Litcius/Paper detail

Ultralong, supershear rupture of the 2025 <i>M</i> <sub>w</sub> 7.7 Mandalay earthquake reveals unaccounted risk

Dara E. Goldberg, William L. Yeck, Catherine Hanagan, James Atterholt, Haiyang Kehoe, Nadine G. Reitman, William D. Barnhart, D. R. Shelly, Alexandra E. Hatem, David J. Wald, P. S. Earle

2025Science15 citationsDOI

Abstract

The 28 March 2025 moment magnitude ( M w ) 7.7 earthquake in Mandalay, Burma (Myanmar), ruptured 475 kilometers of the Sagaing Fault, which was more than twice the length predicted by magnitude scaling relationships. Kinematic slip models and observation of a Rayleigh Mach wave that passed through parts of Thailand confirmed that rupture occurred at supershear velocities of greater than 5 kilometers per second. The anomalous length exposed a vast population to violent near-fault shaking. The Mandalay earthquake is a modern analog for the M w 7.9 1906 San Francisco earthquake, another atypically long and fast rupture. Probabilistic seismic hazard analyses use scaling relations that do not account for such long ruptures at moderate magnitudes. This limitation, in conjunction with a likely increased population and infrastructure exposure for atypically long ruptures, contributes to a potential mischaracterization of seismic risk.

Topics & Concepts

SeismologyGeologyMoment magnitude scaleMagnitude (astronomy)PopulationTsunami earthquakeSeismic hazardScalingEarthquake ruptureHazardIntraplate earthquakeSlip (aerodynamics)Slow earthquakeGeodesyearthquake and tectonic studiesSeismic Waves and AnalysisHigh-pressure geophysics and materials