Geophysical Research Letters (Jan 2025)
Relationship Between Rupture Length and Magnitude of Oceanic Transform Fault Earthquakes
Abstract
Abstract The rupture behavior of large oceanic strike‐slip earthquakes remains largely unresolved using seismic signals recorded thousands of kilometers away from the source area. Large submarine earthquakes, however, generate hydroacoustic T‐waves propagating through the ocean over long distances. Here, we show that these T‐waves recorded at regional distances on the Ascension hydrophone array of the International Monitoring System can provide critical information on the earthquake location and rupture behavior. We use recordings from 47 events in oceanic transform faults, ranging in magnitude from 5.6 ≤ Mw ≤ 7.1, to investigate the rupture processes. We find that most strike‐slip earthquakes show unilateral rupture behavior, while a few larger events were more complex. Furthermore, earthquakes in oceanic transforms have longer ruptures than events of the same magnitude in continental faults. We argue that differences in the scaling relation of oceanic and continental strike‐slip earthquakes support a lower rigidity in the oceanic lithosphere caused by hydration.
