• Title of article

    3D density model of the Central Andes

  • Author/Authors

    Prezzi، نويسنده , , Claudia B. and Gِtze، نويسنده , , Hans-Jürgen and Schmidt، نويسنده , , Sabine، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    18
  • From page
    217
  • To page
    234
  • Abstract
    We developed a 3D density model of the continental crust, the subducted plate and the upper mantle of the Central Andes between 20–29°S and 74–61°W through the forward modelling of Bouguer anomaly. The goal of this contribution is to gain insight on the lithospheric structure integrating the available information (geophysical, geologic, petrologic, and geochemical) in a single model. The geometry of our model is defined and constrained by hypocentre location, reflection and refraction on and offshore seismic lines, travel time and attenuation tomography, receiver function analysis, magnetotelluric studies, thermal models and balanced structural cross-sections. The densities allocated to the different bodies are calculated considering petrologic and geochemical data and pressure and temperature conditions. The model consists of 31 parallel E–W vertical planes, where the continental crust comprises distinct bodies, which represent the different morphotectonic units of the Central Andes. We include a partial melting zone at midcrustal depths under the Altiplano-Puna (low-velocity zone) and consider the presence of a rheologically strong block beneath the Salar de Atacama basin, according to recent seismic studies. Contour maps of the depth of the continental Moho, the thickness of the lower crust and the depth to the bottom of the lithosphere below South America are produced. The possible percentage of partial melt in the Central Andes low-velocity zone is estimated. The residual anomaly is calculated by subtracting from the Bouguer anomaly the gravimetric effect of the modelled subducted slab and of the modelled Moho. Isostatic anomalies are calculated from regional and local isostatic Mohos calculated with and without internal loads, derived from our gravity model, which are then compared to the modelled continental Moho. This study contributes to a more detailed knowledge of the lithospheric structure of this region of the Andes and provides an integrated 3D density model, which may be used by the geoscientific community as a tool that can help to understand and interpret the geodynamic features and processes acting along the Central Andes.
  • Keywords
    central Andes , Gravity , 3D density model , Lithospheric structure
  • Journal title
    PHYSICS OF THE EARTH AND PLANETARY INTERIORS
  • Serial Year
    2009
  • Journal title
    PHYSICS OF THE EARTH AND PLANETARY INTERIORS
  • Record number

    2305646