American Geophysical Union Become an AGU Member
Subscribe to AGU Journals		 AGU Home AGU Publications

Read Full Article    Cited by

TECTONICS, VOL. 7, NO. 6, PAGES 1291–1306, 1988

EXTENSION OF THE NAJD SHEAR SYSTEM FROM SAUDI ARABIA TO THE CENTRAL EASTERN DESERT OF EGYPT BASED ON INTEGRATED FIELD AND LANDSAT OBSERVATIONS

Mohamed Sultan

Department of Earth and Planetary Sciences, McDonnell Center for the Space Sciences, Washington University, St. Louis, Missouri


Raymond E. Arvidson

Department of Earth and Planetary Sciences, McDonnell Center for the Space Sciences, Washington University, St. Louis, Missouri


Ian J. Duncan

Department of Earth and Planetary Sciences, McDonnell Center for the Space Sciences, Washington University, St. Louis, Missouri


Robert J. Stern

Programs in Geosciences, University of Texas at Dallas, Richardson, Texas


Baher El Kaliouby

Department of Geology, Faculty of Science, Ain Shams University, Abbassia, Cairo, Egypt


Abstract

The Najd Shear System in Saudi Arabia extends over 1200 km in a NW-SE direction and has a width of approximately 300 km. A digital color mosaic, compiled from seven Landsat thematic mapper scenes, was used to delineate characteristic structural features of the Najd System in the Midyan region of Saudi Arabia and to search for similar features in the Egyptian Eastern Desert. The digital mosaic was generated using ratios of Landsat thematic mapper bands (bands 5/4 × 3/4, 5/1, 5/7) that are sensitive to the rock content of Fe-bearing aluminosilicates, spectrally opaque phases, and hydroxyl-bearing or carbonate minerals, respectively. The mosaic covers approximately 130,000 km2 of late Proterozoic exposures of the Arabian-Nubian Shield and has the Eastern Desert and the Midyan region placed in their approximate pre-Red Sea locations. The Ajjaj Shear Zone (AJZ) marks the termination of the Najd System against the eastern margin of the Red Sea in the Midyan region. The AJZ aligns with the central Eastern Desert, based on analysis of pre-Red Sea locations. Analyses of Landsat data and field observations show that the Ajjaj Shear Zone and the central Eastern Desert exhibit the following features in common: (1) outcrops that are generally elongate in a NW-SE direction as a result of folding, with fine-scale lithologic heterogeneity at the outcrop scale related to deformation associated with faulting; (2) NW trending left-lateral faults and ductile shear zones; (3) subhorizontal, NW trending mineral lineations, and variably dipping NW trending foliations, with local changes in attitude around large competent (e.g., granitic) bodies; and (4) lithologic contacts that are generally tectonic in nature and related to faulting. These features are less common to the north and south of both the Ajjaj Shear Zone and the central Eastern Desert. Results are consistent with the Najd Shear System extending into the Eastern Desert and dominating the structural patterns within the central part of the Eastern Desert.

Received 22 February 1988; accepted 8 July 1988.

Read Full Article    Cited by

Citation: Sultan, M., R. E. Arvidson, I. J. Duncan, R. J. Stern, and B. El Kaliouby (1988), EXTENSION OF THE NAJD SHEAR SYSTEM FROM SAUDI ARABIA TO THE CENTRAL EASTERN DESERT OF EGYPT BASED ON INTEGRATED FIELD AND LANDSAT OBSERVATIONS, Tectonics, 7(6), 1291–1306.