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Earthquake nucleation in the lower crust by local stress amplification

Earth Sciences

Earthquake nucleation in the lower crust by local stress amplification

L. Campbell, L. Menegon, et al.

Discover the secrets of deep intracontinental earthquakes through groundbreaking research conducted by L.R. Campbell, L. Menegon, A. Fagereng, and G. Pennacchioni. This study investigates exhumed lower crustal rocks in Lofoten, Norway, revealing how fossil seismogenic faults and pseudotachylytes illuminate the dynamics of earthquake slip and stress amplification in shear zones.... show more
Abstract
Deep intracontinental earthquakes are poorly understood, despite their potential to cause significant destruction. Although lower crustal strength is currently a topic of debate, dry lower continental crust may be strong under high-grade conditions. Such strength could enable earthquake slip at high differential stress within a predominantly viscous regime, but requires further documentation in nature. Here, we analyse geological observations of seismic structures in exhumed lower crustal rocks. A granulite facies shear zone network dissects an anorthosite intrusion in Lofoten, northern Norway, and separates relatively undeformed, microcracked blocks of anorthosite. In these blocks, pristine pseudotachylytes decorate fault sets that link adjacent or intersecting shear zones. These fossil seismogenic faults are rarely >15 m in length, yet record single-event displacements of tens of centimetres, a slip/length ratio that implies >1 GPa stress drops. These pseudotachylytes represent direct identification of earthquake nucleation as a transient consequence of ongoing, localised aseismic creep.
Publisher
Nature Communications
Published On
Mar 12, 2020
Authors
L.R. Campbell, L. Menegon, A. Fagereng, G. Pennacchioni
DOI
https://doi.org/10.1038/s41467-020-15150-x
Tags
intracontinental earthquakes
lower continental crust
seismogenic faults
pseudotachylytes
stress amplification
shear zones
earthquake nucleation

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