Effects of mantle upwelling in a compressional setting: The Atlas Mountains of Morocco

Antonio Teixell; Puy Ayarza; Hermann Zeyen; Manel Fernàndez; María Luisa Arboleya

doi:10.1111/j.1365-3121.2005.00633.x

Effects of mantle upwelling in a compressional setting: The Atlas Mountains of Morocco

Antonio Teixell, Puy Ayarza, Hermann Zeyen, Manel Fernàndez, María Luisa Arboleya

Departament de Geologia

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We discuss the implications of a lithospheric model of the Moroccan Atlas Mountains based on topography, heat flow, gravity and geoid anomalies, taking into account the regional geology. The NW African cratonic lithosphere, some 160-180 km thick, thins to c. 80 km beneath the Atlas fold-thrust belts, in contrast with the shortening regime prevailing there since the early Cenozoic. This fact explains several geological and geophysical features as high topography with modest tectonic shortening, the occurrence of alkaline magmatism contemporaneous to compression, the absence of large crustal roots to support elevation, the scarce development of foreland basins, and a marked geoid high. The modelled lithosphere thinning is related to a thermal upwelling constrained between the Iberia-Africa convergent plate boundary and the Saharan craton. © 2005 Blackwell Publishing Ltd.

Idioma original	Anglès
Pàgines (de-a)	456-461
Revista	Terra Nova
Volum	17
DOIs	https://doi.org/10.1111/j.1365-3121.2005.00633.x
Estat de la publicació	Publicada - 1 d’oct. 2005

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10.1111/j.1365-3121.2005.00633.x

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title = "Effects of mantle upwelling in a compressional setting: The Atlas Mountains of Morocco",

abstract = "We discuss the implications of a lithospheric model of the Moroccan Atlas Mountains based on topography, heat flow, gravity and geoid anomalies, taking into account the regional geology. The NW African cratonic lithosphere, some 160-180 km thick, thins to c. 80 km beneath the Atlas fold-thrust belts, in contrast with the shortening regime prevailing there since the early Cenozoic. This fact explains several geological and geophysical features as high topography with modest tectonic shortening, the occurrence of alkaline magmatism contemporaneous to compression, the absence of large crustal roots to support elevation, the scarce development of foreland basins, and a marked geoid high. The modelled lithosphere thinning is related to a thermal upwelling constrained between the Iberia-Africa convergent plate boundary and the Saharan craton. {\textcopyright} 2005 Blackwell Publishing Ltd.",

author = "Antonio Teixell and Puy Ayarza and Hermann Zeyen and Manel Fern{\`a}ndez and Arboleya, {Mar{\'i}a Luisa}",

year = "2005",

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doi = "10.1111/j.1365-3121.2005.00633.x",

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TY - JOUR

T1 - Effects of mantle upwelling in a compressional setting: The Atlas Mountains of Morocco

AU - Teixell, Antonio

AU - Ayarza, Puy

AU - Zeyen, Hermann

AU - Fernàndez, Manel

AU - Arboleya, María Luisa

PY - 2005/10/1

Y1 - 2005/10/1

N2 - We discuss the implications of a lithospheric model of the Moroccan Atlas Mountains based on topography, heat flow, gravity and geoid anomalies, taking into account the regional geology. The NW African cratonic lithosphere, some 160-180 km thick, thins to c. 80 km beneath the Atlas fold-thrust belts, in contrast with the shortening regime prevailing there since the early Cenozoic. This fact explains several geological and geophysical features as high topography with modest tectonic shortening, the occurrence of alkaline magmatism contemporaneous to compression, the absence of large crustal roots to support elevation, the scarce development of foreland basins, and a marked geoid high. The modelled lithosphere thinning is related to a thermal upwelling constrained between the Iberia-Africa convergent plate boundary and the Saharan craton. © 2005 Blackwell Publishing Ltd.

AB - We discuss the implications of a lithospheric model of the Moroccan Atlas Mountains based on topography, heat flow, gravity and geoid anomalies, taking into account the regional geology. The NW African cratonic lithosphere, some 160-180 km thick, thins to c. 80 km beneath the Atlas fold-thrust belts, in contrast with the shortening regime prevailing there since the early Cenozoic. This fact explains several geological and geophysical features as high topography with modest tectonic shortening, the occurrence of alkaline magmatism contemporaneous to compression, the absence of large crustal roots to support elevation, the scarce development of foreland basins, and a marked geoid high. The modelled lithosphere thinning is related to a thermal upwelling constrained between the Iberia-Africa convergent plate boundary and the Saharan craton. © 2005 Blackwell Publishing Ltd.

U2 - 10.1111/j.1365-3121.2005.00633.x

DO - 10.1111/j.1365-3121.2005.00633.x

M3 - Article

SN - 0954-4879

VL - 17

SP - 456

EP - 461

JO - Terra Nova

JF - Terra Nova

ER -

Effects of mantle upwelling in a compressional setting: The Atlas Mountains of Morocco

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