Mohammed Charroud scite author profile

[1] Three cross sections of the Moroccan High Atlas illustrate the structural geometry and relationship between tectonic shortening and topography in this Cenozoic intracontinental mountain range. The structure is dominated by thick-skinned thrusting and folding, essentially by inversion of Mesozoic extensional faults and by buckling of both preMesozoic basement and its sedimentary cover. Detached, thin-skinned thrusting is limited and apparently related to basement underthrusting, which did not always create structural relief. Despite the high topography, tectonic shortening is moderate, with faults and folds being spaced and separated by broad tabular areas. Section restoration indicates that shortening decreases along strike from east to west in the High Atlas, while topographic elevation generally increases. This inverse correlation suggests that crustal thickening does not fully explain the observed topography and suggests a mantle contribution to uplift. This is supported by geophysical indications of a thin lithosphere and by alkaline volcanism in the vicinity. Mantle-related uplift, which occurs in a broad region, may also explain the scarce foreland basin record adjacent to the High Atlas. The relief of the Atlas Mountains is interpreted as a combination of crustal isostatic and dynamic topography.

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A structural transect through the High and Middle Atlas of Morocco

Arboleya

Teixell

Charroud

et al. 2004

Journal of African Earth Sciences

138

125

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A restatement of the Mesozoic Atlasic Rifting (Morocco)

Laville

Piqué

Amrhar

et al. 2004

Journal of African Earth Sciences

162

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Paleostress evolution in the Moroccan African margin from Triassic to Present

et al. 2002

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Crustal structure under the central High Atlas Mountains (Morocco) from geological and gravity data

et al. 2005

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