References
- Alestalo J., Häikiö J., 1976. Ice features and ice thrust shore forms at Luodonselkä, Gulf of Bothnia in winter 1972/73. Fennia 144: 1-24.
- Bangel H., Schernewski G., Bachor A., Landsberg-Uczciwek M., 2004. Spatial pattern and long-term development of water quality in the Oder estuary. In: Schernewski G., Dolch T. (eds), The Oder Lagoon-against the background of the European Water Framework Directive. Marine Scientific Reports 57: 17-65.
- Banzhaf W., 1931. Eisschubberge am Stettiner Haff. Natur und Museum 61(12): 492-494.
- Barnes P.W., Kempema E.W., Reimnitz E., McCormick M., 1994. The influence of ice on southern Lake Michigan coastal erosion. Journal of Great Lakes Research 20(1): 179195.
- Beltaos S., Prowse T.D., Carter T., 2006. Ice regime of the lower Peace River and ice-jam flooding of the Peace-Athabasca Delta. Hydrological Processes 20: 4009-4029. DOI 10.1002/hyp.6417.
- Cyberski J., Grześ M., Gutry-Korycka M., Nachlik E., Kundzewicz Z.W., 2006. History of floods on the River Vistula. Hydrological Sciences Journal 51(5): 799-817. DOI 10.1623/hysj.51.5.799.
- Dionne J.C., 1979. Ice action in the lacustrine environment-A review with particular reference to subarctic Quebec, Canada. Earth Science Reviews 15(3): 185-212.
- Duguay C.R., Prowse T.D., Bonsal B.R., Lacroix M.P., Ménard P., 2006. Recent trends in Canadian lakes ice cover. Hydrological Process 20: 781-801. DOI 10.1002/hyp.6131.
- Engström J., Jansson R., Nilsson C., Weber C., 2011. Effects of river ice on riparian vegetation. Freshwater Biology 56: 1095-1195. DOI 10.1111/j.1365-2427.2010.02553.
- Futter M.N., 2003. Patterns and trends in southern Ontario Lake ice phenology. Environmental Monitoring Assessment 88: 431-444.
- Gatto L.W., 1984. Reservoir Bank erosion caused by ice. Cold Regions Science Technology 9: 203-214.
- Gilbert R., Glew R.J., 1986. A wind-driven ice-push event in eastern Lake Ontario. Journal of Great Lakes Research 12(4): 326-331. DOI 10.1016/S0380-1330(86)71733-4.
- Girjatowicz J.P., 1977. Hydrological and meteorological causes for fast ice disintegration in Szczecin Bay (in Polish). Prace Instytutu Meteorologii i Gospodarki Wodnej 13: 21-53.
- Girjatowicz J.P., 2001a. Ice cover deformations on the Polish coast (in Polish). Przegląd Geofizyczny XLVI(1-2): 51-66.
- Girjatowicz J.P., 2001b. Studies on the formation and disintegration of grounded ice hummocks in sheltered areas of the southern Baltic coast. Oceanological Studies 30(3-4): 3-16.
- Girjatowicz J.P., 2004. Ice thrusts and piles on the shores of the southern Baltic Sea coast (Poland) lagoons. Baltic Coastal Zone 8: 5-22.
- Girjatowicz J.P., 2014. Ice thrusting and hummocking on the shores of the southern Baltic Sea’s coastal lagoons. Journal of Coastal Research 30(3): 456-464. DOI 10.2112/ JCOASTRES-D-12-00032.1 .
- Girjatowicz J.P., 2015. Forms of onshore ice thrusting in coastal lagoons of the southern Baltic Sea. Journal of Cold Regions Engineering 29(1): 1-17. DOI 10.1061/(ASCE) CR.1943-5495.0000069.
- Girjatowicz J.P., 2017. Thrust extent and height of ice pile-up inferred from tree ice scars on the shores of the Szczecin Lagoon (in Polish). lnżynieria Morska i Geotechnika 6: 281-289.
- Girjatowicz J.P., 2019. Characterization of grounded ice hummocks found in coastal lagoons of the southern Baltic Sea. Journal of Coastal Research 35(6): 1250-1259. DOI 10.2112/JCOASTRES-D-18-00122.1.
- Girjatowicz J.P., Labuz T.A., 2020. Forms of piled ice at the southern coastal of the Baltic Sea. Estuarine, Coastal and Shelf Science 239, 106746: 1-12. DOI 10.1016/j. ecss.2020.106746.
- Girjatowicz J.P., Świątek M., 2020. Relationships between the Baltic Sea ice extent and ice parameters in the sheltered basins of the southern Baltic coast. Oceanological & Hyd-robiological Studies 49(3): 291-303. DOI 10.1515/ohs-2020-0026.
- Girjatowicz J.P., Świątek M., 2021. Relationship between air temperature change and southern Baltic coastal lagoons ice conditions. Atmosphere 12: 931. DOI 10.3390/ atmos12080931.
- Grześ M., 2005. Monitoring of the risk of jam floods on the lower Vistula (in Polish). In: Bogdanowicz E., Kossows-ka-Cezak U., Szkutnicki J. (eds), Extreme hydrological and meteorological phenomena. Wydawnictwo Instytutu Meteorologii i Gospodarki Wodnej, Warszawa: 231-243.
- Haapala J., Ronkainen I., Schmelzer N., Sztobryn M., 2015. Recent change-sea ice. In: The BACC II author team (eds), Second assessment of climate change for the Baltic Sea basin. International Baltic Sea Secretariat. Springer, Geesthacht: 145-153.
- Jaguś A., Rzętała M., 2000. Poraj Reservoir-physical and geographical characteristics (in Polish). Prace Wydziału Nauk o Ziemi Uniwersytetu Sląskiego, Sosnowiec: 1-82.
- Jevrejeva S., Drabkin V.V., Kostjukov J., Lebedev A.A., Lep-paränta M., Mironov Ye U., Schmelzer N., Sztobryn M., 2004. Baltic Sea season in the twentieth century. Climate Research 25(3): 217-227. DOI 10.3354/cr025217.
- Kaptein M., van den Heuvel E., 2022. Statistics for data scientists: An introduction to probability, statistics and data analysis. Springer, Berlin Heideberg New York: 1-345.
- Kolerski T., Zima P., Szydłowski M., 2019. Mathematical modeling of ice thrusting on the shore of Vistula Lagoon (Baltic Sea) and proposed artificial island. Water 11, 2297: 1-16. DOI 10.3390/w11112297.
- Kowalewska-Kalkowska H., Kowalewski M., 2005. Operational hydrodynamic model for forecasting extreme hydrographic events in the Oder Estuary. Nordic Hydrology 36(3-4): 411-422. DOI 10.2166/nh.2005.0031.
- Kowalewska-Kalkowska H., Kowalewski M., 2008. Changes in hydrographic conditions associated with 2005-2007 storm surges in the Odra mouth a numerical study. In: Symposium Proceedings “US/EU-Baltic 2008 International Symposium Ocean Observations, Ecosystem-based Management & Forecasting”, 27-29 May 2008, Tallinn, Estonia: 1-9.
- Koźmiński CZ., Michalska B., Nidzgorska-Lencewicz J., 2004. Wind. In: Koźmiński CZ., Michalska B. (eds), Atlas of climatic resources and hazards of Pomerania (in Polish). Wydawnictwo Akademii Rolniczej w Szczecinie, Szczecin: 1-48.
- Kraus E., 1930. Uber Eisschubberge. III Hydrologische Konfer-enz der Baltischen Staaten (in German). Warszawa: 1-44.
- Lederer J.R., Garver J.I., 1996. Ice jams inferred from tree scars made during the 1996 mid-winter flood on the Mohawk River (New York). Online: https://minerva.union.edu/garv-erj/mohawk/1996_ice_jam.html (accessed 10 December 2022).
- Lederer J.R., Garver J.I., 2000. Ice jams on the lower Mohawk River (Crescent, NY) formed during the 2000 mid-winter flood. Online: https://minerva.union.edu/garverj/mo-hawk/2000_ice_jam.html (accessed 10 December 2022).
- Lemay M., Bégin Y., 2012. Using ice-scars as indicators of exposure to physical lakeshore disturbances, Corvette Lake, northern Quebec, Canada. Earth Surface Processes and Landforms 37(13): 1353-1361. DOI 10.1002/esp.3244.
- Leppäranta M., 2011. The influence of ice the coastal environment in the Baltic Sea. In: Book of abstracts, 8th Baltic Sea Science Congress, 22-26 August 2011, Sankt-Petersburg.
- Leppäranta M., 2013. Land-ice interaction in the Baltic Sea. Estonian Journal of Earth Sciences 62(1): 2-14.
- Leppäranta M., Myrberg K., 2009. Physical oceanography of the Baltic Sea. Springer, Berlin Heideberg, New York: 1-378.
- Lind L., Nilsson C., Povli L.E., Weber C., 2014. The role of ice dynamics in shaping vegetation in flowing waters. Biological Review 89: 791-804. DOI 10.1111/brv.12077.
- Livingstone D.M., Adrian R., Blenckner T., George G., Wey-henmeyer G.A., 2009. Lake ice phenology. In: George G. (ed.), The impact of climate change on European lakes. Aquatic Ecology Series, 4. Springer, Dordrecht: 51-61. DOI 10.1007/978-90-481-2945-4_4.
- Lundbeck J., 1931. Eisschiebungen am Kurischen Haff. Natur und Museum 61(1): 36-40.
- Łabuz T.A., 2022. Storm surges versus shore erosion: 21 years (2000-2020) of observations on the Świna Gate Sandbar (southern Baltic coast). Quaestiones Geographicae 41(3). DOI 10.2478/quageo-2022-0023.
- Łazarenko N.N., Majewski A., (eds), 1975. Hydrometeorological regime of Vistula Lagoon (in Polish). Wydawnictwa Ko-munikacji i Lączności, Warszawa.
- Majewski A., (ed.) 1980. Szczecin Lagoon (in Polish). Wydaw-nictwa Komunikaji i Lączności, Warszawa: 1-339.
- Mohrholz V., Lass H.U., 1998. Transports between Oder haff and Pomeranian Bight-a simple barotropic box model. Ocean Dynamics 50(4): 371-383. DOI 10.1007/BF02764231.
- Orviku K., 1965. Accumulations of erratic boulders on the Estonian coast (in Russian). Okeanologija 5(2): 316-321.
- Orviku K., Jaagus J., Tõnisson H., 2011. Sea ice shaping the shores. Journal of Coastal Research 64 (Special Issue): 681-685. Online: https://www.jstor.org/stable/26482258.
- Pawłowski B., 2005. The height of the ice jams on the Lower Vistula in the light of ice scars on the trees of the floodplain (in Polish). In: Bogdanowicz E., Kossakows-ka-Cezak U., Szkutnicki J. (eds), Extreme hydrological and meteorological phenomena. Monografie Instytutu Meteoro-logii i Gospodarki Wodnej, Warszawa: 245-253.
- Pawłowski B., 2011. The use of ice scars in the study of jam phenomena. In: Pawłowski B. (ed.), Symposium Proceedings, 2nd Workshop-ice problems of rivers “lce jams and floods” (in Polish): 10-12. Online: http://www.wielka-woda.umk.pl (accessed 5 December 2022).
- Pawłowski B., 2019. Ice jams: Causes and effects. In: Maurice P.A. (ed.), Encyclopedia of water: Science, technology and society. John Willey & Sons, Inc.: 1-9. DOI 10.1002/9781119300762.
- Radziejewska T., Schernewski G., 2008. The Szczecin (Oder-) Lagoon. In: Schiewer U. (ed.), Ecology of Baltic Coastal Waters. Springer-Verlag, Berlin Heidelberg: 115-129.
- Schernewski G., Hoffmann J., Löser N., Dreisewerd M., Stavenhagen P., Grunow B., 2006. Measuring the progress and outcomes of Integrated Coastal and Ocean Management: The German Oder estuary case study. Report to the UNESCO Intergovernmental Oceanographic Commission (IOC). Baltic Sea Research Institute, Warnemünde: 1-41.
- Schmelzer N., Strübing K., Stanisławczyk I., Sztobryn M., 2004. Ice conditions in the Szczecin Lagoon and Pomeranian Bay during the winters 1999-2004. Berichte des Bun-desmtes für Seeschifffahrt und Hydrographie 37: 1-105.
- Slaucitajs L., 1929. Spaltenbildung in der Eisdecke und Eiss-chiebungen an der Kuste des Rigaschen Meerbusens im Winter 1928/29 (in German). Annalen der Hydrographie und Maritime Meteorologie 57(12): 411-414.
- Smith D.G., Reynolds D.M., 1983. Trees scars to determine the frequency and stage of high magnitude river ice drives and jams, Red Deer, Alberta. Canadian Water Resources Journal 8(3): 77-94.
- Świątek M., 2012. Climatic determinants of tourism and recreation development on the Polish coast: The case of Świnoujście (in Polish). In: Ożdziński J. (ed.), Strategiczne założenia rozwoju turystyki krajowej i zagranicznej. Europe-jska Szkoła Wyższa w Sopocie, Sopot: 135-148.
- Sztobryn M., Wójcik R., Miętus M., 2012. Ascent of the Baltic ice current and ice parameters in the sheltered basins of the southern Baltic coast. Oceanological and Hydrobiologi-cal Studies 49(3): 291-303. DOI 10.1515/ohs-2020-0026.
- Uunila R., Church M., 2014. Ice on Peace River: Effects on Bank Morphology and Riparian Vegetation. In: Church M. (ed.), The regulation of Peace River: A case study for river management. Willey & Sons: 115-140. DOI 10.1002/9781118906170.ch6.
- Vandermause R., Harvey M., Zecenbergen L., Ettema R., 2021. River-ice effects on bank erosion along the middle segment of the Susitna River, Alaska. Cold Regions Science and Technology 184(4): 103239. DOI 10.1016/j.coldre-gions.2021.103239.
- Zimdars U., 1941. Die Fischerei des Stettiner Haffs und seiner Nebengewässer (in German). Jahrbuch der Pommerschen Geographischen Gesellschaft 59/60: 1-145.