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Stocchi, P., Spada, G., (2009), "Influence of glacial isostatic adjustment upon current sea level variations in the Mediterranean", Tectonophysics, 474, 1-2: pg: 56--68, (DOI: 10.1016/j.tecto.2009.01.003). Cited by:
Stocchi, P., Vacchi, M., Lorscheid, T., Boer, B., Simms, A. R., Wal, R. S. W., Vermeersen, B. L. A., Pappalardo, M., Rovere, A., (2018), "MIS 5e relative sea-level changes in the Mediterranean Sea: Contribution of isostatic disequilibrium", Quaternary Science Reviews, 185: pg: 122--134, (DOI: 10.1016/j.quascirev.2018.01.004). Cited by:
Sorensen, L. S., Simonsen, S. B., Nielsen, K., Lucas-Picher, P., Spada, G., Adalgeirsdottir, G., Forsberg, R., Hvidberg, C. S., (2011), "Mass balance of the Greenland ice sheet (2003-2008) from ICESat data -- the impact of interpolation, sampling and firn density", The Cryosphere, 5, 1: pg: 173--186, (DOI: 10.5194/tc-5-173-2011). Cited by:
Toker, E., Sivan, D., Stern, E., Shirman, B., Tsimplis, M., Spada, G., (2012), "Evidence for centennial scale sea level variability during the Medieval Climate Optimum (Crusader Period) in Israel, eastern Mediterranean", Earth and Planetary Science Letters, 315-316: pg: 51--61, (DOI: 10.1016/j.epsl.2011.07.019). Cited by:
Tsimplis, M., Spada, G., Marcos, M., Flemming, N., (2011), "Multi-decadal sea level trends and land movements in the Mediterranean Sea with estimates of factors perturbing tide gauge data and cumulative uncertainties", Global and Planetary Change, 76, 1-2: pg: 63--76, (DOI: 10.1016/j.gloplacha.2010.12.002). Cited by:
Tuccimei, P., Onac, B. P., Dorale, J. A., Gines, J., Fornos, J. J., Gines, A., Spada, G., Ruggieri, G., Mucedda, M., (2012), "Decoding last interglacial sea-level variations in the western Mediterranean using speleothem encrustations from coastal caves in Mallorca and Sardinia: A field data -- model comparison", Quaternary International, 262: pg: 56--64, (DOI: 10.1016/j.quaint.2011.10.032). Cited by:
Vacchi, M., Ghilardi, M., Spada, G., Curras, A., Robresco, S., (2016), "New insights into the sea-level evolution in Corsica (NW Mediterranean) since the late Neolithic", Journal of Archaeological Science: Reports, 12: pg: 782--793, (DOI: 10.1016/j.jasrep.2016.07.006). Cited by:
Vacchi, M., Marriner, N., Morhange, C., Spada, G., Fontana, A., Rovere, A., (2016), "Multiproxy assessment of Holocene relative sea-level changes in the western Mediterranean: Sea-level variability and improvements in the definition of the isostatic signal", Earth-Science Reviews, 155: pg: 172--197, (DOI: 10.1016/j.earscirev.2016.02.002). Cited by:
Vacchi, M., Russo Ermolli, E., Morhange, C., Ruello, M. R., Di Donato, V., Di Vito, M. A., Giampaola, D., Carsana, V., Liuzza, V., Cinque, A., Boetto, G., Poveda, P., Boenzi, G., Marriner, N., (2020), "Millennial variability of rates of sea-level rise in the ancient harbour of Naples (Italy, western Mediterranean Sea)", 2019/11/08, Cambridge University Press: pg: 1--15, (DOI: 10.1017/qua.2019.60). Cited by:
Vilibic, I., Sepic, J., Pasaric, M., Orlic, M., (2017), "The Adriatic Sea: A Long-Standing Laboratory for Sea Level Studies", Pure and Applied Geophysics, 174: pg: 3765--3811, (DOI: 10.1007/s00024-017-1625-8). Cited by:
Woppelmann, G., Marcos, M., (2012), "Coastal sea level rise in southern Europe and the nonclimate contribution of vertical land motion", Journal of Geophysical Research: Oceans, 117, C1: pg: C01007, (DOI: 10.1029/2011JC007469). Cited by:
Yasur-Landau, Assaf, Shtienberg, Gilad, Gambash, Gil, Spada, Giorgio, Melini, Daniele, Arkin-Shalev, Ehud, Tamberino, Anthony, Reese, Jack, Levy, Thomas E., Sivan, Dorit, (2021), "New relative sea-level (RSL) indications from the Eastern Mediterranean: Middle Bronze Age to the Roman period (\^A~3800-1800 y BP) archaeological constructions at Dor, the Carmel coast, Israel", Plos One, Public Library of Science, 16, 6: pg: 1--25, (DOI: 10.1371/journal.pone.0251870). Cited by:
Heien, E. M., Sachs, M., (2012), "Understanding Long-Term Earthquake Behavior through Simulation", Computing in Science & Engineering, 14, 5: pg: 10--20, (DOI: 10.1109/MCSE.2012.39). Cited by:
Heien, E. M., Sachs, M. K., Schultz, K. W., Rundle, J. B., (2016), "Virtual Quake v2.1.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Heien, E. M., Sachs, M. K., Schultz, K. W., Rundle, J. B., (2016), "Virtual Quake v2.1.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Heien, E. M., Sachs, M. K., Schultz, K. W., Rundle, J. B., (2016), "Virtual Quake v3.0.0 [software]", Computational Infrastructure for Geodynamics: (DOI: 10.5281/zenodo.569886). Cited by:
Damasceno, Rafael Ricardo, (2020), "Co-Simulation Architecture for Environmental Disturbances", Universidade do Porto, Portugal: . Cited by:
Heien, E. M., Sachs, M. K., Schultz, K. W., Rundle, J. B., (2015), "Virtual Quake v2.0.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Heien, E. M., Sachs, M. K., Schultz, K. W., Rundle, J. B., (2015), "Virtual Quake v2.1.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Heien, E. M., Sachs, M. K., Schultz, K. W., Rundle, J. B., (2014), "Virtual Quake v1.0.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Heien, E. M., Sachs, M. K., Schultz, K. W., Rundle, J. B., (2014), "Virtual Quake v1.1.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:
K.W. Schultz, E. M. Heien, (2016), "Virtual Quake User Manual, Version 3.0.0", Computational Infrastructure for Geodynamics, Davis, CA: . Cited by:
Kasey W. Schultz, Michael K. Sachs, Manabu Hashimoto (2017), "Virtual Quake: Statistics, Co-seismic Deformations and Gravity Changes for Driven Earthquake Fault Systems", Springer International Publishing, 145: pg: 29--37, 978-3-319-39768-9, (DOI: 10.1007/1345_2015_134). Cited by:
Khodaverdian, A., Zafarani, H., Rahimian, M., (2015), "Long term fault slip rates, distributed deformation rates and forecast of seismicity in the Iranian Plateau", Tectonics, 34, 10: pg: 2190--2220, (DOI: 10.1002/2014TC003796). Cited by:
Khodaverdian, A., Zafarani, H., Schultz, K. W., Rahimian, M., (2016), "Recurrence Time Distributions of Large Earthquakes in Eastern Iran", Bulletin of the Seismological Society of America, 106, 6: pg: 2624--2639, (DOI: 10.1785/0120160077). Cited by:
Limnios, N., Papadimitriou, E., Tsaklidis, G., (2021), "Statistical Methods and Modeling of Seismogenesis", Wiley: 9781789450378, . Cited by:
Max Wilson, J., Schultz, K. W., Grzan, D., Rundle, J. B., Ward, S. N., Bhaskar, R., Saeed, O., Kaushal, H., (2019), "Tsunami Squares Simulation of Megathrust-Generated Waves: Application to the 2011 Tohoku Tsunami", Progress in Disaster Science, : pg: 100063, (DOI: 10.1016/j.pdisas.2019.100063). Cited by:
Rundle, J., Stein, S., Donnellan, A., Turcotte, D. L., Klein, W., Saylor, C., (2021), "The Complex Dynamics of Earthquake Fault Systems: New Approaches to Forecasting and Nowcasting of Earthquakes", Reports on Progress in Physics, : . Cited by:
Rundle, J. B., Rundle, P. B., Donnellan, A., Turcotte, D. L., Shcherbakov, R., Li, P., Malamud, B. D., Grant, L. B., Fox, G. C., McLeod, D., Yakovlev, G., Parker, J., Klein, W., Tiampo, K. F., (2005), "A simulation-based approach to forecasting the next great San Francisco earthquake", Proceedings of the National Academy of Sciences, 102, 43: pg: 15363--15367, (DOI: 10.1073/pnas.0507528102). Cited by:
Rundle, P. B., Rundle, J. B., Tiampo, K. F., Donnellan, A., Turcotte, D. L., (2006), "Virtual California: Fault Model, Frictional Parameters, Applications", Pure and Applied Geophysics, 163, 9: pg: 1819--1846, (DOI: 10.1007/s00024-006-0099-x). Cited by:
Sachs, M. K., Heien, E. M., Turcotte, D. L., Yikilmaz, M. B., Rundle, J. B., Kellogg, L. H., (2012), "Virtual California Earthquake Simulator", Seismological Research Letters, 83, 6: pg: 973--978, (DOI: 10.1785/0220120052). Cited by:
Schultz, K. W., Sachs, M. K., Heien, E. M., Rundle, J. B., Turcotte, D. L., Donnellan, A., (2016), "Simulating Gravity Changes in Topologically Realistic Driven Earthquake Fault Systems: First Results", Pure and Applied Geophysics, 173, 3: pg: 827--838, (DOI: 10.1007/s00024-014-0926-4). Cited by:
Schultz, K. W., Sachs, M. K., Heien, E. M., Rundle, J. B., Turcotte, D. L., Donnellan, A., (2016), "Simulating Gravity Changes in Topologically Realistic Driven Earthquake Fault Systems: First Results", Pure and Applied Geophysics, 173, 3: pg: 827--838, (DOI: 10.1007/s00024-014-0926-4). Cited by:
Schultz, K. W., Sachs, M. K., Yoder, M. R., Rundle, J. B., Turcotte, D. L., Heien, E. M., Donnellan, A., (2015), "Virtual Quake: Statistics, Co-seismic Deformations and Gravity Changes for Driven Earthquake Fault Systems", International Association of Geodesy Symposia, Springer Berlin Heidelberg, Berlin, Heidelberg: pg: 1--9, (DOI: 10.1007/1345_2015_134). Cited by:
Schultz, K. W., Yoder, M. R., Wilson, J. M., Heien, E. M., Sachs, M. K., Rundle, J. B., Turcotte, D. L., (2017), "Parametrizing Physics-Based Earthquake Simulations", Pure and Applied Geophysics, 174, 6: pg: 2269--2278, (DOI: 10.1007/s00024-016-1428-3). Cited by:
Sengupta, P., Nguyen, J., Kwan, J., Menon, P. K., Heien, E. M., Rundle, J. B., (2015), "Accelerating earthquake simulations on general-purpose graphics processors: Accelerating Earthquake Simulations on General-Purpose Graphics Processors", Concurrency and Computation: Practice and Experience, 27, 17: pg: 5460--5471, (DOI: 10.1002/cpe.3618). Cited by:
Sengupta, P., Nguyen, J., Kwan, J., Menon, P. K., Heien, E. M., Rundle, J. B., (2015), "Accelerating earthquake simulations on general-purpose graphics processors: Accelerating Earthquake Simulations on General-Purpose Graphics Processors", Concurrency and Computation: Practice and Experience, 27, 17: pg: 5460--5471, (DOI: 10.1002/cpe.3618). Cited by:
Tullis, T. E., Richards-Dinger, K., Barall, M., Dieterich, J. H., Field, E. H., Heien, E. M., Kellogg, L. H., Pollitz, F. F., Rundle, J. B., Sachs, M. K., Turcotte, D. L., Ward, S. N., Burak Yikilmaz, M., (2012), "A Comparison among Observations and Earthquake Simulator Results for the allcal2 California Fault Model", Seismological Research Letters, 83, 6: pg: 994--1006, (DOI: 10.1785/0220120094). Cited by:
Wilson J.M., Schultz, Heien, E. M., Sachs, M. K., Yoder, M. R., Rundle, J. B., Turcotte, D. L., (2017), "Virtual Quake User Manual, Version 3.1.0", Computational Infrastructure for Geodynamics, Davis, CA: . Cited by:
Wilson, J. M., Schultz, K., Heien, E., Sachs, M., Rundle, J., (2017), "Virtual Quake v3.1.0", : (DOI: 10.5281/zenodo.569592). Cited by:
Wilson, J. M., Schultz, K., Heien, E., Sachs, M., Rundle, J., (2017), "Virtual Quake v3.1.1", : (DOI: 10.5281/zenodo.1098321). Cited by:
Wilson, J. M., Yoder, M. R., Rundle, J. B., Turcotte, D. L., Schultz, K. W., (2016), "Spatial Evaluation and Verification of Earthquake Simulators", Pure and Applied Geophysics, 1: pg: 85--99, (DOI: 10.1007/s00024-016-1385-x). Cited by:
Yakovlev, G., Turcotte, D. L., Rundle, J. B., Rundle, P. B., (2006), "Simulation-Based Distributions of Earthquake Recurrence Times on the San Andreas Fault System", Bulletin of the Seismological Society of America, 96, 6: pg: 1995--2007, (DOI: 10.1785/0120050183). Cited by:
Yikilmaz, M. B., Heien, E. M., Turcotte, D. L., Rundle, J. B., Kellogg, L. H., (2011), "A fault and seismicity based composite simulation in northern California", Nonlinear Processes in Geophysics, 18, 6: pg: 955--966, (DOI: 10.5194/npg-18-955-2011). Cited by:
Yikilmaz, M. B., Turcotte, D. L., Heien, E. M., Kellogg, L. H., Rundle, J. B., (2015), "Critical Jump Distance for Propagating Earthquake Ruptures Across Step-Overs", Pure and Applied Geophysics, 172, 8: pg: 2195--2201, (DOI: 10.1007/s00024-014-0786-y). Cited by:
Yikilmaz, M. B., Turcotte, D. L., Yakovlev, G., Rundle, J. B., Kellogg, L. H., (2010), "Virtual California earthquake simulations: simple models and their application to an observed sequence of earthquakes", Geophysical Journal International, 180, 2: pg: 734--742, (DOI: 10.1111/j.1365-246X.2009.04435.x). Cited by:
Yoder, M. R., Schultz, K. W., Heien, E. M., Rundle, J. B., Turcotte, D. L., Parker, J. W., Donnellan, A., (2015), "The Virtual Quake earthquake simulator: a simulation-based forecast of the El Mayor-Cucapah region and evidence of predictability in simulated earthquake sequences", Geophysical Journal International, 203, 3: pg: 1587--1604, (DOI: 10.1093/gji/ggv320). Cited by:
Agata, R., Ichimura, T., Hori, T., Hirahara, K., Hashimoto, C., Hori, M., (2017), "An adjoint-based simultaneous estimation method of the asthenosphere's viscosity and afterslip using a fast and scalable finite element adjoint solver", Geophysical Journal International, 213, 1: pg: 461--474, (DOI: 10.1093/gji/ggx561). Cited by:
Gualandi, A., Liu, Z., Rollins, C., (2019), "Post-large earthquake seismic activities mediated by aseismic deformation processes", Earth and Planetary Science Letters, 530: pg: 115870, (DOI: 10.1016/j.epsl.2019.115870). Cited by:
Hetland, E. A., Zhang, G., (2014), "Effect of shear zones on post-seismic deformation with application to the 1997 Mw 7.6 Manyi earthquake", Geophysical Journal International, 198, 1: pg: 259--269, (DOI: 10.1093/gji/ggu127). Cited by:
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