Description Stress drop estimates for the Canterbury earthquake sequence (CES). (a) Geodetically defined stress drops proposed for source faults. (b) Seismological stress drop versus magnitude relationship...
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description (a) Location of the Darfield earthquake and associated Canterbury earthquake sequence in New Zealand's South Island. Major plate boundary faults (Alpine Fault and Marlborough Faults) traverse the...
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description Branching model network hierarchy for CSC modeling (section ) and simplified methodology of fault tendency analysis (section ). CSC = Coulomb stress change; CCF = Charing Cross reverse fault.
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description Map showing transect across Canterbury from offshore E‐W inactive normal faults (1), through progressive fault system development (2 offshore; 3 onshore) towards a mature state (4 and 5 show the...
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description Results of Slip Tendency Analysis
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description (a) Darfield earthquake and associated aftershocks (Canterbury earthquake sequence, CES, seismicity) frequency‐magnitude plot showing maximum likelihood estimation (MLE) fit and incremental least...
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description (a) Geometric arrangement of the Darfield earthquake source faults colored for assigned CSCmaxcrit values. (b) Sequence of fault failure for fault‐slip tendency informed CSC modeling scenarios with...
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description (a–c) Coulomb stress change (CSC) modeling results for “stress threshold ➔ CSCmax ➔ 0 to 10 MPa” rupture scenarios initiating on the Charing Cross reverse fault (CCF), showing steps involved in...
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description (a) Mohr diagram of fault slip tendency and stress states calculated for hydrostatic pore pressure at 9‐km depth (colored circle) for the Darfield earthquake source faults, based on geometry of...
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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Description Earthquake epicenters and magnitudes for events comprising the pre‐Darfield seismicity (pre‐CES) and CES seismicity (CES) catalogues in relation to geodetically defined faults (Beavan et al., )....
Article Title: Physical and Statistical Behavior of Multifault Earthquakes: Darfield Earthquake Case Study, New Zealand
Publication Title: Journal of Geophysical Research: Solid Earth

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