Search Results:

1968 to Present Title contains all words: TSUNAMI

Cont. #: 4236 Admire, A.R., L.A. Dengler, G.B. Crawford, B.U. Uslu, J.C. Borrero, S.D. Greer, and R.I. Wilson (2014): Observed and modeled currents from the Tohoku-oki, Japan and other recent tsunamis in Northern California. Pure Appl. Geophys., 171(12), 3385–3403, doi: 10.1007/s00024-014-0797-8.

Cont. #: 5166 Alvarado, L., D. Arcas, P. Arreaga Vargas, K. Chunga, B. Crowell, V. Dionicio, Y. Kumagai, G. Lopez, C. Martillo, H. Meyer, P. Mothes, S. Noboa, W. Rentería, E. Ruben Sanclemente, R. Sanchez, S. Vaca, and T. Toulkeridis (2021): Expert meeting on tsunami sources, hazards, risk and uncertainties associated with the Colombia-Ecuador Subduction Zone. IOC Workshop Report 295, UNESCO–Intergovernmental Oceanographic Commission, Guayaquil, Ecuador, January 27–29, 2019, 45 pp, https://unesdoc.unesco.org/ark:/48223/pf0000376784.

Cont. #: 4987 Angove, M., D. Arcas, R. Bailey, P. Carrasco, D. Coetzee, B. Fry, K. Gledhill, S. Harada, C. von Hillebrandt-Andrade, L. Kong, C. McCreery, S.-J. McCurrach, Y. Miao, A.E. Sakya, and F. Schindelé (2019): Ocean observations required to minimize uncertainty in global tsunami forecasts, warnings, and emergency response. Front. Mar. Sci., 6, 350, Oceanobs19: An Ocean of Opportunity, doi: 10.3389/fmars.2019.00350, View online.

Cont. #: 5045 Angove, M., L. Kozlosky, P. Chu, G. Dusek, G. Mann, E. Anderson, J. Gridley, D. Arcas, V. Titov, M. Eble, K. McMahon, B. Hirsch, and W. Zaleski (2021): Addressing the meteotsunami risk in the United States. Nat. Hazards, 106(2), 1467–1487, doi: 10.1007/s11069-020-04499-3, View online (open access).

Cont. #: 3630 Arcas, D, and Y Wei (2011): Evaluation of velocity-related approximations in the non-linear shallow water equations for the Kuril Islands, 2006 tsunami event at Honolulu, Hawaii. Geophys. Res. Lett., 38, L12608, 6 pp, doi: 10.1029/2011GL047083.

Cont. #: 3277 Arcas, D. (2009): Tsunamis. 351 pp, In Ocean: An illustrated atlas, S.A. Earle and L.K. Glover (eds.), National Geographic Society.

Cont. #: 3406 Arcas, D. (2015): A Tsunami Forecast Model for Santa Monica, California. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 9, 136 pp, doi: 10.7289/V5D50JX8, Available online.

Cont. #: 4069 Arcas, D., E. Gica, and V. Titov (2020): Tsunami Inundation Modeling of San Juan Islands, Washington, due to a Cascadia Subduction Zone Earthquake. NOAA Tech. Memo. OAR PMEL-151, 40 pp, doi: 10.25923/wdbz-jw97. [PDF Version]

Cont. #: 3794 Arcas, D., and H. Segur (2012): Seismically generated tsunamis. Philos. Trans. R. Soc. Lond. A, 370(1964), 1505–1542, doi: 10.1098/rsta.2011.0457.

Cont. #: 2933 Arcas, D., and V. Titov (2006): Sumatra tsunami: lessons from modeling. Surv. Geophys., 27(6), 679–705, doi: 10.1007/s10712-006-9012-5.

Cont. #: 3341 Arcas, D., and B. Uslu (2010): A Tsunami Forecast Model for Crescent City, California. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 2, 112 pp. [PDF Version]

Cont. #: 3635 Atwater, B.F., U.S. ten Brink, M. Buckley, R.S. Halley, B. Jaffe, A.M. López-Venegas, E.G. Reinhardt, M.P. Tuttle, S. Watt, and Y. Wei (2012): Geomorphic and stratigraphic evidence for an unusual tsunami or storm a few centuries ago at Anegada, British Virgin Islands. Nat. Hazards, 63(1), 51–84, doi: 10.1007/s11069-010-9622-6.

Cont. #: 3062 Bahlburg, H., and R. Weiss (2007): Sedimentology of the December 26, 2004, Sumatra Tsunami deposits in eastern India (Tamil Nadu) and Kenya. Int. J. Earth Sci., 96(6), 1195–1209, doi: 10.1007/s00531-006-0148-9.

Cont. #: 3427 Barberopoulou, A., J.C. Borrero, B. Uslu, N. Kalligeris, J.D. Goltz, R.I. Wilson, and C.E. Synolakis (2009): New maps of California to improve tsunami preparedness. Eos Trans. AGU, 90(16), 137–144, doi: 10.1029/2009EO160001.

Cont. #: 3737 Barberopoulou, A., J.C. Borrero, B. Uslu, M. Legg, and C. Synolakis (2011): A second generation of tsunami inundation maps for the state of California. Pure Appl. Geophys., 168(11), 2133–2146, doi: 10.1007/s00024-011-0293-3.

Cont. #: 4364 Barberopoulou, A., M.R. Legg, and E. Gica (2015): Time evolution of man-made harbour modifications in San Diego: Effects on tsunamis. J. Mar. Sci. Eng., 3(4), 1382-1403, doi: 10.3390/jmse3041382.

Cont. #: 3708 Barberopoulou, A., M.R. Legg, E. Gica, and G. Legg (2014): Multiple wave arrivals contribute to damage and tsunami duration on the US West Coast. In Tsunami Events and Lessons Learned, Environmental and Societal Significance, Y.A. Kontar, V. Santiago-Fandiño, T. Takahashi (ed.), Advances in Natural and Technological Hazards Research, Vol. 35, Springer Netherlands, 359–376, doi: 10.1007/978-94-007-7269-4_20, ISBN: 978-94-007-7268-7 (Print) 978-94-007-7269-4 (Online).

Cont. #: 3663 Barberopoulou, A., M.R. Legg, B. Uslu, and C.E. Synolakis (2011): Reassessing the tsunami risk in major ports and harbors of California I: San Diego. Nat. Hazards, 58(1), 479–496, doi: 10.1007/s11069-010-9681-8.

Cont. #: 3483 Barberopoulou, A., B. Uslu, and L. Dengler (2008): Lessons for California from the November 2006 tsunami in Crescent City, California. In Solutions to Coastal Disasters 2008: Tsunamis, Wallendorf, L., L. Ewing, C. Jones, and B. Jaffe (eds.), ASCE, Oahu, HI, 13–16 April 2008, 192–203., http://link.aip.org/link/?ASC/313/18/1, doi: 10.1061/40978(313)18.

Cont. #: 3871 Bernard, E. (2012): Thirteenth Annual Roger Revelle Commemorative Lecture—Tsunamis: Are we underestimating the risk? Oceanography, 25(2), 208–218, doi: 10.5670/oceanog.2012.60.

Cont. #: 3168 Bernard, E., C. Maier, C. McCreery, S.J. McLean, J.M. Rhoades, and P.M. Whitmore (2008): NOAA's Tsunami Program 2008–2017 Strategic Plan. NOAA Technical Memorandum NWS-95, 29 pp. [PDF Version]

Cont. #: 3802 Bernard, E., and C. Meinig (2011): History and future of deep-ocean tsunami measurements. In Proceedings of Oceans' 11 MTS/IEEE, Kona, IEEE, Piscataway, NJ, 19–22 September 2011, 7 pp, No. 6106894. [PDF Version]

Cont. #: 5474 Bernard, E., C. Meinig, V.V. Titov, and Y. Wei (2023): 50 years of PMEL tsunami research and development. Oceanography, 36(2–3), 175–185, doi: 10.5670/oceanog.2023.208, View open access article online at Oceanography (external link).

Cont. #: 4009 Bernard, E., L. Tang, Y. Wei, and V. Titov (2014): Impact of near-field, deep-ocean tsunami observations on forecasting the 7 December 2012 Japanese tsunami. Pure Appl. Geophys., 171(12), 3483–3491, doi: 10.1007/s00024-013-0720-8.

Cont. #: 4271 Bernard, E., and V.V. Titov (2015): Evolution of tsunami warning systems and products. Philos. Trans. R. Soc. Lond. A, 373(2053), 20140371, doi: 10.1098/rsta.2014.0371.

Cont. #: 230 Bernard, E.N. (1976): A numerical study of the tsunami response of the Hawaiian Islands. Hawaii Institute of Geophysics and Joint Tsunami Research Effort Report, NOAA-JTRE-167 and HIB-76-6, 73 pp. [PDF Version]

Cont. #: 622 Bernard, E.N. (1983): A tsunami research plan for the United States. Earthquake Engineering Research Institute, 17, 13–26.

Cont. #: 1224 Bernard, E.N. (1989): Early warning system for tsunamis is tested successfully in Chile. Water Res. J., September 1989, 66–69.

Cont. #: 1225 Bernard, E.N. (1989): Early warning system for tsunamis is tested successfully in Chile. Earth in Space, 1(9), 7–10.

Cont. #: 1874 Bernard, E.N. (1997): Reducing tsunami hazards along U.S. coastlines. In Perspectives on Tsunami Hazards Reduction, G. Hebenstreit (ed.), Kluwer Academic Publishers, 189–203.

Cont. #: 1902 Bernard, E.N. (1998): Program aims to reduce impact of tsunamis on Pacific states. Eos Trans. AGU, 79(22), 258, 262–263, doi: 10.1029/98EO00191.

Cont. #: 2032 Bernard, E.N. (1998): Program aims to reduce impact of tsunamis on Pacific states. Earth in Space, 11(2), 6–10, 14.

Cont. #: 2069 Bernard, E.N. (1999): Tsunami. In Natural Disaster Management, Tudor Rose, Leicester, England, 58–60.

Cont. #: 2169 Bernard, E.N. (2001): Recent developments in tsunami hazard mitigation. In Tsunami Research at the End of a Critical Decade, G.T. Hebenstreit (ed.), Kluwer Academic Publishers, 7–15.

Cont. #: 2384 Bernard, E.N. (2001): The U.S. National Tsunami Hazard Mitigation Program Summary. In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), NTHMP Review Session, R-1, Seattle, WA, 7–10 August 2001, 21–27, (on CD-ROM). [Full Text]

Cont. #: 2388 Bernard, E.N. (2001): Tsunami: Reduction Of Impacts through three Key Actions (TROIKA). In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), Session 1-1, Seattle, WA, 7–10 August 2001, 247–262, (on CD-ROM). [Full Text]

Cont. #: 2432 Bernard, E.N. (2002): The U.S. National Tsunami Hazard Mitigation Program. In Proceedings of Solutions to Coastal Disasters '02, L. Ewing and L. Wallendorf (eds.), ASCE, San Diego, CA, 24–27 February 2002, 964–971.

Cont. #: 2480 Bernard, E.N. (2002): Tsunami. In McGraw-Hill Encyclopedia of Science and Technology, 18, 681–683.

Cont. #: 2661 Bernard, E.N. (2005): The U.S. National Tsunami Hazard Mitigation Program: A successful state–federal partnership. Nat. Hazards, 35(1), Special Issue, U.S. National Tsunami Hazard Mitigation Program, 5–24, doi: 10.1007/s11069-004-2401-5.

Cont. #: 3140 Bernard, E.N. (2007): Modeling the December 26, 2004, Sumatra Tsunami. 266–268, In An Introduction to the World's Oceans, Sverdrup, K.A., and E.V. Armbrust (eds.), 9th Edition, Chapter 10, The Waves, McGraw Hill.

Cont. #: 3321 Bernard, E.N. (2008): The tsunami-resilient coastal community. J. Earthq. Tsunami, 2(4), 279–285, doi: 10.1142/S1793431108000359.

Cont. #: 2977 Bernard, E.N. (2015): Tsunami. AccessScience, McGraw-Hill Encyclopedia of Science and Technology, McGraw-Hill, doi: 10.1036/1097-8542.713200, View online.

Cont. #: 776 Bernard, E.N., and R.R. Behn (1985): Regional Tsunami Warning System (THRUST). In Proceedings of the International Tsunami Symposium, Victoria, B.C., 6–9 August 1985, 94–102.

Cont. #: 816 Bernard, E.N., and R.R. Behn (1986): Regional Tsunami Warning System (THRUST). In Proceedings of the 17th Joint Panel Meeting of the U.S.-Japan Cooperative Program in Wind and Seismic Effects, NBS IR 86-3364, National Bureau of Standards, 644–649.

Cont. #: 997 Bernard, E.N., R.R. Behn, G.T. Hebenstreit, F.I. González, P. Krumpe, J.F. Lander, E. Lorca, P.M. McManamon, and H.B. Milburn (1988): On mitigating rapid onset natural disasters: Project THRUST (Tsunami Hazards Reduction Utilizing Systems Technology). Eos Trans. AGU, 69(24), 649–661, doi: 10.1029/88EO00208.

Cont. #: 1226 Bernard, E.N., R.R. Behn, G.T. Hebenstreit, F.I. González, P. Krumpe, J.F. Lander, E. Lorca, P.M. McManamon, and H.B. Milburn (1990): On mitigating rapid onset natural disasters: Project THRUST (Tsunami Hazards Reduction Utilizing Systems Technology). In Proceedings of Workshop XLVI, The 7th U.S.-Japan Seminar on Earthquake Prediction, USGS Open-File Report 90-98, Menlo Park, CA, 12–15 September 1988, 125–130.

Cont. #: 1043 Bernard, E.N., R.R. Behn, and H.B. Milburn (1988): A tsunami early warning system—Summary. In Proceedings of the International Tsunami Symposium, International Union of Geodesy and Geophysics, Vancouver, B.C., Canada, 18–19 August 1987, 276–290.

Cont. #: 3043 Bernard, E.N., L. Dengler, and S. Yim (2007): National Tsunami Research Plan: Report of a workshop sponsored by NSF/NOAA. NOAA Tech. Memo. OAR PMEL-133, NTIS: PB2007-107302, 135 pp. [PDF Version]

Cont. #: 1511 Bernard, E.N., and F.I. González (1994): Tsunami Inundation Modeling Workshop Report (November 16–18, 1993). NOAA Tech. Memo. ERL PMEL-100, NTIS: PB94-143377, 139 pp. [PDF Version]

Cont. #: 1593 Bernard, E.N., and F.I. González (1994): Tsunami runup distribution generated by the July 12, 1993, Hokkaido-Nansei-Oki earthquake. In Proceedings, 26th Meeting of the U.S.-Japan Cooperative Program in Natural Resources Panel on Wind and Seismic Effects, Gaithersburg, MD, 16–20 May 1994, 335–343.

Cont. #: 1473 Bernard, E.N., F.I. González, and Hokkaido Tsunami Survey Group (1993): Tsunami devastates Japanese coastal region. Eos Trans. AGU, 74(37), 417, 432, doi: 10.1029/93EO00521.

Cont. #: 2386 Bernard, E.N., F.I. González, C. Meinig, and H.B. Milburn (2001): Early detection and real-time reporting of deep-ocean tsunamis. In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), NTHMP Review Session, R-6, Seattle, WA, 7–10 August 2001, 97–108, (on CD-ROM). [Full Text]

Cont. #: 1481 Bernard, E.N., F.I. González, and K. Satake (1993): The Cape Mendocino Tsunami, 25 April 1992. In Tsunami '93, Proceedings of the IUGG/IOC International Tsunami Symposium, Wakayama, Japan, 23–27 August 1993, 461–467.

Cont. #: 2747 Bernard, E.N., F.I. González, and V.V. Titov (2005): The tsunameter and real-time tsunami forecasting. Chikyu Monthly, 27(3), 210–215, (in Japanese).

Cont. #: 510 Bernard, E.N., and R. Goulet, eds. (1981): Tsunami research opportunities: An assessment and comprehensive guide. National Science Foundation (NSF)/DOC-NOAA joint publication, 50 pp. [PDF Version]

Cont. #: 2266 Bernard, E.N., and G.T. Hebenstreit (2001): The 1990s: A critical decade in tsunami research and mitigation. In Tsunami Research at the End of a Critical Decade, G.T. Hebenstreit (ed.), Kluwer Academic Publishers, 1–6.

Cont. #: 678 Bernard, E.N., G.T. Hebenstreit, J.F. Lander, and P.F. Krumpe (1984): Regional tsunami warnings using satellites. In Proceedings of the 1983 Tsunami Symposium, ERL Special Report, Hamburg, FRG, August 1983, 117–129.

Cont. #: 607 Bernard, E.N., J.F. Lander, and G.T. Hebenstreit (1982): Feasibility study on mitigating tsunami hazards in the Pacific. NOAA Tech. Memo. ERL PMEL-37, NTIS: PB83-182311, 41 pp. [PDF Version]

Cont. #: 1536 Bernard, E.N., C. Mader, G. Curtis, and K. Satake (1994): Tsunami inundation model study of Eureka and Crescent City, California. NOAA Tech. Memo. ERL PMEL-103, NTIS: PB95-198388, 80 pp. + 2 maps. [PDF Version]

Cont. #: 3501 Bernard, E.N., C. Meinig, V.V. Titov, K. O'Neil, R. Lawson, K. Jarrott, R. Bailey, F. Nelson, S. Tinti, C. von Hillebrandt, and P. Koltermann (2010): Tsunami resilient communities. doi: 10.5270/OceanObs09.pp.04, In Proceedings of the "OceanObs'09: Sustained Ocean Observations and Information for Society" Conference (Vol. 1), Venice, Italy, 21–25 September 2009, Hall, J., D.E. Harrison, and D. Stammer, Eds., ESA Publication WPP-306.

Cont. #: 2874 Bernard, E.N., H.O. Mofjeld, V.V. Titov, C.E. Synolakis, and F.I. González (2006): Tsunami: Scientific frontiers, mitigation, forecasting, and policy implications. Philos. Trans. R. Soc. Lond. A, 364(1845), 1989–2007, doi: 10.1098/rsta.2006.1809.

Cont. #: 3176 Bernard, E.N., and A.R. Robinson (2009): Introduction: Emergent findings and new directions in tsunami science. Chapter 1 in The Sea, Volume 15: Tsunamis, Harvard University Press, Cambridge, MA and London, England, 1–22.

Cont. #: 3272 Bernard, E.N., and A.R. Robinson (eds.) (2009): Tsunamis. The Sea, Volume 15. Harvard University Press, Cambridge, MA and London, England, 450 pp.

Cont. #: 3000 Bernard, E.N., and V.V. Titov (2007): Improving tsunami forecast skill using deep ocean observations. Mar. Technol. Soc. J., 40(4), 23–26, doi: 10.4031/002533206787353223.

Cont. #: 273 Bernard, E.N., and A.C. Vastano (1977): Numerical computation of tsunami response for island systems. J. Phys. Oceanogr., 7(3), 389–395, doi: 10.1175/1520-0485(1977)007<0389:NCOTRF>2.

Cont. #: 599 Bernard, E.N. (ed.) (1983): Proceedings 1983 Tsunami Symposium, Hamburg, FRG. NOAA-ERL Special Report, NTIS: PB84-183482, 273 pp.

Cont. #: 1041 Bernard, E.N. (ed.) (1988): Proceedings of the International Tsunami Symposium, International Union of Geodesy and Geophysics, August 18–19 1987, Vancouver, B.C., Canada. ERL Special Report, NTIS: PB89-100895, NOAA/ERL/PMEL, Seattle, WA, 340 pp.

Cont. #: 1299 Bernard, E.N. (ed.) (1991): Tsunami Hazard: A Practical Guide for Tsunami Hazard Reduction. Reprinted from Natural Hazards, 4(2,3), Kluwer Academic Publishers, Dordrecht, 326 pp.

Cont. #: 2872 Bernard, E.N. (ed.) (2005): Developing Tsunami-Resilient Communities: The National Tsunami Hazard Mitigation Program. Reprinted from Natural Hazards, 35(1), 2005, Springer, The Netherlands, 184 pp.

Cont. #: 1614 Blackford, M., and H. Kanamori (1995): Tsunami Warning System Workshop Report (September 14–15, 1994). NOAA Tech. Memo. ERL PMEL-105, NTIS: PB95-187175, 95 pp. [PDF Version]

Cont. #: 2346 Borrero, J., B. Uslu, C. Synolakis, and V.V. Titov (2007): Modeling far-field tsunamis for California ports and harbors. In Coastal Engineering 2006—Proceedings of the 30th International Conference, Jane McKee Smith (ed.), World Scientific, San Diego, CA, 3–8 September 2006, 1566–1578.

Cont. #: 3684 Borrero, J.C., B. McAdoo, B. Jaffe, L. Dengler, G. Gelfenbaum, B. Higman, R. Hidayat, A. Moore, W. Kongko, Lukijanto, R. Peters, G. Prasetya, V. Titov, and E. Yulianto (2011): Field survey of the March 28, 2005 Nias-Simeulue earthquake and tsunami. Pure Appl. Geophys., 168(6–7), 1075–1088, doi: 10.1007/s00024-010-0218-6.

Cont. #: 3433 Borrero, J.C., R. Weiss, E.A. Okal, R. Hidayat, Suranto, D. Arcas, and V.V. Titov (2009): The tsunami of 2007 September 12, Bengkulu province, Sumatra, Indonesia: post-tsunami field survey and numerical modelling. Geophys. J. Int., 178(1), 180–194, doi: 10.1111/j.1365-246X.2008.04058.x.

Cont. #: 1911 Bourgeois, J., C. Petroff, H. Yeh, V. Titov, C.E. Synolakis, B. Benson, J. Kuroiwa, J. Lander, and E. Norabuena (1999): Geologic setting, field survey and modeling of the Chimbote, Northern Peru, tsunami of 21 February 1996. Pure Appl. Geophys., 154, 513–540, doi: 10.1007/s000240050242.

Cont. #: 4648 Bromirski, P.D., Z. Chen, R.A. Stephen, P. Gerstoft, D. Arcas, A. Diez, R. Aster, D.A. Wiens, and A. Nyblade (2017): Tsunami and infragravity waves impacting ice shelves. J. Geophys. Res., 122, doi: 10.1002/2017JC012913.

Cont. #: 3231 Burwell, D., and E. Tolkova (2008): Curvilinear version of the MOST model with application to the coast-wide tsunami forecast. NOAA Tech. Memo. OAR PMEL-142, 28 pp. [PDF Version]

Cont. #: 3089 Burwell, D., E. Tolkova, and A. Chawla (2007): Diffusion and dispersion characterization of a numerical tsunami model. Ocean Model., 19(1–2), 10–30, doi: 10.1016/j.ocemod.2007.05.003.

Cont. #: 3065 Burwell, D., and R. Weiss (2006): Empirical orthogonal function in tsunami research. In AGU Fall Meeting 2006, American Geophysical Union, San Francisco, 11-15 December 2006, T23A-0476.

Cont. #: 3625 Chamberlin, C., and D. Arcas (2015): Modeling tsunami inundation at Everett, Washington, from the Seattle Fault. NOAA Tech. Memo. OAR PMEL-147, NOAA/Pacific Marine Environmental Laboratory, Seattle, WA, 24 pp, doi: 10.7289/V59Z92V0, Published online.

Cont. #: 104 Chen, M.H.T (1973): Tsunami propagation and response to coastal areas. Hawaii Institute of Geophysics Tech. Report HIG-73-15, NOAA-JTRE-95, University of Hawaii, 75 pp.

Cont. #: 3719 Cheung, K.F., Y. Wei, Y. Yamazaki, and S.C. Yim (2011): Modeling of 500-year tsunamis for probabilistic design of coastal infrastructure in the Pacific Northwest. Coastal Engineering, 58(10), 970–985, doi: 10.1016/j.coastaleng.2011.05.003.

Cont. #: 4641 Chock, G.Y.K., L. Carden, I. Robertson, Y. Wei, R. Wilson, and J. Hooper (2018): Tsunami resilient building design considerations for coastal communities of Washington, Oregon, and California. J. Struct. Eng., 144(8), 04018116, doi: 10.1061/(ASCE)ST.1943-541X.0002068, Available online.

Cont. #: 406 Curtis, G.D., and H.G. Loomis (1980): A small, self-contained water level recorder for tsunami. In Proc. of the IUGG Tsunami Symposium, July 1980.

Cont. #: 4200 Dall’Osso, F., D. Dominey-Howes, C. Moore, S. Summerhayes, and G. Withycombe (2014): The exposure of Sydney (Australia) to earthquake-generated tsunamis, storms and sea level rise: a probabilistic multi-hazard approach. Sci. Rep., 4, 7401, doi: 10.1038/srep07401.

Cont. #: 3020 Denbo, D.W., K.T. McHugh, J.R. Osborne, P. Sorvik, and A.J. Venturato (2007): NOAA tsunami forecasting system: Design and implementation using service oriented architecture. In 23rd Conference on Interactive Information Processing Systems (IIPS) for Meteorology, Oceanography, and Hydrology, 87th AMS Annual Meeting, San Antonio, TX, 14–18 January 2007, Paper 3A.9. [PDF Version]

Cont. #: 2030 Dengler, L. (1998): Strategic Implementation Plan for Tsunami Mitigation Projects, approved by the Mitigation Subcommittee of the National Tsunami Hazard Mitigation Program, April 14, 1998. NOAA Tech. Memo. ERL PMEL-113, NTIS: PB99-115552, NOAA/Pacific Marine Environmental Laboratory, Seattle, WA, 133 pp. [PDF Version]

Cont. #: 3601 Dengler, L., and B. Uslu (2011): Effects of harbor modification on Crescent City, California's tsunami vulnerability. Pure Appl. Geophys., 168(6–7), 1175–1185, doi: 10.1007/s00024-010-0224-8.

Cont. #: 3431 Dengler, L., B. Uslu, A. Barberopoulou, S.C. Yim, and A. Kelly (2009): The November 15, 2006 Kuril Islands-generated tsunami in Crescent City, California. Pure Appl. Geophys., 166(1–2), 37–53, doi: 10.1007/s00024-008-0429-2.

Cont. #: 4618 Dilmen, D.I., G.H. Roe, Y. Wei, and V.V. Titov (2018): The role of near-shore bathymetry during tsunami inundation in a reef island setting: A case study of Tutuila Island. Pure Appl. Geophys., 175(4), 1239–1256, doi: 10.1007/s00024-018-1769-1, View online.

Cont. #: 4368 Dilmen, D.I., V.V. Titov, and G.H. Roe (2015): Evaluation of the relationship between coral damage and tsunami dynamics; case study: 2009 Samoa tsunami. Pure Appl. Geophys., 172(12), 3557–3572, doi: 10.1007/s00024-015-1158-y, Published online.

Cont. #: 4097 Dunbar, P., M. Eblé, G. Mungov, H. McCullough, and E. Harris (2014): NOAA’s historical tsunami event database, raw and processed water level data, and model output relevant to the 11 March 2011 Tohoku, Japan earthquake and tsunami. In Tsunami Events and Lessons Learned, Environmental and Societal Significance, Y.A. Kontar, V. Santiago-Fandiño, T. Takahashi (ed.), Advances in Natural and Technological Hazards Research, Vol. 35, Springer Netherlands, 113-127, doi: 10.1007/978-94-007-7269-4_5, ISBN: 978-94-007-7268-7 (Print) 978-94-007-7269-4 (Online).

Cont. #: 5184 Dziak, R.P., B.A. Black, Y. Wei, and S.G. Merle (2021): Assessing local impacts of the 1700 CE Cascadia earthquake and tsunami using tree-ring growth histories: A case study in South Beach, Oregon, USA. Nat. Hazards Earth Syst. Sci., 21, 1971–1982, doi: 10.5194/nhess-21-1971-2021, View online (open access).

Cont. #: 5279 Dziak, R.P., B.A. Black, Y. Wei, and S.G. Merle (2021): Assessing local impacts of the 1700 CE Cascadia earthquake and tsunami using tree-ring growth histories: a case study in South Beach, Oregon, USA. Natural Hazards and Earth System Sciences, doi: 10.5194/nhess-21-1971-2021, View data set at NCEI.

Cont. #: 3449 Eblé, M., and NCTR Staff (2014): A Tsunami Forecast Model for Newport, Oregon. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 5, 2nd Ed., 146 pp, doi: 10.7289/V5125QK9. [PDF Version]

Cont. #: 1890 Eble, M., J. Newman, J. Wendland, B. Kilonsky, D. Luther, Y. Tanioka, M. Okada, and F.I. González (1997): The 10 June 1996 Andreanov tsunami database. NOAA Data Report ERL PMEL-64, NTIS: PB98-130495, NOAA/Pacific Marine Environmental Laboratory, Seattle, WA, 101 pp. [PDF Version]

Cont. #: 3811 Eble, M., V. Titov, G. Mungov, C. Moore, D. Denbo, and R. Bouchard (2011): Signal-to-noise ratio and the isolation of the 11 March 2011 Tohoku tsunami in deep-ocean tsunameter records. In Proceedings of Oceans' 11 MTS/IEEE, Kona, IEEE, Piscataway, NJ, 19–22 September 2011, 4 pp, No. 6107288.

Cont. #: 4099 Eblé, M.C., G.T. Mungov, and A.B. Rabinovich (2015): On the leading negative phase of major 2010–2014 tsunamis. Pure Appl. Geophys., 172(12), 3493–3508, doi: 10.1007/s00024-015-1127-5.

Cont. #: 4763 Eungard, D.W., C. Forson, T.J. Walsh, E. Gica, and D. Arcas (2018): Tsunami hazard maps of southwest Washington—Model results from a ~2,500-year Cascadia subduction zone earthquake scenario. Washington Geological Survey Map Series 2018-01, Washington State Department of Natural Resources, Washington Geological Survey, Olympia, WA, 11 pp., http://www.dnr.wa.gov/publications/ger_ms2018-01_tsunami_hazard_southwest_washington.zip, 4 sheets, scale 1:48,000.

Cont. #: 4852 Fine, I.V., R.E. Thomson, W.W. Chadwick, Jr., and C.G. Fox (2020): Toward a universal frequency of occurrence distribution for tsunamis: Statistical analysis of a 32‐year bottom pressure record at Axial Seamount. Geophys. Res. Lett., 47(10), e2020GL087372, doi: 10.1029/2020GL087372, View online.

Cont. #: 3624 Fritz, H.M., J.C. Borrero, C.E. Synolakis, E.A. Okal, R. Weiss, V.V. Titov, B.E. Jaffe, S. Foteinis, P.J. Lynett, I.-C. Chan, and P.L.-F. Liu (2011): Insights on the 2009 South Pacific tsunami in Samoa and Tonga from field surveys and numerical simulations. Earth-Sci. Rev., 107(1–2), 66–75, doi: 10.1016/j.earscirev.2011.03.004.

Cont. #: 3745 Fritz, H.M., J.V. Hillaire, E. Molière, F. Mohammed, and Y. Wei (2011): Coastal impacts by the 12 January 2010 earthquake and tsunamis in Haiti. In Proceedings of the Solutions to Coastal Disasters Conference 2011, ASCE Conf. Proc., Anchorage, AK, 26–29 June, 2011, doi: 10.1061/41185(417)32.

Cont. #: 3809 Fritz, H.M., J.V. Hillaire, E. Molière, Y. Wei, and F. Mohammed (2013): Twin tsunamis triggered by the 12 January 2010 Haiti earthquake. Pure Appl. Geophys., 170(9–10), 1463–1474, doi: 10.1007/s00024-012-0479-3.

Cont. #: 3071 Fritz, H.M., W. Kongko, A. Moore, B. McAdoo, J. Goff, C. Harbitz, B. Uslu, N. Kalligeris, D. Suteja, K. Kalsum, V. Titov, A. Gusman, H. Latief, E. Santoso, S. Sujoko, D. Djulkarnaen, H. Sunendar, and C. Synolakis (2007): Extreme run-up from the 17 July 2006 Java tsunami. Geophys. Res. Lett., 34, L12602, doi: 10.1029/2007GL029404.

Cont. #: 2886 Geist, E.L., S.L. Bilek, D. Arcas, and V.V. Titov (2006): Differences in tsunami generation between the December 26, 2004 and March 28, 2005 Sumatra earthquakes. Earth Planets Space, 58(2), 185–193, doi: 10.1186/BF03353377.

Cont. #: 2940 Geist, E.L., V.V. Titov, D. Arcas, F.F. Pollitz, and S.L. Bilek (2007): Implications of the 26 December 2004 Sumatra–Andaman Earthquake on tsunami forecast and assessment models for great subduction-zone earthquakes. Bull. Seismol. Soc. Am., 97(1A), S249–S270, doi: 10.1785/0120050619.

Cont. #: 2929 Geist, E.L., V.V. Titov, and C.E. Synolakis (2006): Tsunami: Wave of change. Scientific American, 294(1), 56–63.

Cont. #: 3992 Gica, E. (2015): A Tsunami Forecast Model for Kihei, Hawai'i. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 11, 138 pp, doi: 10.7289/V5C24TD1. [PDF Version]

Cont. #: 3374 Gica, E. (2015): A Tsunami Forecast Model for Midway Atoll. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 7, 132 pp, doi: 10.7289/V5RJ4GCP. [PDF Version]

Cont. #: 3384 Gica, E. (2015): A Tsunami Forecast Model for Santa Barbara, California. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 12, 124 pp, doi: 10.7289/V508639D. [PDF Version]

Cont. #: 2937 Gica, E., M. Spillane, V.V. Titov, C.D. Chamberlin, and J.C. Newman (2008): Development of the forecast propagation database for NOAA's Short-term Inundation Forecast for Tsunamis (SIFT). NOAA Tech. Memo. OAR PMEL-139, NTIS: PB2008-109391, 89 pp. [PDF Version]

Cont. #: 3056 Gica, E., M.C. Spillane, and V.V. Titov (2007): Tsunami hazard assessment using short-term inundation forecasting for tsunamis (SIFT) tool. In Dynamic Earth: its Origin and Future, 21st Century COE (Earth Science) EASTEC International Symposium 2007, Sendai, Japan, 18-21 September 2007.

Cont. #: 2877 Gica, E., M.H. Teng, P.L.-F. Liu, V. Titov, and H. Zhou (2007): Sensitivity analysis of source parameters for earthquake-generated distant tsunamis. J. Waterw. Port Coast. Ocean Eng., 133(6), 429–441, doi: 10.1061/(ASCE)0733-950X(2007)133:6(429).

Cont. #: 3531 Gica, E., V.V. Titov, C. Moore, and Y. Wei (2015): Tsunami simulation using sources inferred from various measurement data: Implications for the model forecast. Pure Appl. Geophys., 172(3–4), 773–789, doi: 10.1007/s00024-014-0979-4.

Cont. #: 1482 González, F., S. Sutisna, P. Hadi, E. Bernard, and P. Winarso (1993): Some observations related to the Flores Island earthquake and tsunami. In Tsunami '93, Proceedings of the IUGG/IOC International Tsunami Symposium, Wakayama, Japan, 23–27 August 1993, 789–801.

Cont. #: 1195 González, F.I. (1990): Deep ocean recordings of tsunamis. In Proceedings of the 22nd Joint UJNR Meeting on Wind and Seismic Effects, NIST SP796, Gaithersburg, MD, 14–25 May 1990, 53–58.

Cont. #: 2088 González, F.I. (1999): Tsunami! Sci. Am., 280(5), 56–65. [Full Text]

Cont. #: 3031 González, F.I., E. Bernard, P. Dunbar, E. Geist, B. Jaffe, U. Kânoğlu, J. Locat, H. Mofjeld, A. Moore, C. Synolakis, V. Titov, and R. Weiss (Science Review Working Group) (2007): Scientific and technical issues in tsunami hazard assessment of nuclear power plant sites. NOAA Tech. Memo. OAR PMEL-136, NTIS: PB2008-101460, Pacific Marine Environmental Laboratory, Seattle, WA, 125 pp. + appendices on CD. [PDF Version]

Cont. #: 1227 González, F.I., and E.N. Bernard (1990): Deep ocean tsunami and seismic wave observations: Three recent Gulf of Alaska events. In Proceedings of Workshop XLVI, The 7th U.S.-Japan Seminar on Earthquake Prediction, USGS Open-File Report 90-98, Menlo Park, CA, 12–15 September 1988, 131–134.

Cont. #: 1479 González, F.I., and E.N. Bernard (1993): The Cape Mendocino Tsunami. Earthq. Volcanoes, 23(3), 135–138.

Cont. #: 797 González, F.I., E.N. Bernard, and R.R. Behn (1985): On the Chilean tsunami of March 3, 1985. In Proceedings of the International Tsunami Symposium, Victoria, B.C., 6–9 August 1985, 57–61.

Cont. #: 953 González, F.I., E.N. Bernard, and H.B. Milburn (1987): A program to acquire deep ocean tsunami measurements in the North Pacific. In Proceedings of Coastal Zone 87, WW Div., ASCE, Seattle, WA, 26–29 May 1987, 3373–3381.

Cont. #: 1042 González, F.I., E.N. Bernard, H.B. Milburn, D. Castel, J. Thomas, and J.M. Hemsley (1988): The Pacific Tsunami Observation Program (PacTOP). In Proceedings of the International Tsunami Symposium, International Union of Geodesy and Geophysics, Vancouver, B.C., Canada, 18–19 August 1987, 3–19.

Cont. #: 1595 González, F.I., E.N. Bernard, and K. Satake (1995): The Cape Mendocino tsunami, 25 April 1992. In Tsunami: Progress in Prediction, Disaster Prevention and Warning, Series of Advances in Natural and Technological Hazards Research, Y. Tsuchiya and N. Shuto (eds.), Kluwer Academic Publishers, 151–158.

Cont. #: 1016 González, F.I., C. Fox, and E.N. Bernard (1988): Tsunami source definition through pre- and post-event seafloor mapping. In Proceedings of the Third Biennial National Ocean Service International Hydrographic Conference, Baltimore, MD, 12–15 April 1988, 102–108.

Cont. #: 2975 González, F.I., E. Geist, C. Synolakis, D. Arcas, D. Bellomo, D. Carlton, T. Horning, B. Jaffe, J. Johnson, U. Kânoğlu, H. Mofjeld, J. Newman, T. Parsons, R. Peters, C. Peterson, G. Priest, V. Titov, A. Venturato, J. Weber, F. Wong, and A. Yalciner (Tsunami Pilot Study Working Group) (2006): Seaside, Oregon Tsunami Pilot Study—Modernization of FEMA flood hazard maps. NOAA OAR Special Report, NTIS: PB2007-101992, NOAA/OAR/PMEL, Seattle, WA, 94 pp. + 7 appendices. [PDF Version]

Cont. #: 3240 González, F.I., E.L. Geist, B. Jaffe, U. Kânoğlu, H. Mofjeld, C.E. Synolakis, V.V. Titov, D. Arcas, D. Bellomo, D. Carlton, T. Horning, J. Johnson, J. Newman, T. Parsons, R. Peters, C. Peterson, G. Priest, A. Venturato, J. Weber, F. Wong, and A. Yalciner (2009): Probabilistic tsunami hazard assessment at Seaside, Oregon, for near- and far-field seismic sources. J. Geophys. Res., 114, C11023, doi: 10.1029/2008JC005132.

Cont. #: 1436 González, F.I., and Ye.A. Kulikov (1993): Tsunami dispersion observed in the deep ocean. In Tsunamis in the World, S. Tinti (ed.), Kluwer Pub. Co., 7–16.

Cont. #: 1336 González, F.I., and Ye.E. Kulikov (1990): On frequency modulation observed in two PacTOP deep ocean tsunami records. In Proceedings, 2nd UJNR Workshop, NGDC Geophysical Record Document No. 24, A.M. Brennan and J.F. Lander (eds.), Honolulu, HI, 5–6 November 1990, 27–29.

Cont. #: 1194 González, F.I., C.L. Mader, M.C. Eble, and E.N. Bernard (1991): The 1987–88 Alaskan Bight Tsunamis: Deep ocean data and model comparisons. Nat. Hazards, 4(2–3), 119–139, doi: 10.1007/BF00162783, Special Issue on Tsunami Hazard, E.N. Bernard (ed.).

Cont. #: 1594 González, F.I., T. Mero, and D. Castel (1994): U.S. tsunami measurement capabilities. In Proceedings, Third UJNR Tsunami Workshop, Osaka, Japan, 27 August 1993, 46–49.

Cont. #: 1949 González, F.I., H.M. Milburn, E.N. Bernard, and J. Newman (1998): Deep-ocean assessment and reporting of tsunamis (DART): Brief overview and status report. In Proceedings of the International Workshop on Tsunami Disaster Mitigation, Tokyo, Japan, 19–22 January 1998, 118–129.

Cont. #: 1592 González, F.I., K. Satake, E.F. Boss, and H.O. Mofjeld (1995): Edge wave and non-trapped modes of the 25 April 1992 Cape Mendocino tsunami. Pure Appl. Geophys., 144(3/4), 409–426, doi: 10.1007/BF00874375.

Cont. #: 2526 González, F.I., B.L. Sherrod, B.F. Atwater, A.P. Frankel, S.P. Palmer, M.L. Holmes, R.E. Karlin, B.E. Jaffe, V.V. Titov, H.O. Mofjeld, and A.J. Venturato (2003): Puget Sound Tsunami Sources—2002 Workshop Report. In A contribution to the Inundation Mapping Project of the U.S. National Tsunami Hazard Mitigation Program, NOAA OAR Special Report, NOAA/OAR/PMEL, 34 pp. [Full Text]

Cont. #: 2487 González, F.I., V.V. Titov, H.O. Mofjeld, and J.C. Newman (2002): Project SIFT (Short-term Inundation Forecasting for Tsunamis). In Underwater Ground Failures on Tsunami Generation, Modeling, Risk and Mitigation, NATO Advanced Workshop, Instanbul, Turkey, 23–26 May 2001, 221–226.

Cont. #: 4665 González-Vida, J.M., J. Macías, M.J. Castro, C. Sánchez-Linares, M. de la Asunción, S. Ortega-Acosta, and D. Arcas (2019): The Lituya Bay landslide-generated mega-tsunami—Numerical simulation and sensitivity analysis. Nat. Hazards Earth Syst. Sci., 19, 369–388, doi: 10.5194/nhess-19-369-2019, View online (open access).

Cont. #: 1630 Good, J.W. (1995): Tsunami Education Planning Workshop, Findings and Recommendations. NOAA Tech. Memo. ERL PMEL-106, NTIS: PB95-195970, 41 pp. [PDF Version]

Cont. #: 3909 Greenslade, D.J.M., A. Annunziato, A. Babeyko, D. Burbidge, E. Ellguth, N. Horspool, T. Srinivasa Kumar, Ch. Patanjali Kumar, C. Moore, N. Rakowsky, T. Riedlinger, A. Ruangrassamee, P. Srivihok, and V.V. Titov (2014): An assessment of the diversity in scenario-based tsunami forecasts for the Indian Ocean. Cont. Shelf Res., 79, 36–45, doi: 10.1016/j.csr.2013.06.001.

Cont. #: 3798 Hamlington, B.D., R.R. Leben, O.A. Godin, E. Gica, V.V. Titov, B.J. Haines, and S.D. Desai (2012): Could satellite altimetry have improved early detection and warning of the 2011 Tohoku tsunami? Geophys. Res. Lett., 39, L15605, doi: 10.1029/2012GL052386.

Cont. #: 3760 Hamlington, B.D., R.R. Leben, O.A. Godin, J.F. Legeais, E. Gica, and V.V. Titov (2011): Detection of the 2010 Chilean tsunami using satellite altimetry. Nat. Hazards Earth Syst. Sci., 11, 2391–2406, doi: 10.5194/nhess-11-2391-2011.

Cont. #: 214 Harvey, R.R., and G.R. Miller (1976): Soviet-American Cooperative Tsunami Study. In Abstracts of Papers, Fifteenth Coastal Engineering Conference, Honolulu, Hawaii, 11–17 July, 839–841.

Cont. #: 748 Hebenstreit, G.T., and E.N. Bernard (1985): Azimuthal variations in tsunami interactions with multiple-island systems. J. Geophys. Res., 90(C2), 3353–3360, doi: 10.1029/JC090iC02p03353.

Cont. #: 392 Hebenstreit, G.T., E.N. Bernard, and A.C. Vastano (1980): Application of improved numerical techniques to the tsunami response of island systems. J. Phys. Oceanogr., 10(7), 1134–1140, doi: 10.1175/1520-0485(1980)010<1134:AOINTT>2.

Cont. #: 747 Hebenstreit, G.T., F.I. González, and A.F. Morris (1985): Near-source tsunami simulations of Valparaiso Harbor, Chile. In Proceedings of the International Tsunami Symposium, Victoria, B.C., 6–9 August 1985, 62–67.

Cont. #: 2511 Hebenstreit, J., F.I. González, and J. Preuss (2003): Tsunami impact and mitigation in inhabited areas. In Earth Science in the City: A Reader, G. Heiken, R. Fakundiny, and J. Sutter (eds.), American Geophysical Union, Washington, D.C., 171–186.

Cont. #: 2390 Imamura, F., S. Koshimura, H. Iwasa, S. Imoto, K. Sato, and N. Shuto (2001): TIMING: Sanriku network for the exchange of tsunami information. In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), Session 5-3, Seattle, WA, 7–10 August 2001, 589–593, (on CD-ROM). [Full Text]

Cont. #: 2887 Jaffe, B.E., J.C. Borrero, G.S. Prasetya, R. Peters, B. McAdoo, G. Gelfenbaum, R. Morton, P. Ruggiero, B. Higman, L. Dengler, R. Hidayat, E. Kingsley, W. Kongko, Lukijanto, A. Moore, V.V. Titov, and E. Yulianto (2006): Northwest Sumatra and offshore islands field survey after the December 2004 Indian Ocean tsunami. Earthq. Spectra, 22(S3), S105–S135, doi: 10.1193/1.2207724.

Cont. #: 4369 Kânoğlu, U., V.V. Titov, E. Bernard, and C. Synolakis (2015): Tsunamis: Bridging science, engineering and society. Philos. Trans. R. Soc. Lond. A, 373(2053), 20140369, doi: 10.1098/rsta.2014.0369.

Cont. #: 2628 Koshimura, S., T. Katada, H.O. Mofjeld, and Y. Kawata (2006): A method for estimating casualties due to the tsunami inundation flow. Nat. Hazards, 39(2), 265–274, doi: 10.1007/s11069-006-0027-5.

Cont. #: 2395 Koshimura, S., and H.O. Mofjeld (2001): Inundation modeling of local tsunamis in Puget Sound, Washington, due to potential earthquakes. In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), Session 7-18, Seattle, WA, 7–10 August 2001, 861–873, (on CD-ROM). [Full Text]

Cont. #: 2444 Koshimura, S., H.O. Mofjeld, F.I. González, and A.L. Moore (2002): Modeling the 1100 bp paleotsunami in Puget Sound, Washington. Geophys. Res. Lett., 29(20), 1948, doi: 10.1029/2002GL015170.

Cont. #: 2394 Koshimura, S., A.L. Moore, and H.O. Mofjeld (2001): Simulation of paleotsunamis in Puget Sound, Washington. In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), Session 7-7, Seattle, WA, 7–10 August 2001, 761–773, (on CD-ROM). [Full Text]

Cont. #: 1644 Kulikov, E.A., and F.I. González (1997): Reconstruction of the initial tsunami signal from distant bottom pressure records. Dokl. Akad. Nauk, 344(6), 814–815 (in Russian).

Cont. #: 3711 Lawson, R.A., D. Graham, S. Stalin, C. Meinig, D. Tagawa, N. Lawrence-Slavas, R. Hibbins, and B. Ingham (2011): From Research to Commercial Operations: The Next Generation Easy-to-Deploy (ETD) Tsunami Assessment Buoy. In Proceedings of Oceans' 11 MTS/IEEE, Kona, IEEE, Piscataway, NJ, 19–22 September 2011, 8 pp, No. 6107114. [PDF Version]

Cont. #: 150 Loomis, H.G. (1975): The tsunami of November 29, 1975 in Hawaii. Hawaii Institute of Geophysics and Joint Tsunami Research Effort Report, NOAA-JTRE-152 and HIG-75-21, 29 pp. [PDF Version]

Cont. #: 198 Loomis, H.G. (1976): A reasonably practical real-time tsunami prediction scheme. In Abstracts of Papers, Fifteenth Coastal Engineering Conference, Honolulu, Hawaii, 11–17 July 1976, 701–703.

Cont. #: 197 Loomis, H.G. (1976): Description of a low cost, portable tsunami wave recorder. In Proceedings of the International Union of Geodesy and Geophysics Tsunami Symposium, Bulletin 15, Royal Society of New Zealand, Wellington, New Zealand, 29 January–1 February 1974, 95–97.

Cont. #: 196 Loomis, H.G. (1976): Tsunami wave heights in Hawaii. Hawaii Institute of Geophysics and Joint Tsunami Research Effort Report, NOAA-JTRE-161 and HIG-76-21, Honolulu, HI.

Cont. #: 295 Loomis, H.G. (1978): A tsunami prediction scheme using Green's function. In Proceedings of the International Union of Geodesy and Geophysics Special Tsunami Symposium, Manuscript Report No. 48, Ensenada, Baja California, 23–26 March 1977, 85–88.

Cont. #: 293 Loomis, H.G. (1978): Tsunamis. In Geophysical Predictions, H. Landsberg (ed.), National Academy of Sciences, 155–165.

Cont. #: 335 Loomis, H.G. (1979): A primer for tsunamis written for boaters in Hawaii. NOAA Tech. Memo. ERL PMEL-16, NTIS: PB80-161003, 8 pp. [PDF Version]

Cont. #: 334 Loomis, H.G. (1979): Book review: Seismic waves: Tsunamis, by T.S. Murty. Mar. Geod., 2(1), 83–87, doi: 10.1080/15210607909379337.

Cont. #: 333 Loomis, H.G. (1979): Tsunami prediction using the reciprocal property of Green's functions. Mar. Geod., 2(1), 27–39, doi: 10.1080/15210607909379333.

Cont. #: 4510 Lynett, P., Y. Wei, and D. Arcas (2016): Tsunami Hazard Assessment: Best Modeling Practices and State-of-the-Art Technology. NUREG/CR-7223, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, Washington, DC, Published online.

Cont. #: 4657 Lynett, P.J., K. Gately, R. Wilson, L. Montoya, D. Arcas, B. Aytore, Y. Bai, J.D. Bricker, M.J. Castro, K.F. Cheung, C.G. David, G.G. Doğan, C. Escalante, J.M. González-Vida, S.T. Grilli, T.W. Heitmann, J.J. Horrillo, U. Kânoglu, R. Kian, J.T. Kirby, W. Li, J. Macías, D.J. Nicolsky, S. Ortega, A. Pampell-Manis, Y.S. Park, V. Roeber, N. Sharghivand, M. Shelby, F. Shi, B. Tehranirad, E. Tolkova, H.K. Thio, D. Velioğlu, A.C. Yalçiner, Y. Yamazaki, A. Zaytsev, and Y..J. Zhang (2017): Inter-model analysis of tsunami-induced coastal currents. Ocean Model., 114, 14–32, doi: 10.1016/j.ocemod.2017.04.003.

Cont. #: 123 Mader, C.L. (1974): Numerical simulation of tsunamis. J. Phys. Oceanogr., 4(1), 74–82, doi: 10.1175/1520-0485(1974)004<0074:NSOT>2.0.

Cont. #: 1480 Mader, C.L., and E.N. Bernard (1993): Modeling tsunami flooding of Crescent City. In Tsunami '93, Proceedings of the IUGG/IOC International Tsunami Symposium, Wakayama, Japan, 23–27 August 1993, 321–326.

Cont. #: 2888 McAdoo, B.G., L. Dengler, G. Prasetya, and V.V. Titov (2006): Smong: How an oral history saved thousands on Indonesia's Simeulue Island during the December 2004 and March 2005 tsunamis. Earthq. Spectra, 22(S3), S661–S669, doi: 10.1193/1.2204966.

Cont. #: 1488 McCarthy, R.J., E.N. Bernard, and M.R. Legg (1993): The Cape Mendocino Earthquake: A local tsunami wakeup call? In Proceedings of the Eighth Symposium on Coastal and Ocean Management, Vol. III, 2812–2828.

Cont. #: 2387 Meinig, C., M.C. Eble, and S.E. Stalin (2001): System development and performance of the Deep-ocean Assessment and Reporting of Tsunamis (DART) system from 1997–2001. In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), NTHMP Review Session, R-24, Seattle, WA, 7–10 August 2001, 235–242, (on CD-ROM). [Full Text]

Cont. #: 2836 Meinig, C., S.E. Stalin, A.I. Nakamura, F. González, and H.G. Milburn (2006): Technology developments in real-time tsunami measuring, monitoring and forecasting. In Oceans 2005 MTS/IEEE, Washington, D.C., 19–23 September 2005. [PDF Version]

Cont. #: 3075 Merati, N., E. Gica, and C. Chamberlin (2007): Building tsunami analysis tools into a GIS workspace. In ESRI International User Conference, San Diego, CA, 18–23 June 2007, http://training.esri.com/bibliography/index.cfm?event=general.recordDetail&ID=82878, Published online.

Cont. #: 1232 Milburn, H.B., and E.N. Bernard (1990): Deep ocean tsunami observations. In Proceedings, IRIS/JOI Workshop on Scientific Uses of Undersea Cables, A.D. Chave, R. Butler, and T.E. Pyle (eds.), Honolulu, HI, 30 January–1 February 1990, 69–73.

Cont. #: 1757 Milburn, H.B., A.I. Nakamura, and F.I. González (1996): Real-time tsunami reporting from the deep ocean. In Proceedings of the Oceans 96 MTS/IEEE Conference, Fort Lauderdale, FL, 23–26 September 1996, 390–394.

Cont. #: 247 Miyoshi, H. (1977): Directivity and efficiency of tsunamis. NOAA-JTRE-190 and HIG-77-4, Hawaii Institute of Geophysics, Honolulu, HI, 32 pp.

Cont. #: 3146 Mofjeld, H.O. (2009): Tsunami measurements. Chapter 7 in The Sea, Volume 15: Tsunamis, Harvard University Press, Cambridge, MA and London, England, 201–235.

Cont. #: 1835 Mofjeld, H.O., M.G.G. Foreman, and A. Ruffman (1997): West coast tides during Cascadia Subduction Zone tsunamis. Geophys. Res. Lett., 24(17), 2215–2218, doi: 10.1029/97GL02060.

Cont. #: 1884 Mofjeld, H.O., F.I. González, E.N. Bernard, and J.C. Newman (2000): Forecasting the heights of later waves in Pacific-wide tsunamis. Nat. Hazards, 22(1), 71–89, doi: 10.1023/A:1008198901542.

Cont. #: 1602 Mofjeld, H.O., F.I. González, and J.C. Newman (1997): Short-term forecasts of inundation during teletsunamis in the eastern North Pacific Ocean. In Perspectives on Tsunami Hazards Reduction, G. Hebenstreit (ed.), Kluwer Academic Publishers, 145–155.

Cont. #: 1738 Mofjeld, H.O., F.I. González, and J.C. Newman (1999): Tsunami prediction in U.S. coastal regions. Chapter 14 in Coastal Ocean Prediction, C. Mooers (ed.), Coastal and Estuarine Studies 56, American Geophysical Union, 353–375.

Cont. #: 2768 Mofjeld, H.O., F.I. González, V.V. Titov, A.J. Venturato, and J.C. Newman (2007): Effects of tides on maximum tsunami wave heights: Probability distributions. J. Atmos. Ocean. Technol., 24(1), 117–123, doi: 10.1175/JTECH1955.1.

Cont. #: 2657 Mofjeld, H.O., C.M. Symons, P. Lonsdale, F.I. González, and V.V. Titov (2004): Tsunami scattering and earthquake faults in the deep Pacific Ocean. Oceanography, 17(1), 38–46, doi: 10.5670/oceanog.2004.65.

Cont. #: 2168 Mofjeld, H.O., V.V. Titov, F.I. González, and J.C. Newman (2000): Analytic theory of tsunami wave scattering in the open ocean with application to the North Pacific Ocean. NOAA Tech. Memo. OAR PMEL-116, NTIS: PB2002-101562, 38 pp. [PDF Version]

Cont. #: 2203 Mofjeld, H.O., V.V. Titov, F.I. González, and J.C. Newman (2001): Tsunami scattering provinces in the Pacific Ocean. Geophys. Res. Lett., 28(2), 335–337, doi: 10.1029/2000GL011710.

Cont. #: 2392 Mofjeld, H.O., P.M. Whitmore, M.C. Eble, F.I. González, and J.C. Newman (2001): Seismic-wave contributions to bottom pressure fluctuations in the North Pacific—Implications for the DART Tsunami Array. In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), Session 5-10, Seattle, WA, 7–10 August 2001, 633–641, (on CD-ROM). [Full Text]

Cont. #: 5397 Mori, N., K. Satake, D. Cox, K. Goda, P.A. Catalan, T.-C. Ho, F. Imamura, T. Tomiczek, P. Lynett, T. Miyashita, A. Muhari, V. Titov, and R. Wilson (2022): Giant tsunami monitoring, early warning and hazard assessment. Nat. Rev. Earth Environ., 3, 557–572, doi: 10.1038/s43017-022-00327-3, View article at NPG (external link).

Cont. #: 3927 Mungov, G., M. Eblé, and R. Bouchard (2013): DART® tsunameter retrospective and real-time data: A reflection on 10 years of processing in support of tsunami research and operations. Pure Appl. Geophys., 170(9–10), 1369–1384, doi: 10.1007/s00024-012-0477-5.

Cont. #: 375 Murty, T.S., and H.G. Loomis (1980): A tsunami magnitude scale based on energy. In Proc. of the IUGG Tsunami Symposium, July 1980.

Cont. #: 4322 Naito, C., H.R. Riggs, Y. Wei, and C. Cercone (2016): Shipping container impact assessment for tsunamis. J. Waterw. Port Coast. Ocean Eng., 142(5), 05016003, doi: 10.1061/(ASCE)WW.1943-5460.0000348, Published online.

Cont. #: 372 Nakamura, S., and H.G. Loomis (1980): Normal modes of oscillation in relation to storm surge and tsunami in Osaka Bay, Japan (1). La Mer, 18(2), 21–27.

Cont. #: 373 Nakamura, S., and H.G. Loomis (1980): Normal modes of oscillation in relation to storm surge and tsunami in Osaka Bay, Japan (2). La Mer, 18(2), 28–33.

Cont. #: 3637 Newman, A.V., L. Feng, H.M. Fritz, Z.M. Lifton, N. Kalligeris, and Y. Wei (2011): The energetic 2010 Mw 7.1 Solomon Islands tsunami earthquake. Geophys. J. Int., 186(2), 775–781, doi: 10.1111/j.1365-246X.2011.05057.x.

Cont. #: 3647 Newman, A.V., G. Hayes, Y. Wei, and J. Convers (2011): The 25 October 2010 Mentawai tsunami earthquake, from real-time discriminants, finite-fault rupture, and tsunami excitation. Geophys. Res. Lett., 38, L05302, doi: 10.1029/2010GL046498.

Cont. #: 3430 Okal, E.A., C.E. Synolakis, B. Uslu, N. Kalligeris, and E. Voukouvalas (2009): The 1956 earthquake and tsunami in Amorgos, Greece. Geophys. J. Int., 178(3), 1533–1554, doi: 10.1111/j.1365-246X.2009.04237.x.

Cont. #: 3514 Okumura, Y., K. Harada, E. Gica, T. Takahashi, S. Koshimura, S. Suzuki, and Y. Kawata (2009): Long-term effects of social responses in the 1994 Mindoro tsunami disaster in Oriental Mindoro, Philippines. JSCE Journal of Earthquake Engineering, 30, 637-644, in Japanese.

Cont. #: 3712 Paros, J., E. Bernard, J. Delaney, C. Meinig, M. Spillane, P. Migliacio, L. Tang, W. Chadwick, T. Schaad, and S. Stalin (2011): Breakthrough underwater technology holds promise for improved local tsunami warnings. In Symposium for Underwater Technology (UT), 2011 IEEE - 2011 Workshop on Scientific Use of Submarine Cables and Related Technologies (SSC), 5-8 April 2011, doi: 10.1109/UT.2011.5774145.

Cont. #: 3848 Paros, J., C. Meinig, M. Spillane, P. Migliacio, L. Tang, W. Chadwick, T. Schaad, and S. Stalin (2012): Nano-resolution technology demonstrates promise for improved local tsunami warnings on the MARS project. In Oceans 2012 MTS/IEEE, Yeosu, Korea, 21–24 May 2012, doi: 10.1109/OCEANS-Yeosu.2012.6263411. [PDF Version]

Cont. #: 3134 Percival, D.B., D. Arcas, D.W. Denbo, M.C. Eble, E. Gica, H.O. Mofjeld, M.C. Spillane, L. Tang, and V.V. Titov (2009): Extracting tsunami source parameters via inversion of DART® buoy data. NOAA Tech. Memo. OAR PMEL-144, 22 pp. [PDF Version]

Cont. #: 4089 Percival, D.B., D.W. Denbo, M.C. Eblé, E. Gica, P.Y. Huang, H.O. Mofjeld, M.C. Spillane, V.V. Titov, and E.I. Tolkova (2015): Detiding DART® buoy data for real-time extraction of source coefficients for operational tsunami forecasting. Pure Appl. Geophys., 172(6), 1653–1678, doi: 10.1007/s00024-014-0962-0.

Cont. #: 3557 Percival, D.B., D.W. Denbo, M.C. Eble, E. Gica, H.O. Mofjeld, M.C. Spillane, L. Tang, and V.V. Titov (2011): Extraction of tsunami source coefficients via inversion of DART® buoy data. Nat. Hazards, 58(1), 567–590, doi: 10.1007/s11069-010-9688-1.

Cont. #: 3937 Percival, D.M., D.B. Percival, D.W. Denbo, E. Gica, P.Y. Huang, H.O. Mofjeld, and M.C. Spillane (2014): Automated tsunami source modeling using the sweeping window positive elastic net. J. Am. Stat. Assoc., 109(506), 491-499, doi: 10.1080/01621459.2013.879062.

Cont. #: 286 Preisendorfer, R.W. (1978): A transport formulation of the tsunami propagation problem. In Proceedings of the International Union of Geodesy and Geophysics Special Tsunami Symposium, Manuscript Report No. 48, Ensenada, Baja California, 23–26 March 1977, 70–84.

Cont. #: 324 Preisendorfer, R.W. (1979): A transport formulation of the tsunami propagation problem. Mar. Geod., 2(1), 67–82, doi: 10.1080/15210607909379336.

Cont. #: 1945 Priest, G.R., E. Myers, A.M. Baptista, P. Fleuck, K. Wang, R.A. Kamphaus, and C.D. Peterson (1997): Cascadia subduction zone tsunamis: Hazard mapping at Yaquina Bay, Oregon. Open-File Report O-97-34, Department of Geology and Mineral Industries, State of Oregon, 144 pp.

Cont. #: 444 Pullen, P.E., and H.M. Byrne (1981): Hydrographic measurements during the 1978 Cooperative Soviet-American Tsunami Expedition. NOAA Data Report ERL PMEL-4, NTIS: PB82-215096, 168 pp.

Cont. #: 4297 Rabinovich, A., and M. Eblé (2015): Deep-ocean measurements of tsunami waves. Pure Appl. Geophys., 172(12), 3281–3312, doi: 10.1007/s00024-015-1058-1.

Cont. #: 1704 Rabinovich, A., G. Howell, S. Mausshardt, and F. González (1995): Tsunami instrumentation group report and recommendations. In Report on International Tsunami Measurements Workshop, J. Lander and H. Yeh (eds.), Estes Park, CO, 28–29 June 1995, 29–36.

Cont. #: 4620 Rabinovich, A.B., V.V. Titov, C.W. Moore, and M.C. Eblé (2017): The 2004 Sumatra tsunami in the southeastern Pacific Ocean: New global insight from observations and modeling. J. Geophys. Res., 122, 7992–8019, doi: 10.1002/2017JC013078.

Cont. #: 3739 Rabinovich, A.B., P.L. Woodworth, and V.V. Titov (2011): Deep-sea observations and modeling of the 2004 Sumatra tsunami in Drake Passage. Geophys. Res. Lett., 38, L16604, doi: 10.1029/2011GL048305.

Cont. #: 5300 Range, M.M., B.K. Arbic, B.C. Johnson, T.C. Moore, V.V. Titov, A.J. Adcroft, J.K. Ansong, C.J. Hollis, J. Ritsema, C.R. Scotese, and H. Wang (2022): The Chicxulub impact produced a powerful global tsunami. AGU Advances, 3, e2021AV000627, doi: 10.1029/2021AV000627, View online open access article (external link).

Cont. #: 4235 Rasmussen, L., P.D. Bromirski, A.J. Miller, D. Arcas, R.E. Flick, and M.C. Hendershott (2015): Source location impact on relative tsunami strength along the U.S. West Coast. J. Geophys. Res., 120(7), 4945–4961, doi: 10.1002/2015JC010718.

Cont. #: 3344 Righi, D., and D. Arcas (2010): A Tsunami Forecast Model for Newport, Oregon. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 5, 80 pp. [Full Text]

Cont. #: 1555 Ritsema, J., S.N. Ward, and F.I. González (1995): Inversion of deep-ocean tsunami records for 1987 to 1988 Gulf of Alaska earthquake parameters. Bull. Seismol. Soc. Am., 85(3), 747–754.

Cont. #: 5187 Sannikova, N.K., H. Segur, and D. Arcas (2021): Influence of tsunami aspect ratio on near and far-field tsunami amplitude. Geosciences, 11(4), 178, doi: 10.3390/geosciences11040178, View online (open access).

Cont. #: 4574 Savastano, G., A. Komjathy, O. Verkhoglyadova, O. Yang, A. Mazzoni, M. Crespi, Y. Wei, and A.J. Mannucci (2017): Real-time detection of tsunami ionospheric disturbances with a stand-alone GNSS receiver: A preliminary feasibility demonstration. Scientific Reports, 7, 46607, doi: 10.1038/srep46607.

Cont. #: 173 Shaw, R.P. (1976): Tsunami scattering by an island surrounded by water of variable depth. In Proceedings of the International Union of Geodesy and Geophysics Tsunami Symposium, Bulletin 15, Royal Society of New Zealand, Wellington, New Zealand, 20 January–1 February 1974, 133–140.

Cont. #: 277 Shinmoto, D.Y., and M.J. Vitousek (1978): An inexpensive air-deployable midocean tsunami gauge. In Proceedings of the International Union of Geodesy and Geophysics Special Tsunami Symposium, Manuscript Report No. 48, Ensenada, Baja California, 23–26 March 1977, 242–244.

Cont. #: 959 Sklarz, M.A., and L.Q. Spielvogel (1979): Delaying open boundary reflection interference by averaging solutions for the 1975 Hawaii tsunami simulation. Comput. Fluids, 7, 305–313, doi: 10.1016/0045-7930(79)90014-8.

Cont. #: 363 Sklarz, M.A., L.Q. Spielvogel, and H.G. Loomis (1979): Numerical simulation of the 29 November 1975 Island of Hawaii tsunami by the finite-element method. J. Phys. Oceanogr., 9(5), 1022–1031, doi: 10.1175/1520-0485(1979)009<1022:NSOTNI>2.

Cont. #: 2632 Smith, W.H.F., R. Scharroo, V.V. Titov, D. Arcas, and B.K. Arbic (2005): Satellite altimeters measure tsunami—Early model estimates confirmed. Oceanography, 18(2), 11–13, doi: 10.5670/oceanog.2005.62.

Cont. #: 64 Sokolowski, T.J., and G.R. Miller (1968): Deep sea release mechanism, Joint Tsunami Research Effort. NOAA Tech. Memo. ERL POL-1. [PDF Version]

Cont. #: 136 Soloviev, S.L., V.M. Popov, V.G. Pavlenko, S.S. Lappo, B.J. Bobrovski, V.V. Efimov, A.E. Zhukov, F.I. Konstantinov, A.E. Kulikov, V.J. Maramzin, G.A. Novinskaja, A.B. Rabinovich, A.E. Rozhdestvenskij, S.A. Soloviev, A.I. Spirin, O.I. Jakovenko, G.R. Miller, R.R. Harvey, J.M. Vitousek, and D.Y. Shinmoto (1975): Preliminary results of the first Soviet-American Tsunami expedition. Hawaii Institute of Geophysics and Joint Tsunami Research Effort, NOAA-JTRE-162 and HIG-76-8, 71 pp.

Cont. #: 3401 Spillane, M.C. (2014): A Tsunami Forecast Model for Point Reyes, California. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 6, 176 pp, doi: 10.7289/V5W9573D. [PDF Version]

Cont. #: 3390 Spillane, M.C. (2015): A Tsunami Forecast Model for Arena Cove, California. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 10, 140 pp, doi: 10.7289/V5000020. [PDF Version]

Cont. #: 3405 Spillane, M.C. (2015): A Tsunami Forecast Model for Elfin Cove, Alaska. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 13, 172 pp, doi: 10.7289/V5VH5KTQ. [PDF Version]

Cont. #: 3400 Spillane, M.C. (2015): A Tsunami Forecast Model for Nantucket, Massachusetts. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 8, 118 pp, doi: 10.7289/V5MS3QPD. [PDF Version]

Cont. #: 2923 Suleimani, E.N., R.A. Combellick, D. Marriott, R.A. Hansen, A.J. Venturato, and J.C. Newman (2005): Tsunami hazard maps of the Homer and Seldovia areas, Alaska. Report of Investigations 2005-2, State of Alaska Dept. of Nat. Res., Div. of Geol. and Geophys. Surveys, 28, 2 sheets, scale 1:12,500.

Cont. #: 2513 Suleimani, E.N., R.A. Hansen, R.A. Combellick, G.A. Carver, R.A. Kamphaus, J.C. Newman, and A.J. Venturato (2002): Tsunami hazard maps of the Kodiak area, Alaska. Report of Investigations 2002-1, State of Alaska Dept. of Nat. Res., Div. of Geol. and Geophys. Surveys, 16, 4 sheets, scale 1:12,500.

Cont. #: 2380 Synolakis, C., E. Okal, and E. Bernard (2005): The megatsunami of December 26, 2004. The Bridge, 35(2), National Academy of Engineering, 26–35. [PDF Version]

Cont. #: 2925 Synolakis, C.E., and E.N. Bernard (2006): Tsunami science before and beyond Boxing Day 2004. Phil. Trans. Roy. Soc. Lon. A, 364(1845), 2231–2265, doi: 10.1098/rsta.2006.1824.

Cont. #: 3053 Synolakis, C.E., E.N. Bernard, V.V. Titov, U. Kânoğlu, and F.I. González (2007): Standards, criteria, and procedures for NOAA evaluation of tsunami numerical models. NOAA Tech. Memo. OAR PMEL-135, NTIS: PB2007-109601, NOAA/Pacific Marine Environmental Laboratory, Seattle, WA, 55 pp. [PDF Version]

Cont. #: 3235 Synolakis, C.E., E.N. Bernard, V.V. Titov, U. Kânoğlu, and F.I. González (2008): Validation and verification of tsunami numerical models. Pure Appl. Geophys., 165(11–12), 2197–2228, doi: 10.1007/s00024-004-0427-y.

Cont. #: 2336 Synolakis, C.E., J.C. Borrero, H. Fritz, V.V. Titov, and E. Okal (2007): Inundation during the 26 December 2004 tsunami. In Coastal Engineering 2006—Proceedings of the 30th International Conference, San Diego, CA, 3–8 December 2006, 1625–1637.

Cont. #: 2629 Taft, B., C. Meinig, L. Bernard, C. Teng, S. Stalin, K. O'Neil, M. Eble, and C. Demers (2003): Transition of the Deep-ocean Assessment and Reporting of Tsunamis network—A technology transfer from NOAA Research to NOAA Operations. In Proceedings of Oceans 2003, San Diego, CA, September 2003, 2582–2588. [Full Text]

Cont. #: 2984 Tang, L., C. Chamberlin, E. Tolkova, M. Spillane, V.V. Titov, E.N. Bernard, and H.O. Mofjeld (2006): Assessment of potential tsunami impact for Pearl Harbor, Hawaii. NOAA Tech. Memo. OAR PMEL-131, NTIS: PB2007-100617, 36 pp. [PDF Version]

Cont. #: 2985 Tang, L., C.D. Chamberlin, and V.V. Titov (2008): Developing tsunami forecast inundation models for Hawaii: Procedures and testing. NOAA Tech. Memo. OAR PMEL-141, NTIS: PB2009-100620, 46 pp. [PDF Version]

Cont. #: 3704 Tang, L., V.V. Titov, E. Bernard, Y. Wei, C. Chamberlin, J.C. Newman, H. Mofjeld, D. Arcas, M. Eble, C. Moore, B. Uslu, C. Pells, M.C. Spillane, L.M. Wright, and E. Gica (2012): Direct energy estimation of the 2011 Japan tsunami using deep-ocean pressure measurements. J. Geophys. Res., 117, C08008, doi: 10.1029/2011JC007635.

Cont. #: 3332 Tang, L., V.V. Titov, and C.D. Chamberlin (2009): Development, testing, and applications of site-specific tsunami inundation models for real-time forecasting. J. Geophys. Res., 114, C12025, doi: 10.1029/2009JC005476.

Cont. #: 3340 Tang, L., V.V. Titov, and C.D. Chamberlin (2010): A Tsunami Forecast Model for Hilo, Hawaii. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 1, 94 pp. [PDF Version]

Cont. #: 4394 Tang, L., V.V. Titov, C. Moore, and Y. Wei (2016): Real-time assessment and modeling of the 16 September 2015 Chile tsunami. Pure Appl. Geophys., 173(2), 369–387, doi: 10.1007/s00024-015-1226-3.

Cont. #: 3217 Tang, L., V.V. Titov, Y. Wei, H.O. Mofjeld, M. Spillane, D. Arcas, E.N. Bernard, C. Chamberlin, E. Gica, and J. Newman (2008): Tsunami forecast analysis for the May 2006 Tonga tsunami. J. Geophys. Res., 113, C12015, doi: 10.1029/2008JC004922.

Cont. #: 1590 Tanioka, Y., K. Satake, L. Ruff, and F. González (1994): Fault parameters and tsunami excitation of the May 13, 1993, Shumagin Islands earthquake. Geophys. Res. Lett., 21(11), 967–970, doi: 10.1029/94GL00875.

Cont. #: 4731 ten Brink, U., Y. Wei, W. Fan, N. Miller, J.-L. Granja-Bruna, and N. Miller (2020): Mysterious tsunami in the Caribbean Sea following the 2010 Haiti earthquake possibly generated by dynamically triggered early aftershocks. Earth Planet. Sci. Lett., 540, 116269, doi: 10.1016/j.epsl.2020.116269, View online.

Cont. #: 5401 ten Brink, U.S., J.D. Chaytor, C.H. Flores, Y. Wei, S. Detemer, L.C. Lucas, B.D. Andrews, and A. Georgiopoulou (2023): Seafloor observations eliminate a landslide as the source of the 1918 Puerto Rico tsunami. Bull. Seismol. Soc. Am., 113(1), 268–280, doi: 10.1785/0120220146, View article at GeoScience World (external link).

Cont. #: 3812 Titov, V., E. Bernard, D. Arcas, Y. Wei, C. Chamberlin, C. Moore, and L. Tang (2011): March 11, 2011 Tohoku-Japan tsunami: Lessons from forecast assessment. In Proceedings of Oceans' 11 MTS/IEEE, Kona, IEEE, Piscataway, NJ, 19–22 September 2011, 2 pp, No. 6107282.

Cont. #: 1927 Titov, V., and F.I. González (1997): Implementation and testing of the Method of Splitting Tsunami (MOST) model. NOAA Tech. Memo. ERL PMEL-112, NTIS: PB98-122773, NOAA/Pacific Marine Environmental Laboratory, Seattle, WA, 11 pp. [PDF Version]

Cont. #: 4424 Titov, V., C. Moore, M. Spillane, Y. Wei, E. Gica, and H. Zhou (2016): Tsunami Hazard Assessment Based on Wave Generation, Propagation, and Inundation Modeling for the U.S. East Coast. NUREG/CR-7222, U.S. Nuclear Regulatory Commission, Washington, D.C., Available online at the U.S. NRC Library.

Cont. #: 4405 Titov, V., Y.T. Song, L. Tang, E.N. Bernard, Y. Bar-Sever, and Y. Wei (2016): Consistent estimates of tsunami energy show promise for improved early warning. Pure Appl. Geophys., 173(12), 3863–3880, doi: 10.1007/s00024-016-1312-1.

Cont. #: 3159 Titov, V.V. (2009): Tsunami forecasting. Chapter 12 in The Sea, Volume 15: Tsunamis, Harvard University Press, Cambridge, MA and London, England, 371–400.

Cont. #: 5208 Titov, V.V. (2021): Hard lessons of the 2018 Indonesian Tsunamis. Pure Appl. Geophys., 178, 1121–1133, doi: 10.1007/s00024-021-02731-0, View online (open access).

Cont. #: 5168 Titov, V.V. (2021): Tsunami hazard and the new Blue Economy. Chapter 16 in Preparing a Workforce for the New Blue Economy, R. Spinrad and L. Hotaling (eds.), Elsevier, 293–304, doi: 10.1016/B978-0-12-821431-2.00007-X, View online at Elsevier (external link).

Cont. #: 2205 Titov, V.V., and F.I. González (2001): Numerical study of the source of the July 17, 1998 PNG tsunami. In Tsunami Research at the End of a Critical Decade, G.T. Hebenstreit (ed.), Kluwer Academic Publishers, 197–207.

Cont. #: 2510 Titov, V.V., and F.I. González (2002): Modeling solutions for short-term inundation forecasting for tsunamis. In Underwater Ground Failures on Tsunami Generation, Modeling, Risk and Mitigation, NATO Advanced Workshop, Istanbul, Turkey, 23–26 May 2001, 227–230.

Cont. #: 2662 Titov, V.V., F.I. González, E.N. Bernard, M.C. Eble, H.O. Mofjeld, J.C. Newman, and A.J. Venturato (2005): Real-time tsunami forecasting: Challenges and solutions. Nat. Hazards, 35(1), Special Issue, U.S. National Tsunami Hazard Mitigation Program, 41–58, doi: 10.1007/s11069-004-2403-3.

Cont. #: 2393 Titov, V.V., F.I. González, H.O. Mofjeld, and J.C. Newman (2001): Project SIFT (Short-term Inundation Forecasting for Tsunamis). In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), Session 7-2, Seattle, WA, 7–10 August 2001, 715–721, (on CD-ROM). [Full Text]

Cont. #: 2195 Titov, V.V., F.I. González, H.O. Mofjeld, and J.C. Newman (2003): Short-term inundation forecasting for tsunamis. In Submarine Landslides and Tsunamis, A.C. Yalciner, E. Pelinovsky, E. Okal, C.E. Synolakis (ed.), The Netherlands, Kluwer Academic Publishers, 277–284.

Cont. #: 2572 Titov, V.V., F.I. González, H.O. Mofjeld, and A.J. Venturato (2003): NOAA TIME Seattle Tsunami Mapping Project: Procedures, data sources, and products. NOAA Tech. Memo. OAR PMEL-124, NTIS: PB2004-101635, 21 pp. [PDF Version]

Cont. #: 2389 Titov, V.V., B. Jaffe, F.I. González, and G. Gelfenbaum (2001): Re-evaluating source mechanisms for the 1998 Papua New Guinea tsunami using revised slump estimates and sedimentation modeling. In Proceedings of the International Tsunami Symposium 2001 (ITS 2001), Session 2-4, Seattle, WA, 7–10 August 2001, 389–395, (on CD-ROM). [Full Text]

Cont. #: 4383 Titov, V.V., U. Kânoğlu, and C. Synolakis (2016): Development of MOST for real-time tsunami forecasting. J. Waterw. Port Coast. Ocean Eng., 142(6), 03116004, doi: 10.1061/(ASCE)WW.1943-5460.0000357.

Cont. #: 5489 Titov, V.V., C. Meinig, S. Stalin, Y. Wei, C. Moore, and E. Bernard (2023): Technology transfer of PMEL tsunami research protects populations and expands the New Blue Economy. Oceanography, 36(2–3), 186–195, doi: 10.5670/oceanog.2023.205, View open access article online at Oceanography (external link).

Cont. #: 2049 Titov, V.V., H.O. Mofjeld, F.I. González, and J.C. Newman (1999): Offshore forecasting of Hawaiian tsunamis generated in Alaska-Aleutian Subduction Zone. NOAA Tech. Memo. ERL PMEL-114, NTIS: PB2002-101567, NOAA/Pacific Marine Environmental Laboratory, Seattle, WA, 22 pp. [PDF Version]

Cont. #: 2206 Titov, V.V., H.O. Mofjeld, F.I. González, and J.C. Newman (2001): Offshore forecasting of Alaska tsunamis in Hawaii. In Tsunami Research at the End of a Critical Decade, G.T. Hebenstreit (ed.), Kluwer Academic Publishers, 75–90.

Cont. #: 5123 Titov, V.V., and C. Moore (2021): Meteotsunami model forecast: Can coastal hazard be quantified in real time? Nat. Hazards, doi: 10.1007/s11069-020-04450-6, View online.

Cont. #: 3547 Titov, V.V., C. Moore, D.J.M. Greenslade, C. Pattiaratchi, R. Badal, C.E. Synolakis, and U. Kânoğlu (2011): A new tool for inundation modeling: Community Modeling Interface for Tsunamis (ComMIT). Pure Appl. Geophys., 168(11), 2121–2131, doi: 10.1007/s00024-011-0292-4.

Cont. #: 2809 Titov, V.V., A.B. Rabinovich, H.O. Mofjeld, R.E. Thomson, and F.I. González (2005): The global reach of the 26 December 2004 Sumatra Tsunami. Science, 309(5743), 2045–2048, doi: 10.1126/science.1114576.

Cont. #: 1948 Titov, V.V., and C.E. Synolakis (1997): Extreme inundation flows during the Hokkaido-Nansei-Oki tsunami. Geophys. Res. Lett., 24(11), 1315–1318, doi: 10.1029/97GL01128.

Cont. #: 3149 Tolkova, E. (2009): Principal component analysis of tsunami buoy record: Tide prediction and removal. Dynam. Atmos. Ocean, 46(1–4), 62–82, doi: 10.1016/j.dynatmoce.2008.03.001.

Cont. #: 3267 Tolkova, E. (2010): EOF analysis of a time series with application to tsunami detection. Dynam. Atmos. Ocean, 50(1), 35–54, doi: 10.1016/j.dynatmoce.2009.09.001.

Cont. #: 3775 Tolkova, E. (2013): Tide-tsunami interaction in Columbia River, as implied by historical data and numerical simulations. Pure Appl. Geophys., 170(6–8), Pageoph Topical Volumes: Tsunamis in the World Ocean, K. Satake, A. Rabinovich, D.D. Howes, and J.C. Borrero (Eds.), 1115–1126, doi: 10.1007/s00024-012-0518-0.

Cont. #: 3620 Tolkova, E., and W. Power (2011): Obtaining natural oscillatory modes of bays and harbors via Empirical Orthogonal Function analysis of tsunami wave fields. Ocean Dynam., 61(6), 731–751, doi: 10.1007/s10236-011-0388-5.

Cont. #: 3342 Uslu, B., D. Arcas, V.V. Titov, and A.J. Venturato (2010): A Tsunami Forecast Model for San Francisco, California. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 3, 88 pp. [PDF Version]

Cont. #: 3484 Uslu, B., J. Borrero, L. Dengler, C.E. Synolakis, and A. Barberopoulou (2008): Tsunami Inundation from Great Earthquakes on the Cascadia Subduction Zone along the Northern California Coast. In Solutions to Coastal Disasters 2008: Tsunamis, Wallendorf, L., L. Ewing, C. Jones, and B. Jaffe (eds.), ASCE, Oahu, HI, 13–16 April 2008, 204–214., http://link.aip.org/link/?ASC/313/19/1, doi: 10.1061/40978(313)19.

Cont. #: 3949 Uslu, B., M. Eble, D. Arcas, and V. Titov (2013): Tsunami Hazard Assessment for the Commonwealth of the Northern Mariana Islands. Tsunami Hazard Assessment Special Series, Vol. 3, 188 pp. [PDF Version]

Cont. #: 3532 Uslu, B., M. Eble, V.V. Titov, and E.N. Bernard (2010): Distant tsunami threats to the ports of Los Angeles and Long Beach, California. NOAA OAR Special Report, Tsunami Hazard Assessment Special Series, Vol. 2, 100 pp. [Full Text]

Cont. #: 3600 Uslu, B., W. Power, D. Greenslade, V. Titov, and M. Eble (2011): The July 15, 2009 Fiordland, New Zealand tsunami: Real-time assessment. Pure Appl. Geophys., 168(11), 1963–1972, doi: 10.1007/s00024-011-0281-7.

Cont. #: 3528 Uslu, B., V.V. Titov, M. Eble, and C. Chamberlin (2010): Tsunami hazard assessment for Guam. NOAA OAR Special Report, Tsunami Hazard Assessment Special Series, Vol. 1, 186 pp. [PDF Version] [Full Text]

Cont. #: 2949 Venturato, A.J., D. Arcas, and U. Kânoğlu (2007): Modeling tsunami inundation from a Cascadia subduction zone earthquake for Long Beach and Ocean Shores, Washington. NOAA Tech. Memo. OAR PMEL-137, NTIS: PB2008-101768, NOAA/Pacific Marine Environmental Laboratory, Seattle, WA, 26 pp. [PDF Version]

Cont. #: 2981 Venturato, A.J., D. Arcas, V.V. Titov, H.O. Mofjeld, C.C. Chamberlin, and F.I. González (2007): Tacoma, Washington, tsunami hazard mapping project: Modeling tsunami inundation from Tacoma and Seattle fault earthquakes. NOAA Tech. Memo. OAR PMEL-132, NTIS: PB2007-106465, 23 pp. [PDF Version]

Cont. #: 3125 Venturato, A.J., D.W. Denbo, K.T. McHugh, J.R. Osborne, P. Sorvik, and C. Moore (2007): NOAA tsunami forecasting system: Using numerical modeling tools to assist in tsunami warning guidance. In 23rd Conference on Interactive Information Processing Systems (IIPS) for Meteorology, Oceanography, and Hydrology, 87th AMS Annual Meeting, San Antonio, TX, 14–18 January 2007, Paper 3A.8.

Cont. #: 3126 Venturato, A.J., E. Gica, D.W. Denbo, and V.V. Titov (2007): Assimilation of real-time tsunami event data into forecasting models. In 11th Symposium on Integrated Observing and Assimilation Systems for the Atmosphere, Oceans, and Land Surface (IOAS-AOLS), 7th AMS Annual Meeting, San Antonio, TX, 14–18 January 2007, Paper P1.10.

Cont. #: 2852 Venturato, A.J., V.V. Titov, D. Arcas, F.I. González, and C.D. Chamberlin (2005): Reducing the impact: U.S. tsunami forecast modeling and mapping efforts. In ESRI International User Conference Proceedings (UC2471), San Diego, CA, 25–29 July 2005.

Cont. #: 1355 Walker, D.A., and E.N. Bernard (1993): Comparison of T-phase spectra and tsunami amplitudes for tsunamigenic and other earthquakes. J. Geophys. Res., 98(C7), 12,557–12,565, doi: 10.1029/93JC00675.

Cont. #: 4710 Walsh, T.J., E. Gica, D. Arcas, V.V. Titov, and D.W. Eungard (2016): Tsunami Hazard Maps of the San Juan Islands, Washington—Model Results from a Cascadia Subduction Zone Earthquake Scenario. Washington Division of Geology and Earth Resources Map Series 2016-01, Division of Geology and Earth Resources, Washington State Department of Natural Resources, Olympia, WA, 9 pp., http://www.dnr.wa.gov/publications/ger_ms2016-01_tsunami_hazard_san_juan_islands.zip, 4 sheets, scale 1:24,000 and 1:48,000.

Cont. #: 2794 Walsh, T.J., V.V. Titov, A.J. Venturato, H.O. Mofjeld, and F.I. González (2003): Tsunami hazard map of the Elliott Bay area, Seattle, Washington—Modeled tsunami inundation from a Seattle fault earthquake. Washington State Department of Natural Resources Open File Report 2003-14, 1 plate, scale 1:50,000. [PDF Version]

Cont. #: 2795 Walsh, T.J., V.V. Titov, A.J. Venturato, H.O. Mofjeld, and F.I. González (2004): Tsunami hazard map of the Bellingham area, Washington—Modeled tsunami inundation from a Cascadia subduction zone earthquake. Washington Department of Natural Resources Open File Report 2004-15, 40 x 36 in. color sheet, scale 1:50,000. [PDF Version]

Cont. #: 3152 Wei, Y. (2008): Tsunami impact assessment for Unalaska, Alaska. Proceedings of the Conference on Solutions to Coastal Disasters, American Society of Civil Engineers, L. Wallendorf, L. Ewing, C. Jones, and B. Jaffe, (eds.), Oahu, Hawaii, 13–16 April 2008, 118–131.

Cont. #: 3343 Wei, Y., and D. Arcas (2010): A Tsunami Forecast Model for Kodiak, Alaska. NOAA OAR Special Report, PMEL Tsunami Forecast Series: Vol. 4, 96 pp. [PDF Version]

Cont. #: 3114 Wei, Y., E. Bernard, L. Tang, R. Weiss, V. Titov, C. Moore, M. Spillane, M. Hopkins, and U. Kânoğlu (2008): Real-time experimental forecast of the Peruvian tsunami of August 2007 for U.S. coastlines. Geophys. Res. Lett., 35, L04609, doi: 10.1029/2007GL032250.

Cont. #: 3795 Wei, Y., C. Chamberlin, V. Titov, L. Tang, and E.N. Bernard (2013): Modeling of the 2011 Japan tsunami - Lessons for near-field forecast. Pure Appl. Geophys., 170(6–8), 1309–1331, doi: 10.1007/s00024-012-0519-z.

Cont. #: 3510 Wei, Y., H. Fritz, V. Titov, B. Uslu, C. Chamberlin, and N. Kalligeris (2015): Source models and near-field impact of the April 1, 2007 Solomon Islands tsunami. Pure Appl. Geophys., 172(3), 657–682, doi: 10.1007/s00024-014-1013-6.

Cont. #: 4014 Wei, Y., A.V. Newman, G.P. Gavin, V.V. Titov, and L. Tang (2014): Tsunami forecast by joint inversion of real-time tsunami waveforms and seismic or GPS data: Application to the Tohoku 2011 tsunami. Pure Appl. Geophys., 171(12), 3281–3305, doi: 10.1007/s00024-014-0777-z.

Cont. #: 3513 Wei, Y., U.S. ten Brink, and B.F. Atwater (2024): Modeled flooding by tsunamis and a storm versus observed extent of coral erratics on Anegada, British Virgin Islands—Further evidence for a great Caribbean earthquake six centuries ago. J. Geophys. Res., 129(3), e2023JB028387, doi: 10.1029/2023JB028387, View open access article at Wiley (external link).

Cont. #: 3765 Wei, Y., V. Titov, A. Newman, G. Hayes, L. Tang, and C. Chamberlin (2011): Near-field hazard assessment of March 11, 2011 Japan tsunami sources inferred from different methods. In Proceedings of Oceans' 11 MTS/IEEE, Kona, IEEE, Piscataway, NJ, 19–22 September 2011, 9 pp, No. 6107294.

Cont. #: 3181 Weiss, R. (2008): Sediment grains moved by passing tsunami waves: Tsunami deposits in deep water. Mar. Geol., 250(3–4), 251–257, doi: 10.1016/j.margeo.2008.01.018.

Cont. #: 3060 Weiss, R., and H. Bahlburg (2006): A note on the preservations of offshore tsunami deposits. J. Sediment. Res., 76(12), 1267–1273, doi: 10.2110/jsr.2006.110.

Cont. #: 3058 Weiss, R., and H. Bahlburg (2006): The Coast of Kenya Field Survey after the December 2004 Indian Ocean Tsunami. Earthq. Spectra, 22(S3), S235–S240, doi: 10.1193/1.2201970.

Cont. #: 3057 Weiss, R., K. Wünnemann, and H. Bahlburg (2006): Numerical modelling of generation, propagation and run-up of tsunamis caused by oceanic impacts: model strategy and technical solutions. Geophys. J. Int., 167(1), 77–88, doi: 10.1111/j.1365-246X.2006.02889.x.

Cont. #: 5066 Williamson, A.L., D. Melgar, B.W. Crowell, D. Arcas, T.I. Melbourne, Y. Wei, and K. Kwong (2020): Toward near-field tsunami forecasting along the Cascadia subduction zone using rapid GNSS source models. J. Geophys. Res., 125(8), e2020JB019636, doi: 10.1029/2020JB019636.

Cont. #: 2853 Wong, F.L., E.L. Geist, and A.J. Venturato (2005): Probabilistic tsunami hazard maps and GIS. In ESRI International User Conference Proceedings (UC2000), San Diego, CA, 25–29 July 2005.

Cont. #: 3127 Wong, F.L., A.J. Venturato, and E.L. Geist (2007): GIS data for the Seaside, Oregon, tsunami pilot study to modernize FEMA flood hazard maps. In Proceedings of Coastal Zone 07, Portland, Oregon, 22–26 July 2007, Paper 3029.

Cont. #: 2982 Wong, F.L., A.J. Venturato, and E.L. Geist (2007): Seaside, Oregon Tsunami Pilot Study—Modernization of FEMA Flood Maps: GIS Data. U.S. Geological Survey Open-File Report, Data Series 236, http://pubs.usgs.gov/ds/2006/236/. [Full Text]

Cont. #: 3061 Wünnemann, K., R. Weiss, and K. Hoffmann (2007): Characteristics of oceanic impact-induced large waves—Re-evaluation of the tsunami hazard. Meteorit. Planet. Sci., 42(11), 1893–1903, doi: 10.1111/j.1945-5100.2007.tb00548.x.

Cont. #: 3868 Yeh, H., E. Tolkova, D. Jay, S. Talke, and H. Fritz (2012): Tsunami hydrodynamics in the Columbia River. Journal of Disaster Research, 7(5), 604–608.

Cont. #: 4087 Yim, S.C., Y. Wei, M. Azabakht, S. Nimmala, and T. Potisuk (2015): Case study for tsunami design of coastal infrastructure: Spencer Creek Bridge, Oregon. Journal of Bridge Engineering, 20(1), 05014008, doi: 10.1061/(ASCE)BE.1943-5592.0000631.

Cont. #: 5096 Yuan, Y., H. Li, Y. Wei, F. Shi, Z. Wang, J. Hou, P. Wang, and Z. Xu (2021): Probabilistic tsunami hazard assessment (PTHA) for the southeast coast of Mainland China and Taiwan Island. J. Geophys. Res., 126(2), e2020JB020344, doi: 10.1029/2020JB020344, View online.

Cont. #: 3569 Zhou, H., C. Moore, Y. Wei, and V. V. Titov (2011): A nested-grid Boussinesq-type approach to modeling dispersive propagation and runup of landslide-generated tsunami. Nat. Hazards Earth Sys. Sci., 11(10), 2677–2697, doi: 10.5194/nhess-11-2677-2011.

Cont. #: 3827 Zhou, H., Y. Wei, and V.V. Titov (2012): Dispersive modeling of the 2009 Samoa tsunami. Geophys. Res. Lett., 39(16), L16603, doi: 10.1029/2012GL053068.

Cont. #: 4065 Zhou, H., Y. Wei, L. Wright, and V. Titov (2014): Waves and currents in Hawaiian waters induced by the dispersive 2011 Tohoku tsunami. Pure Appl. Geophys., 171(12), 3365–3384, doi: 10.1007/s00024-014-0781-3.

Your search returned 307 records

Feature Publications | Outstanding Scientific Publications

Contact Sandra Bigley |