Hydrodynamic modelling of some metamorphic processes
Details
Serval ID
serval:BIB_BEDE0C6A86E9
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Hydrodynamic modelling of some metamorphic processes
Journal
Journal of Metamorphic Geology
ISSN-L
0263-4929
Publication state
Published
Issued date
1992
Peer-reviewed
Oui
Volume
10
Pages
311-319
Language
english
Abstract
The P-T paths for metamorphic complexes from the Precambrian shields and
fold belts of different ages may result from advection, i.e. one-cycle
convective processes in the lithosphere. This conclusion has been
exemplified by the metamorphic evolution of several well-known
complexes, for which an advective model can be successfully applied.
Numerical simulations of the above processes in terms of Newtonian
rheology by using a two-dimensional finite element program have been
conducted.
Two representative models for intracontinental gravitational ordering
initiated presumably by mantle activity are considered: (i) a thermally
activated multi-layered rhythmic sequence and (ii) huge rising diapiars
causing circulation, in which crustal lithologies underwent high-P
metamorphism (above 10-15 kbar) and subsequent ascent toward the Earth's
surface.
fold belts of different ages may result from advection, i.e. one-cycle
convective processes in the lithosphere. This conclusion has been
exemplified by the metamorphic evolution of several well-known
complexes, for which an advective model can be successfully applied.
Numerical simulations of the above processes in terms of Newtonian
rheology by using a two-dimensional finite element program have been
conducted.
Two representative models for intracontinental gravitational ordering
initiated presumably by mantle activity are considered: (i) a thermally
activated multi-layered rhythmic sequence and (ii) huge rising diapiars
causing circulation, in which crustal lithologies underwent high-P
metamorphism (above 10-15 kbar) and subsequent ascent toward the Earth's
surface.
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09/10/2012 19:50
Last modification date
20/08/2019 15:33