1. Three‐Dimensional Surface Deformation in the 2016 MW 7.8 Kaikōura, New Zealand, Earthquake From Optical Image Correlation: Implications for Strain Localization and Long‐Term Evolution of the Pacific‐Australian Plate Boundary
- Author
-
Zinke, Robert, Hollingsworth, James, Dolan, James F., and Van Dissen, Russ
- Subjects
EARTHQUAKES ,REMOTE-sensing images ,KINEMATICS ,GEOLOGIC faults ,ROCK deformation - Abstract
We generated dense, high‐resolution 3‐D ground displacement maps for the 2016 MW 7.8 Kaikōura, New Zealand earthquake—the most geometrically and kinematically complex rupture yet recorded—from stereo WorldView optical satellite imagery using a new methodology that combines subpixel image correlation with a ray‐tracing approach. Our analysis reveals fundamental new details of near‐field displacement patterns, which cannot easily be obtained through other methods. From our detailed correlation maps, we measured fault slip in 3‐D along 19 faults at 500‐m spacing. Minimum resolvable horizontal slip is ~0.1 m, and vertical is ~0.5 m. Net slip measurements range from <1 to ~12 m. System‐level kinematic analysis shows that slip on faults north of the Hope fault was oriented primarily subparallel to the Pacific‐Australian plate motion direction. In contrast, slip on faults to the south was primarily at high angle to the plate motion and secondarily parallel to plate motion. Fault kinematics are in some locations consistent with long‐term uplift patterns, but inconsistent in others. Deformation within the Seaward Kaikōura Range may indicate an attempt by the plate boundary fault system to geometrically simplify. Comparison of published field measurements along the Kekerengu fault with our correlation‐derived measurements reveals that ~36% of surface displacement was accommodated as distributed off‐fault deformation when considering only field measurements of discrete slip. Comparatively, field measurements that project previously linear features (e.g., fence lines) into the fault over apertures >5–100 m capture nearly all (~90%) of the surface deformation. Key Points: Correlation of high‐resolution optical satellite imagery reveals 3‐D surface deformation patterns of the 2016 MW 7.8 Kaikōura earthquakeKinematic analysis shows slip on northern faults was subparallel to plate motion but slip on southern faults was transpressionalComparison of Kekerengu fault field measurements with image correlation measurements reveals up to ~36% distributed deformation [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF