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Environmental Earth Sciences

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01.11.2017 | Original Article

Stability assessment of Himalayan road cut slopes along National Highway 58, India

verfasst von: T. Siddique, S. P. Pradhan, V. Vishal, M. E. A. Mondal, T. N. Singh

Erschienen in: Environmental Earth Sciences | Ausgabe 22/2017

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Abstract

Himalaya is one of the most tectonically and seismically active mountain chains in the world having complex geological and geotechnical conditions. The Himalayan region experiences frequent slope failure posed due to various natural and anthropogenic causes. Slope instability issues have consequent effects on the socio-economic development of the people and the region in a large scale. In the present study, stability analysis of vulnerable road cut slopes along NH-58 from Rishikesh to Devprayag in the Lesser Himalayas has been conducted. Critical slopes were identified by considering the geological and the geotechnical complexities within the region. Rock mass characterisation techniques have been employed for slope stability assessment. Rock mass rating (RMR), slope mass rating (SMR) and continuous slope mass rating (CSMR) methods have been applied to evaluate different stability levels of rock mass along the highway. Spatial variation of stability classes using RMR, SMR and CSMR techniques has been analysed on geographic information system (GIS) tool. Kinematic analysis technique was also employed to identify the different modes of structurally controlled failures in jointed rock mass. Accordingly remedial measures have been suggested to improve slope stability.

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Aghdam IN, Pradhan B, Panahi M (2017) Landslide susceptibility assessment using a novel hybrid model of statistical bivariate methods (FR and WOE) and adaptive neuro-fuzzy inference system (ANFIS) at southern Zagros Mountains, Iran. Environ Earth Sci 76:237CrossRef

Ahmad T, Harris N, Bickle M, Chapman H, Bunbury J, Prince C (2000) Isotopic constraints on the structural relationships between the Lesser Himalayan Series and the High Himalayan Crystalline Series, Garhwal Himalaya. Geol Soc Am Bull 112:467–477CrossRef

Aksoy CO (2008) Review of rock mass rating classification: historical developments, applications and restrictions. J Min Sci 44(1):51–63CrossRef

Anbalagan R, Sharma S, Raghuvanshi TK (1992) Rock mass stability evaluation using modified SMR approach. In: Proceedings of 6th natural symposium on rock mechanics, Bangalore, India, pp 258–268

Anbazhagan S, Ramesh V, Saranaathan SE (2017) Cut slope stability assessment along ghat road section of Kolli hills, India. Nat Hazards 86:1081–1104CrossRef

Andriani GF, Praise M (2017) Applying rock mass classifications to carbonate rocks for engineering purposes with a new approach using the rock engineering system. J Rock Mech Geotech Eng. https://doi.org/10.1016/j.jrmge.2016.12.001

Auden JB (1935) Traverses in the Himalaya. Rec Geol Surv India 69:123–167

Aydan Ö, Ulusay R, Tokashiki N (2014) A new rock mass quality rating system: rock mass quality rating (RMQR) and its application to the estimation of geomechanical characteristics of rock masses. Rock Mech Rock Eng 47(4):1255–1276CrossRef

Barton NR, Lien R, Lunde J (1974) Engineering classification of rock masses for the design of tunnel support. Rock Mech 6:189–239CrossRef

Bieniawski ZT (1973) Engineering classification of jointed rock masses. Civ Eng South Afr 15:335–344

Bieniawski ZT (1974) Geomechanics classification in rock masses and its application in tunnelling. In: Advances in rock mechanics, Proc of 3rd Congress of ISRM, National Academy of Sciences, Washington, D.C., II (A) pp 27–32

Bieniawski ZT (1975) Case studies: prediction of rock mass behaviour by geomechanics classification. In: Proceedings of 2nd Australia–New Zealand conference geomechanics, Brisbane, pp 36–41

Bieniawski ZT (1976) Rock mass classifications in engineering. In: Proceedings of the symposium on exploration rock engineering, Johensberg, pp 97–106

Bieniawski ZT (1989) Engineering rock mass classification. Wiley, New York, p 251

Bieniawski ZT (1990) Tunnel design by rock mass classifications. Technical report GL-79-19; Pennsylvania State University, Department of Mineral Engineering University Park, Pennsylvannia. p 158

Brook N, Dharmaratne PGR (1985) Simplified rock mass rating system for mine tunnel support. Trans Inst Min Metall 94:A148–A154

Chen Z (1995) Recent developments in slope stability analysis. In: Proceedings of the 8th international congress ISRM, Tokyo

Daftaribesheli A, Ataei M, Sereshki F (2011) Assessment of rock slope stability using the fuzzy slope mass rating (FSMR) system. Appl Soft Comput 11(8):4465–4473CrossRef

Das I, Sahoo S, Van Weston C, Stein A, Hack R (2010) Landslide susceptibility assessment using logistic regression and its comparison with a rock mass classification system, along a road section in the northern Himalayas (India). Geomorphology 114:627–637CrossRef

DeCelles PG, Gehrels GE, Quade J, Ojha TP (1998) Eocene-early Miocene foreland basin development and the history of Himalayan thrusting, western and central Nepal. Tectonics 17:741–765CrossRef

Deere DU (1963) Technical description of rock cores for engineering purposes. Rock Mech Eng Geol 1(1):16–22

Dudeja D, Bhatt SP, Biyani AK (2017) Stability assessment of slide zones in Lesser Himalayan part of Yamunotri pilgrimage route, Uttarakhand, India. Environ Earth Sci 76(1):2–18CrossRef

Fereidooni D, Khanlari GR, Heidari M (2015) Assessment of a modified rock mass classification system for rock slope stability analysis in the Q-system. Earth Sci Res J 19(2):147–152CrossRef

Frank W, Grasemann B, Guntli P, Miller C (1995) Geological map of the Kishwar Chamba-Kulu region (NW Himalayas India). Jahrbuch der Geologischen Bundesanstalt 138:299–308

Franklin JA (1975) Safety and economy in tunneling. In: Proceedings of the 10th Canadian rock mechanics symposium, Queens University, Kingston, Ontario, vol 1, pp 27–53

Ghosh S, Kumar A, Bora A (2014) Analyzing the stability of a failing rock slope for suggesting suitable mitigation measure: a case study from the Theng rockslide, Sikkim Himalayas. India Bull Eng Geol Environ 73:931–945CrossRef

Ghosh SK, Negi M, Jalal P, Sinha S (2016) Proterozoic sedimentary successions in the Himalayan Orogen: stratigraphy, sedimentology and palaeobasinal conditions. Himal Geol 37(2):121–140

Goel RK, Jethwa JL, Paithankar AG (1995) Indian experiences with Q and RMR systems. Tunn Undergr Space Technol 10(1):97–109CrossRef

Goodman RE, Bray JW (1976) Toppling of rock slopes. In: Proceedings of speciality conference on rock engineering for foundations and slopes, American society of civil engineers (ASCE), Boulder, Colorado. vol 2, pp 201–234

Hack HRGK (1998) Slope stability probability classification, SSPC. ITC, Enschede, p 258 (ISBN: 90 6164 154 3)

Haines A, Terbrugge PJ (1991) Preliminary estimate of rock slope stability using rock mass classification. In: Proceedings of the 7th slope stability using rockmass classification. International congress of institute of society for rock mechanics, Aachea, vol 2, pp 887–892

Harrison JP, Hudson JA (2000) Engineering rock mechanics: illustrative worked examples. Elsevier Science, Oxford, p 530

Heim AA, Gansser A (1939) Central Himalaya: geological observations of the Swiss Expedition, 1936, India. Hindustan Publishing, Delhi

Hoek E (2000) Practical rock engineering. Evert Hoek Consulting Engineer Inc., Rhodesia, p 237

Hoek E, Bray JW (1981) Rock slope engineering, 3rd edn. The Institution of Mining and Metallurgy, London, p 368

Hoek E, Kaiser PK, Bawden WF (1995) Support of underground excavations in hard rock. Balkema, Rotterdam

ISRM (1978) Suggested methods for determining the uniaxial compressive strength and deformability of rock materials. Int J Rock Mech Min Sci Geomech Abstr 16:135–140

ISRM (1981) Commission on classification of rocks and rock masses, basic geotechnical description of rock masses. Int J Rock Mech Min Sci Geomech Abstr 18:85–110

Jeong U, Yoon WS, Park J, Han BH, Park HJ, Choi JW (2007) A new geomechanical evaluation system for slopes: SFi system. In: Eberhardt E, Stead D, Morrison T (eds) Rock mechanics: meeting society’s challenges and demands. Taylor and Francis group, London; ISBN: 978-0-415-44401-9

Kafle KR (2010) Slope Mass Rating in middle mountain of Nepal: a case study on landslide at Rabi VDC Opi village, Kavre. Kathmandu Univ J Sci Eng Technol 6(2):28–38

Kendorski F, Cummings R, Bieniawski ZT, Skinner E (1983) Rock mass classification for block caving mine drift support. In: Proceedings of the 5th international society of rock mechanics, Melbourne, B51-B63, Rotterdam, Balkema

Kristen HAD (1982) A classification system for excavation in natural materials. Civ Eng South Afr 24(7):293–308

Laubscher DH (1977) Geomechanics classification of jointed rock masses-mining applications. Trans Inst Min Metall 86:A1–A7

Laubscher DH, Jakubec J (2000) The MRMR rock mass classification for jointed rock masses. In: Under ground mining methods, Hustrulid WA, Bullock RL (eds) Society of Mining, Mettalurgy, and Exploration. Inc. pp 475–481

Lauffer H (1958) Gebirgsklassifizierung für den Stollenbau. Geol Bauwes 24:46–51

Mahanta B, Singh HO, Singh PK, Kainthola A, Singh TN (2016) Stability analysis of potential zones along NH-305, India. Nat Hazards 83:1341–1357

Middlemiss CS (1885) A fossiliferous series in the Lower Himalaya, Garhwal. Rec Geol Surv India 18:73–77

Milne D, Hadjigeorgiou J, Pakalnis R (1998) Rock mass characterization for underground hard rock mines. Tunn Undergr Space Technol 13(4):383–391CrossRef

Molinda G, Mark C (1994) Coal mine roof rating (CMRR): a practical rock mass classification for coal mines. Pittsburgh, PA: U.S. Department of the Interior, Bureau of Mines, IC 9387

Mondal MEA, Siddique T, Alam M, Alam MM (2016a) Rock mass rating and kinematic analysis for slope stability investigation of Utari Dam in Lalitpur district of Uttar Pradesh, India. J Geol Soc India 87(4):463–468CrossRef

Mondal MEA, Siddique T, Mondal B, Alam MM (2016b) SMR geomechanics and kinematic analysis near Rasulpur, Fatehpur Sikri, Uttar Pradesh. J Geol Soc India 87(5):623–627CrossRef

Naithani AK (2007) RMR- A system for characterizing rock mass classification: a case study from Garhwal Himalaya, Uttarakhand. J Geol Soc India 70(4):627–640

Nicholson DT, Hencher SR (1997) Assessing the potential for deterioration of engineered rockslopes. In: Proceedings of the IAEG symposium, Athens, pp 911–917

NSCGPRC (1994) GB 50218-94 standard for engineering classification of rock masses. China Planning Press, Beijing, pp 1–22

Olivier JH (1979) A new engineering-geological rock durability classification. Eng Geol 14:255–279CrossRef

Palmstrom A (1974) Characterization of jointing density and the quality of rock masses. Internal report, Berdal, Norway, p 26

Palmstrom A (1982) The volumetric joint count—a useful and simple measure of the degree of jointing. In: Proceedings IV international congress IAEG, New Delhi, 1982, pp V.221–V.228

Palmström A (1995) RMi—a for rock mass characterization system for rock engineering purposes, Ph.D. thesis, University of Oslo, Norway, p 400

Pantelidis L (2009) Rock slope stability assessment through rock mass classification systems. Int J Rock Mech Min Sci 46:315–325CrossRef

Pantelidis L (2010) An alternative rock mass classification system for rock slopes. Bull Eng Geol Environ 69:29–39CrossRef

Patching TH, Coates DF (1968) A recommended rock classification for rock mechanics purposes. CIM Bull 61:1195–1197

Pinheiro M, Sanches S, Miranda T, Neves A, Tinoco J, Ferreira A, Correia AG (2015) SQI–a quality assessment index for rock slopes SQI–indice d’évaluation des talus rocheux. In: Proceedings of the XVI ECSMGE geotechnical engineering for infrastructure and development, ISBN: 978-0-7277-6067-8

Pradhan SP, Vishal V, Singh TN (2011) Stability of slope in an open cast mine in Jharia coalfield, India—a slope mass rating approach. Min Eng J 12(10):36–40

Pradhan SP, Vishal V, Singh TN (2015) Study of slopes along River Teesta in Darjeeling Himalayan region. Eng Geol Soc Territ 1:517–520

Rabcewicz L (1964) The new Austrian tunnelling method. Part one: water power, November 1964, pp 453–457 and part two: water power, December 1964, pp 511–515

Rad HN, Jalali Z, Jalalifar H (2015) Prediction of rock mass rating system based on continuous functions using Chaos-ANFIS model. Int J Rock Mech Min Sci 73:1–9

Rahim IA, Tahir S, Musta B (2009) Modified slope mass rating (M-SMR) system: a classification scheme of interbedded crocker formation in Kota Kinabalu, Sabah, Malaysia. In: Proceeding of the 8th seminar on science and technology, Tuaran, Sabah

Ramamurthy T, Arora VK (1993) A classification for intact and jointed rocks. In: Anagnostopoulos A, Frank R, Kalteziotis N (eds) Geotechnical engineering of hard soils-soft rocks. Taylor and Francis, Rotterdam, pp 235–242 (ISBN: 9789054103479)

Ramesh V, Anbazhagan S (2015) Landslide susceptibility mapping along Kolli hills Ghat road section (India) using frequency ratio, relative effect and fuzzy logic models. Environ Earth Sci 73:8009–8021CrossRef

Ramesh V, Mani S, Bhaskar M, Kavitha G, Anbazhagan S (2017) Landslide Hazard Zonation mapping and cut slope stability analyses along Yercaud ghat road (Kuppanur–Yercaud) section, Tamil Nadu, India. Int J Geo-Eng 8(2):1–22

Regmi AD, Cui P, Dhital MR, Zou Q (2016) Rock fall hazard and risk assessment along Araniko Highway, Central Nepal Himalaya. Environ Earth Sci 75:1112CrossRef

Rentala V, Satyam N (2011) Numerical modeling of rock slopes in Siwalik hills near Manali region: a case study. Electron J Geotech Eng 16:763–783

Richards A, Argles T, Harris N, Parrish R, Ahmad T, Darbyshire F, Draganits E (2005) Himalayan architecture constrained by isotopic tracers from clastic sediments. Earth Planet Sci Lett 236:773–796CrossRef

Ritter W (1879) Die Statik der Tunnelgewölbe. Springer, Berlin

Robertson AM (1988) Estimating weak rock strength. In: Proceedings of the SME annual meeting, Phoenix, pp 1–5

Romana M (1985) New adjustment ratings for application of Bieniawski classification to slopes. In: International symposium on the role of rock mechanics ISRM, Zacatecas, pp 49–53

Romana M (1991) SMR classification. In: Proceedings of the 7th congress on rock mechanics 2, ISRM, Aachen, Germany, Balkema, Rotterdam, pp 955–960

Romana M (1993) A geomechanics classification for slopes: slope mass rating. In: Hudson J (ed) Comprehensive rock engineering, vol 3. Pergamon Pub, pp 575–600

Romana M (1995) The geomechanics classification SMR for slope correction. In: Proceedings of the 8th international ISRM congress, pp 1085–1092

Romana M (2003) DMR (dam mass rating) an adaptation of RMR geomechanics classification for use in dams foundations. In: ISRM—technology roadmap for rock mechanics, South African Institute of Mining and Metallurgy

Romana M, Seron JB, Montalar E (2001) La Clasificacion geomecanica SMR. Aplicacion experencias y validacion. In: V Simposio Nacional de Laderas Inestables, Madrid, pp 575–600

Romana M, Seron JB, Montalar E (2003) SMR Geomechanics classification: application, experience and validation. In: ISRM—technology roadmap for rock mechanics, South African Institute of Mining and Metallurgy

Romana M, Tomás R, Serón JB (2015) Slope mass rating (SMR) geomechanics classification: thirty years review. In: ISRM Congress 2015 proceedings—international symposium on rock mechanics, Quebec, Canada, ISBN: 978-1-926872-25-4, p 10

Rupke J (1974) Stratigraphic and structural evolution of Kumaun Lesser Himalaya. Sed Geol 11:81–87CrossRef

Sarkar K, Singh TN, Verma AK (2012a) A numerical simulation of landslide-prone slope in Himalayan region—a case study. Int J Arab Geosci 5:73–81CrossRef

Sarkar S, Kanungo DP, Kumar S (2012b) Rock mass classification and slope stability assessment of road cut slopes in Garhwal Himalaya, India. Geotech Geol Eng 30(4):827–840CrossRef

Sarkar K, Singh AK, Niyogi A, Behera K, Verma AK, Singh TN (2016) The assessment of slope stability along NH-22 in Rampur-Jhakri area, Himachal Pradesh. J Geol Soc India 88:387–393CrossRef

Sati SP, Sunderiyal YP, Rana N, Dangwal S (2011) Recent landslides in Uttarakhand: nature’s furry or human folly. Curr Sci 100(11):1617–1620

Schelling D, Arita K (1991) Thrust tectonics, crustal shortening, and the structure of the far-eastern Nepal, Himalaya. Tectonics 10:851–862CrossRef

Selby MJ (1980) A rock mass strength classification for geomorphic purposes: with tests from Antarctica and New Zealand. Geomorphology 24:31–51

Şen Z, Sadagah BH (2003) Modified rock mass classification system by continuous rating. Eng Geol 67(3):269–280

Shang Y, Hyun CU, Park HD, Yang Z, Yuan G (2017) The 102 Landslide: human-slope interaction in SE Tibet over a 20-year period. Environ Earth Sci 76:47CrossRef

Sharma LK, Umarao RK, Singh R, Ahmad M, Singh TN (2017) Stability investigation of hill cut slopes along national highway 222 at Malshej Ghat, Maharashtra. J Geol Soc India 87(2):165–174CrossRef

Shroder JF, Bishop MP (1998) Mass movement in the Himalaya: new insights and research directions. Geomorphology 26(1–3):13–35CrossRef

Shuk T (1994) Key elements and applications of the natural slope methodology (NSM) with some emphasis on slope stability aspects. In: Proceedings of the 4th South American congress on rock mechanics 2, ISRM, Balkema, Rotterdam, pp 955–960

Siddique T, Alam MM, Mondal MEA, Vishal V (2015) Slope mass rating and kinematic analysis of slopes along national highway-58, near Jonk, Rishikesh, India. J Rock Mech Geotech Eng 7:600–606CrossRef

Singh A, Connolly M (2003) VRFSR—an empirical method for determining volcanic rock excavations safety on construction sites. J Inst Eng India 84:176–191

Singh TN, Monjezi M (2000) Slope stability study in jointed rockmass—a numerical approach. Min Eng J 1(10):12–13

Singh JL, Tamrakar NK (2017) Slope mass rating around Malekhu-Thopal Khola corridor, Malekhu Central Nepal Lesser Himalaya. Am J Sci Eng Technol 2(1):6–14

Singh TN, Gulati A, Dontha L, Bhardwaj V (2008) Evaluating cut slope failure by numerical analysis—a case study. Nat Hazards 47:263–279CrossRef

Singh TN, Verma AK, Sarkar K (2010) Static and dynamic analysis of a landslide. Geomat Nat Hazards Risk 1(4):323–338CrossRef

Singh RP, Dubey CS, Singh SK, Shukla DP, Mishra BK, Tajbakhsh M, Ningthoujam PS, Sharma M, Singh N (2013) A new slope mass rating in mountainous terrain, Jammu and Kashmir Himalayas: application of geophysical technique in slope stability studies. Landslides 10(3):255–265CrossRef

Singh R, Umrao RK, Singh TN (2017) Hill slope stability analysis using two and three dimension analysis: a comparative study. J Geol Soc India 89(3):229–356

Song WK, Jung YB, Sunwoo C, Lee Y (2008) Modification of SMR for simple users. In: 4th U.S. rock mechanics symposium (USRMS); 29th June–2nd July, San Francisco, California

Taheri A, Tani K (2010) Assessment of the slope stability of rock slopes by slope stability rating classification system. Rock Mech Rock Eng 43(3):321–333CrossRef

Taherniya MH, Mohammadi M, Ajalloeian R (2014) Assessment of slope instability and risk analysis of road cut slopes in Lashotor Pass, Iran. J Geol Res 2014:1–12

Terzaghi K (1946) Rock defects and loads on tunnel support. In: Rock tunneling with steel supports. Commercial Shearing & Stamping Co., Youngstown, pp 43-64

Tomás R, Delgado J, Serón JB (2007) Modification of slope mass rating (SMR) by continuous functions. Int J Rock Mech Min Sci 44:1062–1069CrossRef

Tomás R, Cuenca A, Cano M, García BJ (2012) A graphical approach for slope mass rating (SMR). Eng Geol 124:67–76CrossRef

Tzamos S, Sofianos AI (2007) A correlation of four rock mass classification systems through their fabric indices. Int J Rock Mech Min Sci 44:477–495CrossRef

Umrao RK, Singh R, Ahmad M, Singh TN (2011) Stability analysis of cut slopes using continuous slope mass rating and kinematic analysis in Rudraprayag district, Uttarakhand. Geomaterials 1:79–87CrossRef

Ünal E (1996) Modified rock mass classification: M-RMR system. In: Bieniawski ZT (ed) Milestones in rock engineering. The Bieniawski Jubilee Collection, Balkema, Rotterdam, pp 203–223

Upreti BN (1999) An overview of the stratigraphy and tectonics of the Nepal Himalaya. J Asian Earth Sci 17:577–606CrossRef

Valdiya KS (1980) Geology of kumaun lesser Himalaya. Wadia Institute of Himalayan Geology, Dehradun

Valdiya KS (1995) Proterozoic sedimentation and Pan-African geodynamic development in the Himalaya. Precambr Res 74:35–55CrossRef

Venkateshwarlu V (1986) Geomechanics classification of coal measure rocks vis-à-vis roof supports; Ph.D. thesis, India School of Mines, Dhanbad

Verma AK, Singh TN, Chauhan NK, Sarkar K (2016) A hybrid FEM–ANN approach for slope instability prediction. J Inst Eng (India) Ser A 97(3):171–180CrossRef

Vishal V, Pradhan SP, Singh TN (2010) Instability assessment of mine slope—a finite element approach. Int J Earth Sci Eng 3(6):11–23

Vishal V, Pradhan SP, Singh TN (2015) Analysis of slopes in Himalayan terrane along national highway: 109, India. Eng Geol Soc Territ 1:511–515

Vishal V, Siddique T, Purohit R, Phophliya MK, Pradhan SP (2017) Hazard assessment in rockfall-prone Himalayan slopes national highway-58, India: rating and simulation. Nat Hazards 85:487–503CrossRef

Wickham GE, Tiedemann HR, Skinner EH (1972) Support determination based on geologic predictions. In: North American rapid excavation and tunneling conference, Chicago, New York, pp 43–64

Williamson DA (1984) Unified rock classification system. Bull Assoc Eng Geol 21(3):345–354

Wong HN (2013) The new priority rating systems for man-made slopes and retaining walls. Geo Report No. 284, Geotechnical Engineering Office, Kowloon, Hong Kong

Yasar E (2001) A new rock mass classification for coal measures rocks. Eng Geol 62:293–300CrossRef

Yoon WS, Jeong UJ, Kim JH (2002) Kinematic analysis of sliding failure of multi-faced rock slopes. Eng Geol 67:51–61CrossRef

Zheng J, Zhao Y, Lu Q, Deng J, Pan X, Li Y (2016) A discussion on the adjustment parameters of the slope mass rating (SMR) system for rock slopes. Eng Geol 206:42–49CrossRef

Titel: Stability assessment of Himalayan road cut slopes along National Highway 58, India
verfasst von: T. Siddique
S. P. Pradhan
V. Vishal
M. E. A. Mondal
T. N. Singh
Publikationsdatum: 01.11.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: Environmental Earth Sciences / Ausgabe 22/2017
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-017-7091-x

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