Nonlinear regimes of tsunami waves generated by a granular collapse

Kukuiho’olua Island is an islet that lies 164 m due north of Laie Point, a peninsula of cemented, coastal, Pleistocene and Holocene sand dunes. Kukuiho’olua Island consists of the same dune deposits as Laie Point and is cut by a sea arch, which, documented here for first time, may have formed during the 1 April 1946 “April Fools’s Day Tsunami.” The tsunami-source of formation is supported by previous modeling by other authors, which indicated that the geometry of overhanging sea cliffs can greatly strengthen and focus the force of tsunami waves. Additional changes occurred to the island and arch during the 2015–2016 El Niño event, which was one of the strongest on record. During the event, anomalous wave heights and reversed wind directions occurred across the Pacific. On the night of 24–25 February 2016, large storm waves, resulting from the unique El Niño conditions washed out a large boulder that had lain within the arch since its initial formation, significantly increasing the open area beneath the arch. Large waves also rose high enough for seawater to flow over the peninsula at Laie Point, causing significant erosion of its upper surface. These changes at Laie Point and Kukuio’olua Island serve as examples of long-term, intermittent change to a coastline—changes that, although infrequent, can occur quickly and dramatically, potentially making them geologic hazards.

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Destructions in the Port Caused By Tsunami Waves

Power Technology and Engineering ◽

10.1007/s10749-021-01313-3 ◽

2021 ◽

Author(s):

S. S. Kotitsyna ◽

I. G. Kantarzhi

Keyword(s):

Tsunami Waves

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Numerical predictions of laboratory-generated tsunami waves

International Journal of Protective Structures ◽

10.1177/2041419616648579 ◽

2016 ◽

Vol 7 (2) ◽

pp. 265-281

Author(s):

Yuri S Karinski ◽

Dina Tsemakh ◽

Vladimir R Feldgun ◽

David Z Yankelevsky

Keyword(s):

Tsunami Waves ◽

Numerical Predictions

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Onset and nonlinear regimes of convection of binary fluid with negative separation ratio in square cavity heated from above

International Journal of Heat and Mass Transfer ◽

10.1016/j.ijheatmasstransfer.2016.10.091 ◽

2017 ◽

Vol 106 ◽

pp. 1134-1143 ◽

Cited By ~ 4

Author(s):

Tatyana Lyubimova ◽

Nadezhda Zubova

Keyword(s):

Square Cavity ◽

Binary Fluid ◽

Separation Ratio ◽

Nonlinear Regimes

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Simulation of tsunami waves generated by submarine landslides in the Black Sea

Russian Journal of Numerical Analysis and Mathematical Modelling ◽

10.1515/rnam-2015-0020 ◽

2015 ◽

Vol 30 (4) ◽

Cited By ~ 1

Author(s):

Gayaz S. Khakimzyanov ◽

Oleg I. Gusev ◽

Sofya A. Beizel ◽

Leonid B. Chubarov ◽

Nina Yu. Shokina

Keyword(s):

Surface Waves ◽

Black Sea ◽

Numerical Technique ◽

Submarine Landslide ◽

The Black Sea ◽

Submarine Landslides ◽

Hydrodynamic Approximation ◽

Tsunami Waves ◽

Dispersive Model ◽

Shallow Water Models

AbstractNumerical technique for studying surface waves appearing under the motion of a submarine landslide is discussed. This technique is based on the application of the model of a quasi-deformable landslide and two shallow water models, namely, the classic (dispersion free) one and the completely nonlinear dispersive model of the second hydrodynamic approximation. Numerical simulation of surface waves generated by a large model landslide on the continental slope of the Black Sea near the Russian coast is performed. It is shown that the dispersion has a significant impact on the picture of propagation of tsunami waves on sufficiently long paths.

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Erratum to: Preface: Thematic issue “Landslide-generated tsunami waves”

Landslides ◽

10.1007/s10346-016-0747-x ◽

2016 ◽

Vol 13 (6) ◽

pp. 1593-1593

Author(s):

Behzad Ataie-Ashtiani

Keyword(s):

Thematic Issue ◽

Tsunami Waves

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What Is Tsunami Earthquake?

10.1115/omae2021-63104 ◽

2021 ◽

Author(s):

Toshikazu Ebisuzaki

Keyword(s):

Surface Waves ◽

Seismic Waves ◽

Submarine Landslides ◽

Lower Efficiency ◽

Tsunami Waves ◽

Tsunami Earthquakes ◽

Seismic Surface Waves ◽

Tsunami Earthquake ◽

Volcanic Islands ◽

2004 Tsunami

Abstract A tsunami earthquake is defined as an earthquake which induces abnormally strong tsunami waves compared with its seismic magnitude (Kanamori 1972; Kanamori and Anderson 1975; Tanioka and Seno 2001). We investigate the possibility that the surface waves (Rayleigh, Love, and tsunami waves) in tsunami earthquakes are amplified by secondly submarine landslides, induced by the liquefaction of the sea floor due to the strong vibrations of the earthquakes. As pointed by Kanamori (2004), tsunami earthquakes are significantly stronger in longer waves than 100 s and low in radiation efficiencies of seismic waves by one or two order of magnitudes. These natures are in favor of a significant contribution of landslides. The landslides can generate seismic waves with longer period with lower efficiency than the tectonic fault motions (Kanamori et al 1980; Eissler and Kanamori 1987; Hasegawa and Kanamori 1987). We further investigate the distribution of the tsunami earthquakes and found that most of their epicenters are located at the steep slopes in the landward side of the trenches or around volcanic islands, where the soft sediments layers from the landmass are nearly critical against slope failures. This distribution suggests that the secondly landslides may contribute to the tsunami earthquakes. In the present paper, we will investigate the rapture processes determined by the inversion analysis of seismic surface waves of tsunami earthquakes can be explained by massive landslides, simultaneously triggered by earthquakes in the tsunami earthquakes which took place near the trenches.

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