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Stress Chatter via Fluid Flow and Fault Slip in a Hydraulic Fracturing‐Induced Earthquake Sequence in the Montney Formation, British Columbia

Andrés Felipe Peña Castro, Marco Pascal Roth, Alessandro Verdecchia, John Onwuemeka, Yajing Liu, R. M. Harrington, Yong Zhang, Honn Kao

2020Geophysical Research Letters62 citationsDOI

Abstract

Abstract Source processes of injection‐induced earthquakes involve complex fluid‐rock interaction often elusive to regional seismic monitoring. Here we combine observations from a local seismograph array in the Montney Formation, northeast British Columbia, and stress modeling to examine the spatiotemporal evolution of the 30 November 2018 M w 4.2 (M L 4.5) hydraulic fracturing‐induced earthquake sequence. The isolated occurrence of the mainshock at a depth of ∼ 4.5 km in the crystalline basement 2 days following injection onset at ∼ 2.5 km depth suggests direct triggering by rapid fluid pressure increase via a high‐permeability conduit. Most aftershocks are in the top 2 km sedimentary layers, with focal mechanisms indicating discrete slip along subvertical surfaces in an ∼ 1 km wide deformation zone. Aftershock distribution is consistent with static stress triggering from the M w 4.2 coseismic slip. Our analysis suggests that complex hydraulic and stress transfer between fracture networks needs to be considered in induced seismic hazard assessment.

Topics & Concepts

GeologyAftershockSeismologyHydraulic fracturingSeismometerSlip (aerodynamics)Fluid pressureDifferential stressShear stressFluid dynamicsGeotechnical engineeringDeformation (meteorology)Mechanical engineeringMaterials scienceMechanicsComposite materialEngineeringPhysicsThermodynamicsOceanographyearthquake and tectonic studiesSeismic Waves and AnalysisSeismic Imaging and Inversion Techniques