We present the first images, from active seismic source profiling, for both top and bottom of an oceanic plateau as it undergoes subduction. Active continental margins provide a useful platform from which to conduct seismic experiments to image subducting oceanic lithosphere. This is especially so if the subduction is at a low angle (5-20 degrees), as it is beneath North Island, New Zealand. Here we report results of the SAHKE experiment that was designed to image the locked section of the Hikurangi subduction zone , just north of Wellington city. The on-land section of the SAHKE profile was ~ 90 km long, along which 900 seismographs were distributed. 12 x 500 kg explosive charges were detonated in 50m deep bore holes. Structure for the top of the plate, at a depth of 15-30 km beneath the land surface was well imaged and features a suite of strong reflections that are interpreted to represent a ~ 5 km-thick sequence of low–wave speed sediments/and or serpentinites. We also recorded the Moho reflection from the subducted plate. The thickness of the oceanic crust is calculated to be 10.5 ± 1.5 km, which is about 50% greater than regular oceanic crust. This is significantly less than the ~ 35 km thickness of oceanic crust associated with the Ontong Java plateau, which the Hikurangi Plateau was once thought to be connected to.
Coherent reflections within the 8-20 Hz band were recorded at 27-32 s two-way travel time, which turn out to be from a double band of reflectors at depth of ~ 100 km that dip ~ 12 -15 degrees to the NW, parallel to the top of the plate. We interpret these reflections as marking a ~ 10-km-thick channel of ponded melt that defines the base of the mechanical boundary layer for the ~ 74 km thick plate. This is consistent with the LAB of a thin oceanic plateau, but a mid–lithospheric discontinuity from a thick, old, oceanic plate cannot be ruled out.