Ignite! Presentations

Click here for all of the Ignite! presentations

Oral Presentations

Plenary Session 1: Exploring Landscape Dynamics with Terrestrial Laser Imaging: From Tectonics to Surface Processes

• S. Day, University of Minnesota
  Using TLS to measure change in fluvial environments [PPTX]
• P. Resor, Wesleyan College
  Imaging fault geometry to learn about earthquake mechanics [PPT]
• F. Gomez, University of Missouri
  Imaging spatial and temporal patterns of Earth sliding with ground-based radar interferometry [PPT]
• B. Douglas, Indiana University
  IIntegration of Terrestrial Laser Scanning (TLS) within a traditional geologic field course: Insights from the Indiana University G429 Program [PPTX]



Plenary Session II: Glaciology, Ice Loss, and Deformation of Solid Earth

• E. Pettit, University of Alaska, Fairbanks
  Learning to love science: The value of a scientist-mentor for teens (Lessons from Girls on Ice) [PPTX]
• T. Bartholomaus, University of Alaska, Fairbanks
  Glaciology, ice loss and deformation of the solid earth [PPTX]
• M. Pritchard, Cornell
  Space-based geodetic imaging of changing icefields: Examples from Patagonia and Alaska [PPT]
• A. Khan, DTU Space
  Greenland ice mass balance from GPS, GRACE and ICESat [PPTX]



Plenary Session III: Hydrogeodesy

• J. Wahr, University of Colorado
  Can GPS horizontals provide useful information about surface loading? Case studies in California and Greenland. [PPT]
• D. Mencin, UNAVCO
  Seiches in Lake Yellowstone [KEY]
• J. Wang, University of Colorado
  Monitoring water vapor variability with GPS from diurnal cycle to long-term trend [PPT]
• E. Small, University of Colorado,
  PBO H₂O: Water cycle studies using the Plate Boundary Observatory [PPT]



Plenary Session IV: High-rate GPS Seismology and Strainmeter Observations

• B. Pratt-Situala, UNAVCO and Central Washington University
  Can GPS horizontals provide useful information about surface loading? Case studies in California and Greenland. [PPTX]
• Y. Bock, Scripps, Next-generation monitoring station for real-time geodetic, seismic and atmospheric applications - Presentation coming soon
• T. Melbourne, Central Washington University
  Real-time GPS in Cascadia and its application to hazards reduction [PPTX]
• E. Roeloffs, USGS
  Observing details of transient aseismic slip with borehole strainmeters [PPTX]



Plenary Session V: Volcanic Processes and Deformation

• M. Poland, HVO
  Opportunities for near-real-time volcano monitoring in the classroom [PPTX]
  M. Poland - Movie 1 [WMV]
  M. Poland - Movie 2 [WMV]
  M. Poland - Movie 3 [WMV]
  
• P. Ludgren, JPL
  Application of InSAR and other geodetic observations to constrain deformation sources at Kilauea volcano [PPTX]
• T. Masterlark, University of Alabama
  Embedding FEMs in inverse analyses of volcano deformation [PPT]
• A. Newman, Georgia Tech
  Renewed unrest at Santorini Volcano, Greece [PPT]



Plenary Session VI: Seafloor Geodesy, Innovative and Collaborative Sea Floor Observing Facilities and Subduction Zones

• T. Ishikawa, JCG
  Seafloor movements associated with the 2011 Tohoku Earthquake detected by GPS/acoustic geodetic observation [PPTX]
• S. Nooner, LDEO
  Measuring vertical deformation of the seafloor using precise water pressure measurements: Results from Axial Seamount [PPTX]
• J. Delaney and W. Wilcock, University of Washington, Seafloor Geodesy using Fiber Optic Cables - Presentation coming soon
• K. Wang and E. Davis, Geological Survey Canada
  Amphibious monitoring of earthquake cycle deformation at subduction zones [PPT]