TECTONIC EVOLUTION OF THE ARCHAEAN-NEOPROTEROZOIC BASEMENT COMPLEX OF DHI NA’IM-AL BAYDA DISTRICT, REPUBLIC OF YEMEN
• 2006
Publication Information
Authors
Abdel Wahed, M., Zoheir, B.A., Hamimi, Z., Al-Selwi Kh.
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publication.type
International
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Abstract
The Dhi Na’im-Al Bayda district constitutes an important part of the Precambrian basement in the western
part of the Republic of Yemen. Its critical geographic position places it as a potentially important link between the Arabian-
Nubian Shield and Mozambique Belt, leading to the necessity of a thorough investigation of the tectonic framework of the
region.
New geologic and structural data from the district evoke a polyphase ductile deformational history, commenced with a
NW-SE crustal shortening event and terminated with NE-SW open folding and later strike-slip shearing. The result was a
highly deformed NE-SW belt, made up mainly of migmatized gneisses, ophiolitic mélange and island arc metavolcanic
rocks. The entire pile has been intruded by syn- and post-tectonic granites. The deformational events disrupted both the
ophiolitic and island-arc stratigraphy such that lithological contacts are tectonic, and thrusts and sets of strike-slip faults
locally repeat the section.
These structures share a similar history with Pan-African and older fabrics west and east of the study area, and are
collectively attributed to the same tectonothermal cycle.
part of the Republic of Yemen. Its critical geographic position places it as a potentially important link between the Arabian-
Nubian Shield and Mozambique Belt, leading to the necessity of a thorough investigation of the tectonic framework of the
region.
New geologic and structural data from the district evoke a polyphase ductile deformational history, commenced with a
NW-SE crustal shortening event and terminated with NE-SW open folding and later strike-slip shearing. The result was a
highly deformed NE-SW belt, made up mainly of migmatized gneisses, ophiolitic mélange and island arc metavolcanic
rocks. The entire pile has been intruded by syn- and post-tectonic granites. The deformational events disrupted both the
ophiolitic and island-arc stratigraphy such that lithological contacts are tectonic, and thrusts and sets of strike-slip faults
locally repeat the section.
These structures share a similar history with Pan-African and older fabrics west and east of the study area, and are
collectively attributed to the same tectonothermal cycle.
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