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On-fault earthquake energy density partitioning from shocked garnet in an exhumed seismic midcrustal fault.

Giovanni ToffolGiorgio PennacchioniLuca MenegonDavid WallisManuele FaccendaAlfredo CamachoMichel Bestmann
Published in: Science advances (2024)
The energy released during an earthquake is mostly dissipated in the fault zone and subordinately as radiated seismic waves. The on-fault energy budget is partitioned into frictional heat, generation of new grain surface by microfracturing, and crystal-lattice distortion associated with dislocation defects. The relative contribution of these components is debated and difficult to assess, but this energy partitioning strongly influences earthquake mechanics. We use high-resolution scanning-electron-microscopy techniques, especially to analyze shocked garnet in a fault wall-rock, to provide the first estimate of all three energy components for a seismic fault patch exhumed from midcrustal conditions. Fault single-jerk seismicity is recorded by the presence of pristine quenched frictional melt. The estimated value of energy per unit fault surface is ~13 megajoules per square meter for heat, which is predominant with respect to both surface energy (up to 0.29 megajoules per square meter) and energy associated with crystal lattice distortion (0.02 megajoules per square meter).
Keyphrases
  • high resolution
  • neural network
  • electron microscopy
  • mass spectrometry
  • heat stress
  • high speed