This work is licensed under the Creative Commons Attribution 4.0 International License.
Allison I., Barry R.E., Goodison B., 2001. Climate and cryosphere (CliC) project science and co-ordination plan: Version 1. WCRP-114, WMO/TD No. 1053.AllisonI.BarryR.E.GoodisonB.2001. Climate and cryosphere (CliC) project science and co-ordination plan: Version 1. WCRP-114, WMO/TD No. 1053.Search in Google Scholar
Ballantyne C.K., 2002. Paraglacial geomorphology. Quaternary Science Review 21: 1935–2017.BallantyneC.K.2002. Paraglacial geomorphology. Quaternary Science Review21: 1935–2017.Search in Google Scholar
Barry R.G., 2009. Cryosphere models. In: Meyers R., (ed.), Encyclopedia of complexity and systems science. Springer, New York, NY 1704–1718.BarryR.G.2009. Cryosphere models. In: MeyersR., (ed.), Encyclopedia of complexity and systems science. Springer, New York, NY1704–1718.Search in Google Scholar
Benn D.I., Evans D.J.A., 2010. Glaciers and glaciation. 2nd edn., London, Routlege 816 pp.BennD.I.EvansD.J.A.2010. Glaciers and glaciation. 2nd edn., London, Routlege816 pp.Search in Google Scholar
Berthling I., 2011. Beyond confusion: Rock glaciers as cryo-conditioned landforms. Geomorphology 131: 98–106. DOI 10.1016/j.geomorph.2011.05.002.BerthlingI.2011. Beyond confusion: Rock glaciers as cryo-conditioned landforms. Geomorphology131: 98–106. DOI 10.1016/j.geomorph.2011.05.002.Open DOISearch in Google Scholar
Berthling I., Etzelmüller B., 2011. The concept of cryo-conditioning in landscape evolution. Quaternary Research 75: 378–384. DOI 10.1016/j.yqres.2010.12.011.BerthlingI.EtzelmüllerB.2011. The concept of cryo-conditioning in landscape evolution. Quaternary Research75: 378–384. DOI 10.1016/j.yqres.2010.12.011.Open DOISearch in Google Scholar
Black R.F., 1966. Comments on periglacial terminology. Biuletyn Peryglacjalny 15: 329–333.BlackR.F.1966. Comments on periglacial terminology. Biuletyn Peryglacjalny15: 329–333.Search in Google Scholar
Bodin X., Schoeneich P., Deline P., Ravanel L., Magnin F., Krysiecki J.M., Echelard T., 2015. Mountain permafrost and associated geomorphological processes: Recent changes in the French Alps. Journal of Alpine Research Revue de Géographie Alpine 103(2): 1–16. DOI 10.4000/rga.2885.BodinX.SchoeneichP.DelineP.RavanelL.MagninF.KrysieckiJ.M.EchelardT.2015. Mountain permafrost and associated geomorphological processes: Recent changes in the French Alps. Journal of Alpine Research Revue de Géographie Alpine103(2): 1–16. DOI 10.4000/rga.2885.Open DOISearch in Google Scholar
Boesch H., 1960. Einige Bemerkungen zum Periglazial-Begriff, Vol 1. Regio Basiliensis.BoeschH.1960. Einige Bemerkungen zum Periglazial-Begriff, Vol 1. Regio Basiliensis.Search in Google Scholar
Bout P., 1966. Reponses au questionnaire de la commission de géomorphologie périglaciare. Biuletyn Peryglacjalny 15: 335–355.BoutP.1966. Reponses au questionnaire de la commission de géomorphologie périglaciare. Biuletyn Peryglacjalny15: 335–355.Search in Google Scholar
Brodzikowski K., van Loon A.J., 1987. A systematic classification of glacial and periglacial environments, facies and deposits. Earth-Science Review 24(5): 297–381. DoI 10.1016/00128252(87)90061-4.BrodzikowskiK.van LoonA.J.1987. A systematic classification of glacial and periglacial environments, facies and deposits. Earth-Science Review24(5): 297–381. DOI 10.1016/00128252(87)90061-4.Open DOISearch in Google Scholar
Brodzikowski K., van Loon A.J., 1991, Glacigenic sediments. In: Developments in sedimentology, Vol 49. Elsevier, Amsterdam, Oxford, New York, Tokyo. 674 pp.BrodzikowskiK.van LoonA.J.1991, Glacigenic sediments. In: Developments in sedimentology, Vol 49. Elsevier, Amsterdam, Oxford, New York, Tokyo. 674 pp.Search in Google Scholar
Burga C.A., 1995, Early and middle Holocene glacier fluctuations in the Alps. Ice, 107 p.17.BurgaC.A.1995, Early and middle Holocene glacier fluctuations in the Alps. Ice, 107 p.17.Search in Google Scholar
Church M., Ryder J.M., 1972. Paraglacial sedimentation: A consideration of fluvial processes conditioned by glaciation. Geological Society of America Bulletin 83: 3059–3071.ChurchM.RyderJ.M.1972. Paraglacial sedimentation: A consideration of fluvial processes conditioned by glaciation. Geological Society of America Bulletin83: 3059–3071.Search in Google Scholar
Cisek S., 2010. Metoda analizy krytycznej piśmiennictwa w nauce o informacji i bibliotekoznawstwie w 21 wieku. Przegląd Biblioteczny 3: 273–284.CisekS.2010. Metoda analizy krytycznej piśmiennictwa w nauce o informacji i bibliotekoznawstwie w 21 wieku. Przegląd Biblioteczny3: 273–284.Search in Google Scholar
Cotet P., 1966. Responses a l’enquête sur le problème de la notion et du terme du „périglaciaire”. Biuletyn Peryglacjalny 15: 357–360.CotetP.1966. Responses a l’enquête sur le problème de la notion et du terme du „périglaciaire”. Biuletyn Peryglacjalny15: 357–360.Search in Google Scholar
Czudek T., 1986. Pleistocenní permafrost na územi Ceskoslovenska. Geografický Casopis 38(2–3): 245–252.CzudekT.1986. Pleistocenní permafrost na územi Ceskoslovenska. Geografický Casopis38(2–3): 245–252.Search in Google Scholar
Davis W.M., 1899. The geographical cycle. The Geographical Journal 14(5): 481–504.DavisW.M.1899. The geographical cycle. The Geographical Journal14(5): 481–504.Search in Google Scholar
Dobiński W, Szafraniec J.E., Szypuła B., 2022. Area and borders of Antarctic and permafrost—A review and synthesis. Permafrost and Periglacial Processes 34(4): 1–15. DOI 10.1002/ppp.2170.DobińskiWSzafraniecJ.E.SzypułaB.2022. Area and borders of Antarctic and permafrost—A review and synthesis. Permafrost and Periglacial Processes34(4): 1–15. DOI 10.1002/ppp.2170.Open DOISearch in Google Scholar
Dobiński W., 1997. Distribution of mountain permafrost in the high Tatras based on freezing and thawing indices. Biuletyn Peryglacjalny 36: 29–37.DobińskiW.1997. Distribution of mountain permafrost in the high Tatras based on freezing and thawing indices. Biuletyn Peryglacjalny36: 29–37.Search in Google Scholar
Dobiński W., 1998. Problem of permafrost occurrence in the high Tatra mountains in the light of geophysical research in the valley of Five Polish Lakes and Swistowka Roztocka. Dokumentacja Geograficzna 12: 35–58.DobińskiW.1998. Problem of permafrost occurrence in the high Tatra mountains in the light of geophysical research in the valley of Five Polish Lakes and Swistowka Roztocka. Dokumentacja Geograficzna12: 35–58.Search in Google Scholar
Dobiński W., 2004. Permafrost in the Tatra Mts.: Genesis, features, evolution. Przegląd Geograficzny 76(3): 329–345.DobińskiW.2004. Permafrost in the Tatra Mts.: Genesis, features, evolution. Przegląd Geograficzny76(3): 329–345.Search in Google Scholar
Dobiński W., 2006. Ice and environment: A terminological discussion. Earth-Science Review 79: 229–240. DOI 10.1016/j.earscirev.2006.07.003.DobińskiW.2006. Ice and environment: A terminological discussion. Earth-Science Review79: 229–240. DOI 10.1016/j.earscirev.2006.07.003.Open DOISearch in Google Scholar
Dobiński W., 2011. Permafrost. Earth-Science Review 108 (3– 4): 158–169. DoI 10.1016/j.earscirev.2011.06.007.DobińskiW.2011. Permafrost. Earth-Science Review108 (3–4): 158–169. DOI 10.1016/j.earscirev.2011.06.007.Open DOISearch in Google Scholar
Dobiński W., 2012. The concept of cryo-conditioning in landscape evolution – Comment to the paper published by Ivar Berthling and Bernd Etzelmüller, Quaternary Research 75 (2011) 378–384. Quaternary Research 77: 211–212. DOI 10.1016/j.yqres.2011.06.017.DobińskiW.2012. The concept of cryo-conditioning in landscape evolution – Comment to the paper published by Ivar Berthling and Bernd Etzelmüller, Quaternary Research 75 (2011) 378–384. Quaternary Research77: 211–212. DOI 10.1016/j.yqres.2011.06.017.Open DOISearch in Google Scholar
Dobiński W., 2020a. Dryness. In: International encyclopedia of geography: People, the earth, environment and technology. john Wiley & Sons Ltd.: 1–7. DOI 10.1002/9781118786352.wbieg2035.DobińskiW.2020a. Dryness. In: International encyclopedia of geography: People, the earth, environment and technology. John Wiley & Sons Ltd.: 1–7. DOI 10.1002/9781118786352.wbieg2035.Open DOISearch in Google Scholar
Dobiński W., 2020b. Permafrost active layer. Earth-Science Review 208(103301): 1–20. DOI 10.1016/j.earsci-rev.2020.103301.DobińskiW.2020b. Permafrost active layer. Earth-Science Review208(103301): 1–20. DOI 10.1016/j.earsci-rev.2020.103301.Open DOISearch in Google Scholar
Dobiński W., Gądek B., Żogała B., 1996. Wyniki geoelek-trycznych badań osadów czwartorzędowych w piętrze alpejskim Tatr Wysokich (Results of geoelectrical research of Quaternary sediments in the Alpine belt of the High Tatra Mts.). Przegląd Geologiczny 44(3): 259–261.DobińskiW.GądekB.ŻogałaB.1996. Wyniki geoelek-trycznych badań osadów czwartorzędowych w piętrze alpejskim Tatr Wysokich (Results of geoelectrical research of Quaternary sediments in the Alpine belt of the High Tatra Mts.). Przegląd Geologiczny44(3): 259–261.Search in Google Scholar
Dobrowolski A.B., 1923. Historja naturalna lodu. (Histoire naturelle de la glace). Wydawnictwo Kasa Im. Mianowskiego, Warszawa.DobrowolskiA.B.1923. Historja naturalna lodu. (Histoire naturelle de la glace). Wydawnictwo Kasa Im. Mianowskiego, Warszawa.Search in Google Scholar
Dobrowolski A.B., 1931. La glace au point de vue petro-graphique (Essai de classification des roches de glace), Bulletin de la Société Française de Minéralogie, Paris 54(1–2): 5–19.DobrowolskiA.B.1931. La glace au point de vue petro-graphique (Essai de classification des roches de glace), Bulletin de la Société Française de Minéralogie, Paris54(1–2): 5–19.Search in Google Scholar
Dorsey N.E., 1948. Water at −72°C. Science 109(2798): 158. DOI 10.1126/science.108.2798.158.DorseyN.E.1948. Water at −72°C. Science109(2798): 158. DOI 10.1126/science.108.2798.158.Open DOISearch in Google Scholar
Dylik J., Dylikowa A., 1964. Cechy przewodnie obszarów peryglacjalnych (Features of periglacial areas). Czasopismo Geograficzne 35: 279–299.DylikJ.DylikowaA.1964. Cechy przewodnie obszarów peryglacjalnych (Features of periglacial areas). Czasopismo Geograficzne35: 279–299.Search in Google Scholar
Edmeier B., Jung-Hüttl A., 1996. Eisige welten Im kosmos der Minusgrade. BLV Verlagsgesellschaft GmbH, Monachium.EdmeierB.Jung-HüttlA.1996. Eisige welten Im kosmos der Minusgrade. BLV Verlagsgesellschaft GmbH, Monachium.Search in Google Scholar
Fedorov A.N., 2022. Permafrost landscape research in the northeast of Eurasia. Earth 3(1): 460478. DOI 10.3390/earth3010028.FedorovA.N.2022. Permafrost landscape research in the northeast of Eurasia. Earth3(1): 460478. DOI 10.3390/earth3010028.Open DOISearch in Google Scholar
French H., Thorn C.E., 2006. The changing nature of periglacial geomorphology. Géomorphologie Relief Processus Environnement 12(3): 165–173.FrenchH.ThornC.E.2006. The changing nature of periglacial geomorphology. Géomorphologie Relief Processus Environnement12(3): 165–173.Search in Google Scholar
French H.M., 2000. Does Lozinski’s periglacial realm exist today? A discussion relevant to modern usage of the term ‘Periglacial’. Permafrost and Periglacial Processes 11: 35–42FrenchH.M.2000. Does Lozinski’s periglacial realm exist today? A discussion relevant to modern usage of the term ‘Periglacial’. Permafrost and Periglacial Processes11: 35–42Search in Google Scholar
French H.M., 2003. The development of periglacial geomorphology: 1-up to 1965. Permafrost and Periglacial Process 14(1): 29–60. DOI 10.1002/ppp.438.FrenchH.M.2003. The development of periglacial geomorphology: 1-up to 1965. Permafrost and Periglacial Process14(1): 29–60. DOI 10.1002/ppp.438.Open DOISearch in Google Scholar
French H.M., 2007. The Periglacial environment. 3rd Edn. John Wiley & Sons, Chichester.FrenchH.M.2007. The Periglacial environment. 3rd Edn. John Wiley & Sons, Chichester.Search in Google Scholar
Gądek B., Kotyrba A., 2003. Kopalny lód lodowcowy w Tatrach? (Fossil glacial ice in the Tatra Mountains). Przegląd Geologiczny 51(7): 571.GądekB.KotyrbaA.2003. Kopalny lód lodowcowy w Tatrach? (Fossil glacial ice in the Tatra Mountains). Przegląd Geologiczny51(7): 571.Search in Google Scholar
Haeberli W., 1985. Creep of mountain permafrost: Internal structure and flow of Alpine rock glaciers. Mitteilungen der VAW/ETH 77.HaeberliW.1985. Creep of mountain permafrost: Internal structure and flow of Alpine rock glaciers. Mitteilungen der VAW/ETH77.Search in Google Scholar
Harris S.A., 1981. Climatic relationships of permafrost zones in areas of low winter snow – cover. Biuletyn Peryglacjalny 28: 27–240.HarrisS.A.1981. Climatic relationships of permafrost zones in areas of low winter snow – cover. Biuletyn Peryglacjalny28: 27–240.Search in Google Scholar
Hauck C., Bach M., Hilbich C., 2008. A four-phase model to quantify subsurface ice and water content in permafrost regions based on geophysical data sets. In: Ninth International Conference on Permafrost Proceedings. University of Alaska, Fairbanks: 675–680.HauckC.BachM.HilbichC.2008. A four-phase model to quantify subsurface ice and water content in permafrost regions based on geophysical data sets. In: Ninth International Conference on Permafrost Proceedings. University of Alaska, Fairbanks: 675–680.Search in Google Scholar
Hess M., 1965. Piętra klimatyczne w Polskich Karpatach Zachodnich (Climatic belts in the Polish Western Carpathians). Zeszyty Naukowe. Uniwersytetu Jagiellońskiego. 115, Prace Geograficzne 11, Prace Instytutu Geograficznego 33. pp. 258.HessM.1965. Piętra klimatyczne w Polskich karpatach Zachodnich (Climatic belts in the Polish Western Carpathians). Zeszyty Naukowe. Uniwersytetu Jagiellońskiego. 115, Prace Geograficzne 11, Prace Instytutu Geograficznego33. pp. 258.Search in Google Scholar
Hess M., 1968. Piętra klimatyczne w Alpach Wschodnich, Karpatach Zachodnich i w Sudetach (Climatic belts in Eastern Alps, Western Carpathians and in Sudetes). Przegląd Geograficzny 40(2): 467–472.HessM.1968. Piętra klimatyczne w Alpach Wschodnich, Karpatach Zachodnich i w Sudetach (Climatic belts in Eastern Alps, Western Carpathians and in Sudetes). Przegląd Geograficzny40(2): 467–472.Search in Google Scholar
Hock R., Hutchings J.K., Lehning M., 2017. Grand challenges in cryospheric Sciences: Toward better predictability of glaciers, snow and sea ice. Frontiers in Earth Sciences 5(64). DOI 10.3389/feart.2017.00064.HockR.HutchingsJ.K.LehningM.2017. Grand challenges in cryospheric Sciences: Toward better predictability of glaciers, snow and sea ice. Frontiers in Earth Sciences5(64). DOI 10.3389/feart.2017.00064.Open DOISearch in Google Scholar
Holloway J. E., Lewkowicz A.G., Douglas T.A., Xiaoying Li, X., Turetsky M.R., Baltzer J.L., Jin H., 2020. Impact of wildfire on permafrost landscapes: A review of recent advances and future prospects. Permafrost and Periglacial Processes 31: 371–382. DOI 10.1002/ppp.2048.HollowayJ. E.LewkowiczA.G.DouglasT.A.Xiaoying LiX.TuretskyM.R.BaltzerJ.L.JinH.2020. Impact of wildfire on permafrost landscapes: A review of recent advances and future prospects. Permafrost and Periglacial Processes31: 371–382. DOI 10.1002/ppp.2048.Open DOISearch in Google Scholar
Jahn A., 1975. Problems of the Periglacial zone. PWN, Warszawa.JahnA.1975. Problems of the Periglacial zone. PWN, Warszawa.Search in Google Scholar
Jania J., 1993. Glacjologia. Nauka o lodowcach (Glaciology. The science of glaciers). Wydawnictwo Naukowe PWN, Warszawa.JaniaJ.1993. Glacjologia. Nauka o lodowcach (Glaciology. The science of glaciers). Wydawnictwo Naukowe PWN, Warszawa.Search in Google Scholar
Karte J., 1981. Development and present state of German periglacial research in the polar, subpolar and alpine environment (Entwicklung und gegenwartiger stand der deutschen perigalziarforschung im polaren, subpolaren und alpinen milieu). Technical translation, National Research Council of Canada, Ottawa. DOI 10.4224/20337838.KarteJ.1981. Development and present state of German periglacial research in the polar, subpolar and alpine environment (Entwicklung und gegenwartiger stand der deutschen perigalziarforschung im polaren, subpolaren und alpinen milieu). Technical translation, National Research Council of Canada, Ottawa. DOI 10.4224/20337838.Open DOISearch in Google Scholar
Kotarba A., 1992. Natural environment and landform dynamics of the Tatra Mountains. Mountain Research and Development 12(2): 105–129.KotarbaA.1992. Natural environment and landform dynamics of the Tatra Mountains. Mountain Research and Development12(2): 105–129.Search in Google Scholar
Li N., Chen F., Xu B., Swoboda G., 2008. Theoretical modeling framework for an unsaturated freezing soil. Cold Regions Science and Technology 54: 19–35.LiN.ChenF.XuB.SwobodaG.2008. Theoretical modeling framework for an unsaturated freezing soil. Cold Regions Science and Technology54: 19–35.Search in Google Scholar
Linton D.L., 1969. The abandonment of the term ‘periglacial’. Palaeoecology of Africa & of the Surrounding Islands & Antarctica 5: 65–70.LintonD.L.1969. The abandonment of the term ‘periglacial’. Palaeoecology of Africa & of the Surrounding Islands & Antarctica5: 65–70.Search in Google Scholar
Łoziński W., 1909. Uber die mechanische Verwitterung der Sandsteine im gemassigten Klima. Bulletin international de l’Academie des Sciences de Cracovie class des Sciences Mathematique et Naturalles 1: 1–25.ŁozińskiW.1909. Uber die mechanische Verwitterung der Sandsteine im gemassigten Klima. Bulletin international de l’Academie des Sciences de Cracovie class des Sciences Mathematique et Naturalles1: 1–25.Search in Google Scholar
Łoziński W., 1912. Die periglaziale Fazies der mechanischen Ver-witterung. Compte Rendu, XI International Geological congress, Stockholm: 1039–1053.ŁozińskiW.1912. Die periglaziale Fazies der mechanischen Ver-witterung. Compte Rendu, XI International Geological congress, Stockholm: 1039–1053.Search in Google Scholar
Lukniš M., 1973. Relief Vysokých Tatier a ich predpolia. Vydava-tel’stvo Slovenskej akademie vied, Bratislava.LuknišM.1973. Relief Vysokých Tatier a ich predpolia. Vydava-tel’stvo Slovenskej akademie vied, Bratislava.Search in Google Scholar
Marks L., 2005. Pleistocene glacial limits in the territory of Poland. Przegląd Geologiczny 53: 988–993.MarksL.2005. Pleistocene glacial limits in the territory of Poland. Przegląd Geologiczny53: 988–993.Search in Google Scholar
Marks L., 2012. Timing of the Late Vistulian (Weichselian) glacial phases in Poland. Quaternary Science Review 44: 81–88. DOI 10.1016/j.quascirev.2010.08.008.MarksL.2012. Timing of the Late Vistulian (Weichselian) glacial phases in Poland. Quaternary Science Review44: 81–88. DOI 10.1016/j.quascirev.2010.08.008.Open DOISearch in Google Scholar
Melnikov V., Gennadinik V., Kulmala M, Lappalainen H.K., Petäjä T., Zilitinkevich S., 2018. Cryosphere: A kingdom of anomalies and diversity. Atmospheric Chemistry and Physics 18: 6535–6542. DOI 10.5194/acp-18-6535-2018.MelnikovV.GennadinikV.KulmalaMLappalainenH.K.PetäjäT.ZilitinkevichS.2018. Cryosphere: A kingdom of anomalies and diversity. Atmospheric Chemistry and Physics18: 6535–6542. DOI 10.5194/acp-18-6535-2018.Open DOISearch in Google Scholar
Melnikov V.P., Gennadinik V.B., Broushkov A.V., 2013. Aspects of cryosophy: Cryodiversity in nature. Earth Cryosphere (Kriosfera Zemli) 17: 3–11.MelnikovV.P.GennadinikV.B.BroushkovA.V.2013. Aspects of cryosophy: Cryodiversity in nature. Earth Cryosphere (Kriosfera Zemli)17: 3–11.Search in Google Scholar
Mojski J.E., 1993. Europa w Plejstocenie – ewolucja środowiska przyrodniczego (Europe in the Pleistocene – evolution of the natural environment). PAE, Warszawa.MojskiJ.E.1993. Europa w Plejstocenie – ewolucja środowiska przyrodniczego (Europe in the Pleistocene – evolution of the natural environment). PAE, Warszawa.Search in Google Scholar
Mroczek P., 2010. Stulecie pojęcia peryglacjał (A 100 anniversary of the concept of periglacial. Przegląd Geologiczny 58(2): 130–132.MroczekP.2010. Stulecie pojęcia peryglacjał (A 100 anniversary of the concept of periglacial. Przegląd Geologiczny58(2): 130–132.Search in Google Scholar
Murton J.B., 2021. What and where are periglacial landscapes? Permafrost and Periglacial Processes 32(2): 179–319. DOI 10.1002/ppp.2.MurtonJ.B.2021. What and where are periglacial landscapes?Permafrost and Periglacial Processes32(2): 179–319. DOI 10.1002/ppp.2.Open DOISearch in Google Scholar
Nangeroni G., 1959. I fenomeni periglaciali in Italia, in: Atti della Accademia Roveretana degli Agiati. Contributi della Classe di Scienze Fisiche, Matematiche e Naturali Fasc. B, s. 6 v. 1, 43–63.NangeroniG.1959. I fenomeni periglaciali in Italia, in: Atti della Accademia Roveretana degli Agiati. Contributi della Classe di Scienze Fisiche, Matematiche e Naturali Fasc. B, s. 6 v. 1, 43–63.Search in Google Scholar
Niessen A., Van Horssen P., Koster E.A., 1992. Altitudinal zonation of selected geomorphological phenomena in an alpine periglacial area (Abisko, Northern Sweden). Geografiska Annaler: Series A, Physical Geography 74(2–3): 183–196. DOI 10.1080/04353676.1992.11880361.NiessenA.Van HorssenP.KosterE.A.1992. Altitudinal zonation of selected geomorphological phenomena in an alpine periglacial area (Abisko, Northern Sweden). Geografiska Annaler: Series A, Physical Geography74(2–3): 183–196. DOI 10.1080/04353676.1992.11880361.Open DOISearch in Google Scholar
Obidowicz A., 1993. Wahania górnej granicy lasu w późnym plejstocenie i holocenie w Tatrach (Fluctuations of the upper forest boundary in the Late Pleistocene and Holocene in the Tatra Mountains). Dokumentacja Geograficzna 4–5: 31–43.ObidowiczA.1993. Wahania górnej granicy lasu w późnym plejstocenie i holocenie w Tatrach (Fluctuations of the upper forest boundary in the Late Pleistocene and Holocene in the Tatra Mountains). Dokumentacja Geograficzna4–5: 31–43.Search in Google Scholar
Penck W., 1953. Morphological analysis of land forms, a contribution to physical geology. English. Translated by Czech H., Cumming-Boswell K., Macmillan and Co. Ltd, London.PenckW.1953. Morphological analysis of land forms, a contribution to physical geology. English. Translated by CzechH.Cumming-BoswellK., Macmillan and Co. Ltd, London.Search in Google Scholar
Popov A.I., 1961. Cartes des formations periglaciaires actuelles et pleistiocenes en territoire de l’USSR. Biuletyn Peryglacjalny 10: 11–23.PopovA.I.1961. Cartes des formations periglaciaires actuelles et pleistiocenes en territoire de l’USSR. Biuletyn Peryglacjalny10: 11–23.Search in Google Scholar
Rabel G., 1948. Water at −72°C. Science 107(2787): 567. DOI 10.1126/science.107.2787.567.RabelG.1948. Water at −72°C. Science107(2787): 567. DOI 10.1126/science.107.2787.567.Open DOISearch in Google Scholar
Rouyet L., Lauknes T.R., Christiansen H.H., Strand S.M., Larsen Y., 2019. Seasonal dynamics of a permafrost landscape, Adventdalen, Svalbard, investigated by InSAR. Remote Sensing of Environment 231: 111236. DOI 10.1016/j. rse.2019.111236.RouyetL.LauknesT.R.ChristiansenH.H.StrandS.M.LarsenY.2019. Seasonal dynamics of a permafrost landscape, Adventdalen, Svalbard, investigated by InSAR. Remote Sensing of Environment231: 111236. DOI 10.1016/j.rse.2019.111236.Open DOISearch in Google Scholar
Ryder J.M., 1971. The stratigraphy and morphology of paraglacial alluvial fans in south-central British Columbia. Canadian Journal of Earth Sciences 8: 279–298.RyderJ.M.1971. The stratigraphy and morphology of paraglacial alluvial fans in south-central British Columbia. Canadian Journal of Earth Sciences8: 279–298.Search in Google Scholar
Seligman G., 1947. Cryology. Journal of Glaciology 1(1): 35. DOI 10.3189/S0022143000001179.SeligmanG.1947. Cryology. Journal of Glaciology1(1): 35. DOI 10.3189/S0022143000001179.Open DOISearch in Google Scholar
Senderak K., Kondracka M., Gądek B., 2019. Postglacial talus slope development imaged by the ERT method: Comparison of slopes from SW Spitsbergen, Norway and Tatra Mountains, Poland. Open Geoscience 11: 1084–1097. DOI 10.1515/geo-2019-0084.SenderakK.KondrackaM.GądekB.2019. Postglacial talus slope development imaged by the ERT method: Comparison of slopes from SW Spitsbergen, Norway and Tatra Mountains, Poland. Open Geoscience11: 1084–1097. DOI 10.1515/geo-2019-0084.Open DOISearch in Google Scholar
Shumskii P.A., 1955. Osnovy strukturalnogo l’edovedeniya. Akademiya Nauk SSSR. Izdatel’stvo Akademii Nauk SSSR., Moskva.ShumskiiP.A.1955. Osnovy strukturalnogo l’edovedeniya. Akademiya Nauk SSSR. Izdatel’stvo Akademii Nauk SSSR., Moskva.Search in Google Scholar
Shumskii P.A., 1964. Principles of structural glaciology; the petrography of fresh-water ice as a method of glaciological investigation. Translated by Kraus D., Dover Publications Inc., New York.ShumskiiP.A.1964. Principles of structural glaciology; the petrography of fresh-water ice as a method of glaciological investigation. Translated by KrausD., Dover Publications Inc., New York.Search in Google Scholar
Simensen T., Halvorsena R., Erikstada L., 2018. Methods for landscape characterisation and mapping: A systematic review. Land Use Policy 75: 557–569. DOI 10.1016/j.lan-dusepol.2018.04.022.SimensenT.HalvorsenaR.ErikstadaL.2018. Methods for landscape characterisation and mapping: A systematic review. Land Use Policy75: 557–569. DOI 10.1016/j.lan-dusepol.2018.04.022.Open DOISearch in Google Scholar
Sjöberg Y., Siewert M.B., Rudy A.C.A., Paquette M., Bouchard F., Malenfant-Lepage J., Fritz M., 2020. Hot trends and impact in permafrost science. Permafrost and Periglacial Processes 31: 461–471. DOI 10.1002/ppp.2047.SjöbergY.SiewertM.B.RudyA.C.A.PaquetteM.BouchardF.Malenfant-LepageJ.FritzM.2020. Hot trends and impact in permafrost science. Permafrost and Periglacial Processes31: 461–471. DOI 10.1002/ppp.2047.Open DOISearch in Google Scholar
Slaymaker O., 2011. Criteria to distinguish between periglacial, proglacial and paraglacial environments. Quaestiones Geographicae 30: 85–94.SlaymakerO.2011. Criteria to distinguish between periglacial, proglacial and paraglacial environments. Quaestiones Geographicae30: 85–94.Search in Google Scholar
Slaymaker O., Kelly R.F.J. 2007. The cryosphere and global environmental change. Blackwell Publishing Ltd. Oxford.SlaymakerO.KellyR.F.J.2007. The cryosphere and global environmental change. Blackwell Publishing Ltd. Oxford.Search in Google Scholar
Solomatin V.I., Belova N.G., 2008. Systematization of underground ice. In: Kane D.L., Hinkel, K.M., (eds), Ninth International Conference on Permafrost Proceedings. Institute of Northern Engineering, University of Alaska Fairbanks (2 Vol.): 1671–1673.SolomatinV.I.BelovaN.G.2008. Systematization of underground ice. In: KaneD.L.HinkelK.M., (eds), Ninth International Conference on Permafrost Proceedings. Institute of Northern Engineering, University of Alaska Fairbanks (2 Vol.): 1671–1673.Search in Google Scholar
Stocker T.F., Qin D., Plattner G.-K., Tignor M., Allen S.K., Bo-schung J., Nauels A., Xia Y., Bex V., Midgley P.M., 2013. Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge Univ. Press, Cambridge, UK, and New York.StockerT.F.QinD.PlattnerG.-K.TignorM.AllenS.K.Bo-schungJ.NauelsA.XiaY.BexV.MidgleyP.M.2013. Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge Univ. Press, Cambridge, UK, and New York.Search in Google Scholar
Szewczyk J., 2017. The deep-seated low land relict permafrost from the Suwałki region (NE Poland) – analysis of conditions of its development and preservation. Geological Quarterly 61(4): 845–858. DOI 10.7306/gq.1378.SzewczykJ.2017. The deep-seated low land relict permafrost from the Suwałki region (NE Poland) – analysis of conditions of its development and preservation. Geological Quarterly61(4): 845–858. DOI 10.7306/gq.1378.Open DOISearch in Google Scholar
Szewczyk J., Nawrocki J., 2011. Deep-seated relict permafrost in northeastern Poland. Boreas 40: 385–388. DoI 10.1111/j.1502-3885.2011.00218.x.SzewczykJ.NawrockiJ.2011. Deep-seated relict permafrost in northeastern Poland. Boreas40: 385–388. DOI 10.1111/j.1502-3885.2011.00218.x.Open DOISearch in Google Scholar
Thomas D.N., Finlo R., Cottier F.R., Brandon M.A., 2019. Sea ice, ice drift, and oceanic circulation. In: Richardson D., Castree N., Goodchild M.F., Kobayashi A., Liu W., Marston R.A.,(eds), The international encyclopedia of geography. John Wiley & Sons, Ltd. DOI 10.1002/9781118786352. wbieg0395.pub2.ThomasD.N.FinloR.CottierF.R.BrandonM.A.2019. Sea ice, ice drift, and oceanic circulation. In: RichardsonD.CastreeN.GoodchildM.F.KobayashiA.LiuW.MarstonR.A.,(eds), The international encyclopedia of geography. John Wiley & Sons, Ltd. DOI 10.1002/9781118786352.wbieg0395.pub2.Open DOISearch in Google Scholar
Thorn C.E., Darmody R.G., Dixon J.C., 2011. Rethinking weathering and pedogenesis in alpine periglacial regions: Some Scandinavian evidence. In: Martini I.P., French H.M. Perez Alberti A., (eds), Ice-marginal and periglacial processes and sediments. Geological Society, London, Special Publications: 354.ThornC.E.DarmodyR.G.DixonJ.C.2011. Rethinking weathering and pedogenesis in alpine periglacial regions: Some Scandinavian evidence. In: MartiniI.P.FrenchH.M.Perez AlbertiA., (eds), Ice-marginal and periglacial processes and sediments. Geological Society, London, Special Publications: 354.Search in Google Scholar
Trabant D.C., Mayo L.R., 1985. Estimation and effects of internal accumulation of five glaciers in Alaska. Annals of Glaciology 6: 113–117.TrabantD.C.MayoL.R.1985. Estimation and effects of internal accumulation of five glaciers in Alaska. Annals of Glaciology6: 113–117.Search in Google Scholar
Tricart J., Cailleaux A., 1961. Le modelle periglaciaire, Cours de geomorphologie. Centre doc Universite de Sorbonne, Paris.TricartJ.CailleauxA.1961. Le modelle periglaciaire, Cours de geomorphologie. Centre doc Universite de Sorbonne, Paris.Search in Google Scholar
Tyrrell J.B., 1904. Crystosphenes or buried sheets of ice in the tundra of Northern America. Journal of Geology 12: 232–236.TyrrellJ.B.1904. Crystosphenes or buried sheets of ice in the tundra of Northern America. Journal of Geology12: 232–236.Search in Google Scholar
Uxa T., Mida P., 2017. Rock glaciers in the Western and High Tatra Mountains, Western Carpathians. Journal of Maps 13(2): 844–857. DOI 10.1080/17445647.2017.1378136.UxaT.MidaP.2017. Rock glaciers in the Western and High Tatra Mountains, Western Carpathians. Journal of Maps13(2): 844–857. DOI 10.1080/17445647.2017.1378136.Open DOISearch in Google Scholar
van Everdingen R.O., 2005. Definitions. In: Multi-language glossary of permafrost and related Ground-ice terms. IPA The University of Calgary, Calgary, Alberta, Canada.van EverdingenR.O.2005. Definitions. In: Multi-language glossary of permafrost and related Ground-ice terms. IPA The University of Calgary, Calgary, Alberta, Canada.Search in Google Scholar
Vandenberghe J., 1993. Permafrost changes in Europe during the last glacial. Permafrost and Periglacial Processes 4: 121–135.VandenbergheJ.1993. Permafrost changes in Europe during the last glacial. Permafrost and Periglacial Processes4: 121–135.Search in Google Scholar
Vandenberghe J., 2011. Periglacial sediments: Do they exist? In: Martini I.P., French H.M., Perez Alberti A., (eds), Ice-marginal and periglacial processes and sediments. Geological Society, London, Special Publications: 354.VandenbergheJ.2011. Periglacial sediments: Do they exist? In: MartiniI.P.FrenchH.M.Perez AlbertiA., (eds), Ice-marginal and periglacial processes and sediments. Geological Society, London, Special Publications: 354.Search in Google Scholar
Vincent W.F., Lemay M., Allard M., 2017. Arctic permafrost landscapes in transition: Towards an integrated earth system approach. Arctic Science 3(2): 39–64. DOI 10.1139/as-2016-0027.VincentW.F.LemayM.AllardM.2017. Arctic permafrost landscapes in transition: Towards an integrated earth system approach. Arctic Science3(2): 39–64. DOI 10.1139/as-2016-0027.Open DOISearch in Google Scholar
Washburn A.L., 1973. Periglacial processes and environments. Edward Arnold, London.WashburnA.L.1973. Periglacial processes and environments. Edward Arnold, London.Search in Google Scholar
Whittow J., 1984. The penguin dictionary of physical geography. Penguin Books, London.WhittowJ.1984. The penguin dictionary of physical geography. Penguin Books, London.Search in Google Scholar
Wick L., Tinner W., 1997. Vegetation changes and timberline fluctuations in the central Alps as indicators of Holocene climatic oscillations. Arctic and Alpine Research 29(4): 445–458.WickL.TinnerW.1997. Vegetation changes and timberline fluctuations in the central Alps as indicators of Holocene climatic oscillations. Arctic and Alpine Research29(4): 445–458.Search in Google Scholar
Yang M., Wang X., Pang G., Wan G., Liu Z., 2019. The Tibetan Plateau cryosphere: Observations and model simulations for current status and recent changes. Earth-Science Review 190: 353–369. DOI 10.1016/j.earscirev.2018.12.018.YangM.WangX.PangG.WanG.LiuZ.2019. The Tibetan Plateau cryosphere: Observations and model simulations for current status and recent changes. Earth-Science Review190: 353–369. DOI 10.1016/j.earscirev.2018.12.018.Open DOISearch in Google Scholar
Zwoliński Zb., 2007. Mobilność materii mineralnej na obszarach paraglacjalnych, Wyspa Króla Jerzego, Antarktyka Zachodnia (The mobility of mineral matter in paraglacial areas. King George Island, Western Antarctica). UAM Wydawnictwo Naukowe, Poznań, Seria Geografia, 74.ZwolińskiZb.2007. Mobilność materii mineralnej na obszarach paraglacjalnych, Wyspa Króla Jerzego, Antarktyka Zachodnia (The mobility of mineral matter in paraglacial areas. King George Island, Western Antarctica). UAM Wydawnictwo Naukowe, Poznań, Seria Geografia, 74.Search in Google Scholar
Zwoliński Zb., Dobiński W., 2008. Recesja lądolodów i lo-dowców oraz degradacja wieloletniej zmarzliny (Recession of ice sheets and glaciers and the degradation of permafrost). Kosmos 57(3–4/280–281): 209–224.ZwolińskiZb.DobińskiW.2008. Recesja lądolodów i lo-dowców oraz degradacja wieloletniej zmarzliny (Recession of ice sheets and glaciers and the degradation of permafrost). Kosmos57(3–4/280–281): 209–224.Search in Google Scholar