• Burroughs, S. M., and S. F. Tebbens (2001), Upper-truncated power laws in natural systems, Pure Appl. Geophys., 158, 741757.
  • Cornell, C. A. (1968), Engineering seismic risk analysis, Bull. Seismol. Soc. Am., 58, 15831606.
  • Densmore, A. L., M. A. Ellis, and R. S. Anderson (1998), Landsliding and the evolution of normal-fault-bounded mountains, J. Geophys. Res., 103, 15,20315,219.
  • Dussauge, C., J. Grasso, and A. Helmstetter (2003), Statistical analysis of rockfall volume distributions: Implications for rockfall dynamics, J. Geophys. Res., 108(B6), 2286, doi:10.1029/2001JB000650.
  • Fuyii, Y. (1969), Frequency distribution of the landslides caused by heavy rain-fall, J. Seismol. Soc. Jpn., 22, 244247.
  • Haflidason, H., R. Lien, H. P. Sejrup, C. F. Forsberg, and P. Bryn (2005), The dating and morphometry of the Storegga Slide, Mar. Pet. Geol., 22, 123136.
  • Issler, D., F. V. De Blasio, A. Elverhoi, P. Bryn, and R. Lien (2005), Scaling behaviour of clay-rich submarine debris flows, Mar. Pet. Geol., 22, 187194.
  • Lander, J. F., L. S. Whiteside, and P. A. Lockridge (2002), A brief history of tsunamis in the Caribbean Sea, Sci. Tusnami Hazards, 20, 5794.
  • Lee, H. J., W. C. Schwab, and J. S. Booth (1993), Submarine landslides: An introduction, in Submarine Landslides: Selected Studies in the U. S. Exclusive Economic Zone, edited by W. C. Schwab, H. J. Lee, and D. C. Twichell, U.S. Gov. Print. Off., Washington, D. C.
  • Lynett, P., and P. L.-F. Liu (2002), A numerical study of submarine landslide generated waves and runup, Proc. R. Soc. London, Ser. A., 458, 28852910.
  • Malamud, B. D., D. L. Turcotte, F. Guzzetti, and P. Reichenbach (2004), Landslide inventories and their statistical properties, Earth Surf. Processes Landforms, 29, 687711.
  • Mercado, A., and W. McCann (1998), Numerical simulation of the 1918 Puerto Rico tsunami, Nat. Hazards, 18, 5776.
  • Mercado, A., N. R. Grindlay, P. Lynett, and P. L.-F. Liu (2002), Investigation of the potential tsunami hazard on the north coast of Puerto Rico due to submarine landslides along the Puerto Rico trench, report, 432 pp., Puerto Rico State Emergency Manage. Agency and Sea Grant Coll. Program, San Juan.
  • Piper, D. J. W., P. Cochonat, and M. L. Morrison (1999), The sequence of events around the epicentre of the 1929 Grand Banks earthquake: Initiation of debris flows and turbidity current inferred from sidescan sonar, Sedimentology, 46, 7997.
  • Rundle, J. B., D. L. Turcotte, R. Shcherbakov, W. Klein, and C. Sammis (2003), Statistical physics approach to understanding the multiscale dynamics of earthquake fault systems, Rev. Geophys., 41(4), 1019, doi:10.1029/2003RG000135.
  • Satake, K., and Y. Tanioka (2003), The July 1998 Papua New Guinea earthquake: Mechanism and quanitification of unusual tsunami generation, Pure Appl. Geophys., 160, 20872118.
  • Schwab, W. C., W. W. Danforth, K. M. Scanlon, and D. G. Masson (1991), A giant submarine slope failure on the northern insular slope of Puerto Rico, Mar. Geol., 96, 237246.
  • Simonett, D. S. (1967), Landslide distribution and earthquakes in the Bewani and Torricelli Mountains, New Guinea, in Landform Studies From Australia and New Guinea, edited by J. N. Jennings, and J. A. Mabbutt, Cambridge Univ. Press, New York.
  • Stark, C. P., and N. Hovius (2001), The characterization of landslide size distributions, Geophys. Res. Lett., 28, 10911094.
  • Sugai, T., H. Ohmori, and M. Hirano (1994), Rock control on magnitude-frequency distribution of landslides, Trans. Jpn. Geomorphol. Union, 15, 233251.
  • ten Brink, U. (2005), Vertical motions of the Puerto Rico Trench and Puerto Rico and their cause, J. Geophys. Res., 110, B06404, doi:10.1029/2004JB003459.
  • ten Brink, U. S., W. W. Danforth, C. Polloni, B. Andrews, P. Llanes, S. V. Smith, E. Parker, and T. Uozumi (2004), New sea floor map of the Puerto Rico trench helps assess earthquake and tsunami hazards, Eos Trans. AGU, 85(37), 349, 354.
  • ten Brink, U. S., E. L. Geist, P. Lynett, and B. Andrews (2006), Submarine slides north of Puerto Rico and their tsunami potential, in Caribbean Tsunami Hazard, edited by A. Mercado, and P. L.-F. Liu, World Sci., Hackensack, N. J.
  • Trifunac, M. D., A. Hayir, and M. I. Todorovska (2003), A note on tsunami caused by submarine slides and slumps spreading in one dimension with nonuniform displacement amplitudes, Soil Dyn. Earthquake Eng., 23, 223234.
  • van Gestel, J.-P., P. Mann, N. R. Grindlay, and J. F. Dolan (1999), Three-phase tectonic evolution of the northern margin of Puerto Rico as inferred from an integration of seismic reflection, well, and outcrop data, Mar. Geol., 161, 259288.
  • Varnes, D. J. (1978), Slope movements: Types and processes, in Landslide Analysis and Control, edited by R. L. Schuster, and R. J. Krizek, Spec. Rep. 176, pp. 1133, Transp. Res. Board, Natl. Acad. Sci., Washington, D. C.
  • Ward, S. N. (2001), Landslide tsunami, J. Geophys. Res., 106, 11,20111,215.