Astronomy and Astrophysics – Astronomy
Scientific paper
Mar 1998
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1998geoji.132..479c&link_type=abstract
Geophysical Journal International, Volume 132, Issue 3, pp. 479-488.
Astronomy and Astrophysics
Astronomy
10
Canary Islands, Coherence, Lithospheric Structure, Oceanic Swell
Scientific paper
The Canary Archipelago is an intraplate volcanic chain, located near the West African continental margin, emplaced on old oceanic lithosphere of Jurassic age, with an extended volcanic activity since Middle Miocene. The adjacent seafloor does not show the broad oceanic swell usually observed in hotspot-generated oceanic islands. However, the observation of a noticeable depth anomaly in the basement west of the Canaries might indicate that the swell is masked by a thick sedimentary cover and the influence of the Canarian volcanism. We use a spectral approach, based on coherence analysis, to determine the swell and its compensation mechanism. The coherence between gravity and topography indicates that the swell is caused by a subsurface load correlated with the surface volcanic load. The residual gravity/geoid anomaly indicates that the subsurface load extends 600km SSW and 800kmN and NNE of the islands. We used computed depth anomalies from available deep seismic profiles to constrain the extent and amplitude of the basement uplift caused by a relatively low-density anomaly within the lithospheric mantle, and coherence analysis to constrain the elastic thickness of the lithosphere (Te) and the compensation depth of the swell. Depth anomalies and coherence are well simulated with Te=28-36km, compensation depth of 40-65km, and a negative density contrast within the lithosphere of ~33kgm-3. The density contrast corresponds to a temperature increment of ~325°C, which we interpret to be partially maintained by a low-viscosity convective layer in the lowermost lithosphere, and which probably involves the shallower parts of the asthenosphere. This interpretation does not require a significant rejuvenation of the mechanical properties of the lithosphere.
Canales Pablo J.
Dañobeitia Juanjo
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