Environmental and Near Surface Seismology: From Glaciers and Rivers to Engineered Structures and Beyond [Poster]
Environmental seismology is the study of seismic signals generated at and near the surface created by environmental forces in the atmosphere, hydrosphere or solid Earth. Contributions to this session are welcome on a wide variety of topics including --but not limited to-- the seismic signals associated with the microseism, landslides, rock falls, debris flows, lahars, snow avalanches, cliff or pinnacle resonance, river bedload transport, flood events, fluid flow in open and confined channels, water gravity waves or infragravity waves, tides, sea ice variability, glacier stick-slip, iceberg calving, glacier crevassing, subglacial hydrology, hurricanes, tornadoes or anthropogenic sources. Studies focusing on engineering applications are additionally welcome and may include studies of groundwater and remediation, site characterization for geologic and seismic hazard applications, monitoring of critical infrastructure and geotechnical applications. In addition, other processes monitored by seismic waves such as permafrost, groundwater in confined or karst aquifers, glacier mass, using seismometers or DAS (distributed acoustic sensing; fiber-optic seismology) data are welcome. Contributions that seek to conduct monitoring, create physical or statistical models of source processes or systems, detect events, characterize a wave propagation environment or interact with other branches of the Earth or social sciences are additionally encouraged. Submissions running the gamut from site-specific case studies to ongoing methodological advances are warmly welcomed.
Conveners
Bradley P. Lipovsky, Harvard University (brad_lipovsky@fas.harvard.edu); Richard C. Aster, Colorado State University (rick.aster@colostate.edu); Will Levandowski, Tetra Tech, Inc. (will.levandowski@tetratech.com); Jamey Turner, Tetra Tech, Inc. (jamey.turner@tetratech.com)
Poster Presentations
| Participant Role | Details | Action |
|---|---|---|
| Submission | The Influence of Environmental Microseismicity on Detection and Interpretation of Small-Magnitude Events in a Polar Glacier Setting | View |
| Submission | Monte Carlo Simulations of Multiple Scattered Body and Rayleigh Waves in Elastic Media | View |
| Submission | Tidally Induced Icequake Swarms at the Grounded Margins of the Ross Ice Shelf, Antarctica | View |
| Submission | An Improved Method to Compute the High-Frequency Seismograms for Near-Surface Sources, Application to the 2017 Xinmo Landslide | View |
| Submission | Earthquakes and Low-Frequency Signals Recorded From the Great Lakes | View |
| Submission | Time-Lapse Seismic Characterization of Calving Events at Helheim Glacier | View |
| Submission | Detecting Characteristic Microseismic Signals and Precursory Signals Related to the Cavity Roof Stability for Solution Salt Mining in Dingyuan, China | View |
| Submission | Abundant Spontaneous and Dynamically Triggered Submarine Landslides in the Gulf of Mexico | View |
| Submission | Propagation of Symmetric Mode Lamb Waves from the Grounded Margins of the Ross Ice Shelf in Response to Teleseismic S-Wave Arrivals | View |
| Submission | Ocean Seismic Thermometry | View |
| Submission | Geotechnical Characterization and Development of Local Materials: Use of Clay from the Goudomp Department in Construction | View |
| Submission | Sacramento Levee Failure Risk Study | View |
Environmental and Near Surface Seismology: From Glaciers and Rivers to Engineered Structures and Beyond [Poster]
Description