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Subslab ultra low velocity anomaly uncovered by and facilitating the largest deep earthquake

Earth Sciences

Subslab ultra low velocity anomaly uncovered by and facilitating the largest deep earthquake

W. Chen, S. Wei, et al.

This groundbreaking study by Weiwen Chen, Shengji Wei, and Weitao Wang uncovers the mechanisms behind the Mw 8.3 Sea of Okhotsk earthquake, revealing a small-scale, volatile-bearing P-wave velocity anomaly that plays a crucial role in triggering large deep earthquakes. Discover how such structures facilitate rupture propagation beyond traditional boundaries.... show more
Abstract
It is enigmatic that M8+ earthquakes can take place at depth greater than 600 km inside the slab, where the P-T conditions generally do not favor seismic slip rate (~m/s) on faults. Here we provide fresh insights to the initial rupture and mechanism of the Mw 8.3 Sea of Okhotsk earthquake by analyzing high-frequency (up to 0.8 Hz) teleseismic array data. We determine the relative location and timing of two early subevents, and the geometry and velocity perturbation of a nearby structure anomaly. We found a small-scale (~30 × 60 × 60 km) ultralow (~18 ± 2%) P-wave velocity anomaly located beneath the Pacific slab around the 660 km discontinuity. The volatile-bearing highly melted nature of the anomaly provides significant buoyancy, stressing the slab dramatically closer to the critical condition for thermal runaway weakening that allows the rupture to propagate beyond the metastable olivine wedge, forming M8+ events. Enormous velocity reduction urges for further mineral physics and geodynamic investigations.
Publisher
Nature Communications
Published On
Mar 29, 2024
Authors
Weiwen Chen, Shengji Wei, Weitao Wang
DOI
https://doi.org/10.1038/s41467-024-47129-3
Tags
Sea of Okhotsk
deep earthquake
P-wave velocity anomaly
rupture propagation
volatility
geodynamic investigation
slab mechanics

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