Россия
Россия
с 01.01.2021 по настоящее время
Федеральное государственное бюджетное учреждение науки Тихоокеанский океанологический институт им. В.И.Ильичева Дальневосточного отделения Российской академии наук
Нижний Новгород, Нижегородская область, Россия
ВАК 1.6 Науки о Земле и окружающей среде
УДК 551.466.62 Цунами, сейсмические морские волны
УДК 550.344.42 Цунами
УДК 55 Геология. Геологические и геофизические науки
УДК 550.34 Сейсмология
УДК 550.383 Главное магнитное поле Земли
ГРНТИ 37.25 Океанология
ГРНТИ 37.01 Общие вопросы геофизики
ГРНТИ 37.15 Геомагнетизм и высокие слои атмосферы
ГРНТИ 37.31 Физика Земли
ГРНТИ 38.01 Общие вопросы геологии
ГРНТИ 36.00 ГЕОДЕЗИЯ. КАРТОГРАФИЯ
ГРНТИ 37.00 ГЕОФИЗИКА
ГРНТИ 38.00 ГЕОЛОГИЯ
ГРНТИ 39.00 ГЕОГРАФИЯ
ГРНТИ 52.00 ГОРНОЕ ДЕЛО
ОКСО 05.06.01 Науки о Земле
ББК 26 Науки о Земле
ТБК 63 Науки о Земле. Экология
BISAC SCI SCIENCE
In this paper numerical simulation of tsunami waves is carried out using data from the earthquake off the coast of Mindanao Island in the Philippine Sea on 23 December 2023 in the western part of the Pacific Ocean. The paper considers two scenarios of seismic source localization with different dynamics of the Earth's crust displacement in the seismic source region during the earthquake process. Consideration of two scenarios with different location of keyboard blocks, into which the earthquake source is segmented, allows one to study the influence of source geometry on the characteristics of generated tsunami waves. In the course of simulation, during dynamic displacement of keyboard blocks in the earthquake source, tsunami source formation, tsunami waves and their propagation in the Pacific Ocean water area take place. The wave characteristics of the process along the mainland and island zones in the considered water area were obtained. The results of simulation for the two scenarios are compared with observational data, which makes it possible to identify which type of block arrangement provides better similarity with the recorded tsunami characteristics and, therefore, better describes the real dynamics of the earthquake source.
earthquake and tsunami in the Philippines 02.12.2023, earthquake sources, tsunami source, tsunami waves, numerical simulation, tsunami wave characteristics
1. Lobkovsky, L. I., and B. V. Baranov (1984), Keyboard model of strong earthquakes in island arcs and active continental margins, Doklady Akademii Nauk SSSR, 275(4), 843–857 (in Russian).
2. Lobkovsky, L. I., B. V. Baranov, R. K. Mazova, and L. Y. Kataeva (2006), Implications of the seismic source dynamics for the characteristics of a possible tsunami in a model problem of the seismic gap in the Central Kurile region, Russian Journal of Earth Sciences, 8(5), https://doi.org/10.2205/2006ES000209.
3. NOAA (2023), M 7.6 - 19 km E of Gamut, Philippines, https://www.ngdc.noaa.gov/hazel/view/hazards/earthquake/event-more-info/10721, (visited on 24/08/10).
4. NOAA (2024), Latest news and features, http://earthquake.usgs.gov, (visited on 24/08/10).
5. Pelinovsky, E. N., and R. K. Mazova (1992), Exact analytical solutions of nonlinear problems of tsunami wave run-up on slopes with different profiles, Natural Hazards, 6(3), 227–249, https://doi.org/10.1007/BF00129510.
6. Stocker, J. J. (1957), Water Waves The Mathematical Theory With Applications, Interscience Publishers, New York.
7. UNESCO (2024), International Tsunami Information Centre, http://www.tsunamiwave.info/, (visited on 24/08/10).
8. USGS (2023), Significant Earthquake Information, https://earthquake.usgs.gov/earthquakes/eventpage/us7000lff4/executive, (visited on 24/08/10).
9. USGS (2024), Significant Earthquakes - 2024, http://earthquake.usgs.gov, (visited on 24/08/10).
10. Voltsinger, N. E., K. A. Klevanniy, and E. H. Pelinovskiy (1989), Long-Wave Dynamics of Coastal Zone, 271 pp., Gidrometeoizdat, Leningrad (in Russian).
11. Wells, D. L., and K. J. Coppersmith (1994), New empirical relationships among magnitude, rupture length, rupture width, rupture area, and surface displacement, Bulletin of the Seismological Society of America, 84(4), 974–1002, https://doi.org/10.1785/BSSA0840040974.
12. Wikipedia (2024a), December 2023 Mindanao earthquake, https://en.wikipedia.org/wiki/ December_2023_Mindanao_earthquake, (visited on 24/08/10).
13. Wikipedia (2024b), Data:December 2023 Mindanao earthquake.map, https://commons.wikimedia.org/wiki/Data:December_2023_Mindanao_earthquake.map, (visited on 24/08/10).
