A numerical study of the February 15, 1941 storm in the Tagus estuary. Fortunato, A. B., Freire, P., Bertin, X., Rodrigues, M., Ferreira, J., & Liberato, M. L. R. Continental Shelf Research, 144:50–64, July, 2017.
A numerical study of the February 15, 1941 storm in the Tagus estuary [link]Paper  doi  abstract   bibtex   
On February 15, 1941, a storm caused one of the major natural disasters in the Iberian Peninsula in the past century. The storm made landfall in the north of Portugal, leading to a large surge in the Tagus estuary. Adverse meteorological conditions combined with a high spring tide led to extensive flooding of dry land, causing severe damage and casualties. A suite of regional and local scale models is developed to analyze the event and the relative contributions of the different forcing agents to the extreme water levels. Quantitative and qualitative validations show that the models adequately reproduce this type of events. The models are then used to assess the inundation in the upstream reaches of the estuary where extensive agricultural lands are protected by dikes. Results show that over 25km2 could be inundated today, a value that would increase threefold for a sea level rise of 0.5m. Then, the relative importance of the different forcing mechanisms on the extreme water levels is investigated through numerical experiments. It is shown that the regional surge and the setup induced by swell are the two main drivers of the inundation. In particular, the modulation of the wave setup by tides induces a semi-diurnal signal which is amplified by resonance inside the estuary.
@article{fortunato_numerical_2017,
	title = {A numerical study of the {February} 15, 1941 storm in the {Tagus} estuary},
	volume = {144},
	issn = {0278-4343},
	url = {http://www.sciencedirect.com/science/article/pii/S027843431630512X},
	doi = {10.1016/j.csr.2017.06.023},
	abstract = {On February 15, 1941, a storm caused one of the major natural disasters in the Iberian Peninsula in the past century. The storm made landfall in the north of Portugal, leading to a large surge in the Tagus estuary. Adverse meteorological conditions combined with a high spring tide led to extensive flooding of dry land, causing severe damage and casualties. A suite of regional and local scale models is developed to analyze the event and the relative contributions of the different forcing agents to the extreme water levels. Quantitative and qualitative validations show that the models adequately reproduce this type of events. The models are then used to assess the inundation in the upstream reaches of the estuary where extensive agricultural lands are protected by dikes. Results show that over 25km2 could be inundated today, a value that would increase threefold for a sea level rise of 0.5m. Then, the relative importance of the different forcing mechanisms on the extreme water levels is investigated through numerical experiments. It is shown that the regional surge and the setup induced by swell are the two main drivers of the inundation. In particular, the modulation of the wave setup by tides induces a semi-diurnal signal which is amplified by resonance inside the estuary.},
	language = {en},
	urldate = {2020-01-27},
	journal = {Continental Shelf Research},
	author = {Fortunato, André B. and Freire, Paula and Bertin, Xavier and Rodrigues, Marta and Ferreira, Juan and Liberato, Margarida L. R.},
	month = jul,
	year = {2017},
	keywords = {Flooding, 2010 Xynthia storm, Numerical modeling, Portugal, SCHISM, Tide-surge interaction},
	pages = {50--64}
}

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