Leaders of NSF-funded internship programs (called "Research Experiences for Undergraduates" (REUs)) in the Geosciences Directorate gathered together in San Jose on October 26th and 27th, 2011, for a workshop. The goals of the workshop were to support:
We hope that you will join us and take advantage of this opportunity to network with other REU Principal Investigators, learn new strategies, and more.
View more info at USGS.
Topics of Discussion
UNAVCO stands ready to support responses to this event. Current actions include:
In response to this event, community members are welcome to request support from UNAVCO. Please visit the Community Geophysical Event Response Coordination page.
Relevant Event Data
Community members, please post relevant information about this event at our forum.
Community Geophysical Event Response Coordinator: David Phillips, phillipsunavco.org
Tectonic Setting: East Coast Tremors
Earthquakes in the central and eastern U.S., although less frequent than in the western U.S., are typically felt over a much broader region. East of the Rockies, an earthquake can be felt over an area as much as ten times larger than a similar magnitude earthquake on the west coast. A magnitude 4.0 eastern U.S. earthquake typically can be felt at many places as far as 100 km (60 mi) from where it occurred, and it infrequently causes damage near its source. A magnitude 5.5 eastern U.S. earthquake usually can be felt as far as 500 km (300 mi) from where it occurred, and sometimes causes damage as far away as 40 km (25 mi). (USGS)
U.S. Geological Survey seismologist Susan Hough notes that, "The waves are able to reverberate and travel pretty happily out for miles."
Links and Resources
Figure 1 - Map of Envisat ASAR scenes ordered by UNAVCO. The pair of frames in the southeast are centered over the epicenter, and the northwestern footprint shows the location of the one pre-event scene available, acquired by European Space Agency July 6 and now available in the WInSAR archive. Scenes will be acquired September-December to look for post-seismic changes. These scenes are synthetic aperture radar, and can be used to derive precise topographic maps and detect changes in topography. Images to come from Synthetic Aperture Radar (SAR), a powerful remote sensing system, enabling observations of the Earth’s surface day or night, in all weather conditions from airborne platforms and from space. [View full scale image].
Figure 2 - This USGS Community Internet Intensity Map or 'Felt Map' map shows the earthquake epicenter with color plots depicting the average shake/damage intensity per ZIP code felt by the people who experienced the Virginia earthquake and reported their experience to the USGS. (USGS).
Figure 3 - Virginia earthquake waves ripple across the United States as seen in this USArray Wave Propagation animation. From IRIS, USArray.
Last modified: 2020-02-06 00:23:16 America/Denver