Macquarie University ResearchOnline

Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.14/124795

Title

The Structure and evolution of the lithosphere-asthenosphere boundary beneath the Atlantic-Mediterranean Transition Region

Related

Lithos, Vol. 120, No. 1-2 (2010), p.74-95

DOI

10.1016/j.lithos.2010.03.003

Publisher

Elsevier

Date

2010

FoR/RFCD Code(s)

040300 Geology  040200 Geochemistry

Author/Creator

Fullea, J

Author/Creator

Fernàndez, M

Author/Creator

Afonso, J. C

Author/Creator

Vergés, J

Author/Creator

Zeyen, H

Description

The present-day thermal and compositional 3D structure of the lithosphere beneath the Atlantic–Mediterranean Transition Region and the lithosphere–asthenosphere interaction from Jurassic times to present has been studied. The Atlantic–Mediterranean Transition Region comprises the western segment of the Africa–Eurasia plate boundary, encompassing two main large-scale tectonic domains: the Gibraltar Arc System and the Atlas Mountains. An integrated and self-consistent geophysical–petrological methodology (LitMod3D) has been applied that combines elevation, gravity, geoid, surface heat flow, and seismic data and allows modelling of compositional heterogeneities within the lithospheric mantle. Our results reveal large variations in the depth of the Moho and the lithosphere–asthenosphere boundary (LAB) as well as a lack of spatial correlation between the thicknesses of these two boundaries. The Moho essentially mimics the topography with depths ranging from ∼10 km beneath the oceanic domains of the Atlantic abyssal plains and the Algerian Basin to > 34 km in the Eastern Betics and Rif, the High Atlas mountains, and the Sahara Platform. In contrast, the LAB is shallower beneath the central and eastern Alboran Basin (∼70 km) and all along the High, Middle and Anti Atlas (< 100 km) coinciding with the loci of Cenozoic volcanism. Deeper LAB depths are found along the central and western Betics and the Moroccan Atlantic margin (> 140 km) with values exceeding 230 km beneath the Rif and the Sahara Platform. The average bulk composition of the lithospheric mantle corresponds to that of a typical Tecton (i.e. Phanerozoic) domain, with the exceptions of the Sahara Platform, the Alboran Basin, and Atlas Mountains. Distinct mantle compositions are required in these areas to make model predictions and geophysical observables compatible. It is proposed that the highly irregular LAB topography is the result of the superposition of three different geodynamic processes: i) shortening and thickening related to NW–SE Iberia–Africa convergence lasting from Late Cretaceous to Recent, ii) impingement of a baby-like mantle plume or small-scale convection beneath the High-Middle Atlas and Anti Atlas commencing in the mid Eocene, and iii) slab roll-back or mantle delamination in the Betic–Rif–Alboran realm acting from early to late Miocene.

Description

22 page(s)

Subject Keyword

040300 Geology

Subject Keyword

040200 Geochemistry

Subject Keyword

Iberia

Subject Keyword

North Africa

Subject Keyword

upper mantle composition

Subject Keyword

potential fields

Subject Keyword

thermal modelling

Subject Keyword

seismic velocities

Subject Keyword

sub-continental lithospheric mantle

Resource Type

journal article

Organisation

Macquarie University. National Key Centre for Geochemical Evolution and Metallogeny of Continents (GEMOC)

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Identifier

http://hdl.handle.net/1959.14/124795

Identifier

ISSN:0024-4937

Identifier

mq-rm-2010003613

Language

eng

Reviewed

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Subject

"Lithos"

 

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