http://orcid.org/0000-0003-4970-1345
References
- Abdi, H. 2007. The Kendall rank correlation coefficient. In Encyclopedia of measurement and statistics sage, 508–10. Thousand Oaks, CA.
- Baptista, M. A., and J. M. Miranda. 2009. Revision of the Portuguese catalog of tsunamis. Natural Hazards and Earth System Sciences 9 (1):25–42.
- Bénard, P., J. Vivoda, J. MašEk, P. Smolíková, K. Yessad, C. Smith, R. BrožKová, and J.-F. Geleyn. 2010. Dynamical kernel of the Aladin–NH spectral limited-area model: Revised formulation and sensitivity experiments. Quarterly Journal of the Royal Meteorological Society 136 (646):155–69.
- Benavente, J., F. J. Gracia, L. D. Río, G. Anfuso, and A. Rodríguez-Ramírez. 2015. Morphodynamic characterization of the Spanish beaches of the Gulf of Cadiz. Boletín Geológico y Minero 126 (2–3):409–26.
- Bengtsson, L., U. Andrae, T. Aspelien, Y. Batrak, J. Calvo, W. de Rooy, E. Gleeson, B. Hansen-Sass, M. Homleid, M. Hortal, et al. 2017. The HARMONIE–AROME model configuration in the ALADIN–HIRLAM NWP system. Monthly Weather Review 145 (5):1919–35.
- Bennet, N., B. F. Croke, G. Guariso, J. H. Guillaume, S. H. Hamilton, A. Jakeman, S. Marsili-Libelli, L. T. Newham, J. Norton, C. Perrin, et al. 2013. Characterising performance of environmental models. Environmental Modelling & Software 40:1–20.
- Cavaleri, L. 1980. Wave measurement using pressure transducer. Oceanologica Acta 3 (3):339–46.
- Colosi, J. A., and W. Munk. 2006. Tales of the venerable Honolulu tide gauge. Journal of Physical Oceanography 36 (6):967–96.
- Curtis, S., P. Long, and J. Arrigo. 2011. Climate, weather, and tourism: Issues and opportunities. Bulletin of the American Meteorological Society 92 (3):361–3.
- D’Agostino, R., and E. S. Pearson. 1973. Test for departure from normality. Biometrika 60 (3):613–22.
- Davies, J. L. 1964. A morphogenic approach to world shorelines. Zeitschrift Fur Geomorphologie 8:127–42.
- de Alfonso, M., J. M. García-Valdecasas, R. Aznar, B. Pérez-Gómez, P. Rodríguez, F. J. de los Santos, and E. Álvarez-Fanjul. (Submitted) Record wave storm in the gulf of Cádiz over the past 20 years and its impact on harbours.
- de Amo, E., M. Díaz-Carrillo, and J. Fernández-Sánchez. 2011. Measure-preserving functions and the independence copula. Mediterranean Journal of Mathematics 8 (3):431–50.
- Del Río, L., T. A. Plomaritis, J. Benavente, M. Valladares, and P. Ribera. 2012. Establishing storm thresholds for the Spanish Gulf of Cádiz coast. Geomorphology 143–144:13–23. doi:10.1016/j.geomorph.2011.04.048.
- Ferreira, Ó., T. A. Plomaritis, and S. Costas. 2019. Effectiveness assessment of risk reduction measures at coastal areas using a decision support system: Findings from Emma storm. Science of the Total Environment 657:124–35.
- Gómez, M., and J. C. Carretero. 2005. Wave forecasting at the spanish coasts. Journal of Atmospheric and Ocean Science 10 (4):389–405.
- Hofert, M., and F. Vrins. 2013. Sibuya copulas. Journal of Multivariate Analysis 114:318–37. doi:10.1016/j.jmva.2012.08.007.
- Hürlimann, W. 2004. Fitting bivariate cumulative returns with copulas. Computational Statistics & Data Analysis 45 (2):355–72.
- IOC. 2006. Manual on sea level measurement and interpretation, volume IV: An update to 2006. In Tech. rep., Intergovenmental Oceanographic Commission. Paris: UNESCO.
- IOC. 2009. Tsunami early warning and mitigation system in the North Eastern Atlantic. In The Mediterranean and connected seas, NEAMTWS, Implementation Plan. Tech. rep., Intergovenmental Oceanographic Commission. Paris: UNESCO.
- IOC. 2016. Manual on sea-level measurements and interpretation, volume V: Radar gauges. In Tech. rep., Intergovenmental Oceanographic Commission. Paris: UNESCO.
- Khoudraji, A. 1995. Contribution à l’étude des copulas et à la modélisation des valeurs extrémes bivarées. PhD thesis., Université Laval, Québec, Canada
- Lagarias, J. C., J. A. Reeds, M. H. Wright, and P. E. Wright. 1998. Convergence properties of the Nelder–Mead simplex method in low dimensions. SIAM Journal on Optimization 9 (1):112–47.
- Large, W. G., and S. Pond. 1981. Open ocean momentum flux measurements in moderate to strong winds. Journal of Physical Oceanography 11 (3):324–36.
- Lin-Ye, J., M. García-León, V. Gràcia, and A. Sánchez-Arcilla. 2016. A multivariate statistical model of extreme events: An application to the Catalan coast. Coastal Engineering 117:138–56.
- Martín-Míguez, B., L. Testut, and G. Wöppelmann. 2008. The Van de Casteele test revisited: An efficient approach to tide gauge error characterization. Journal of Atmospheric and Oceanic Technology 25 (7):1238–44.
- Martín-Míguez, B., L. Testut, and G. Wöppelmann. 2012. Performance of modern tide gauges: Towards mm-level accuracy. Scientia Marina 76 (S1):221–8.
- Melet, A., B. Meyssignac, R. Almar, and G. Le Cozannet. 2018. Under-estimated wave contribution to coastal sea-level rise. Nature Climate Change 8 (3):234–9.
- Morales, J. A., J. Borrego, and M. Ballesta. 2004. Influence of harbour constructions on morphosedimentary changes in the Tinto-Odiel estuary mouth (South-West Spain). Environmental Geology 46 (2):151–64.
- Pérez-Gómez, B., E. Álvarez Fanjul, S. Pérez, M. de Alfonso, and J. Vela. 2013. Use of tide gauge data in operational oceanography and sea level hazard warning systems. Journal of Operational Oceanography 6 (2):1–18.
- Pérez-Gómez, B., A. Payo, D. López, P. L. Woodworth, and E. Alvarez Fanjul. 2014. Overlapping sea level time series measured using different technologies: An example from the REDMAR Spanish network. Natural Hazards and Earth System Sciences 14 (3):589–610.
- Pérez-Gómez, B., I. Pérez-González, M. García-Sotillo, and E. Álvarez-Fanjul. 2019. Retos de los sistemas de observación y predicción en los riesgos asociados al nivel del mar. Ribagua 6 (1):1–15.
- Plomaritis, T. A., Ó. Ferreira, and S. Costas. 2019. Validation of a Bayesian based early warning system for coastal hazards: The Emma storm impact at Faro Beach (South Portugal). Florida, USA: International Conference on Coastal Sediments 2019.
- Pugh, D. T. 1987. Tides, surges and mean sea-level: A handbook for engineers and scientists Roelvink D (2011) A guide to modeling coastal morphology, Vol. 12. World Scientific.
- Sánchez-Arcilla, A., M. García-León, V. Gracia, R. Devoy, A. Stanica, and J. Gault. 2016. Managing coastal environments under climate change: Pathways to adaptation. Science of the Total Environment 572:1336–52.
- Sklar, A. 1959. Fonctions dé repartition à n dimension et leurs marges. Université Paris 8:229-231.
- Solares, J. M., and A. López-Arroyo. 2004. The great historical 1755 earthquake. Effects and damage in Spain. Journal of Seismology 8:275–94.
- Ursell, F. 1953. Short surface waves due to an oscillating immersed body. Proceedings of the Royal Society of London. Series A 220 (1140):90–103.
- Vanem, E. 2016. Joint statistical models for significant wave height and wave period in a changing climate. Marine Structures 49:180–205.
- Woodworth, P. L., and D. E. Smith. 2003. A one-year comparison of radar and bubbler tide gauges at Liverpool. International Hydrographic Review 4 (3):42–9.
- Yin, J., S. M. Griffies, and R. J. Stouffer. 2010. Spatial variability of sea level rise in twenty-first century projections. Journal of Climate 23 (17):4585–607.
- Zhang, Y., C. W. Kim, M. Beer, H. Dai, and C. Guedes Soares. 2018. Modeling multivariate ocean data using asymmetric copulas. Coastal Engineering 135:91–111.