Ridge Subduction: Unraveling the Consequences Linked to a Slab Window Development Beneath South America at the Chile Triple Junction

Author:

Sanhueza Jorge1ORCID,Yáñez Gonzalo1ORCID,Buck W. Roger2ORCID,Araya Vargas Jaime3ORCID,Veloso Eugenio4

Affiliation:

1. Departamento de Ingeniería Estructural y Geotécnica Pontificia Universidad Católica de Chile Santiago Chile

2. Lamont‐Doherty Earth Observatory Columbia University NY Palisades USA

3. Departamento de Geología Universidad de Atacama Copiapó Chile

4. Escuela de Ciencias del Mar Pontifica Universidad Católica de Valparaíso Valparaíso Chile

Abstract

AbstractThe subduction of an active spreading center generates a clear signature in the temporal evolution of subduction zones. It disrupts the typical arc‐type magmatism and intraplate seismicity, enhances the emplacement of backarc plateau lava and profoundly change the tectonics and topographic relief. These distinct observations are commonly linked to a slab window opening and mantle upwelling. The Chile Triple Junction provides the ideal setup to study the mid‐ocean ridge subduction process where both sides of the spreading center continue to subduct. Here, we use 2‐D numerical petrological‐thermomechanical modeling to focus on transient geodynamic processes caused by mid‐ocean ridge subduction. Model results show slab separation along the ridge axis with the opening of a slab window. During the opening, partial melts from the spreading center migrate toward the subcontinental mantle and high temperatures in the forearc are predicted. The temporal evolution of the modeled temperature is consistent with observed heat flow data, and with magmatism and high‐temperature metamorphism recorded in Chilean forearc rocks. Such migrated partial melts might explain the low viscosity inferred and low seismic velocity anomalies imaged in the slab window beneath South America, and the common geochemical signature of the Chile Ridge, the Taitao Ophiolite and the backarc magmatism. Following slab separation, our models suggest forearc uplift and changes in the stress regime, processes which are consistent with deformation records. Summarizing, our model of the geodynamic evolution of the Chile Ridge subduction provides a consistent framework that explains diverse records of magmatism, metamorphism, deformation and mantle physical properties.

Funder

Agencia Nacional de Investigación y Desarrollo

Fondo Nacional de Desarrollo Científico y Tecnológico

Publisher

American Geophysical Union (AGU)

Subject

Geochemistry and Petrology,Geophysics

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