Estimation of bedrock depth for a part of Garhwal Himalayas using two different geophysical techniques

Ritu Raj Nath,Gautam Kumar,S C Gupta,M L Sharma

doi:10.1186/s40562-018-0108-9

Ritu Raj Nath, Gautam Kumar + Show 2 more

Open Access

https://doi.org/10.1186/s40562-018-0108-9

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Journal: Geoscience Letters	Publication Date: Mar 7, 2018
Citations: 12	License type: open-access

Affiliation: Indian Institute of Technology Roorkee

Abstract

It has now been well established that the depth of bedrock is a key parameter in assessing the impact of local site conditions on seismic hazard analysis. Where conventional geotechnical testing like standard penetration test (SPT) or cone penetration test (CPT) requires a far greater cost and manpower to be used for such purposes, geophysical testing like ground-penetrating radar (GPR) and multichannel analysis of surface waves (MASW) may provide the researchers with more viable options to achieve conclusive evidence on bedrock depth. Application of geophysical techniques has become more and more extensive and advanced in many geo-morphological studies since the early 2000s. Geophysical techniques require less time and effort, and the easy processing of the obtained data is the primary reason for their popularity. However, due to variability in subsoil mechanical properties, wave attenuation and dispersion and diverse geological boundary conditions, the results obtained through geophysical techniques are often ambiguous and non-unique. The interpretation of the obtained data also requires skill and experience, as the range may vary widely and more often than not consensus is difficult to achieve. In this paper, an endeavor has been made to coalesce the results of two widely used geophysical techniques, namely GPR and MASW to derive more conclusive evidence for the detection of bedrock depth in a part of Garhwal Himalayas. The study area comprises of two different cities of Uttarakhand, India. Both the sites possess different geo-morphological attributes and thus prove to be a perfect platform to conduct the experimentations. Both GPR and MASW testing have been performed and results are shown in graphical format. A comparison of the GPR survey with a conventional geotechnical testing (SPT) is also presented here. This study shows that GPR and MASW can provide complementary results in estimating bedrock depth.

Highlights

The influence of local site conditions on amplification of strong ground motion has been widely recognized
Both ground-penetrating radar (GPR) and multichannel analysis of surface waves (MASW) testing have been performed and results are shown in graphical format
This study shows that GPR and MASW can provide complementary results in estimating bedrock depth

Summary

Introduction

The influence of local site conditions on amplification of strong ground motion has been widely recognized. Several examples from the past (e.g., 1985 Mexico earthquake, 1989 Loma Pieta earthquake, 2001 Bhuj earthquake) have demonstrated that local site conditions play a substantial role in the performance of the structures during a major earthquake. The proliferation in technical innovation as computers, software technology and light weight equipments influence the increasing interest in geophysical explorations. Many researchers focus on the use of the geophysical application in fossil fuel exploration, existence of minerals and detection of underground water level. The use of geophysical methods become sustainable and functional in the field of permafrost mapping, block field, sediment thickness, depth and internal structures of landslides (Hauck 2001; Schrott 2002; Israil and Pachauri 2003; SchSrott et al 2003; Bichler et al 2004; Sass 2007)

Objectives

Conclusion