Abstract
In the present work, geological, geotechnical, and ground penetration radar studies were carried out along the Mansa Devi hill bypass (MDHB) road Uttarakhand, India in order to assess the slope instability conditions. Seven unstable zones along the entire MDHB road were identified which are prone to landslides. Geologically, the area is composed of mudstone and sandstone with thick overburden constituting sandy soil. The laboratory tests were carried out in order to evaluate the geo-mechanical characterization of soil, sandstone, and mudstone that constitute the slopes. The laboratory tests reveal that the slope is comprised of soil characterized by high permeability and low strength values. The soil is mainly sandy and non-cohesive. The laboratory tests on sandstone reveal that fresh sandstone exhibits exceptionally higher value of unconfined compressive strength (> 100 MPa) than the weathered sandstone (< 35 MPa). The mudstone is non-durable and contains considerable amount of expanded clay minerals which has a tendency to expand in the presence of water. It can weather easily and facilitate instability at shallow depth. A ground penetrating radar survey confirmed that the road is unstable particularly on those spots where the road either lying over mudstone beds or over thick non-cohesive sandy soil. The infiltration rate of water in this sandy soil is generally rapid which allows fast flow of water into the deeper horizons and thus cracks can be seen in road caused by vertical settlement. Similar results are observed in slope stability analysis where the slope covered with sandy soil exhibits factor of safety less than 1.0. However factor of safety is close to 1 where the slopes consist of alternate beds of sandstone and mudstone.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abramson LW, Lee TS, Sharma S, Boyce GM (2001) Slope stability and stabilization methods. John Wiley & Sons
Ambrosia C, Strozzib T, Scapozzaa C, Wegmüller U (2018) Landslide hazard assessment in the Himalayas (Nepal and Bhutan) based on Earth-Observation data. Eng Geol 237:217–228
Avanzi GDA, Giannecchini R, Puccinelli A (2004) The influence of the geological and geomorphological settings on shallow landslides. An example in a temperate climate environment: the June 19, 1996 event in northwestern Tuscany (Italy). Eng Geol 73:215–228
Azañón JM, Azor A, Yesares J, Tsige M, Mateos RM, Nieto F, Delgado J, López-Chicano M, Martín W, Rodríguez-Fernández J (2010) Regional-scale high-plasticity clay-bearing formation as controlling factor on landslides in Southeast Spain. Geomorphology 120(1-2):26–37
Bartarya SK, Mazari RK, Virdi NS (2007) Bhimgoda slide of August 24, 1994 in the Siwalik rocks near Haridwar: a success story of landslide control measures. In: Verma OP, Mahajan AK, Gupta V (eds) Natural hazards: special publication of Indian geological congress, pp 155–167
Beres M, Haeni FP (1991) Application of ground-penetrating radar methods to hydrogeologic studies. Ground Water 29:375–386
Bhasin R, Grimstad E, Larsen JO, Dhawan AK, Singh R, Verma SK, Venkatachalam K (2002) Landslide hazards and mitigation measures at Gangtok, Sikkim Himalaya. Eng Geol 64(4):351–368
Bhattacharya A, Mukherjee K, Kuri M, Voge M, Sharma ML, Arora MK, Bhasin RK (2015) Potential of SAR intensity tracking technique to estimate displacement rate in a landslide prone area in haridwar region, India. Nat Hazards 79(3):2101–2121
Bicocchi G, Tofani V, D’Ambrosio M, Tacconi-Stefanelli C, Vannocci P, Casagli N, Lavorini G, Trevisani M, Catani F (2019) Geotechnical and hydrological characterization of hillslope deposits for regional landslide prediction modeling. Bull Eng Geol Environ:1–17
Birch F (1960) The velocity of compressional waves in rocks to 10 kilobars. J Geophys Res 65:1083–1102
Bishop AW (1955) The use of the slip circle in the stability analysis of slopes. Geotechnique 5(1):7–17
Bogaard TA, Antoine P, Desvarreux P, Giraud A, Van Asch TW (2000) The slope movements within the Mondorès graben (Drôme, France): the interaction between geology, hydrology and typology. Eng Geol 55(4):297–312
Bogoslovsky VA, Ogilvy AA (1977) Geophysical methods for the investigation of landslides. Geophysics 42(3):562–571
Chang HW, Tien TM, Juang CH (1996) Formation of south-facing bald mudstone slopes in southwestern Taiwa. Eng Geol 42(1):37–49
Cho SE (2017) Prediction of shallow landslide by surficial stability analysis considering rainfall infiltration. Eng Geol 231:126–138
Christaras B (1997) Landslides in iliolitic and marly formations, Examples from north-western Greece. Eng Geol 47(1-2):57–69
Collins TK (2008) Debris flows caused by failure of fill slopes: early detection, warning and loss prevention. Landslides 5(1):107–120
Davis JL, Annan AP (1989) Ground penetrating radar for high-resolution mapping of soil and rock stratigraphy. Geophys Prospect 37:531–551
Deere DU, Patton FD (1971) Stability of slopes in residual soils. In Proceedings of the 4th Panamerican Conference on Soil Mechanics and Foundation Engineering, San Juan, Puerto Rico, 1, pp 93–184
Del Soldato M, Di Martire D, Bianchini S, Tomás R, DeVita P, Ramondini M, Casagli N, Calcaterra D (2019) Assessment of landslide-induced damage to structures: the Agnone landslide case study (southern Italy). Bull Eng Geol Environ 78(4):2387–2408
Deng DP, Li L, Zhao LH (2017) Limit equilibrium method (LEM) of slope stability and calculation of comprehensive factor of safety with double strength-reduction technique. J Mt Sci 14:2311–2324
Eberhardt E, Thoro K, Luginbuehl M (2005) Slope stability mechanisms in dipping interbedded conglomerates and weathered marls - the 1999 Rufi landslide, Switzerland. Eng Geol 77:35–56
Evans SG, Roberts NJ, Ischuk A, Delaney KB, Morozova GS, Tutubalina O (2009) Landslides triggered by the 1949 Khait earthquake, Tajikistan, and associated loss of life. Eng Geol 109:195–212
Grainger P, Kalaugher PG (1987) Intermittent surging movements of a coastal landslide. Earth Surf Process Landf 12:597–603
Gupta V, Asthana AKL, Mazari RK (2013) Slope instability and risk assessment of the Mansa Devi Hill near Haridwar township, Uttarakhand. Int J Fundam Appl Res 1:37–47
Gupta V, Bhasin RK, Kaynia AM, Tandon RS, Venkateshwarlu B (2015) Landslide hazard in the Nainital township, Kumaun Himalaya, India: the case of September 2014 Balia Nala landslide. Nat Hazards 80(2):863–877
He MC, Leng XC, Heng CY, Wu X, Zhang MF (2003) Research on the expansive soft rock in Yanbian region, China. J Rock Mech Eng 22(7):1151–1155
Hoek E (2007) Practical rock engineering. e-book. Rocscience, 341p
Homoud ASA, Tal AB, Taqieddin SA (1997) A comparative study of slope stability methods and mitigative design of a highway embankment landslide with a potential for deep seated sliding. Eng Geol 47:157–173
ISRM (1981) Suggested method: rock characterization, testing and monitoring. In: Brown ET (ed) Pergamon Press, Oxford
Johnson RB, DeGraffe JV (1988) Principles of engineering geology. John Wiley and Sons, Newyork
Kalaugher PG, Grainger P (1981) A coastal landslide at West Down Beacon, Budleigh Salterton, Devon. Proc Ussher Soc 5:217–221
Kanungo DP, Arora MK, Sarkar S, Gupta RP (2006) A comparative study of conventional, ANN black box, fuzzy and combined neural and fuzzy weighting procedures for landslide susceptibility zonation in Darjeeling Himalayas. Eng Geol 85:347–366
Kong F, Bhasin R (2011) Performance tests using a handheld FieldFox network analyser as GPR. Proceedings, The 10th SEGJ International Symposium- Imaging and Interpretation, 20-23 November 2011, Kyoto University, Japan
Kong LW, Zeng ZX, Bai W, Wang M (2018) Engineering geological properties of weathered swelling mudstones and their effects on the landslides occurrence in the Yanji section of the Jilin-Hunchun high-speed railway. Bull Eng Geol Environ 77(4):1491–1503
Laimer HJ (2017) Anthropogenically induced landslides–a challenge for railway infrastructure in mountainous regions. Eng Geol 222:92–101
Lin CH, Hung C, Weng MC, Lin ML, Uzuoka R (2019) Failure mechanism of a mudstone slope embedded with steep anti-dip layered sandstones: case of the 2016 Yanchao catastrophic landslide in Taiwan. Landslides 16(11):2233–2245
Luo H, Wu F, Chang J, Xu J (2018) Microstructural constraints on geotechnical properties of Malan Loess: A case study from Zhaojiaan landslide in Shaanxi province, China. Eng Geol 236:60–69
Mittal S, Dhingra S, Sardana HK (2011) Analysis of data using neuro fuzzy approach recorded by instrumentation network installed at Mansa Devi (Haridwar) landslide site. J Sci Ind Res 70:25–31
Pazzi V, Di Filippo M, Di Nezza M, Carlà T, Bardi F, Marini F, Fontanelli K, Intrieri E, Fanti R (2018) Integrated geophysical survey in a sinkhole-prone area: microgravity, electrical resistivity tomographies, and seismic noise measurements to delimit its extension. Eng Geol 243:282–293
Pazzi V, Morelli S, Fanti R (2019) A review of the advantages and limitations of geophysical investigations in landslide studies. Int J Geophys 27. https://doi.org/10.1155/2019/2983087
Pazzi V, Tanteri L, Bicocchi G, D’Ambrosio M, Caselli A, Fanti R (2017) H/V measurements as an effective tool for the reliable detection of landslide slip surfaces: case studies of Castagnola (La Spezia, Italy) and Roccalbegna (Grosseto, Italy). Phys Chem Earth 98:136–153
Peng J, Fan Z, Wu D, Zhuang J, Dai F, Chen W, Zhao C (2015) Heavy rainfall triggered loess–mudstone landslide and subsequent debris flow in Tianshui, China. Eng Geol 186:79–90
Porsani JL, Sauck WA, Junior AOS (2006) GPR for mapping fractures and as a guide for the extraction of ornamental granite from a quarry: a case study from southern Brazil. J Appl Geophys 58:177–187
Rezaei S, Shooshpasha I, Rezaei H (2019) Reconstruction of landslide model from ERT, geotechnical, and field data, Nargeschal landslide, Iran. Bull Eng Geol Environ 78(5):3223–3237
Rosone M, Ziccarelli M, Ferrari A, Farulla CA (2018) On the reactivation of a large landslide induced by rainfall in highly fissured clays. Eng Geol 235:20–38
Shuzui H (2001) Process of slip-surface development and formation of slip-surface clay in landslides in Tertiary volcanic rocks, Japan. Eng Geol 61(4):199–220
Sorbino G, Nicotera MV (2013) Unsaturated soil mechanics in rainfall-induced flow landslides. Eng Geol 165:105–132
Stark TD, Eid HT (1998) Performance of three-dimensional slope stability methods in practice. J Geotech Geoenviron 124(11):1049–1060
Stevens KM, Lodha GS, Holloway AL, Soonawala NM (1995) The application of ground penetrating radar for mapping fractures in plutonic rocks within the White shell Research Area, Pinawa, Manitoba, Canada. J Appl Geophys 33:125–141
Tang C, Zhu J, Qi X, Ding J (2011) Landslides induced by the Wenchuan earthquake and the subsequent strong rainfall event: A case study in the Beichuan area of China. Eng Geol 122:22–33
Travelletti J, Malet JP (2012) Characterization of the 3D geometry of flow-like landslides: a methodology based on the integration of heterogeneous multi-source data. Eng Geol 128:30–48
Travelletti J, Malet J, Samyn K, Grandjean G, Jaboyedoff M (2013) Control of landslide retrogression by discontinuities: evidence by the integration of airborne-and ground-based geophysical information. Landslides 10(1):37–54
Tsou CY, Feng ZY, Chigira M (2011) Catastrophic landslide induced by typhoon Morakot, Shiaolin, Taiwan. Geomorphology 127(3-4):166–178
Xu J, Dong X, Yang S. (1998) On rheological characteristics of slopes composed subhoriozontal interbedded mudstone and sandstone, In Proc. 8th International congress of the International association of Engineering Geology, Vancouver, pp 4249–4255
Xu Q, Tolaymat T, Townsend TG (2012) Impact of pressurized liquids addition on landfill slope stability. J Geotech Geoenviron 138(4):472–480
Yue ZQ, Lee CF (2002) A plane slide that occurred during construction of a national expressway in Chongqing, SW China. Q J Eng Geol Hydrol 35:309–316
Zhang D, Chen A, Liu G (2012) Laboratory investigation of disintegration characteristics of purple mudstone under different hydrothermal conditions. J Mt Sci 9:127–136
Zhang Z, Wang T, Wu S, Tang H, Liang C (2017) The role of seismic triggering in a deep-seated mudstone landslide, China: historical reconstruction and mechanism analysis. Eng Geol 226:122–135
Zhou JW, Xu WY, Yang XG, Shi C, Yang ZH (2010) The 28 October 1996 landslide and analysis of the stability of the current Huashiban slope at the Liangjiaren Hydropower Station, Southwest China. Eng Geol 114:45–56
Acknowledgments
The authors show their gratitude to the Chairman, Vice Chancellor and Director, Graphic Era Hill University for their support and encouragement. We are thankful to Dr RK Bhasin, Norwegian Geotechnical Institute (NGI), Oslo, Norway for improving the use of English in the manuscript. The comments and the suggestions of the two anonymous reviewers have helped to improve the quality of the manuscript in its present form, and authors thankfully acknowledged these two anonymous reviewers. The laboratory staff of the NGF is also greatly acknowledged for the help and the assistance during the rock and soil tests.
Funding
This study received financial support from the “National Geotechnical Facility” (NGF) under Department of Science and Technology (DST), Govt of India.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Tandon, R.S., Gupta, V. & Venkateshwarlu, B. Geological, geotechnical, and GPR investigations along the Mansa Devi hill-bypass (MDHB) Road, Uttarakhand, India. Landslides 18, 849–863 (2021). https://doi.org/10.1007/s10346-020-01546-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10346-020-01546-9