[Andrews D. G., McIntyre M. E. (1978) An exact theory of nonlinear waves on a Lagrangian-mean flow, Journal of Fluid Mechanics, 89, 609.10.1017/S0022112078002773]Search in Google Scholar
[Baldock T. E., Holmes P., Bunker S., van Weert P. (1998) Cross-shore hydrodynamics within an unsaturated surfzone, Coastal Engineering, 34, 173–196.10.1016/S0378-3839(98)00017-9]Search in Google Scholar
[Battjes J. A., Janssen J. P. F. M. (1978) Energy loss and set-up due to breaking of random waves, Proc. 16th Conf. CoastalEng., vol. I, 569-587.]Search in Google Scholar
[Bolle A., Mercelis P., Roelvink D., Haerens P., Trouw K. (2011) Application and validation of XBeach for three different field sites. [in:] Smith J. K., Lynnet P. (Eds.), Proceedings 32nd Conference on Coastal Engineering (Shanghai, China), Coastal Engineering, Special Issue No. 32, sediment.40.10.9753/icce.v32.sediment.40]Search in Google Scholar
[Bruun P. (1962) Sea level rise as a cause of shore erosion, Journal of Waterways and Harbors Division, 88 (1), 117–130.10.1061/JWHEAU.0000252]Search in Google Scholar
[Bugajny N., Furmańczyk K., Dudzińska-Nowak J., Paplińska-Swerpel B. (2013) Modelling morphological changes of beach and dune induced by storm on the Southern Baltic coast using XBeach (case study: Dziwnow Spit), [in:] Conley D. C., Masselink G., Russell P. E. and O’Hare T. J. (Eds.), Proc. 12th International Coastal Symposium (Plymouth, England), Journal of Coastal Research, Special Issue No. 65, 672–677.]Search in Google Scholar
[Bugajny N., Furmańczyk K., Dudzińska-Nowak J. (2015), Application of XBeach to model storm response on a sandy spit at the southern Baltic, Oceanological and Hydrological Studies (manuscript in preparation).10.1515/ohs-2015-0052]Search in Google Scholar
[Dean R. G., Maurmeyer E. M. (1983) Models for beach profile response, [in:] Komar P. (Ed.) Handbook of Coastal Processes and Erosion, CRC Press, Boca Ranon, 151–165.]Search in Google Scholar
[Edelman T. (1972) Dune erosion during storm conditions, Proceedings of the 13thCoastal Engineering Conference, ASCE, 1305–1311.10.9753/icce.v13.66]Search in Google Scholar
[Fisher J. S., Overton M. F. (1984) Numerical model for dune erosion due to wave uprush, Proceedings of the 19thCoastal Engineering Conference ASCE, 1553–1558.10.9753/icce.v19.105]Search in Google Scholar
[Furmańczyk K., Andrzejewski A., Benedyczak R., Bugajny N., Cieszyński Ł., Dudzińska-Nowak J., Giza A., Paprotny D., Terefenko T., Zawiślak T. (2014) Recording of selected effects and hazards from current and expected storm events at the Baltic Sea coastal zone, [in:] Green A. N. and Cooper J. A. G. (Eds.), Journal of Coastal Research, Special Issue No. 70, 338–342.]Search in Google Scholar
[Harley M., Armaroli C., Ciavola P. (2011) Evaluation of XBeach predictions for a real-time warning system in Emilia-Romagna, Northern Italy, [in:] Furmańczyk K. (Ed.), Proceedings 11th International Coastal Symposium, (Szczecin, Poland), Journal of Coastal Research, Special Issue No. 64, 1861–1865.]Search in Google Scholar
[Kobayashi N. (1997) Wave runup and overtopping on beaches and coastal structures, Research Report No. CACR-97-09, Newark, DE, University of Delaware, Center for Applied Coastal Research.]Search in Google Scholar
[Kriebel D. L., Kraus N. C., Larson M. (1991) Engineering methods for cross-shore beach profile response, Proceedings of Coastal Sediments 91, ASCE, 557–571.]Search in Google Scholar
[Łabuz T. A. (2005) Brzegi wydmowe polskiego wybrzeża Bałtyku (Dune shores of Polish Baltic coast), Czasopismo Geograficzne, 76 (1–2), 19–47.]Search in Google Scholar
[Larson M., Erikson L., Hanson H. (2004) An analytical model to predict dune erosion due to wave impact, Coastal Engineering, 51, 675–696.10.1016/j.coastaleng.2004.07.003]Search in Google Scholar
[Nishi R., Kraus N. C. (1996) Mechanism and calculation of sand dune erosion by storms, Proceedings of the 25thCoastal Engineering Conference, ASCE, 3034–3047.]Search in Google Scholar
[Overton M. F., Fisher J. S., Fenaish T. (1987) Numerical analysis of swash forces on dunes, Proceedings of the 22ndCoastal Engineering Conference, ASCE, 2471–2479.]Search in Google Scholar
[Overton M. F., Fisher J. S., Stone A. L. (1990) Large scale laboratory tests of dune erosion, Proceedings of the 22ndCoastal Engineering Conference, ASCE, 2471–2479.]Search in Google Scholar
[Overton M. F., Pratikto W. A., Lu J. C., Fisher J. S. (1994) Laboratory investigation of dune erosion as a function of sand grain size and dune density, Coastal Engineering, 23, 2471–2479.10.1016/0378-3839(94)90020-5]Search in Google Scholar
[Roelvink D., Reniers A., van Dongeren A., van Thiel de Vries J., Lescinski J., McCall R. (2010) XBeach Model Description and Manual, Unesco-IHE Institute for Water Education, Deltares and Delft University of Technology, version 6, 1–106.]Search in Google Scholar
[Roelvink, D., Reniers, A., van Dongeren, A., van Thiel de Vries J., McCall R., Lescinski J. (2009) Modelling storm impacts on beaches dunes and barrier islands, Coastal Engineering, 56 (11–12), 1133–1152.10.1016/j.coastaleng.2009.08.006]Search in Google Scholar
[Skompski S. (1985) Szczegółowa mapa geologiczna Polski w skali 1:50 000 wraz z objaśnieniami. Arkusz Choczewo, PIG, Warszawa (in Polish).]Search in Google Scholar
[Soulsby R. L. (1997) Dynamics of Marine Sands, London, Thomas Telford Publications. ]Search in Google Scholar
[Szmytkiewicz P., Zabuski L. (2017) Analysis of dune erosion on the coast of south Baltic Sea with taking into account dune landslide processes, Archives of Hydro-Engineering and Environmental Mechanics, 64 (1), 3–16.10.1515/heem-2017-0001]Search in Google Scholar
[Van de Graaff J. (1986) Probabilistic design of dunes; an example from the Netherlands, Coastal Engineering, 9, 479–500.10.1016/0378-3839(86)90009-8]Search in Google Scholar
[Van Thiel de Vries J. S. M. (2009) Dune erosion during storm surges, Amsterdam, Netherlands, IOS Press, 202 p.]Search in Google Scholar
[Vellinga P. (1986) Beach and dune erosion during storm surges, PhD thesis, Delft Hydraulics Communications No 372, Delft Hydraulics Laboratory, Delft, The Netherlands.]Search in Google Scholar
[Vousdoukas M. I., Almeida L. P., Ferreira Ó. (2011) Modelling storm-induced beach morphological change in a meso-tidal, reflective beach using XBeach, [in:] Furmańczyk K. (Ed.), Proc. 11th International Coastal Symposium, (Szczecin, Poland), Journal of Coastal Research, Special Issue No. 64, 1916–1920.]Search in Google Scholar
[Walstra D. J. R., Roelvink J. A., Groeneweg J. (2000) Calculation of wave-driven currents in a 3D mean flowmodel, Proceedings of the 27th International Conference on Coastal Engineering, 1050–1063.]Search in Google Scholar