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On the Relationship Between Offshore Geodetic Coverage and Slip Model Uncertainty: Analog Megathrust Earthquake Case Studies

Ehsan Kosari, Matthias Rosenau, Jonathan Bedford, Michael Rudolf, Onno Oncken

2020Geophysical Research Letters14 citationsDOIOpen Access PDF

Abstract

Abstract We apply a geodetic slip inversion technique to analog subduction megathrust earthquakes to demonstrate how limited offshore geodetic coverage affects coseismic slip models. We analyzed two archetypical megathrust earthquakes: trench‐breaking and non‐trench‐breaking earthquakes. Slip inversion models of analog earthquakes show quantitative and qualitative changes as a function of offshore coverage. Shallow slip cannot be resolved if the observation coverage of the offshore segment is <50%. Moreover, the slip pattern of shallow events flips from landward to trenchward skewed as offshore coverage reduces to <40%. The estimated slip for both event types converges to a similar unimodal pattern when there is no offshore coverage. We infer 5–20% slip overestimation when the observations are above the high slipping zone during trench‐breaking events versus 5–10% underestimation during non‐trench‐breaking events if observations are land limited. The moment magnitude derived for trench‐breaking ruptures might be significantly affected (ΔM w ~ 0.5).

Topics & Concepts

TrenchGeologySeismologySubmarine pipelineSlip (aerodynamics)SlippingGeodetic datumEpisodic tremor and slipSubductionInversion (geology)GeodesyMoment magnitude scaleTectonicsGeotechnical engineeringGeometryScalingOrganic chemistryThermodynamicsMathematicsLayer (electronics)ChemistryPhysicsearthquake and tectonic studiesHigh-pressure geophysics and materialsGeological and Geophysical Studies Worldwide
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