Along-strike forearc and subducted upper slab structure beneath north Chile: Slow slip implications

Pousali Mukherjee, Yoshihiro Ito, Kajaljyoti Borah, Admore Phindani Mpuang, Emmanuel Soliman Garcia, Raymundo Plata-Martinez

Research output: Contribution to journalArticlepeer-review

Abstract

We evaluate the lateral variation of the lithospheric structure beneath the forearc of the North Chile subduction zone along strike, extending from Iquique to Valparaiso, to understand a possible seismic structure that hosts deep slow earthquakes by comparing the deep slow slip areas around 60 km depth, using receiver function and inversion method. Relative differences are investigated in seismic velocities around the plate interface, especially underlying the mantle wedge, the upper part of the subducted oceanic crust, and the oceanic mantle along the subduction strike. We estimate and compare the thickness and velocity of subducted oceanic crust, slab top, subducted oceanic Moho, continental Moho, and wedge mantle velocity beneath the seismic stations. The oceanic crustal thickness range from ∼5 to 10 km respectively, and the oceanic Moho depth is ∼40 km–∼90 km. It was observed that the disparities in velocities were more pronounced near the south of the Iquique zone (18°S-25°S), with high subducting oceanic crust velocities. These discrepancies in velocities could be regarded as the presence of fluids from subducted ridges and seamounts, which might alter seismicity in the area, including slow slip.

Original languageEnglish
Article number105064
JournalJournal of South American Earth Sciences
Volume148
DOIs
StatePublished - 15 Nov 2024

Keywords

  • Fluids
  • North Chile
  • Receiver function
  • Slow slip
  • Subduction

ASJC Scopus subject areas

  • Geology
  • Earth-Surface Processes

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