yb, Er, and Dy, as well as Ce and Nd), and uncommon elements (Ca and Al). Rare elements (REE, Y, Hf, Nb, U, and Th) at the post-magmatic stage of the regional history acquired economic abundances. Zircon is therefore indicative of productive ore-magmatic systems.

Published

2020

45. Investigation of the relations between geomechanical properties of some rocks of magmatic origins outcrop in Gümüşhane region

Author

Alkan, Fatih and Dağ, Serhat

Subjects

Monzogranit, Andezit, Geomechanical property, Statistical analysis, Jeomekanik özellik, Petrografik özellik, Monzogranite, Petrographical property, Andesite, İstatistiksel analiz

Abstract

Bu çalışmada, Gümüşhane il merkezinde yüzeylenen andezit ve monzogranit bileşimindeki magmatik kökenli kayaların jeomekanik özellikleri belirlenmiş ve aralarındaki görgül ilişkiler araştırılmıştır. Deneysel çalışmalar sonucunda, andezit ve monzogranitlerin özgül ağırlık, birim hacim ağırlık, ağırlıkça su emme, hacimce su emme ve gözeneklilik değerleri belirlenmiştir. Her iki kaya türü için kuru ve doygun koşullarda P ve S dalga hızı ölçümleri gerçekleştirilmiştir. Bu değerlere bağlı olarak dinamik elastik parametreler saptanmıştır. Mekanik özelliklerden tek eksenli basınç dayanımı, nokta yükü dayanım indeksi ve dolaylı çekilme dayanımı ile statik elastik parametrelerden elastisite modülü ve poisson oranı değerleri belirlenmiştir. Yapılan istatistiksel değerlendirmeler sonucunda, en yüksek korelasyon katsayısı andezitlerde r: 0,90 ve monzogranitlerde r: 0,94 değeri ile P ve S dalga hızı ölçümlerine ait verilerden elde edilmiştir. En düşük korelasyon katsayısı değeri ise monzogranitlerde Kuvars/Alkali Feldispat oranı ile gözeneklilik arasında tespit edilmiştir. Yapılan analizler neticesinde istatistiksel olarak anlamlı bulunan ve yüksek korelasyon katsayısına sahip ilişkilerin çalışma açısından önemli olduğu ve ilgili parametrelerin dolaylı tahminlerinde kullanılabilir nitelikte olduğu görülmüştür. In this study, the geomechanical properties of magmatic origin rocks of andesite and monzogranite composition in GümüĢhane province were determined and empirical relations between these properties were investigated. As a result of experimental studies, specific gravity, unit volume weight, water absorption by weight, water absorption by volume and porosity values of andesite and monzogranites were determined. For both rocks types, P and S wave velocity measurements were carried out under dry and saturated conditions. Depending on these values, dynamic elastic parameters were confirmed. Mechanical properties such as uniaxial compressive strength, point load index, indirect tensile strength and elastic parameters such as modulus of elasticity and Poisson’s ratio values were determined. As a result of the statistical assessments, the highest correlation coefficient values which are 0,90 in andesites and 0,94 in monzogranites were obtained from the data of the P and S wave velocity measurements. The lowest correlation coefficient values were determined between Quartz/Alkaline Feldspar ratio and porosity in monzogranites. It is seen that the relations which are statistically significant and have a high correlation coefficient are important for the study and that they can be used in the indirect estimation of the related parameters.

Published

2018

46. Investigation of the Relations Between Geomechanical Properties of Some Rocks of Magmatic Origins Outcrop in Gümü?hane Region

Author

Fatih Alkan, Serhat Dağ, and [Belirlenecek]

Subjects

jeomekanik özellik, andesite, lcsh:T, i̇statistiksel analiz, Mühendislik, monzogranite, geomechanical property, monzogranit, Andesite,Monzogranite,Geomechanical Property,Petrographical Property,Statistical Analysis, lcsh:Technology, petrografik özellik, Andezit,Monzogranit,Jeomekanik Özellik,Petrografik Özellik,İstatistiksel Analiz, Engineering, statistical analysis, lcsh:TA1-2040, petrographical property, andezit, lcsh:Engineering (General). Civil engineering (General), Biyoloji

Abstract

Bu çalışmada, Gümüşhane il merkezinde yüzeylenen andezit ve monzogranitbileşimindeki magmatik kökenli kayaların jeomekanik özellikleri belirlenmiş vearalarındaki görgül ilişkiler araştırılmıştır. Deneysel çalışmalar sonucunda,andezit ve monzogranitlerin özgül ağırlık, birim hacim ağırlık, ağırlıkça suemme, hacimce su emme ve gözeneklilik değerleri belirlenmiştir. Her iki kayatürü için kuru ve doygun koşullarda P ve S dalga hızı ölçümlerigerçekleştirilmiştir. Bu değerlere bağlı olarak dinamik elastik parametrelersaptanmıştır. Mekanik özelliklerden tek eksenli basınç dayanımı, nokta yüküdayanım indeksi ve dolaylı çekilme dayanımı ile statik elastik parametrelerdenelastisite modülü ve poisson oranı değerleri belirlenmiştir. Yapılanistatistiksel değerlendirmeler sonucunda, en yüksek korelasyon katsayısıandezitlerde r: 0.90 ve monzogranitlerde r: 0.94 değeri ile P ve S dalga hızıölçümlerine ait verilerden elde edilmiştir. En düşük korelasyon katsayısıdeğeri ise monzogranitlerde Kuvars/Alkali Feldispat oranı ile gözeneklilikarasında tespit edilmiştir. Yapılan analizler neticesinde istatistiksel olarakanlamlı bulunan ve yüksek korelasyon katsayısına sahip ilişkilerin çalışmaaçısından önemli olduğu ve ilgili parametrelerin dolaylı tahminlerindekullanılabilir nitelikte olduğu öngörülmüştür., In this study, thegeomechanical properties of magmatic origin rocks of andesite and monzogranitecomposition in Gümüşhane province were determined and empirical relationsbetween these properties were investigated. As a result of experimentalstudies, specific gravity, unit volumeweight, water absorption by weight, water absorption by volume and porosityvalues of andesite and monzogranites were determined. For both rocks types, Pand S wave velocity measurements were carried out under dry and saturatedconditions. Depending on these values, dynamic elastic parameters wereconfirmed. Mechanical properties such as uniaxial compressive strength, pointload index, indirect tensile strength and elastic parameters such as modulus ofelasticity and Poisson’s ratio values were determined. As a result of thestatistical assessments, the highest correlation coefficient values which are0.90 in andesites and 0.94 in monzogranites were obtained from the data of theP and S wave velocity measurements. The lowest correlation coefficient valueswere determined between Quartz/Alkaline Feldspar ratio and porosity inmonzogranites. It is predicted that the relations which are statisticallysignificant and have a high correlation coefficient are important for the studyand that they can be used in the indirect estimation of the related parameters.

Published

2018

47. Zircon as a Mineral Indicating the Stage of Granitoid Magmatism at Northern Chukotka, Russia.

Author

Alekseev, Viktor I. and Alekseev, Ivan V.

Subjects

RARE earth metals, ZIRCON, MINERALS, MAGMATISM, CRYSTAL defects, CRYSTAL structure

Abstract

A comparative study of the zircon composition and texture in granites of a three-stage Late Cretaceous magmatism in the Chaun area, Chukotka, Russia, was conducted in biotite granites (BG), quartz monzonites-monzogranites (MG), and zinnwaldite granites (ZG). The significance of the study entails determining the mineralogical indicators of similar granitoids in areas of multi-stage petrogenesis. It is shown that in the rock series of Northern Chukotka, BG → MG → ZG, a morphological evolution of zircon takes place: a reduction in size, elongation, a growing complexity of the crystallography, and an individual texture. In later generations of zircon, as a result of the recrystallization and metasomatism, rare-metal overgrowths, defects in the crystal structure, pores and fissures, and mineral inclusions appear, whereas the crystal-face indices and patterns become more complicated. We can observe the geochemical evolution of zircon: a gradual change in the concentration of trace elements (Hf, U, Y, Th, Nb, and Ti), rare earth elements (Yb, Er, and Dy, as well as Ce and Nd), and uncommon elements (Ca and Al). Rare elements (REE, Y, Hf, Nb, U, and Th) at the post-magmatic stage of the regional history acquired economic abundances. Zircon is therefore indicative of productive ore-magmatic systems. [ABSTRACT FROM AUTHOR]

Published

2020

48. Conservazione dell’architettura funeraria etrusca. Il caso dell’ipogeo di marciana scavato nel granito

Author

Centauro, Giuseppe, Garzonio, Carlo, and Zecchini, Michelangelo

Subjects

toponymy, Etruscan funerary architecture, monzogranite, lcsh:Archaeology, lcsh:Architecture, lcsh:CC1-960, Cruciform plan hypogeum, lcsh:NA1-9428

Abstract

The problematic nature of Etruscan funerary architecture conservation due to the peculiar environmental conditions consisting of underground positions with flows of visitors represents a typical aim of the archaeological restoration The study case should be considered as emblematic for the iconographic relevance of the gentilitial etruscan tomb, of late orientalizing or archaic age, and for the particular physical nature of the hypogeum which is entirely excavated in a granodiorite rockmass in the center of Marciana village (Isola d 'Elba). The documental uniqueness of the hypogeum, currently under final determination, and the exceptional nature of the environment of the ancient site as well as the necessary radical measures to safeguard and specific intervention of consolidation and restoration are described from multiple viewpoints. In addition to the aspects relating to the conservation problems, the cruciform plan chronology of this extraordinary hypogeum was taken in account., Restauro Archeologico, Vol. 23 No. 2 (2015)

Published

2016

49. Geology and Radioactivity of the Basement Rocks of Wadi El-Sahu Area, Southwestern Sinai, Egypt

Author

El Mezayen, AM, Abu, Bakr MA, Sherif, HMY, El Nahas, HA, and Ali, HH

Subjects

Basement rock, Uranium potential, Sedimentary rock, Monzogranite, Syenogranite

Abstract

The study area is covered by basement and sedimentary rocks. The basement rocks are represented by paragneiss, orthogneiss and younger granites, while the sedimentary succession is represented by clastic Paleozoic rocks. The younger granites are microscopically distinguished into monzogranite and syenogranite. Geochemically, the studied younger granites are peraluminous with alkaline affinity (moderately alkaline) originated in extensional regime. Monzogranite belongs to I-type granite formed in volcanic arc tectonic setting, while the syenogranite belongs to A-type formed in within-plate tectonic setting. The studied gneisses are nearly non-radioactive, whereas the studied younger granites are moderately radioactive where monzogranite is relatively higher than the syenogranite. The radio elements of these younger granites are incorporated in their accessory minerals such as zircon, xenotime and allanite. An anomalous quartz vein containing deep violet fluorite and kasolite is recorded cross-cutting the younger granites.

Published

2016

50. Nuevas aportaciones a la datación cronológica de los granitos de Cabeza de Araya, (Cáceres)

Author

Rubio-Ordóñez, A., García Moreno, Olga, Montero, P., Bea, F., Ministerio de Ciencia e Innovación (España), and European Commission

Subjects

Monzogranite, Cabeza de Araya, SIMS, SHRIMP

Abstract

Trabajo presentado al IX Congreso Geológico de España, celebrado en Huelva del 12 al 14 de septoiembre de 2016., [ES]: El Plutón de Cabeza de Araya es el principal exponente del batolito de Extremadura Central. Las edades obtenidas para este batilito daban una edad de cristalización entre 302-303 Ma. Un muestreo de las facies principales del batolito de Cabeza Araya ha permitido obtener una secuencia de emplazamiento con edades obtenidas mediante SHRIMP desde los 308±1.5 Ma a los 305±2 Ma para las tres facies principales. La facies E, denominada como ortogneis de Garrovillas arroja una edad de 296 ± 3 Ma. Esta diferencia de edad entre el cuerpo principal y esta unidad se propone que puede deberse a dos hipótesis diferentes: A) se trata de un pulso magmático diferente, siendo su edad similar a otros intrusivos del área de Extremadura central o B) Se trata del reflejo de un evento tectonotérmico que ha superado la temperatura de cierre del circón y estaría relacionado con la deformación que parecen mostrar las rocas de esta facies., [EN]: Cabeza de Araya pluton is the main exponent of Central Extremadura batholith. Previous crystallization ages for this batholith gave an age between 302-303 Ma. A sampling of the main facies of the Cabeza de Araya pluton has led to a sequential agesof emplacement, obtained by SHRIMP, from 308 ± 1.5 Ma to 305 ± 2 Ma for the three main facies. Facies E, known as orthogneiss of Garrovillas has an age of 296 ± 3 Ma This difference between the main body and this unit is proposed that can be caused by two different hypotheses. A) it is a different magmatic pulse, being its age similar to other intrusive on the region (e.g. La Alberca, Mérida) or B) This age is the reflection of a tectonothermal event that has passed the closure temperature of zircon system and would be related to the deformation that seem to show the rocks of this facies., Este trabajo ha sido financiado por el subproyecto: CGL2012-38396-C03-03 del proyecto coordinado: TORANDES, del Plan de I+D+i español y fondos FEDER de la UE.

Published

2016