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Article Dans Une Revue Journal of Geophysical Research Année : 2015

Temperature, lithosphere-asthenosphere boundary, and heat flux beneath the Antarctic Plate inferred from seismic velocities

Meijan An
  • Fonction : Auteur
Douglas Wiens
  • Fonction : Auteur
Yue Zhao
Mei Feng
  • Fonction : Auteur
Andrew Nyblade
  • Fonction : Auteur
Yuansheng Li
  • Fonction : Auteur
Jean-Jacques Lévêque
  • Fonction : Auteur

Résumé

We estimate the upper-mantle temperature of the Antarctic Plate based on the thermoelastic properties of mantle minerals and S velocities using a new 3-D shear velocity model, AN1-S [An et al., 2015, JGR]. Crustal temperatures and surface heat fluxes are then calculated from the upper-mantle temperature assuming steady-state thermal conduction. The temperature at the top of the asthenosphere beneath the oceanic region and West Antarctica is higher than the dry mantle solidus, indicating the presence of melt. From the temperature values, we generate depth maps of the lithosphere–asthenosphere boundary and the Curie-temperature isotherm. The maps show that East Antarctica has a thick lithosphere similar to that of other stable cratons, with the thickest lithosphere (~250 km) between Domes A and C. The thin crust and lithosphere beneath West Antarctica are similar to those of modern subduction-related rift systems in East Asia. A cold region beneath the Antarctic Peninsula is similar in spatial extent to that of a flat-subducted slab beneath the southern Andes, indicating a possible remnant of the Phoenix Plate, which was subducted prior to 10 Ma. The oceanic lithosphere generally thickens with increasing age, and the age–thickness correlation depends on the spreading rate of the ridge that formed the lithosphere. Significant flattening of the age–thickness curves is not observed for the mature oceanic lithosphere of the Antarctic Plate.
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hal-01239984 , version 1 (21-10-2021)

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Meijan An, Douglas Wiens, Yue Zhao, Mei Feng, Andrew Nyblade, et al.. Temperature, lithosphere-asthenosphere boundary, and heat flux beneath the Antarctic Plate inferred from seismic velocities. Journal of Geophysical Research, 2015, ⟨10.1002/2015JB011917⟩. ⟨hal-01239984⟩
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