[Anderson, R.S. & Anderson S.P., 2010. Geomorphology: The Mechanics and Chemistry of Landscapes. Cambridge University Press, 651 pp.10.1017/CBO9780511794827]Search in Google Scholar
[Bakhtyar, R., Barrya, D.A., Lib, L., Jengc, D.S. & Yeganeh-Bakhtiaryd, A., 2009. Modeling sediment transport in the swash zone: A review. Ocean Engineering 36, 767–783.10.1016/j.oceaneng.2009.03.003]Search in Google Scholar
[Booij, N., Holthuijsen, L.H. & Ris, R.C., 1996. The SWAN wave model for shallow water. Proceedings of the 25th International Conference on Coastal Engineering, Orlando, USA, 668–676.]Search in Google Scholar
[Brownlie, W.R., 1981. Prediction of flow depth and sediment discharge in open channels. W.M. Keck Laboratory of Hydraulics and Water Resources, California Institute of Technology, Pasadena, Report No. KH-R-43A.]Search in Google Scholar
[Cieślak, A., 1985. Ruch rumowiska wzdłuż wybrzeża Polski [Sediment motion along the coast of Poland], Prace Instytutu Morskiego 690. Gdańsk.]Search in Google Scholar
[Cieślikiewicz, W., Dudkowska, A., Janowczyk, R., Roščinski, V., Roziewski, S. & Badur, J., 2014. Wind wave modelling over the Baltic Sea using WAM model and the coupled ocean circulation-wave POM model. Proceedings of the International Conference on Coastal Engineering, ASCE, Soeul, Korea, 422–428.]Search in Google Scholar
[Davies, A.G., van Rijn, L.C., Damgaard, J.S., van de Graaff, J. & Ribberink, J.S., 2002. Intercomparison of research and practical sand transport models. Coastal Engineering 46, 1–23.10.1016/S0378-3839(02)00042-X]Search in Google Scholar
[Dey, S., 2011. Entrainment threshold of loose boundary streams. [In:] P. Rowinski (Ed.), Experimental methods in hydraulic research. series: Geoplanet: Earth and Planetary Sciences, 29–48. Springer.10.1007/978-3-642-17475-9_2]Search in Google Scholar
[Du Boys, P., 1879. Le Rhone et les rivieres a lit affouillable. Annales des Ponts et Chausse’es 18, 141–195.]Search in Google Scholar
[Einstein, H.A., 1950. The bed-load function for sediment transportation in open channel flows. Technical Bulletin 1026, 1–71.]Search in Google Scholar
[Engelund, F. & Hansen, E., 1967. A monograph on sediment transport in alluvial streams. Teknisk Forlag, Copenhagen, 65 pp.]Search in Google Scholar
[Gic-Grusza, G. & Dudkowska, A., 2014. Modeling of wind wave induced sediment transport in the coastal zone of Polish marine areas (Southern Baltic). Baltic International Symposium (BALTIC), 2014 IEEE/OES, Tallin, 1–5.10.1109/BALTIC.2014.6887860]Search in Google Scholar
[Gic-Grusza, G., Kryla-Straszewska, L., Urbański, J. & Węsławski, J.M. (Eds), 2009. Atlas of Polish marine area bottom habitats. Environmental valorization of marine habitats. Broker-Innowacji, Gdynia, 180 pp.]Search in Google Scholar
[Günther, H. & Behrens, A., 2012: The WAM Model – Validation Document, Version 4.5.4. Institute of Coastal Research Helmholtz-Zentrum Geesthacht.]Search in Google Scholar
[Kramer, H., 1935. Sand mixtures and sand movement in fluvial models. Transactions of the American Society of Civil Engineers 100, 798–878.10.1061/TACEAT.0004653]Search in Google Scholar
[Leliavsky, S., 1966. An introduction to fluvial hydraulics. Dover Publications, New York, 257 pp.]Search in Google Scholar
[Madsen, O.S., 1994. Spectral wave-current bottom boundary layer flows. Proceedings of 24th International Conference on Coastal Engineering, ASCE, Kobe, 384–398.]Search in Google Scholar
[Meyer-Peter, E. & Müller, R., 1948. Formulas for bed-load transport. Proceedings of 2nd Meeting, IAHR, Stockholm, 39–64.]Search in Google Scholar
[Miedema, S.A., 2013. Constructing the Shields Curve, Part C: Cohesion by Silt, Hjulstrom, Sundborg. WODCON XX, Brussels, 1–15.10.1115/OMAE2013-10524]Search in Google Scholar
[O’Brien, M.P. & Rindlaub, B.D., 1934. The transportation of bedload by streams. Transaction of the American Geophysical Union 100, 393–419.]Search in Google Scholar
[Ostrowski, R., Piotrowska, D., Schönhofer, J., Skaja, M., Stella, M. & Szmytkiewicz, P., 2013. Parametry procesów hydrodynamicznych i morfodynamicznych w rejonie Morskiego Laboratorium Brzegowego w Lubiatowie [Hydrodynamic and morphodynamic processes parameters in the vicinity of the Coastal Research Station at Lubiatowo]. Instytut Budownictwa Wodnego PAN, Gdańsk, 24 pp.]Search in Google Scholar
[Ostrowski, R. & Pruszak, Z., 2003. Coastal Research Station at Lubiatowo. Summerschool-Workshop Coastal Zone. CEM, IBW PAN. Gdańsk, 65–80.]Search in Google Scholar
[Paplińska-Swerpel, B., 2003. Coastal Research Station at Lubiatowo. Summerschool-Workshop Coastal Zone. CEM, IBW PAN. Gdansk, Poland, 9–30.]Search in Google Scholar
[PN-EN ISO 14688-1:2006/A1:2014-02E Geotechnical investigation and testing – Identification and classification of soil – Part 1: Identification and description – Amendment 1 (ISO 14688-1:2002/Amd 1:2013), Warsaw, Poland, 12 pp.]Search in Google Scholar
[Pruszak, Z., Szmytkiewicz, P., Ostrowski, R., Skaja, M. & Szmytkiewicz, M., 2008. Shallow-water wave energy dissipation in a multi-bar coastal zone. Oceanologia 50, 43–58.]Search in Google Scholar
[Pruszak, Z. & Zeidler, R.B., 1995. Sediment transport in various time scale. Proceedings of the 24th International Conference on Coastal Engineering, New York 1, 2513–2526.10.1061/9780784400890.183]Search in Google Scholar
[Ribberink, J.S., 1998. Bed-load transport for steady flows and unsteady oscillatory flows. Coastal Engineering 34, 59–82.10.1016/S0378-3839(98)00013-1]Search in Google Scholar
[Schoklitsch, A., 1914. Uber Schleppkraft und Geschiebebewegung. Engelmann, Leipzig, 74 pp.]Search in Google Scholar
[Shields, A., 1936. Application of similarity principles and turbulence research to bed-load movement. Mitteilungen der Preußischen Versuchsans-talt für Wasserbau, Berlin, 26 pp.]Search in Google Scholar
[Soulsby, R., 1998. Dynamics of marine sands. Thomas Tel-ford Publ., London, 272 pp.]Search in Google Scholar
[Soulsby, R. & Whitehouse, R., 1997. Threshold of sediment motion in coastal environment. Proceedings of the Pacific Coasts and Ports Conference. University of Canterbury, Christchurch, 149–154.]Search in Google Scholar
[Straub, L.B., 1935. Discussion on sand mixtures and sand movement in fluvial models. Proceedings of the American Society of Civil Engineers 61, 101–107.]Search in Google Scholar
[Swart, D.H., 1974. Offshore sediment transport and equilibrium beach profiles. Delft Hydraulics Laboratory Publication, 131 pp.]Search in Google Scholar
[Tarnowska, K., 2011. Strong winds on Poland’s Baltic Sea Coast. Prace i Studia Geograficzne 47, 197–204.]Search in Google Scholar
[Urbański, J., Grusza, G., Chlebus, N. & Kryla, L., 2008. A GIS-based WFD oriented typology of shallow micro-tidal soft bottom using wave exposure and turbidity mapping. Estuarine, Coastal and Shelf Science 78, 1, 27–37.10.1016/j.ecss.2007.11.025]Search in Google Scholar
[USWES, 1936. Flume tests made to develop a synthetic sand which will not form ripples when used in movable bed models. Technical Memorandum 99-1, US Waterways Experiment Station, Viecksburg.]Search in Google Scholar
[Uścinowicz, S., Zachowicz, J., Graniczny, M. & Dobracki, R., 2004. Geological structure of the southern Baltic coast and related hazards. Polish Geological Institute Special Papers 15, 61–68.]Search in Google Scholar
[van Rijn, L.C., 1993. Principles of Sediment Transport in Rivers, Estuaries and Coastal Seas. Aqua Publications, Amsterdam, 673 pp.]Search in Google Scholar
[Viška, M. & Soomere, T., 2013. Simulated and observed reversals of wave driven alongshore sediment transport at the eastern Baltic Sea coast. Baltica 26, 145–56.10.5200/baltica.2013.26.15]Search in Google Scholar
[WAMDI Group, 1988. The WAM model – A third generation ocean wave prediction model. Journal of Physical Oceanography 18, 1775–1810.10.1175/1520-0485(1988)018<1775:TWMTGO>2.0.CO;2]Search in Google Scholar
[Wong, M., 2003. Does the bedload transport relation of Meyer-Peter and Müller fits its own data? Proceedings of the 30th IAHR Congress. Thessaloniki, 8 pp.]Search in Google Scholar
[Wong, M. & Parker, G., 2006. Reanalysis and correction of bed-load relation of Meyer-Peter and Müller using their own database. Journal of Hydraulic Engineering 132, 1159–1168.10.1061/(ASCE)0733-9429(2006)132:11(1159)]Search in Google Scholar
