NON-STATIONARY PROBABILISTIC TSUNAMI HAZARD ASSESSMENTS INCORPORATING TIDES AND SEA LEVEL RISE

Ignacio Sepulveda; Philip Liu; Mircea Grigoriu; Jennifer S. Haase; Patricio Winckler

doi:10.9753/icce.v37.management.83

Núm. 37 (2022), Coastal Management, Environment, and Risk

Núm. 37 (2022)

NON-STATIONARY PROBABILISTIC TSUNAMI HAZARD ASSESSMENTS INCORPORATING TIDES AND SEA LEVEL RISE

Coastal Management, Environment, and Risk

Publicado 2023-09-01

Ignacio Sepulveda
Philip Liu
Mircea Grigoriu
Jennifer S. Haase
Patricio Winckler

Ignacio Sepulveda

Philip Liu

Mircea Grigoriu

Jennifer S. Haase

Patricio Winckler

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NON-STATIONARY PROBABILISTIC TSUNAMI HAZARD ASSESSMENTS INCORPORATING TIDES AND SEA LEVEL RISE. (2023). Coastal Engineering Proceedings, 37, management.83. https://doi.org/10.9753/icce.v37.management.83

Resumen

Tides and climate driven sea level rise (SLR) contribute significantly to water level changes in the short and long term, respectively. In terms of magnitude, they could be comparable to tsunamis of interest at certain coasts. New non-stationary probabilistic tsunami hazard assessment (nPTHA) methods that were developed to include the mean sea level changes due to a warming climate are now extended to incorporate the uncertainty of the tidal phase at the moment of tsunami occurrence. Here, a collocation-based model is used in the nPTHA method to render the calculation feasible and efficient.

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Referencias

Sepúlveda, Haase, Liu, Grigoriu & Winckler (2021). Non-stationary probabilistic tsunami hazard assessments incorporating climatechange- driven sea level rise. Earth's Future.

Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.

Derechos de autor 2023 Ignacio Sepulveda, Philip Liu, Mircea Grigoriu, Jennifer S. Haase, Patricio Winckler

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NON-STATIONARY PROBABILISTIC TSUNAMI HAZARD ASSESSMENTS INCORPORATING TIDES AND SEA LEVEL RISE

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