DGSE Lecture—Monday April 6: A Seismic Reflection Image for the Base of a Tectonic Plate

Department of Geological Sciences and Engineering Colloquium Presentation

A Seismic Reflection Image for the Base of a Tectonic Plate
Presented by Dr. John Louie, UNR Professor of Geophysics
Held Monday, April 6, 2015, 4:00 PM
Location: DMS 105 (The Davidson Mathematics and Science Center at UNR):

Abstract: Plate tectonics successfully describes the surface of Earth as a mosaic of moving lithospheric plates. But it is not clear what happens at the base of the plates, the lithosphere–asthenosphere boundary (LAB). The LAB has been well imaged with converted teleseismic waves, whose 10–40-kilometre wavelength controls the structural resolution. Here we use explosion-generated seismic waves (of about 0.5-kilometre wavelength) to form a high-resolution image for the base of an oceanic plate that is subducting beneath North Island, New Zealand. Our 80-kilometre-wide image is based on P-wave reflections and shows an approximately 15° dipping, abrupt, seismic wave-speed transition (less than 1 kilometre thick) at a depth of about 100 kilometres. The boundary is parallel to the top of the plate and seismic attributes indicate a P-wave speed decrease of at least 8 ±3 per cent across it. A parallel reflection event approximately 10 kilometres deeper shows that the decrease in P-wave speed is confined to a channel at the base of the plate, which we interpret as a sheared zone of ponded partial melts or volatiles. This is independent, high-resolution evidence for a low-viscosity channel at the LAB that decouples plates from mantle flow beneath, and allows plate tectonics to work.

A message from Scott McCoy, Assistant Professor, UNR Department of Geological Sciences and Engineering:
Here is John’s recent paper in Nature so you can be ready with good questions: A seismic reflection image for the base of a tectonic plate

Leave a Reply