Influence of subduction geometry and mantle wedge hydration in ocean/continent convergent systems : a numerical simulation
Abstract
Data di Pubblicazione:
2009
Citazione:
Influence of subduction geometry and mantle wedge hydration in ocean/continent convergent systems : a numerical simulation / M. Roda, A.M. Marotta, M.I. Spalla. - In: EPITOME. - ISSN 1972-1552. - 5:3(2009). ((Intervento presentato al 7. convegno Geoitalia : Forum Italiano di Scienze della Terra tenutosi a Rimini nel 2009.
Abstract:
To analyze the effects of hydration mechanism on continental crust recycling a parametric study using a 2D finite
elements thermo-mechanical model is here presented. We implemented oceanic slab dehydration and consequent
mantle wedge hydration using a dynamic method; hydration is accomplished by Lawsonite and Serpentine break-
down. Topography is treated as a free surface.
Results of a set of numerical simulations investigate the influence of subduction rate, slab dip and mantle rheology
changes on thermal regime variations, exhumation rate and amount of recycled crust. At this purpose subduction
rates of 1, 3, 5, 7.5 and 10 cm/yr, slab angles of 30°, 45° and 60° and a mantle rheology represented by dry dunite
and dry olivine flow laws, have been taken into account during successive numerical experiments.
Model predictions pointed out that a direct relationship between mantle rheology and the amount of recycled crustal
material exists: the larger is the viscosity contrast between hydrated and dry mantle the larger is the percentage of
recycled material into the mantle wedge. A quite impact on recycling is consequent to slab dip variation.
Metamorphic evolutions of recycled material are influenced by subduction style: Tmax of Pmax, generally accomplished under eclogite-facies conditions, is sensible to slab dip changing and the increasing subduction rate
induces a decrease in Tmax of Pmax values.
A direct relationship between subduction rate and exhumation rate results for different slab dips, independent of
mantle flow law used.
Thermal regimes predicted by different numerical models are compared with PT paths followed by continental crustal
slices involved in ancient and actual subduction zones.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
subduction geometry ; mantle wedge hydration ; numerical simulation
Elenco autori:
M. Roda, A.M. Marotta, M.I. Spalla
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