P. F. Burollet scite author profile

Field surveys in the Gulf of Suez‐Northern Red Sea area revealed the structural pattern and evolution of this tertiary continental rift and provided constraints on the continental rifting process. The structure has been controlled, at every scale, by four major trends of faults: N0°–20°E, N100°–120°E, N140°E–160°E and N40°–60°E. Observations of sealed faults and folds and superposed structures and the detailed analysis of the fault surfaces are coherent and indicate that as least two different stages of deformation characterize the evolution of the rift. The initiation of the rift (late Oligocene‐Aquitanian) corresponds to the creation of large rhomboidal basins, weakly subsident and partly bounded by oblique strike‐slip faults. This framework, which resulted from the reactivation of inherited weakness zone in the basement, controlled the subsequent creation of large tilted blocks (upper Aquitanian‐lower Burdigalian). These structures were trangressed by the upper Burdigalian deposits. Then the blocks were sliced by a secondary horst and graben pattern, which was progressively sealed by middle Miocene units. Since the upper Miocene, the deformation has been focused along some major faults located in the central part of the rift. The determination of paleostresses from measurements of striae confirms that the initiation of the rift was controlled by a tectonic regime characterized by an horizontal compressive stress parallel to the rift, and its subsequent evolution was controlled by triaxial and radial extensional regimes with horizontal minimum stress (σ3) predominantly trending N70°–80°E. The rifting process was not induced by regional doming but by a new distribution of intraplate stresses at approximately Oligocene‐Miocene time (passive rift). Uplift of the rift shoulders began in the upper Burdigalian. Cross sections of the rift emphasize its asymmetry: large basement blocks are tilted toward the edge of the rift where a major, recently active fault and a distinct morphological unit, which we call a “banquette,” are located. Several homogeneous tilt direction provinces can be defined. They are separated by transverse hinge zones that correspond to inherited basement trends. Rifting deformation is expressed in the basement by steep faults arranged in a zig‐zag pattern and in Neogene‐Quaternary sediments by steep faults and listric faults associated with decollements. Therefore the style of shallow deformation cannot be extrapolated to deeper levels. Structures formed during the beginning of the rift show different charateristics according to their orientation, but their initial shape was generally complicated by later deformation.

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Tectonique en radeaux en Angola

Burollet¹

1975

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Inherited discontinuities and Neogene structure: the Gulf of Suez and the northwestern edge of the Red Sea

Jarrige¹,

D'estevou²,

Burollet

et al. 1986

Phil. Trans. R. Soc. Lond. A

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The Gulf of Suez and the northern Red Sea rifts are the result of intracontinental deformation during Neogene times. The initiation and the development of the rift are controlled by (i) four main trends of faults: N140°-N150°; NS to N 20°; sub E -W ; and N40°-60°; (ii) a zigzag faulting pattern; (iii) two main tectonic events. The first is characterized by strike-slip displacements inducing the formation of antithetic tilted blocks. The geometry of the blocks changes according to their orientation. Complex structures can result from the com bination of several trends. Vertical movements are weak. The second is characterized by synthetic normal movements forming a horst and graben pattern. Vertical displacements are important and induce the generation of the axial trough and uplift of the shoulders of the rift. The zigzag pattern of the faults that govern the Rift and the initial strike-slip displacements cannot result from a simple extensional model but imply a reactivation of inherited discontinuities in the Miocene stress system induced by the northern convergent boundaries of the African and Arabic plates. The major trends of faults that control the Neogene structure have been active in this area since Palaeozoic or even Proterozoic times.

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P. F. Burollet

Structures and tectonics of Tunisia

The Geology of the Pelagian Block: The Margins and Basins off Southern Tunisia and Tripolitania

The multistage tectonic evolution of the Gulf of Suez and northern Red Sea continental rift from field observations

Tectonique en radeaux en Angola

Inherited discontinuities and Neogene structure: the Gulf of Suez and the northwestern edge of the Red Sea

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