Paleomagnetism as a geochronological gauge for deformational events: Insights from the Najd-related Nugrus Shear Zone, Northern Nubian Shield
Journal of Asian Earth Sciences • 2021
Publication Information
Authors
R Mostafa; W Hagag; Z Hamimi; A Fowler; I El-Hemaly
Keywords
Najd Shear Zones; Paleomagnitic Measurements; AMS-Technique; Nugrus-Hafafit Area; Geochronology
Journal
Journal of Asian Earth Sciences
Publisher
Elsevier
Volume
223
Issue
--
Pages
1-12
publication.type
International
Paper Link
Open Link
Supplementary Materials
Wael Dardir Ahmed Mohamed Hagag_page 1.jpg
Abstract
The Nugrus Shear Zone (NSZ) of southern central Egypt is a major ductile shear structure with controversial
origins. It lies east of the Hafafit Gneissic Complex (HGC) and separates the Central and South Eastern Desert
terranes of Egypt. The NSZ has been correlated with the Najd Fault system in Saudi Arabia, and shares orientation
and kinematic characteristics with the Najd fault. Previous microstructural studies of the NSZ and HGC
have concluded a polydeformation history for the Nugrus area, involving early NW-ward thrusting, followed by
NW-SE transcurrent shearing. This contribution reports a combined rock magnetic and palaeomagnetic study of
the shear zone and wallrocks that gives a conclusive evidence for the previously mentioned tectonic scenario.
Furthermore, the palaeopoles obtained correlate well with the available geochronologically dated poles from
Northern Africa, leading to inferred ages for the deformation and thermal events of the area. These ages confirm
the previous proposed tectonic models. Three components of Natural Remanant Magnetization (NRM) direction
(CA, CB and CD) are identified. Component CA represents the Characteristic Remanent Magnetization (ChRM).
Components CB and CD are considered to be secondary magnetization. CA is consistent with arc-related
deformation and magmatism at ~ 700–680 Ma. CB and CD represent the protracted Najd-related shear deformation
and transpression at ~ 650–550 Ma.
origins. It lies east of the Hafafit Gneissic Complex (HGC) and separates the Central and South Eastern Desert
terranes of Egypt. The NSZ has been correlated with the Najd Fault system in Saudi Arabia, and shares orientation
and kinematic characteristics with the Najd fault. Previous microstructural studies of the NSZ and HGC
have concluded a polydeformation history for the Nugrus area, involving early NW-ward thrusting, followed by
NW-SE transcurrent shearing. This contribution reports a combined rock magnetic and palaeomagnetic study of
the shear zone and wallrocks that gives a conclusive evidence for the previously mentioned tectonic scenario.
Furthermore, the palaeopoles obtained correlate well with the available geochronologically dated poles from
Northern Africa, leading to inferred ages for the deformation and thermal events of the area. These ages confirm
the previous proposed tectonic models. Three components of Natural Remanant Magnetization (NRM) direction
(CA, CB and CD) are identified. Component CA represents the Characteristic Remanent Magnetization (ChRM).
Components CB and CD are considered to be secondary magnetization. CA is consistent with arc-related
deformation and magmatism at ~ 700–680 Ma. CB and CD represent the protracted Najd-related shear deformation
and transpression at ~ 650–550 Ma.
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