GEOPHYSICAL INVESTIGATIONS OF A POTENTIAL LANDSLIDE AREA IN MAYOON, HUNZA DISTRICT, GILGIT-BALTISTAN, PAKISTAN

Qasim ur Rehman; Waqas Ahmed; Muhammad Waseem; Sarfraz Khan; Asam Farid; Syed Husnain Ali Shah

doi:10.17794/rgn.2021.3.9

Rudarsko-geološko-naftni Zbornik (Jan 2021)

GEOPHYSICAL INVESTIGATIONS OF A POTENTIAL LANDSLIDE AREA IN MAYOON, HUNZA DISTRICT, GILGIT-BALTISTAN, PAKISTAN

Qasim ur Rehman,
Waqas Ahmed,
Muhammad Waseem,
Sarfraz Khan,
Asam Farid,
Syed Husnain Ali Shah

Affiliations

Qasim ur Rehman: National Centre of Excellence in Geology, University of Peshawar, Pakistan; Department of Earth Sciences, University of Haripur, Pakistan
Waqas Ahmed: National Centre of Excellence in Geology, University of Peshawar, Pakistan
Muhammad Waseem: Department of Civil Engineering Peshawar Campus, University of Engineering and Technology Peshawar, Pakistan
Sarfraz Khan: National Centre of Excellence in Geology, University of Peshawar, Pakistan
Asam Farid: Geophysical Technical Unit Arab Com Engineering & Soil, Al Khobar Saudi Arabia
Syed Husnain Ali Shah: Department of Earth and Environmental Sciences, Hazara University Mansehra, Pakistan

DOI: https://doi.org/10.17794/rgn.2021.3.9
Journal volume & issue: Vol. 36, no. 3
pp. 127 – 141

Abstract

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The Mayoon landslide in the Hunza District is a slowly developed, non-catastrophic landslide that has gained its importance in the last few years after its rapid activation and fast slip rate. The area is characterized by high earthquake hazards (zone 3 with a peak ground acceleration value of 2.4–3.2 m/s2) by the Building Code of Pakistan due to frequent earth quakes. The past high earthquake activity in the area has displaced the foliated rocks towards the south and is responsible for opening the bedrock joints. The head and body of the landslide are covered by unconsolidated material and have fractures of varying lengths and widths. The non-invasive geophysical techniques, including Ground Penetrating Radar (GPR) and Electrical Resistivity Soundings (ERS), are deployed to evaluate the Mayoon landslide subsurface. The subsurface is interpreted into a two-layer model. Bright reflectors and highly variable resistivity characterize the top layer (Layer-1). This layer is associated with a loose, highly heterogeneous, fragmented material deposited under glacial settings over the existing bedrock. Hyperbolic reflections and intermediate resistivity characterize the bottom layer (Layer-2). This layer is associated with foliated metamorphic bedrock. The hyperbolic reflections show faults/fractures within the bedrock. The extension of these fractures/faults with depth is uncertain due to decay in the GPR signal with depth. The intermediate resistivity shows the bedrock is weathered and foliated. Reflections within Layer-1 have disrupted directly above the fractures/faults suggesting a possible movement. A bright reflection between the two layers highlights the presence of the debonded surface. Loose material within Layer-1 coupled with debonding possesses a significant hazard to generate a landslide under unfavourable conditions, such as an intense rainstorm or earthquake activity.

Published in Rudarsko-geološko-naftni Zbornik

ISSN: 0353-4529 (Print); 1849-0409 (Online)
Publisher: University of Zagreb
Country of publisher: Croatia
LCC subjects: Technology: Mining engineering. Metallurgy; Science: Geology
Website: http://hrcak.srce.hr/ojs/index.php/rgn

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