Zircon trace element geochemistry and Ti‐in‐zircon thermometry of the Linté <scp>Pan‐African</scp> granitoids, Central Cameroon: Constraints on the genesis of host magma and tectonic implications

Kenné, Patrick Ayonta; Njiosseu, Evine Laure Tanko; Ganno, Sylvestre; Ngnotue, Timoléon; Fossi, Donald Hermann; Ngoniri, Alexis Hamdja; Essomba, Philomène Nga; Nzenti, Jean Paul

doi:10.1002/gj.4208

Cited by 8 publications

(3 citation statements)

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“…Cathodoluminescence images (CL; Figure 5) were utilized for point selection for the trace element studies (SDT II) to assess the internal structure and outer appearance (morphology) of the specimens. Generally, zircon grains from studied gabbro and diorite samples are brassy yellow to light yellow and mostly anhedral to subhedral crystals that were fractured amidst the ascending of metamorphism or magma and alteration activity, which causes the zircon breakdown (Ayonta Kenne et al, 2021). CL reveals zircon crystals with sizes ranging from large (>210 μm) to short (<60 μm), displaying prismatic and pyramid shapes.…”

Section: Zircon U-pb Geochronologymentioning

confidence: 97%

“…In sample SD-6 (Diorite), the presence of fluid or mineral inclusions, alteration, and metamorphism suggested a lack of clear zoning in studied zircon crystals. (Ayonta Kenne et al, 2021). The crystal structures of zircons vary from euhedral to subhedral, ranging in size between 90 to 190 μm, and axial ratios of 1:1 and 2:2 (Figure 5c).…”

Section: Zircon U-pb Geochronologymentioning

confidence: 99%

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Characteristics of Cu-Au-Bearing Quartz Veins at Danyore Valley Area, Kohistan Terrane, Northern Pakistan: Evidence from Geological, Geochemical, and Geochronological Studies

Hussain,

Li,

Faisal

et al. 2024

Preprint

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Danyore Valley area is a new prospect of copper-gold mineralization in the Gilgit-Baltistan province, Kohistan terrane, northern Pakistan. The mineralization is Cu-Au vein-type, localized within quartz veins and controlled by a fracture system mainly trending NW and NE. The host units belong to the Ladakh-Kohistan arc terrane, which covers northern Pakistan and north-western India and mainly comprises Precambrian basement units, Paleozoic to Cenozoic magmatic rocks, and sedimentary strata. The mineralized wall rocks consist of Mesozoic gabbro and diorite, which have undergone an intensive hydrothermal alteration. The study area, Danyore Valley, has yet to be explored. The geological background and mineralization type in literature are scarce. Moreover, the tectonic setting, petrogenesis, age, and magmatic evolution of the gabbro-diorite hosting unit still need to be better understood. Furthermore, the sources of metals and mineralized fluids and the types of mineralization and alteration are also unexplored. This research's contribution presents the field investigation, microscopic observations, whole rock geochemistry (major, trace, and REE), mineral analysis (EPMA), in situ LA–ICP–MS zircon U–Pb age dating, and zircon trace elements data for Danyore Valley Cu-Au prospect of Kohistan Batholith. The current research work's objectives are to (a) constrain the emplacement ages of the Danyore Valley host rocks, (b) determine the petrogenesis and tectonic environment of the gabbro-diorite wall rocks, and (c) identify the mineralization style and alteration patterns of Cu-Au occurrences. The U-Pb isotopic data of studied zircons from Danyore Valley diorite specimens yielded concordia ages from 111.60 ± 0.90 Ma to 112.18 ± 0.74 Ma. Correspondingly, the gabbro rock sample displayed a concordia age of 110.21 ± 0.99 Ma, indicating the crystallization time of the host bodies is mainly the early cretaceous period (&sim;110 Ma). The findings of this study reveal that the calc-alkaline affinity and arc-like geochemical characteristics of the gabbro and diorite rocks have been characterized by a significant enrichment in large-ion lithophile elements and an apparent depletion in high-field strength elements. The parent magma probably originated from a partial melting process of mantle depletion, and geochemical traits are characteristic of magmas associated with subduction zones. The Danyore Valley area of Kohistan terrane is defined by the existence of several mineralized quartz veins, which are mainly sulfide assemblages. The sulfide ore is mainly comprised of chalcopyrite, pyrite, and bornite, with a smaller amount of covellite and sphalerite and significant traces of gold, which are distributed mainly in sulfides. Copper and gold mineralization of Danyore Valley is associated with phyllic, propylitic, and carbonatization alteration assemblages. Metal-rich quartz veins exhibit a spatial correlation with diorite and gabbro rocks. The discovery of several surface Cu-Au vein-type mineralized areas accompanying outcrops of copper supergene enrichment at the Danyore Valley prospect is significant evidence (predictor patterns) of porphyry-style deposits in the Gilgit district, Kohistan terrane, northern Pakistan. This work also advocates the importance of the Danyore Valley prospect and Kohistan Batholith region for further detailed geological studies.

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Section: Zircon U-pb Geochronologymentioning

confidence: 97%

Section: Zircon U-pb Geochronologymentioning

confidence: 99%

Characteristics of Cu-Au-Bearing Quartz Veins at Danyore Valley Area, Kohistan Terrane, Northern Pakistan: Evidence from Geological, Geochemical, and Geochronological Studies

Hussain,

Li,

Faisal

et al. 2024

Preprint

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“…Depending on the age, the granitoids are syntectonic (630 -620 Ma), late tectonic (600 -580 Ma) and posttectonic (550 Ma) [31] [43]. The plutonic rocks of Linté batholith mainly consist of syenite and monzonite and were emplaced between 590 and 599 Ma, suggesting their classification as syn-to post-collisional granitoids related to the Pan-African Orogeny [44]. Most granitoids are syntectonic belonging to the potassic shoshonitic calc-alkaline series [2]; they are metallic to slightly peraluminous [38] [45] [46] and orthogneissified with a calc-alkaline tendency, high potassic to aluminous [32] [36] [38] [40].…”

Section: Geographic and Geological Contextmentioning

confidence: 99%

Mineralogy, Petrography and Geochemistry of the Ina Syenite (Linté, Central Cameroon) as a Source of Industrial Feldspars

Mouliom¹,

Njoya²,

Fouateu³

et al. 2022

JMMCE

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The syenite from Ina (Central region of Cameroon) constitutes a 1000 km² syntectonic batholith intruded in the Paleoproterozoic granitic basement. The aim of this work is to assess the potential of the Ina batholith syenite as a feldspar minerals resource for industrial use through petrographic and geochemical characterization. Most of the rocks are grey coloured and consist of shimmering feldspar phenocrysts in a fine-grained ferromagnesian matrix. Petrography reveals the presence of two major syenite facies: a widely distributed porphyritic syenite and a less-abundant massive syenite. These facies are dominated by phenocrysts of sub-automorphic perthitic orthoclase. Its malgachite face is due to the presence of numerous inclusions of opaque minerals observed by scanning electron microscopy (ESEM-EDX). Plagioclase phenocrysts have a zonal texture characterised microscopically by an oscillatory compositional zonation. Biotite, hornblende and augite, identified by X-ray powder diffraction, are finely disseminated in the feldspar matrix. Quartz appears as small automorphic crystals with maximum abundance of about 4 wt%. The XRF chemical composition reveals, alongside silica (59.29 wt% to 63.27 wt%), significant proportion of alumina (15.82 wt% to 19.80 wt%), potassium and sodium oxides considered as fluxing elements (K 2 O + Na 2 O ≥ 10 wt%). The K 2 O/Na 2 O ratio varies between 1.65 and 5.51 (average 2.58). Iron and titanium oxides (1 ≥ wt% Fe 2 O 3 + TiO 2 ≥ 5), harmful in ceramic industry, are high as in most other feldspathic sources. The characteristics of the Ina syenite are close to most of the syenite ores used worldwide for How to cite this paper:

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Geochemistry and U–Pb zircon age of the Paleoproterozoic metasedimentary rocks from the Bidou I, Nyong Series, Cameroon: Implications for provenance and tectonic setting

et al. 2022

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Zircon trace element geochemistry and Ti‐in‐zircon thermometry of the Linté Pan‐African granitoids, Central Cameroon: Constraints on the genesis of host magma and tectonic implications

Cited by 8 publications

References 78 publications

Characteristics of Cu-Au-Bearing Quartz Veins at Danyore Valley Area, Kohistan Terrane, Northern Pakistan: Evidence from Geological, Geochemical, and Geochronological Studies

Characteristics of Cu-Au-Bearing Quartz Veins at Danyore Valley Area, Kohistan Terrane, Northern Pakistan: Evidence from Geological, Geochemical, and Geochronological Studies

Mineralogy, Petrography and Geochemistry of the Ina Syenite (Linté, Central Cameroon) as a Source of Industrial Feldspars

Geochemistry and U–Pb zircon age of the Paleoproterozoic metasedimentary rocks from the Bidou I, Nyong Series, Cameroon: Implications for provenance and tectonic setting

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Zircon trace element geochemistry and Ti‐in‐zircon thermometry of the Linté Pan‐African granitoids, Central Cameroon: Constraints on the genesis of host magma and tectonic implications

Cited by 8 publications

References 78 publications

Characteristics of Cu-Au-Bearing Quartz Veins at Danyore Valley Area, Kohistan Terrane, Northern Pakistan: Evidence from Geological, Geochemical, and Geochronological Studies

Characteristics of Cu-Au-Bearing Quartz Veins at Danyore Valley Area, Kohistan Terrane, Northern Pakistan: Evidence from Geological, Geochemical, and Geochronological Studies

Mineralogy, Petrography and Geochemistry of the Ina Syenite (Lint&#233;, Central Cameroon) as a Source of Industrial Feldspars

Geochemistry and U–Pb zircon age of the Paleoproterozoic metasedimentary rocks from the Bidou I, Nyong Series, Cameroon: Implications for provenance and tectonic setting

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Mineralogy, Petrography and Geochemistry of the Ina Syenite (Linté, Central Cameroon) as a Source of Industrial Feldspars