Abstract
Cryogenic landslides are the main relief-forming process on the Northern part of West Siberian Plain. This chapter discusses the theory of cryogenic landslides and suggests classification method based on mechanisms, specific landforms—manifestations of various landslide processes. The study is based on the long-term field observations at Research station “Vaskiny Dachi” in Central Yamal, as well as occasional observations in other areas. Two main types of cryogenic landslides were distinguished based on mechanism and mode of displacement. They are (1) earth/mud flows (retrogressive thaw slumps) and (2) translational landslides (active-layer detachments). The first type results from thawing of massive ground ice within permafrost layers, while the second type is caused by the thawing of ice lenses in the active-layer base (transient layer). Distinguished are specific landforms: (1) thermocirques, and (2) landslide cirques. Landslide cirques are considered to start at a subsequent stage of thermocirque after the massive ground ice layer is exhausted or buried by landslide masses. The thermocirque changes are noted within years and decades, while new landslides within landslide cirques are separated by several centuries. As landslide masses bury organic material of soil and vegetative canopy, it is possible to use radiocarbon dating method to know the age of the landslides. Shear surfaces of ancient landslides are overgrown by abnormally high willow shrubs which allow the use of dendrochronologic method in the analysis of landslide cirque development.
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References
Ananieva GV (1984) Slope processes as indicators of cryogenic construction of permafrost on locations with massive ground ice distribution. In: Study and prediction of cryogenic physical-geological processes. VSEGINGEO Publisher, Moscow, pp 12–17 (in Russian)
Bolikhovsky VF, Kuntsel VV (1990) Development of landslides in permafrost of West Siberian tundra. Inzhenernaya Geologiya (Eng Geol) 1:65–70 (in Russian)
Burn CR, Lewkowicz A (1990) Retrogressive thaw slumps. Can Geogr 34(3):273–276
Ermokhina KA (2009) Phyto-indication of exogenous processes in the tundras of central Yamal. Candidate dissertation, Moscow University Press, Moscow, Russia, p 18 (in Russian)
French HM (1976) The periglacial environment. Longman, London, p 309
French HM (2007) The periglacial environment, 3rd edn. Wiley & Sons, New York, p 458
Gorlanova LA (2002) Methods of dendrochronologic dating of landslide events. Abstracts of international conference “Extremal cryospheric phenomena: fundamental and applied aspects”. Pushchino, Russia, Scientific Council on Earth Cryology RAS, pp 148–149
Harris C, Lewkowicz AG (2000) An analysis of the stability of thawing slopes, Ellesmere Island, Nunavut, Canada. Can Geotech J 37(2):449–462
Kaplina TN (1965) Cryogenic slope processes. Nauka Publisher, Moscow, p 287 (in Russian)
Khomutov AV (2010) Relation of natural cryogenic processes to the dynamics of tundra landscapes, case study in subzone of typical tundra of the Kara region. Candidate dissertation, Earth Cryosphere Institute SB RAS, Tyumen, p 18 (in Russian)
Khomutov AV (2012) Assessment of landslide geohazards in typical tundra of central Yamal. In: Melnikov VP, Drozdov DS, Romanovsky VE (eds) Proceedings of the 10th international conference on permafrost. Salekhard, 24–29 June 2012, 2:157–162
Khomutov AV, Leibman MO (2008) Landscape factors of thermodenudation rate at the Yugorsky Peninsula coast. Kriosfera Zemli (The Earth Cryosphere) XII(4):24–35 (in Russian)
Kizyakov AI (2005) Dynamics of thermodenudation processes in the area of tabular ground ice distribution. Candidate dissertation, Moscow University Press, Moscow, p 26 (in Russian)
Kizyakov AI, Leibman MO, Perednya DD (2006) Destructive relief-forming cryogenic processes at the coasts of the Arctic plains with tabular ground ice. Kriosfera Zemli (The Earth Cryosphere) X(2):79–89 (in Russian)
Kokelj SV, Lewkowicz AG (1998) Long-term influence of active-layer detachment sliding on permafrost slope hydrology. Hot weather Creek Ellesmere Island Canada. In: Proceedings of the 7th international permafrost conference. Yellowknife, 23–27 June 1998, pp 583–589
Leibman MO (1994) Cryogenic landslides and their interaction with linear constructions on Yamal Peninsula Russia. In: Smith DW, Sego DC (eds) Proceedings of the 7th international cold regions engineering specialty conference. Edmonton, pp 865–869
Leibman MO (1995) Preliminary results of cryogenic landslides study on Yamal Peninsula Russia. Permafrost Periglac Process 6(3):259–264
Leibman MO (2004a) Mechanisms and stages of slope cryogenic process formation in the western sector of Russian Arctic In Relief forming processes: theory, practice, research methods. Materials of XXVIII Plenum of Geomorphic Commission. Novosibirsk, pp 160–162 (in Russian)
Leibman MO (2004b) Mechanisms of formation for cryogenic translational landslides and conditions for their indication by high willow shrubs in central Yamal. Transactions of the Moscow Center of Russian geographical society. Biogeography, 12 RASHN. Moscow, pp 89–94 (in Russian)
Leibman MO, Egorov IP (1996) Climatic and environmental controls of cryogenic landslides, Yamal, Russia. In: Senneset K (ed) Proceedings of the 7th international symposium on landslides. Balkema, Trondheim, 1941–1946
Leibman MO, Kizyakov AI (2007) Cryogenic landslides of the Yamal and Yugorsky Peninsulas. Earth Cryosphere Institute SB RAS, Moscow-Tyumen, p 206 (in Russian)
Leibman MO, Streletskaya ID (1997) Land-slide induced changes in the chemical composition of active layer soils and surface-water run-off Yamal Peninsula Russia. In: Iskandar IK, Wright EA, Radke JK, Sharratt BS, Groenevelt PH, Hinzman LD (eds) Proceedings of the international symposium on physics chemistry and ecology of seasonally frozen soils. Fairbanks. CRREL Special Report 97-10, CRREL, Hanover, 10–12 June 1997, pp 120–126
Leibman MO, Lakhtina OV, Miklyaev SM, Titova IR (1991) Pattern of relief-forming cryogenic process distribution at western Yamal Peninsula. In: Denudation in cryolithozone. Nauka Publisher, Moscow, pp 92–99 (in Russian)
Leibman MO, Rivkin FM, Streletskaya ID (1993a) Chemical and physical features of the active layer as related to landslides on Yamal Peninsula. In: Post-seminar proceedings. Joint Russian-American seminar on cryopedology and global change. Pushchino, pp 257–262
Leibman MO, Rivkin FM, Saveliev VS (1993b) Hydrogeological aspects of cryogenic slides on the Yamal Peninsula. In: Proceedings of the 7th international conference on permafrost. Beijing 5–9 July 1993, 1:380–382
Leibman MO, Streletskaya ID, Konyakhin MA (1997) Assessment of surface dynamics at Bovanenkovo gas field (Central Yamal Peninsula) during the period 1949 to 1990. Geomorfologiya (Geomorphol) 2:45–48 (in Russian)
Leibman MO, Archegova IB, Gorlanova LA, Kizyakov AI (2000) Stages of cryogenic landslides on Yugorsky and Yamal Peninsulas. Kriosfera Zemli (The Earth Cryosphere) IV(4):67–75 (in Russian)
Leibman MO, Kizyakov AI, Sulerzhitsky LD, Zaretskaya NE (2003) Dynamics of the landslide slopes and mechanism of their development on Yamal Peninsula Russia Permafrost. In: Phillips M, Springman SM, Arenson LU (eds) Proceedings of the 8th international conference on permafrost. Zurich, Balkema, Lisse, 21–25 July 2003. pp 651–656
Lewkowicz AG (1988) Slope processes. In: Clark MJ (ed) Advances in periglacial geomorphology. Wiley, New York, pp 325–368
Lewkowicz AG (1990) Morphology, frequency and magnitude of active-layer detachment slides, Fosheim Peninsula, Ellesmere Island N W T. In: Burgess MM, Harry DG, Sego DC (eds) Proceedings of the 5th Canadian permafrost conference. Quebec, Canada, Laval University, Quebec, Collection Nordicana, June 1990, 54:111–118
Poznanin VL, Baranov AV (1999) Cryogenic slope processes. In: Erosion processes of Central Yamal. St-Petersburg, pp 119–132 (in Russian)
Rebristaya OV, Khitun OV, Chernyadieva IV, Leibman MO (1995) Dynamics of vegetation on cryogenic landslides in the central Yamal Peninsula. Botanicheskiy Zhurnal (Bot J) 80(4):31–48 (in Russian)
Romanenko FA (1997) Formation of the lake basins on Siberian Arctic plains. Candidate dissertation, Moscow State University, Moscow, p 18 (in Russian)
Schuster RL, Krizek RJ (1978) Landslides: analysis and control. National Academy of Sciences, Washington, p 234
Shiyatov SG Gorlanova LA (1986) Pathologic structures in the timber of Siberian larch. In: Botanical research in the Urals (information materials). Sverdlovsk, p 71 (in Russian)
Shur YL (1988) Upper horizon of permafrost and thermokarst. Nauka Publisher, Siberian Branch, Novosibirsk, p 213
Ukraintseva NG, Leibman MO (2000) Productivity of willow-shrub tundra in connection with landslide activity. In: 30th Arctic workshop, INSTAAR. University of Colorado, Boulder CO USA, 15–19 March 2000, pp 150–152
Ukraintseva NG, Leibman MO (2007) The effect of cryogenic landslides (active-layer detachments) on fertility of tundra soils on Yamal Peninsula Russia. Conference presentations from the 1st North American Landslide conference Vail Colorado 3–8 June 2007. In: Schaefer, Schuster, Turner (eds) Landslides/slope instability AEG Special Publication, 23 Omnipress (Conference CDROM), pp 1605–1615
Ukraintseva NG, Shuvalova EM, Vasiliev AA (1992) Estimation of potential slope processes hazard within the territory of Bovanenkovo gas field. In: Methods of cryogenic processes study. VSEGINGEO Publisher, Moscow, pp 109–113 (in Russian)
Ukraintseva NG, Leibman MO, Sreletskaya ID (2000) Peculiarities of landslide process in saline frozen deposits of Central Yamal Russia. In: Bromhead E (ed) Proceedings of the 8th international symposium on landslides: landslides in research theory and practice. Cardiff UK 26–30 June 2000, Thomas Telford, London, 3:1495–1500
Ukraintseva NG, Streletskaya ID, Ermokhina KA, Yermakov SYu (2003) Geochemical properties of plant-soil-permafrost system at landslide slopes Yamal Russia. In: Phillips M, Springman SM, Arenson LU (eds) Proceedings of the 8th international conference on permafrost. Zurich, Switzerland, 21–25 July 2003, Balkema, Rotterdam, 2:1149–1154
Voskresenskiy KS (1999) Landslides-flows and thermokarst. In: Erosion processes of central Yamal. St-Petersburg, pp 33–139 (in Russian)
Acknowledgments
This study was supported by the Interdisciplinary Integration grants No. 122 and No. 144 of the SB RAS, and Science School Grant No. 5582.2012.5 to the Earth Cryosphere Institute SB RAS.
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Leibman, M., Khomutov, A., Kizyakov, A. (2014). Cryogenic Landslides in the West-Siberian Plain of Russia: Classification, Mechanisms, and Landforms. In: Shan, W., Guo, Y., Wang, F., Marui, H., Strom, A. (eds) Landslides in Cold Regions in the Context of Climate Change. Environmental Science and Engineering(). Springer, Cham. https://doi.org/10.1007/978-3-319-00867-7_11
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