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The current study summarizes a vast body of knowledge encompassing an inventory of landslide cases, overview of mechanisms of landslide development, and slope stability assessments.
A new mechanism-based landslide classification is presented and discussed. The mechanism of formation of the limiting state in a soil mass during the preparation of the landslide is considered. The equations for assessment of a soil mass limited state prior landslide formation were obtained. Also the equation for calculation of a landslide slip surface depth was obtained, using slope morphological and soil strength parameters.
The article also contains scientific explanation of effective reinforcement of territories with deep block-type landslides. The suggested protection strategy bases on theoretical solutions of preparing of a destructive phase of landslide deformations, on taking into account mechanism peculiarities of deep block-type landslides, and also on investigation experience of such landslides in different engineering-geological conditions.
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Abelev, M. Y. (1983). Building of industrial and civil constructions on weak saturated soils. Moscow: Stroyizdat.
Ashpiz, E. S. (2002). Monitoring of road beds during the exploitation of railroads (p. 112). Moscow: Put’-Press (in Russian).
Cruden, D. M., & Varnes, D. J. (1996). Landslide types and processes. In A. K. Turner & R. L. Schuster (Eds.), Landslides investigation and mitigation: Transportation research board (pp. 36–75). Washington, DC: US National Research Council., Special Report 247.
Dalmatov, B. I. (1988). Soil mechanics, bases and foundations (including special course of engineering geology). Moscow: Stroyizdat 415 p. (in Russian).
Demin, A. M. (1981). Regularities of manifestations of deformations of slopes in open pits. Moscow: Nauka 144 p. (in Russian).
Demin, A. M. (2009). Landslides in quarries: Analysis and forecast. Moscow: GEOS 79 p. (in Russian).
Emelyanova, E. P. (1956). Methodological guidance on stationary study of landslides. Moscow: Gosgeoltehizdat 256 p. (in Russian).
Emelyanova, E. P. (1972). Main regularities of landslide process. Moscow: Nedra 310 p. (in Russian).
Fisenko, G. L. (1965). Stability of pit sides and blades. Moscow: Nedra 378 p. (in Russian).
General reports of the VIII International Congress on soil mechanics and Foundation engineering. (1975). Translation from English. Moscow: Stroyizdat 190 p. (in Russian).
Ginzburg, L. K. (1986). Recommendations on the choice of methods of calculation of stability factor and landslide pressure. Central Bureau of sci.-tech. Moscow: Inform (in Russian).
Goldstein, M. N., Turovskaya, A. Y., & Babitskaya, S. S. (1969). About the strength of water-saturated plastic clays (pp. 5–12). Proceedings of the VII International Congress on soil mechanics and Foundation engineering. Stroyizdat, Moscow. (in Russian).
Goldstein, M. N. (1979). Mechanical properties of soils (stress-strain and strength characteristics). Moscow: Stroyizdat 304 p. (in Russian).
Gulakyan, K. A., Kuntsel, V. V., & Postoev, G. P. (1970). The mechanism and dynamics of the landslide process on the example of landslide in Zerafshan valley . In Materials of sci.-tech. meeting on methods of study and forecast of debris flows, rockfalls and landslides (pp. 59–65). Dushanbe. (in Russian).
Gulakyan, K. A., Kuntsel, V. V., & Postoev, G. P. (1977). Forecasting of landslide processes. Moscow: Nedra 135 p. (in Russian).
Kazeev, A. I., Lapochkin, B. K., & Postoev, G. P. (2009). Peculiarities of computer modelling of stability of landslide slopes by the program AKNARK. In Proceedings of the conference «Sergeev’s readings» (pp. 296–300), Moscow. (in Russian).
Kostomarov, V. M. (1964). Designing of landslide protection structures. In Proceedings of the conference on the study of landslides and protective (pp. 44–53). Kiev. (in Russian).
Kuntsel, V. V. (1980). Regularities of the landslide process in the European part of the USSR and its regional forecast. Moscow: Nedra 213 p. (in Russian).
Landslides and mudflows. (1984). Under the editorship of E.A. Kozlovskiy (Vol. 1). Moscow: Centre Int. Projects GKNT 352 p. (in Russian).
Lomtadze, V. D. (1977). Engineering geology. Engineering geodynamics. Leningrad: Nedra 475 p. (in Russian).
Malyshev, M. V. (1980). Soil strength and stability of foundations of structures. Moscow: Stroyizdat 136 p. (in Russian).
Maslov, N. N. (1977). Soil mechanics in construction practice (landslides and their control). Moscow: Stroyizdat 318 p. (in Russian).
Matsiy, S. I., & Bezuglova, E. V. (2010). Management of landslide risk. Krasnodar: Alvi design 240 p. (in Russian).
Sheko, A. I., & Grechischev, S. E. (Eds.). (1988). Methodology of studying and forecasting of exogenous geological processes. Moscow: Nedra 216 p. (in Russian).
Naumenko, P. N. (1977). Conditions of formation and geotechnical characteristics of landslides on the Black sea along the coast of Odessa. Landslides on the Black sea coast of Ukraine (pp. 57–100). Moscow: Nedra (in Russian).
Niyazov, R. A. (1974). Landslides in the loess rocks of the South-Eastern part of Central Asia. Tashkent: Fan 148 p.
Osipov, V. I. (1988). Dynamic liquefaction of saturated soils: Nature and determine factors (scientific review). Engineering Geology, 2, 3–31. (in Russian).
Osipov, V. I., Kutepov, V. M., Zverev, V. P., et al. (1999). Dangerous exogenous processes. Under the editorship of V.I. Osipov. Moscow: GEOS 290 p. (in Russian).
Osipov, V. I., Postoev, G. P., & Kazeev, A. I. (2015). Justification of the choice of criteria for landslide hazard in the system of automated monitoring of the landslide process on the coastal slopes of the river Mzymta. Geoecology, 2, 133–146 (in Russian).
Petrov, N. F. (1987). Landslide system. Simple landslides (aspects of classification). Kishinev: Shtiintsa 164 p. (in Russian).
Pevzner, M. E. (1992). Deformation of rocks in quarries. Moscow: Nedra 335 p. (in Russian).
Postoev, G. P., Erysh, I. F., Kruglov, A. V., et al. (1982). Studying of the regime of landslide processes. Moscow: Nedra 255p. (in Russian).
Postoev, G. P., Erysh, I. F., Salomatin, V. N., et al. (1989). Artificial activation of landslides. Moscow: Nedra 134 p. (in Russian).
Postoev, G. P. (2010). Main characteristics and features of landslides. Geoecology, 2, 140–148 (in Russian).
Postoev, G. P. (2013). Limit state and deformation of soils in the mass (landslides, karst holes, settlings of ground foundations). Moscow: Nestor-istoriya 100 p. (in Russian).
Postoev, G. P., Lapochkin, B. K., & Kazeev, A. I. (2015). The assessment of the extent of a landslide hazard by forcing the activization of a landslide and conducting of inclinometric monitoring. Engineering Protection, 1(Special issue), 128–135. (in Russian).
Postoev, G. P., & Kazeev, A. I. (2011). Method of determining in a landslide prone mass of potentially deformed horizon depth. Patent RF № 2412305. 20.02.2011. Bull. №5. (in Russian).
Shadunts, K. S. (1983). Landslides-flows. Moscow: Nedra 120 p. (in Russian).
Shahunyants, G. M. (1953). The roadbed of railways. Moscow: Transzheldorizdat 827 p. (in Russian).
Ter-Martirosyan, Z. G. (1986). Prediction of mechanical processes in masses of multi-phase soils. Moscow: Nedra 292 p. (in Russian).
Ter-Stepanyan, G. I. (1978). New methods of landslide investigations. Yerevan: Publishing House of AAS 152 p. (in Russian).
Tihvinsky, I. O. (1988). Evaluation and prediction of stability of landslide slopes. Moscow: Nauka 144 p. (in Russian).
Tsytovich, N. A., & Ter-Martirosyan, Z. G. (1981). Fundamentals of applied geomechanics in building. Moscow: Higher School 317 p. (in Russian).
Turovskaya, A. Y. (1979). Regularities of development of landslide processes depending on strength and deformation characteristics of clayey soils. Abstract of Dissertation. Moscow: Publishing House of Moscow State University. (p. 39) (in Russian).
Vyalov, S. S. (1978). Rheological bases of soil mechanics. Moscow: Vysshaya shkola 447 p. (in Russian).
Zhihovich, B. V. (2007). About the presence of extrusion of landslide slopes of Odessa coast. The Bases, Foundations and Soil Mechanics, 5, 7–11 (in Russian).
Zolotarev, G. S. (1983). Engineering geodynamics. Moscow: Publishing House of MSU 328 p. (in Russian).
- Deep Extrusive Landslides; Peculiarities of Formation, Development, and Protection
- Chapter 8
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