GNGTS 2024 - Atti del 42° Convegno Nazionale

Session 3.1 GNGTS 2024 Ferret, G., et al. (2016), Applicability of an empirical law to predict signifcant sea-wave heights from microseisms along the Western Ligurian Coast (Italy), Contnental Shelf Research 122, 1, 36-42. Gimberta, F., et al. (2015). Predictng short-period, wind-wave-generated seismic noise in coastal regions, Earth Planet. Sci. Let. 426, 280–292. Guandalini, R., et al. (2010). Indagini per la valutazione del potenziale di producibilità energetca dal moto ondoso e dalle corrent marine, lungo la fascia di acque territoriali italiane, Rapporto ERSE, pp 41. Grevemeyer, I., et al. (2000). Microseismological evidence for a changing wave climate in the northeast atlantc ocean. Nature, 408, 349–352. Iuppa, C., et al. (2015a). Investgaton of suitable sites for wave energy converters around Sicily (Italy), Ocean Sci., 11, 543–557. Iuppa, C., et al., (2015b). Potental wave energy producton by diferent wave energy converters around Sicily, J. Renewable Sustainable Energy 7, 061701. Legambiente (2018). Isole Sostenibili, Osservatorio sulle isole minori, 2nd edicton. McNamara, D.E., Buland, R.P. (2004). Ambient noise levels in the contnental United States. Bull. Seismol. Soc. Am.94 (4), 1517–1527. Rhie, J., Romanowicz, B. (2006). A study of the relaton between ocean storms and the earth’s hum, Geochem. Geophys. Geosyst., 7(10). Schulte-Pelkum, V., et al. (2004). Strong directvity of ocean-generated seismic noise, Geochem. Geophys. Geosyst., 5, Q03004. Stutzmann, E., et al. (2000). Geoscope staton noise level, Bull. seism. Soc. Am., 90(3), 690–701. Stutzmann, E., et al., (2012). Modelling long-term seismic noise in various environments. Geophys. J. Int. 191, 707–722. Vicinanza, D., et al. (2011) Estmaton of the wave energy in the Italian ofshore, J. Coastal Res., 64, 613–617. Corresponding author: antonino.dalessandro@ingv.it