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Gregory P. De Pascale

Universidad de Chile (Chile)
Assistant Professor

Expertise: Seismotectonics, neotectonics, seismic hazard
 
 
About Me Publications
Bachhuber, J. L., De Pascale, G. P., Rathje, E., Little, m., Almond, P., Ruegg, C., & Finnemore, M. (2018, 08). Contemporary and Paleoliquefaction Induced Lateral Spreading in Christchurch New Zealand. Poster Presentation at 2018 SCEC Annual Meeting. SCEC Contribution 8689
De Pascale, G. P., Froude, M., Penna, I., Hermanns, R., Moncada, D., Sepulveda, S., Persico, M., Petley, D., Vargas, G., Murphy, W., & Pairoa, S. (2018, 08). Preliminary geologic slip rates along Andes fastest slipping crustal fault, the Liquiñe-Ofqui Fault Zone (LOFZ), Patagonia, Chile . Poster Presentation at 2018 SCEC Annual Meeting. SCEC Contribution 8265
De Pascale, G. P., Bachhuber, J. L., Rathje, E., Hu, J., Almond, P., Ruegg, C., & Finnemore, M. (2016, 08). Geology of liquefaction-induced lateral spreading, new results from Christchurch, New Zealand. Poster Presentation at 2016 SCEC Annual Meeting. SCEC Contribution 6617
Li, Y., De Pascale, G. P., Quigley, M. C., & Gravley, D. (2014). Fault Damage Zones of the M7.1 Darfield and M6.3 Christchurch Earthquakes Characterized by Fault-Zone Trapped Waves. Tectonophysics, 618, 79-101. doi: 10.1016/j.tecto.2014.01.029. SCEC Contribution 1764
Li, Y., De Pascale, G. P., Quigley, M. C., & Gravely, D. (2013). Subsurface Rock Damage Structure of the M7.1 Darfield and M6.3 Christchurch Earthquake Sequence Viewed with Fault-Zone Trapped Waves (Geophysics Frontiers). Beijing & Boston, : China Higher Education Press & Walter de Gruyter . SCEC Contribution 1696

Last updated Aug 24, 2018.