Slope stability analysis of road cut slopes along NH-58 in Alaknanda Valley from Dhari Devi to Rudraprayag, Uttarakhand, India

Slope stability analysis of road cut slopes along NH-58 in Alaknanda Valley from Dhari Devi to Rudraprayag, Uttarakhand, India

Slope stability assessment of vulnerable slopes was conducted along National Highway 58 (NH-58) from Dhari Devi to Rudraprayag (~17 km), Uttarakhand. Kedarnath devastation in June, 2013 due to flash floods has made road cut slopes along the Alaknanda River vulnerable, which has a history of frequent...

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Veröffentlicht in:Journal of Earth System Science 2022-06, Vol.131 (2), p.82, Article 82
Hauptverfasser: Kumar, Pravesh, Thakur, Mahesh, Singh, T N
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Schlagworte:
Analysis
Earth and Environmental Science
Earth Sciences
Failure
Fault lines
Flash flooding
Flash floods
Fracturing
Geology
Infrastructure
Kinematics
Landslides
Landslides & mudslides
Mechanical classification
Quartzite
Roads
Roads & highways
Shearing
Slope stability
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Stability analysis
Structural damage
Tectonics
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description Slope stability assessment of vulnerable slopes was conducted along National Highway 58 (NH-58) from Dhari Devi to Rudraprayag (~17 km), Uttarakhand. Kedarnath devastation in June, 2013 due to flash floods has made road cut slopes along the Alaknanda River vulnerable, which has a history of frequent landslides particularly at Kaliasaur (sites K1, K2, K3). At Kaliasaur landslide (site K1), the instability is mainly controlled by the combination of pre-existing tectonic fracturing, plunging fold, structural damage zones formed due to the passage of regional Kaliasaur Fault and at site K3, fault gouge is found due to shearing of quartzite. A total of 35 road cut slopes were investigated along NH-58 and kinematic analysis of joint data shows that 18 slopes are prone to planar failure, 7 for wedge failure and 8 for toppling failure. Slope mass rating (SMR) and continuous SMR show that 18 slopes are vulnerable with 6 slopes falling under the class III category (partially unstable), 9 slopes under class IV (unstable) and the rest of 3 slopes are completely unstable fall under class V causing landslides on NH-58. Maps with location of stable, partially stable, unstable and completely unstable sites are formed to take infrastructure projects at stable zones. Research highlights Kaliasuar fault causes active landslides along NH-58, Uttarakhand. Maps with location of stable sites are provided for infrastructure projects. Instability at Kaliasaur Landslide is caused by plunging fold, pre-existing tectonic fracturing. Conducted kinematic analysis and geo-mechanical classification based on CSMR of 35 slopes in the study area.
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Kedarnath devastation in June, 2013 due to flash floods has made road cut slopes along the Alaknanda River vulnerable, which has a history of frequent landslides particularly at Kaliasaur (sites K1, K2, K3). At Kaliasaur landslide (site K1), the instability is mainly controlled by the combination of pre-existing tectonic fracturing, plunging fold, structural damage zones formed due to the passage of regional Kaliasaur Fault and at site K3, fault gouge is found due to shearing of quartzite. A total of 35 road cut slopes were investigated along NH-58 and kinematic analysis of joint data shows that 18 slopes are prone to planar failure, 7 for wedge failure and 8 for toppling failure. Slope mass rating (SMR) and continuous SMR show that 18 slopes are vulnerable with 6 slopes falling under the class III category (partially unstable), 9 slopes under class IV (unstable) and the rest of 3 slopes are completely unstable fall under class V causing landslides on NH-58. Maps with location of stable, partially stable, unstable and completely unstable sites are formed to take infrastructure projects at stable zones. Research highlights Kaliasuar fault causes active landslides along NH-58, Uttarakhand. Maps with location of stable sites are provided for infrastructure projects. Instability at Kaliasaur Landslide is caused by plunging fold, pre-existing tectonic fracturing. 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Kedarnath devastation in June, 2013 due to flash floods has made road cut slopes along the Alaknanda River vulnerable, which has a history of frequent landslides particularly at Kaliasaur (sites K1, K2, K3). At Kaliasaur landslide (site K1), the instability is mainly controlled by the combination of pre-existing tectonic fracturing, plunging fold, structural damage zones formed due to the passage of regional Kaliasaur Fault and at site K3, fault gouge is found due to shearing of quartzite. A total of 35 road cut slopes were investigated along NH-58 and kinematic analysis of joint data shows that 18 slopes are prone to planar failure, 7 for wedge failure and 8 for toppling failure. Slope mass rating (SMR) and continuous SMR show that 18 slopes are vulnerable with 6 slopes falling under the class III category (partially unstable), 9 slopes under class IV (unstable) and the rest of 3 slopes are completely unstable fall under class V causing landslides on NH-58. Maps with location of stable, partially stable, unstable and completely unstable sites are formed to take infrastructure projects at stable zones. Research highlights Kaliasuar fault causes active landslides along NH-58, Uttarakhand. Maps with location of stable sites are provided for infrastructure projects. Instability at Kaliasaur Landslide is caused by plunging fold, pre-existing tectonic fracturing. Conducted kinematic analysis and geo-mechanical classification based on CSMR of 35 slopes in the study area.</abstract><cop>New Delhi</cop><pub>Springer India</pub><doi>10.1007/s12040-022-01827-y</doi><orcidid>https://orcid.org/0000-0001-7866-717X</orcidid></addata></record>
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source Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; SpringerNature Journals; Indian Academy of Sciences
subjects Analysis
Earth and Environmental Science
Earth Sciences
Failure
Fault lines
Flash flooding
Flash floods
Fracturing
Geology
Infrastructure
Kinematics
Landslides
Landslides & mudslides
Mechanical classification
Quartzite
Roads
Roads & highways
Shearing
Slope stability
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Stability analysis
Structural damage
Tectonics
title Slope stability analysis of road cut slopes along NH-58 in Alaknanda Valley from Dhari Devi to Rudraprayag, Uttarakhand, India
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