Mysterious motions along the Pacific Northwest Coast—Investigating Episodic Tremor and Slip

Resource 8 Related Resources Animations Lessons Mysterious motions along the Pacific Northwest Coast—Investigating Episodic Tremor and Slip 59min Intermediate Resource Files Student Worksheet Student Worksheet ANSWER KEY Instructor's Guide Download All 5MB Optional Files 1 Episodic Tremor & Slip Overview What is causing the PNW coastal areas to move? In this lab, students investigate mysterious ground motions along the Pacific Northwest Coast. The investigation begins as students familiarize themselves with the tectonic setting of the Pacific Northwest coastal region . Next, students explore and explain the movement of the Cape Mendocino, CA region that occurred on April 25th, 1992 using data (vector) from high-precision Global Positioning System (GPS) stations and earthquake location data. This case is contrasted with movement recorded by GPS (time-series) in British Columbia from 2004 to 2011. Finally, students investigate a model to explain the GPS time series data for the British Columbia region. The development of this resources was funded by the National Science Foundation via Award # 0942518 Objectives: Students will be able to… Describe the process of Episodic Tremor and Slip and contrast this with the traditional earthquake cycle or Elastic Rebound Theory. Demonstrate how GPS and seismic observations support our understanding of Episodic Tremor and Slip Describe the seismic hazard created as the Juan de Fuca plate subducts beneath the North American plate.  Related Animations Plate Boundary: Convergent margin The subduction zone iswhere two tectonic (lithospheric) plates come together, one subducting (diving) beneath the other. The plates are locked together and periodically overcome the friction causing the leading edge of the overlying plate to surge back, lifting a wall of water producting a tsunami. Animation Novice Subduction Zone: Simplified model of elastic rebound Oblique view of a highly generalized animation of a subduction zone where an oceanic plate is subducting beneath a continental plate. (See sketch below for parts.) This scenario can happen repeatedly on a 100-500 year cycle. The process which produces a mega-thrust earthquake would generate a tsunami, not depicted here. Animation Novice GPS Records Variable Deformation across a Subduction Zone Subduction zones show that there are 3 distinct areas of movement in the overlying plate: constant movement above the locked leading edge, see-saw pattern of back-&-forth movement above a zone that alternately locks then slips, and no movement far inland above the deeper part of the diving oceanic plate. Animation Novice GPS Measures Deformation in Subduction Zone: Island Arc Setting  GPS records the movement of the leading edge of the overlying continental plate in a subduction zone. The plates are locked and the overlying plate is forced back. When friction is overcome and strain is released, the GPS receiver will snap back toward its original position.  Animation Novice Subduction Zone: Tsunamis Generated by Megathrust Earthquakes Subduction-zone megathrust earthquakes, the most powerful earthquakes in the world, can produce tsunamis through a variety of structures that are missed by simple models including: fault boundary rupture, deformation of overlying plate, splay faults and landslides. From a hazards viewpoint, it is critical to remember that tsunamis are multiple waves that often arrive on shore for many hours after the initial wave. Animation Novice Earthquake Early Warning: Pacific Northwest subduction zone This animation by UNAVCO shows us how an earthquake warning system uses existing seismic networks to detect moderate to large earthquakes. Computers, communications technology, and alarms are devised to notify the public while an earthquake is in progress. Animation Novice Pacific Northwest: Three types of tectonic earthquakes It is common knowledge that the Pacific Northwest can expect a subduction-zone megathrust earthquake in the future.  But did you know that there are other types of damaging earthquakes.  This animation uses analogies and cartoon block diagrams to teach about the three types of earthquakes. Animation Novice Related Lessons Seismology Special Issue: The Earth Scientist (2011) In the Spring of 2011, the IRIS Consortium's EPO program guest edited a special seismology themed issue of The Earth Scientist. The Earth Scientist is the journal of the National Earth Science Teachers Association. Lesson Novice