Scientific Reports (Nov 2024)

Methods to identify and distinguish the effects of weathering and landslides on sediment granulometry

  • Király Csilla,
  • Jakab Gergely,
  • Páles Mariann,
  • Gresina Fruzsina,
  • Szeberényi József,
  • Viczián István,
  • Kónya Péter,
  • Falus György,
  • Cseresznyés Dóra,
  • Varga György,
  • Kovács István,
  • Szalai Zoltán

DOI
https://doi.org/10.1038/s41598-024-73526-1
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 15

Abstract

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Abstract Urbanization has resulted in the widespread development of built-up areas, often without considering the local geology and geomorphology. To improve risk assessments related to landslides, it is essential to determine the physical and chemical properties of sediments. The aim of this study is to exemplify an already mobilized and reworked layer based on granulometric properties of the sediments and characterize the chemical and physical properties which have changed during or after the mass movement. Ten red clay layers were sampled near Kulcs (Hungary) from a sliding surface and its environment. We measured grain size distribution, major element and modal composition, furthermore, conduct particle shape analysis, respectively. Grain size distribution suggest that samples from the sliding surface are weathered, with the exhibiting reworking characteristics. We calculate the weathering index from the major elements, which, in combination with the particle shape analyses of the silt fractions, indicate that the morphological parameters of the samples are in relation with weathering index. According to our results, while a fresh sliding event leaves marks on the granulometric properties, the main process which affects the grain morphology is the chemical abrasion (post the mass movement) and not the landslide event.

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