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    • Relationship Between Subduction Erosion and the Up‐Dip Limit of the 2014 Mw 8.1 Iquique Earthquake

    Florian Petersen,Dietrich Lange,Bo Ma,Ingo Grevemeyer,Jacob Geersen,Dirk Klaeschen,Eduardo Contreras-Reyes,Sergio Barrientos,Anne M. Trehu,Emilio Vera,Heidrun Kopp

    GEOPHYSICAL RESEARCH LETTERS(2021)

    GEOMAR Helmholtz Ctr Ocean Res Kiel

    Cited 15|Views32
    Abstract
    The aftershock distribution of the 2014 Mw 8.1 Iquique earthquake offshore northern Chile, identified from a long‐term deployment of ocean bottom seismometers installed eight months after the mainshock, in conjunction with seismic reflection imaging, provides insights into the processes regulating the updip limit of coseismic rupture propagation. Aftershocks updip of the mainshock hypocenter frequently occur in the upper plate and are associated with normal faults identified from seismic reflection data. We propose that aftershock seismicity near the plate boundary documents subduction erosion that removes mass from the base of the wedge and results in normal faulting in the upper plate. The combination of very little or no sediment accretion and subduction erosion over millions of years has resulted in a very weak and aseismic frontal wedge. Our observations thus link the shallow subduction zone seismicity to subduction erosion processes that control the evolution of the overriding plate.
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    Key words
    Earthquakes,North Chile,seismogenic zone,subduction erosion,subduction zone
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