Convective patterns under the Indo-Atlantic « box

Using fluid mechanics, we reinterpret the mantle images obtained from global and regional tomography together with geochemical, geological and paleomagnetic observations, and attempt to unravel the pattern of convection in the Indo-Atlantic “box” and its temporal evolution over the last 260 Myr. The...

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Bibliographic Details
Published in:Earth and planetary science letters 2005-11, Vol.239 (3), p.233-252
Main Authors: Davaille, Anne, Stutzmann, Eléonore, Silveira, Graça, Besse, Jean, Courtillot, Vincent
Format: Article
Language:English
Subjects:
convection
hotspots
mantle plumes
tomography
traps
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Summary:Using fluid mechanics, we reinterpret the mantle images obtained from global and regional tomography together with geochemical, geological and paleomagnetic observations, and attempt to unravel the pattern of convection in the Indo-Atlantic “box” and its temporal evolution over the last 260 Myr. The « box » presently contains a) a broad slow seismic anomaly at the CMB which has a shape similar to Pangea 250 Myr ago, and which divides into several branches higher in the lower mantle, b) a “superswell” centered on the western edge of South Africa, c) at least 6 “primary hotspots” with long tracks related to traps, and d) numerous smaller hotspots. In the last 260 Myr, this mantle box has undergone 10 trap events, 7 of them related to continental breakup. Several of these past events are spatially correlated with present-day seismic anomalies and/or upwellings. Laboratory experiments show that superswells, long-lived hotspot tracks and traps may represent three evolutionary stages of the same phenomenon, i.e. episodic destabilization of a hot, chemically heterogeneous thermal boundary layer, close to the bottom of the mantle. When scaled to the Earth's mantle, its recurrence time is on the order of 100–200 Myr. At any given time, the Indo-Atlantic box should contain 3 to 9 of these instabilities at different stages of their development, in agreement with observations. The return flow of the downwelling slabs, although confined to two main « boxes » (Indo-Atlantic and Pacific) by subduction zone geometry, may therefore not be passive, but rather take the form of active thermochemical instabilities.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2005.07.024