This work is licensed under the Creative Commons Attribution 4.0 International License.
Ballantyne C.K., 2002. Paraglacial geomorphology. Quaternary Science Reviews 21(18–19): 1935–2017. DOI 10.1016/S0277-3791(02)00005-7.BallantyneC.K.2002. Paraglacial geomorphology. Quaternary Science Reviews21(18–19): 1935–2017. DOI 10.1016/S0277-3791(02)00005-7.Open DOISearch in Google Scholar
Barnhart K.R., Overeem I., Anderson R.S., 2014. The effect of changing sea ice on the physical vulnerability of Arctic coasts. The Cryosphere 8: 1777–1799. DOI 10.5194/tc-8-1777-2014.BarnhartK.R.OvereemI.AndersonR.S.2014. The effect of changing sea ice on the physical vulnerability of Arctic coasts. The Cryosphere8: 1777–1799. DOI 10.5194/tc-8-1777-2014.Open DOISearch in Google Scholar
Birkenmajer K., 2004. Caledonian basement in NW Wedel Jarlsberg Land south Bellsund. Spitsbergen. Polish Polar Research 25(1): 3–26.BirkenmajerK.2004. Caledonian basement in NW Wedel Jarlsberg Land south Bellsund. Spitsbergen. Polish Polar Research25(1): 3–26.Search in Google Scholar
Bourriquen M., Mercier D., Baltzer A., Fournier J., Costa S., Roussel E., 2018. Paraglacial coasts responses to glacier retreat and associated shifts in river floodplains over decadal timescales (1966–2016), Kongsfjorden, Svalbard. Land Degradation & Development 29(11): 4173–4185. DOI 10.1002/ldr.3149.BourriquenM.MercierD.BaltzerA.FournierJ.CostaS.RousselE.2018. Paraglacial coasts responses to glacier retreat and associated shifts in river floodplains over decadal timescales (1966–2016), Kongsfjorden, Svalbard. Land Degradation & Development29(11): 4173–4185. DOI 10.1002/ldr.3149.Open DOISearch in Google Scholar
Christiansen B., Ljungqvist F.C., 2012. The extra-tropical Northern Hemisphere temperature in the last two millennia: Reconstructions of low-frequency variability. Climate of the Past 8(2): 765–786. DOI 10.5194/cp-8-765-2012.ChristiansenB.LjungqvistF.C.2012. The extra-tropical Northern Hemisphere temperature in the last two millennia: Reconstructions of low-frequency variability. Climate of the Past8(2): 765–786. DOI 10.5194/cp-8-765-2012.Open DOISearch in Google Scholar
Forbes D.L., Syvitski J.P.M., 1994. Paraglacial coasts. In: Carter R.W.G., Woodroffe C.D. (eds), Coastal evolution: Late quaternary shoreline morphodynamics. Cambridge University Press, Cambridge: 373–424.ForbesD.L.SyvitskiJ.P.M.1994. Paraglacial coasts. In: CarterR.W.G.WoodroffeC.D. (eds), Coastal evolution: Late quaternary shoreline morphodynamics. Cambridge University Press, Cambridge: 373–424.Search in Google Scholar
Harasimiuk M., 1987. Recent tendencies of development of seashore at South Bellsund and Western Recherchefjorden. Paper Presented at the XIV Sympozjum Polarne, Lublin, Poland, May 7: 99–102.HarasimiukM.1987. Recent tendencies of development of seashore at South Bellsund and Western Recherchefjorden. Paper Presented at the XIV Sympozjum Polarne, Lublin, Poland, May7: 99–102.Search in Google Scholar
Harasimiuk M., Jezierski W., 1991. Types of coast of south Bellsund (West Spitsbergen) and tendency of their evolution. Wyprawy Geograficzne na Spitsbergen: 17–22.HarasimiukM.JezierskiW.1991. Types of coast of south Bellsund (West Spitsbergen) and tendency of their evolution. Wyprawy Geograficzne na Spitsbergen: 17–22.Search in Google Scholar
Herman A., Wojtysiak K., Moskalik M., 2019. Wind wave variability in Hornsund fjord, West Spitsbergen. Estuarine. Coastal and Shelf Science 217: 96–109. DOI 10.1016/j.ecss.2018.11.001.HermanA.WojtysiakK.MoskalikM.2019. Wind wave variability in Hornsund fjord, West Spitsbergen. Estuarine. Coastal and Shelf Science217: 96–109. DOI 10.1016/j.ecss.2018.11.001.Open DOISearch in Google Scholar
IPCC [Intergovernmental Panel on Climate Change], 2019. IPCC Special Report on the Ocean and Cryosphere in a Changing Climate. In: Pörtner H.-O., Roberts D.C., Masson-Delmotte V., Zhai P., Tignor M., Poloczanska E., Mintenbeck K., Alegría A., Nicolai M., Okem A., Petzold J., Rama B., Weyer N.M. (eds). https://www.ipcc.ch/srocc/IPCC [Intergovernmental Panel on Climate Change], 2019. IPCC Special Report on the Ocean and Cryosphere in a Changing Climate. In: PörtnerH.-O.RobertsD.C.Masson-DelmotteV.ZhaiP.TignorM.PoloczanskaE.MintenbeckK.AlegríaA.NicolaiM.OkemA.PetzoldJ.RamaB.WeyerN.M. (eds). https://www.ipcc.ch/srocc/Search in Google Scholar
IPCC [Intergovernmental Panel on Climate Change], 2021. Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge. Cambridge University Press, Cambridge.IPCC [Intergovernmental Panel on Climate Change], 2021. Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge. Cambridge University Press, Cambridge.Search in Google Scholar
Jarosz K., Zagórski P., Moskalik M., Lim M., Rodzik J., Mędrek K., 2022. A new paraglacial typology of high arctic coastal systems: Application to Recherchefjorden, Svalbard. Annals of the American Association of Geographers 112(1). DOI 10.1080/24694452.2021.1898323.JaroszK.ZagórskiP.MoskalikM.LimM.RodzikJ.MędrekK.2022. A new paraglacial typology of high arctic coastal systems: Application to Recherchefjorden, Svalbard. Annals of the American Association of Geographers112(1). DOI 10.1080/24694452.2021.1898323.Open DOISearch in Google Scholar
Kavan J., 2019. Post-Little Ice Age development of coast in the locality of Kapp Napier, Central Spitsbergen, Svalbard Archipelago. Marine Geodesy 43(3): 234–247. DOI 10.1080/01490419.2019.1674429.KavanJ.2019. Post-Little Ice Age development of coast in the locality of Kapp Napier, Central Spitsbergen, Svalbard Archipelago. Marine Geodesy43(3): 234–247. DOI 10.1080/01490419.2019.1674429.Open DOISearch in Google Scholar
Kavan J., Strzelecki M.C., 2023. Glacier decay boosts the formation of new Arctic coastal environments - Perspectives from Svalbard. Land Degradation and Development 34(12): 3467–3474. DOI 10.1002/ldr.4695.KavanJ.StrzeleckiM.C.2023. Glacier decay boosts the formation of new Arctic coastal environments - Perspectives from Svalbard. Land Degradation and Development34(12): 3467–3474. DOI 10.1002/ldr.4695.Open DOISearch in Google Scholar
Majewski D., Sulisz W., Paprota M., Szmytkiewicz M., 2016. Water wave measurements at Bellsund in the western Spitsbergen. International Junior Researcher and Engineer Workshop on Hydraulic Structures 1: 1–7. DOI 10.15142/T3GP43.MajewskiD.SuliszW.PaprotaM.SzmytkiewiczM.2016. Water wave measurements at Bellsund in the western Spitsbergen. International Junior Researcher and Engineer Workshop on Hydraulic Structures1: 1–7. DOI 10.15142/T3GP43.Open DOISearch in Google Scholar
Martín-Moreno R., Allende-Álvarez F., 2016. Little Ice Age glacier extension and retreat in Spitsbergen Island (High Arctic, Svalbard Archipelago). Cuadernos de Investigacion Geografica 42(2): 383–398. DOI 10.18172/cig.2919.Martín-MorenoR.Allende-ÁlvarezF.2016. Little Ice Age glacier extension and retreat in Spitsbergen Island (High Arctic, Svalbard Archipelago). Cuadernos de Investigacion Geografica42(2): 383–398. DOI 10.18172/cig.2919.Open DOISearch in Google Scholar
Mędrek K., Gluza A., Siwek K., Zagórski P., 2014. The meteorological conditions on the Calypsobyen in summer 2014 on the background of multiyear 1986–2011. Problemy Klimatologii Polarnej 24: 37–50.MędrekK.GluzaA.SiwekK.ZagórskiP.2014. The meteorological conditions on the Calypsobyen in summer 2014 on the background of multiyear 1986–2011. Problemy Klimatologii Polarnej24: 37–50.Search in Google Scholar
Mercier D., Laffly D., 2005. Actual paraglacial progradation of the coastal zone in the Kongsfjorden area, western Spitsbergen (Svalbard). Geological Society of London, Special Publications 242(1): 111–117. DOI 10.1144/GSL.SP.2005.242.01.10.MercierD.LafflyD.2005. Actual paraglacial progradation of the coastal zone in the Kongsfjorden area, western Spitsbergen (Svalbard). Geological Society of London, Special Publications242(1): 111–117. DOI 10.1144/GSL.SP.2005.242.01.10.Open DOISearch in Google Scholar
Moskalik M., Zagórski P., Łęczyński L., Ćwiąkała J., Demczuk P., 2018. Morphological characterization of Recherchefjorden (Bellsund, Svalbard) using marine geomorphometry. Polish Polar Research 39(1): 99–125. DOI 10.24425/118740.MoskalikM.ZagórskiP.ŁęczyńskiL.ĆwiąkałaJ.DemczukP.2018. Morphological characterization of Recherchefjorden (Bellsund, Svalbard) using marine geomorphometry. Polish Polar Research39(1): 99–125. DOI 10.24425/118740.Open DOISearch in Google Scholar
NPI [Norwegian Polar Institute], 2016. Offline geological map of Svalbard, Geological map of Svalbard (1:250,000). Norwegian Polar Institute, Tromsø. http://svalbardkartet.npolar.no/ (accessed: 02.01.2023)NPI [Norwegian Polar Institute], 2016. Offline geological map of Svalbard, Geological map of Svalbard (1:250,000). Norwegian Polar Institute, Tromsø. http://svalbardkartet.npolar.no/ (accessed: 02.01.2023)Search in Google Scholar
Rodzik J., Zagórski P., 2009. Shore ice and its influence on development of the shores of southwestern Spitsbergen. Oceanological and Hydrobiological Studies 38(1): 163–180.RodzikJ.ZagórskiP.2009. Shore ice and its influence on development of the shores of southwestern Spitsbergen. Oceanological and Hydrobiological Studies38(1): 163–180.Search in Google Scholar
Slaymaker O., 2011. Criteria to distinguish between periglacial, proglacial and paraglacial environments. Quaestiones Geographicae 30(1): 85–94. DOI 10.2478/v10117-011-0008-y.SlaymakerO.2011. Criteria to distinguish between periglacial, proglacial and paraglacial environments. Quaestiones Geographicae30(1): 85–94. DOI 10.2478/v10117-011-0008-y.Open DOISearch in Google Scholar
Strzelecki M.C., Long A.J., Lloyd J.M., 2017. Post-Little Ice Age development of a High Arctic paraglacial beach complex. Permafrost and Periglacial Processes 28(1): 4–17. DOI 10.1002/ppp.1879.StrzeleckiM.C.LongA.J.LloydJ.M.2017. Post-Little Ice Age development of a High Arctic paraglacial beach complex. Permafrost and Periglacial Processes28(1): 4–17. DOI 10.1002/ppp.1879.Open DOISearch in Google Scholar
Strzelecki M.C., Long A.J., Lloyd J.M., Małecki J., Zagórski P., Pawłowski Ł., Jaskólski M.W., 2018. The role of rapid glacier retreat and landscape transformation in controlling the post-Little Ice Age evolution of paraglacial coasts in central Spitsbergen (Billefjorden, Svalbard). Land Degradation & Development 29(6): 1962–1978. DOI 10.1002/ldr.2923.StrzeleckiM.C.LongA.J.LloydJ.M.MałeckiJ.ZagórskiP.PawłowskiŁ.JaskólskiM.W.2018. The role of rapid glacier retreat and landscape transformation in controlling the post-Little Ice Age evolution of paraglacial coasts in central Spitsbergen (Billefjorden, Svalbard). Land Degradation & Development29(6): 1962–1978. DOI 10.1002/ldr.2923.Open DOISearch in Google Scholar
Strzelecki M.C., Szczuciński W., Dominiczak A., Zagórski P., Dudek J., Knight J., 2020. New fjords, new coasts, new landscapes: The geomorphology of paraglacial coasts formed after recent glacier retreat in Brepollen (Hornsund, southern Svalbard). Earth Surface Processes and Landforms 45(5): 1325–1334. DOI 10.1002/esp.4819.StrzeleckiM.C.SzczucińskiW.DominiczakA.ZagórskiP.DudekJ.KnightJ.2020. New fjords, new coasts, new landscapes: The geomorphology of paraglacial coasts formed after recent glacier retreat in Brepollen (Hornsund, southern Svalbard). Earth Surface Processes and Landforms45(5): 1325–1334. DOI 10.1002/esp.4819.Open DOISearch in Google Scholar
Urbański J.A., Litwicka D., 2022. The decline of Svalbard landfast sea ice extent as a result of climate change. Oceanologia 64(3): 535–545. DOI 10.1016/j.oceano.2022.03.008.UrbańskiJ.A.LitwickaD.2022. The decline of Svalbard landfast sea ice extent as a result of climate change. Oceanologia64(3): 535–545. DOI 10.1016/j.oceano.2022.03.008.Open DOISearch in Google Scholar
Wojtysiak K., Herman A., Moskalik M., 2018. Wind wave climate of west Spitsbergen: Seasonal variability and extreme events. Oceanologia 60(3): 331–343. DOI 10.1016/j.oceano.2018.01.002.WojtysiakK.HermanA.MoskalikM.2018. Wind wave climate of west Spitsbergen: Seasonal variability and extreme events. Oceanologia60(3): 331–343. DOI 10.1016/j.oceano.2018.01.002.Open DOISearch in Google Scholar
Zagórski P., 2002. Rozwój rzeźby litoralnej północno-zachodniej części Ziemi Wedela Jarlsberga (Spitsbergen). Rozprawa doktorska. (Development of the littoral sculpture of the northwestern part of Wedel Jarlsberg’s Land (Spitsbergen). Doctoral dissertation). Zakład Geomorfologii, Instytut Nauk o Ziemi UMCS, Lublin.ZagórskiP.2002. Rozwój rzeźby litoralnej północno-zachodniej części Ziemi Wedela Jarlsberga (Spitsbergen). Rozprawa doktorska. (Development of the littoral sculpture of the northwestern part of Wedel Jarlsberg’s Land (Spitsbergen). Doctoral dissertation). Zakład Geomorfologii, Instytut Nauk o Ziemi UMCS, Lublin.Search in Google Scholar
Zagórski P., 2011. Shoreline dynamics of Calypsostranda (NW Wedel Jarlsberg Land, Svalbard) during the last century. Polish Polar Research 32(1): 67–99. DOI 10.2478/v10183-011-0004-x.ZagórskiP.2011. Shoreline dynamics of Calypsostranda (NW Wedel Jarlsberg Land, Svalbard) during the last century. Polish Polar Research32(1): 67–99. DOI 10.2478/v10183-011-0004-x.Open DOISearch in Google Scholar
Zagórski P., Frydrych K., Jania J., Błaszczyk M., Sund M., Moskalik M., 2023. Surges in three svalbard glaciers derived from historic sources and geomorphic features. Annals of the American Association of Geographers Latest Articles: 1–21. DOI 10.1080/24694452.2023.2200487.ZagórskiP.FrydrychK.JaniaJ.BłaszczykM.SundM.MoskalikM.2023. Surges in three svalbard glaciers derived from historic sources and geomorphic features. Annals of the American Association of Geographers Latest Articles: 1–21. DOI 10.1080/24694452.2023.2200487.Open DOISearch in Google Scholar
Zagórski P., Gajek G., Demczuk P., 2012. The influence of glacier systems of polar catchments on the functioning of the coastal zone (Recherchefjorden, Svalbard). Zeitschrift fur Geomorphologie 56(1): 101–122. DOI 10.1127/0372-8854/2012/S-00075.ZagórskiP.GajekG.DemczukP.2012. The influence of glacier systems of polar catchments on the functioning of the coastal zone (Recherchefjorden, Svalbard). Zeitschrift fur Geomorphologie56(1): 101–122. DOI 10.1127/0372-8854/2012/S-00075.Open DOISearch in Google Scholar
Zagórski P., Jarosz K., Superson J., 2020. Integrated assessment of shoreline change along the Calypsostranda (Svalbard) from remote sensing, field survey and GIS. Marine Geodesy 43(5): 433–471. DOI 10.1080/01490419.2020.1715516.ZagórskiP.JaroszK.SupersonJ.2020. Integrated assessment of shoreline change along the Calypsostranda (Svalbard) from remote sensing, field survey and GIS. Marine Geodesy43(5): 433–471. DOI 10.1080/01490419.2020.1715516.Open DOISearch in Google Scholar
Zagórski P., Mędrek K., Moskalik M., Rodzik J., Herman A., Pawłowski Ł., Jaskólski M., 2019. Short-term development of Arctic beach system: Case study of wave control on beach morphology and sedimentology (Calypsostranda, Bellsund, Svalbard). Polish Polar Research 40(2): 79–104. DOI 10.24425/ppr.2019.128368.ZagórskiP.MędrekK.MoskalikM.RodzikJ.HermanA.PawłowskiŁ.JaskólskiM.2019. Short-term development of Arctic beach system: Case study of wave control on beach morphology and sedimentology (Calypsostranda, Bellsund, Svalbard). Polish Polar Research40(2): 79–104. DOI 10.24425/ppr.2019.128368.Open DOISearch in Google Scholar
Zagórski P., Rodzik J., Moskalik M., Strzelecki M.C., Lim M., Błaszczyk M., Prominska A., Kruszewski G., Styszyńska A., Malczewski A., 2015. Multidecadal (1960–2011) shoreline changes in Isbjørnhamna (Hornsund, Svalbard). Polish Polar Research 36(4): 369–390. DOI 10.1515/popore-2015-0019.ZagórskiP.RodzikJ.MoskalikM.StrzeleckiM.C.LimM.BłaszczykM.ProminskaA.KruszewskiG.StyszyńskaA.MalczewskiA.2015. Multidecadal (1960–2011) shoreline changes in Isbjørnhamna (Hornsund, Svalbard). Polish Polar Research36(4): 369–390. DOI 10.1515/popore-2015-0019.Open DOISearch in Google Scholar
Zagórski P., Rodzik J., Strzelecki M.C., 2013. Coastal geomorphology. In: Zagórski P., Harasimiuk M., Rodzik J. (eds), The geographical environment of NW part of Wedel Jarlsberg land (Spitsbergen, Svalbard). Wydawnictwo UMCS, Lublin: 212–245.ZagórskiP.RodzikJ.StrzeleckiM.C.2013. Coastal geomorphology. In: ZagórskiP.HarasimiukM.RodzikJ. (eds), The geographical environment of NW part of Wedel Jarlsberg land (Spitsbergen, Svalbard). Wydawnictwo UMCS, Lublin: 212–245.Search in Google Scholar
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