Geofísica Internacional (Jul 2024)

A combination of seismic refraction and ambient noise methods to detect landslide-prone materials

  • Martín Cárdenas-Soto,
  • Jesús Sánchez-González,
  • José Antonio Martínez-González,
  • David Escobedo-Zenil,
  • Gerardo Cifuentes-Nava,
  • Thalía Alfonsina Reyes-Pimentel

DOI
https://doi.org/10.22201/igeof.2954436xe.2024.63.3.1585
Journal volume & issue
Vol. 63, no. 3
pp. 949 – 958

Abstract

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A portion of the west of Mexico City is densely populated in an abrupt topography, whose volcano-sedimentary materials increase the likelihood of landslides. We exploited the geometry of a quadrangular geophones array to apply Seismic Refraction Tomography (SRT) and Ambient Noise Tomography (ANT) methods and explore the extent of landslide-prone materials. The results show low-velocity areas (Vs < 100 m/s, being Vs group velocities) associated with materials that have lost their resistance due to the increase in pore pressure and the places where eventually, more landslides will occur (120 < Vs < 200 m/s) if mitigation work is not carried out. The most stable zones correspond to materials with velocity values greater than 250 m/s that overlap a bedrock at an average depth of 8 m. Thus, when it is not advisable to perform active source experiments, ANT can provide practical results to determine the extension of the sliding materials.

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