Lu–Hf and O isotopic compositions on single zircons from the North Eastern Desert of Egypt, Arabian–Nubian Shield: Implications for crustal evolution

Ali, Kamal A.; Zoheir, Basem; Stern, Robert J.; Andresen, Arild; Whitehouse, Martin J.; Bishara, Wagih W.

doi:10.1016/j.gr.2015.02.008

Cited by 59 publications

(21 citation statements)

References 133 publications

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“…Lack of pre-Tonian inherited zircons in the sample and A-type geochemical features of the studied granitic pebble also support the idea that it might be derived from mantle or mafic lower-crustal sources, as in the equivalent intrusions in the KP (Katzir et al 2007;Moreno et al 2012) and the North Eastern Desert (Moussa et al 2008). The newly published Hf/Lu isotopic study (Ali et al 2016) of the alkali granitic rocks in the North Eastern Desert (Abu Harba, Gattar, and A. Missikat) support that A-type granites were generated from juvenile Neoproterozoic mantle source and then were assimilated with just Neoproterozoic materials, as in sample DPK72. The penetrative deformation and metamorphism in the Sinai Peninsula had mainly ceased between 625 and 635 Ma (Be'eri-Shlevin et al 2009), but important mega-shear zones, such as the Nugrus/Najd shear zones in the Nubian part of the ANS and the Qazaz-Ajjaj shear zone in the Arabian part of the ANS, were documented for the southern part of the ANS during the time span 630-570 Ma (e.g., Johnson et al 2011;Meyer et al 2014;Hassan et al 2016).…”

Section: Discussion and Commentssupporting

confidence: 69%

“…The crystallization ages of the alkaline/peralkaline granitic intrusions in the Katerina Pluton (KP) within the Katerina Ring Complex in central Sinai Peninsula, the North Eastern Desert (Gattar, Abu Harba, Missikat), and the Jabal Sayad Complex (Hijaz) were determined to be 596 5 6.0 Ma (KP), 593 5 2 Ma (KP), 605 5 3.0 Ma (Gattar), 595 5 3.0 Ma (Abu Harba), 597 5 7.0 Ma (Missikat), and 593 5 16 Ma (Katzir et al 2007;Moussa et al 2008;Moreno et al 2012;Moghazi et al 2015;Ali et al 2016). The geochemical patterns of DPK72 have greater similarities with the alkaline granites formed in the Katerina Ring Complex (Katzir et al 2007;Moreno et al 2014) and the North Eastern Desert (Moussa et al 2008;Ali et al 2016) than they do with those formed in the Jabal Sayad Complex in Hijaz (Moghazi et al 2015). Lack of pre-Tonian inherited zircons in the sample and A-type geochemical features of the studied granitic pebble also support the idea that it might be derived from mantle or mafic lower-crustal sources, as in the equivalent intrusions in the KP (Katzir et al 2007;Moreno et al 2012) and the North Eastern Desert (Moussa et al 2008).…”

Section: Discussion and Commentsmentioning

confidence: 99%

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Laser Ablation Inductively Coupled Plasma Mass Spectrometry U-Pb Dating of Detrital and Magmatic Zircons of Glacial Diamictites and Pebbles in Late Ordovician Sediments of the Taurides and Southeast Anatolian Autochthon Belt, Turkey: Indications for Their Arabian-Nubian Provenance

Gürsu

Möller

Usta³

et al. 2017

The Journal of Geology

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Section: Discussion and Commentssupporting

confidence: 69%

Section: Discussion and Commentsmentioning

confidence: 99%

Laser Ablation Inductively Coupled Plasma Mass Spectrometry U-Pb Dating of Detrital and Magmatic Zircons of Glacial Diamictites and Pebbles in Late Ordovician Sediments of the Taurides and Southeast Anatolian Autochthon Belt, Turkey: Indications for Their Arabian-Nubian Provenance

Gürsu

Möller

Usta³

et al. 2017

The Journal of Geology

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“…The Aswan Tonalite and the monumental granite intruded at 606 Ma, respectively [38]; younger granites covers a time span between 600 and 550 Ma, [6]; A-type granites dated ca. $600 Ma [81]; 590 AE 3.…”

Section: Discussionmentioning

confidence: 99%

“…Some alkaline A-type granites in the NED of Egypt (Al-Missikat, Abu Harba, and Gattar) dated ca. $600 Ma [81]. Available isochron Rb▬Sr ages of alkaline granites are from Sinai fall in the range 550-600 Ma [82].…”

Section: Age Dating and Crustal Evolutionmentioning

confidence: 99%

Geochemistry and Tectonic Setting of Neoproterozoic Rocks from the Arabian-Nubian Shield: Emphasis on the Eastern Desert of Egypt

Bahariya¹

2020

Applied Geochemistry With Case Studies on Geological Formations, Exploration Techniques and Environmental Issues

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The Neoproterozoic rocks of the Eastern Desert (ED) of Egypt represent the northwestern part of the Arabian-Nubian Shield (ANS), which was formed during the Pan-African orogenic cycle (950-450). Geochemistry of the different rock units has clarified their compositional variations, tectonic settings, and origins. The ages of these rock units were reported to predict the crustal evolution of the ANS. Island arc volcanic rocks and ophiolitic sequences formed between 700 and 800 Ma, and then, they were obducted in the earlier stage of the Pan-African orogeny. The post-collision stage was characterized by the emplacement of large masses of Dokhan volcanics (610-560 Ma) and shallow level A-type granites (610-550 Ma). Neoproterozoic ophiolites fall geochemically and tectonically into two separate groups: MORB-like ophiolites and SSZ ophiolites of fore-arc tectonic setting. Intra-oceanic island arcs and related inter-arc volcaniclastic sediments are followed by the incorporations of ophiolite fragments into the volcaniclastic matrix to form "ophiolitic mélange" through tectonic and/or concurrent sedimentary and tectonic processes. The "gneissic domes" that are metamorphic core complexes were previously interpreted to represent a pre-Neoproterozoic. However, recent age data argued that the ED gneissic rocks are juvenile in origin and Neoproterozoic. Granitoid rocks in the ED include older and younger types. Most of the older granitoids are of I-type character, displaying metaluminous, calcalkaline geochemical characteristics plot in the area of volcanic arc granites (VAG), whereas most of the younger granitoids are mainly alkaline of A-type granites and of within-plate tectonic setting (WPG). Nonmetamorphosed Dokhan volcanics and Hammamat molasse sediments formed during the final post-collisional phases.

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“…El-Qattar is composed mainly of younger granite, metavolcanics, Hammamat sediments, and grey granites. The geology of the area was described in previous investigations [16][17][18][19][20]. The youngest granite cuts all the older cited units.…”

Section: Geological Setting Of the Northern Part Of The Study Area (Nmentioning

confidence: 99%

Spatial Distributions and Risk Assessment of the Natural Radionuclides in the Granitic Rocks from the Eastern Desert, Egypt

2019

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This paper investigates the distribution of four natural radioisotopes 238U, 226Ra, 232Th and 40K in one hundred twenty-five granitic samples covering sixteen mountainous areas situated at the northern, central and southern parts of the Eastern Desert of Egypt (EDE). The concentrations of the examined radioisotopes in the collected samples were recognized utilizing a HPGe detector based gamma spectrometry. The average concentrations of these radioisotopes were higher when compared with the worldwide reference values. The radiation risk indicators including the radium equivalent activity index (Raeq), external and internal hazard indicators (Hex and Hin), external and internal level indicators (Iα and Iγ), absorbed dose rate (ADR), annual effective dose rate (AEDR), annual gonadal dosage equivalent (AGDE), and excess lifetime cancer risk (ELCR), associated with these radioisotopes have been calculated and compared with their recommended global values and safety limits. These indicators showed that the granites from most studied areas exceeded the universal standards pointing to the difficulty of using them as building materials. This study together with future investigations will serve to develop an essential database for future environmental monitoring surveys.

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Lu–Hf and O isotopic compositions on single zircons from the North Eastern Desert of Egypt, Arabian–Nubian Shield: Implications for crustal evolution

Cited by 59 publications

References 133 publications

Laser Ablation Inductively Coupled Plasma Mass Spectrometry U-Pb Dating of Detrital and Magmatic Zircons of Glacial Diamictites and Pebbles in Late Ordovician Sediments of the Taurides and Southeast Anatolian Autochthon Belt, Turkey: Indications for Their Arabian-Nubian Provenance

Laser Ablation Inductively Coupled Plasma Mass Spectrometry U-Pb Dating of Detrital and Magmatic Zircons of Glacial Diamictites and Pebbles in Late Ordovician Sediments of the Taurides and Southeast Anatolian Autochthon Belt, Turkey: Indications for Their Arabian-Nubian Provenance

Geochemistry and Tectonic Setting of Neoproterozoic Rocks from the Arabian-Nubian Shield: Emphasis on the Eastern Desert of Egypt

Spatial Distributions and Risk Assessment of the Natural Radionuclides in the Granitic Rocks from the Eastern Desert, Egypt

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