[This post is participating at the 2015 Student Presentation Awards at ICTJA]
The
motivation of this work lies on the recent geodynamic model proposed by Vergés
and Fernàndez (2012) to explain the evolution of the Western Mediterranean
since 85 Ma. This model is based on the interaction of two plates which are
characterized by opposite direction of subduction (double-polarity subduction).
Our objective is to analyze the dynamic feasibility of this process and its
consequences through a 3D numerical model.
The
dynamic evolution of the Earth at large temporal and spatial scales, as
subduction processes, is modeled as a flow problem and requires advance
numerical techniques and high computation times. Numerical
models of viscoelastic flow in 2D/3D have been developed to understand the
dynamics of tectonic plates in large timeframes. The final model consists of two plates subducting into
the upper mantle and the problem is driven by the density contrast between the
lithosphere and the mantle beneath.
Our
numerical results indicate that 2D and 3D single (one plate) subduction models
with the same configuration result in similar slab morphologies. Anyway 3D
models (because of taking into account the three dimensions) produce a faster
subduction. In addition, a preliminary double subduction model, in which the
two plates are separated 100 km one from the other, has been calculated.
Comparing it with a single subduction model we observe slight differences in
the subduction velocity and in the slab morphology near the contact area. We
are currently checking the sensitivity of the double subduction models to modification
of the space between the two plates and to different velocity boundary
conditions. Moreover the lateral contact between the plates, the effect of
temperature and geometries applicable to the Western Mediterranean region will
be considered in future models. Finally, analogue models will be done in order
to compare them with numerical solutions.
Figure 2. Time evolution of a 3D double polarity subduction model with a lateral separation of 100 km between plates.
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This work is supervised by Manel Fernandez (ICTJA-CSIC) and Sergio Zlotnik (UPC, Barcelona) and is part of the project “Testing the geodynamic evolution of
the Western Mediterranean (We-Me), financed by the CSIC as “Proyecto Intramural
Especial” PIE-CSIC-201330E111.