Meteorological tsunamis: from local hazard to global relevance

Vilibić, Ivica; Petra, Zemunik Selak; jadranka, Šepić (2025) Meteorological tsunamis: from local hazard to global relevance. Reviews of Geophysics, 63 (4). ISSN 8755-1209

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Abstract

Research on meteorological tsunamis or meteotsunamis—long ocean waves in the tsunami frequency band generated by propagating atmospheric disturbances which resonantly enhance ocean waves—has grown significantly in recent decades. This expansion is due to progress in (a) ocean and atmospheric measurements, including advanced instrumentation with higher precision and smaller sampling time steps, as well as installation of meteotsunami tracking measurement networks, (b) ocean and atmospheric data products, including those related to the upper atmosphere and ionosphere, and (c) supercomputing capabilities and sophisticated atmosphere‐ocean models that successfully simulate both atmospheric planetary processes and mesoscale systems capable of generating meteotsunamis, as well as sea level response to these. Meteotsunamis can induce multi‐meter sea level oscillations in harbors and low‐lying areas, leading to severe flooding, infrastructure damage, injuries, and sometimes fatalities. Traditionally, meteotsunami research focused on individual event analyses using available sea level and lower‐layer atmospheric observations. Recently, efforts have shifted toward global hazard mapping, the development of forecast and early‐warning systems, and toward quantifying projected meteotsunamis intensity and frequency, using climate models. The January 2022 eruption of the Hunga Tonga‐Hunga Ha'apai volcano, which generated acoustic‐gravity waves that circled the globe, has spurred research of planetary meteotsunami waves and their potential to pose coastal hazards worldwide. Additionally, meteotsunamis radiate acoustic‐gravity waves vertically, creating ionospheric oscillations detectable through electron content variations. This review will cover the mentioned developments and conclude with a discussion of research gaps and potential directions for further studies.

Item Type:	Article
Uncontrolled Keywords:	meteorological tsunamis; global and regional statistics; process-oriented studies; research gaps and perspectives
Subjects:	NATURAL SCIENCES > Geophysics
Divisions:	Division for Marine and Enviromental Research
Projects:	Project title Project leader Project code Project type Meteorološki tsunamiji: od planetarnih do mezoskalnih procesa Ivica Vilibić IP-2022-10-3064 HRZZ Procjena doprinosa oscilacija razine mora perioda kraćeg od jednog sata ukupnim ekstremima razine mora u promjenjivim klimatskim uvjetima-SHExtreme Jadranka Šepić; Slavko Radilović 853045 EK Klimatsko modeliranje na konvektivnoj skali za područje Hrvatske: ekstremi oborine i razine mora Danijel Belušić IP-2022-10-9139 HRZZ Snaga i varijabilnost ekstremnih razina Jadranskog mora u sadašnjoj i budućoj klimi-StVar-Adri Jadranka Šepić; Maja Bubalo; Srđan Čupić; Natalija Dunić; Isaak Fain; Maja Karlović; Frano Matić; Iva Međugorac; Marko Mlinar; Miroslava Pasarić; Alexander B. Rabinovich IP-2019-04-5875 HRZZ Klima i ekstremni vremenski uvjeti u prirodnom i urbanom okolišu Hrvatske Ivana Herceg Bulić IP-2022-10-4144 HRZZ
Depositing User:	Ivica Vilibić
Date Deposited:	07 Jan 2026 11:59
URI:	http://fulir.irb.hr/id/eprint/10656
DOI:	10.1029/2024RG000867

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