We summarize estimates of the maximum rupture depth on New Zealand's active faults
(“New Zealand Fault‐Rupture Depth Model v. 1.0”), as used in the New Zealand Community …

ABSTRACT The 14th November 2016 Kaikōura earthquake was one of the most complex
crustal earthquakes recorded in the modern era. The rupture propagated northward for more …

Measuring the deformation at the Earth's surface over a range of spatial and temporal scales
is vital for understanding seismic hazard, detecting volcanic unrest, and assessing the …

Abstract The 2016 M7. 8 Kaikōura earthquake is one of the most complex earthquakes in
recorded history, with significant rupture of at least 21 crustal faults. Using a matched‐filter …

Earthquakes can trigger numerous landslides and cause other significant changes in the
landscape over large areas. This study presents a new processing scheme combining radar …

Abstract The complex 2016 MW 7.8 Kaikōura earthquake ruptured> 20 faults and caused
highly variable uplift and subsidence of an~ 110 km stretch of coastline. The earthquake …

Abstract High‐resolution, three‐dimensional (3‐D) measurements of surface displacements
during earthquakes can provide constraints on fault geometry and near‐surface slip and …

Relative relocation techniques are widely used to improve the resolution of earthquake
hypocenter positions. Here, we present GrowClust3D. jl—an open‐source software package …

ABSTRACT The Kaikōura Earthquake uplifted Kaikōura Peninsula by≤∼ 1 m. Uplift in 2016
mainly resulted from slip on an offshore thrust fault (OSTF), modelled to splay from the plate …

With different styles of faulting, the eastern Ionian Sea is an ideal natural laboratory to
investigate interactions between adjacent faults during strong earthquakes. The 2018 M w …