Publication details

Source area morphometry and high depletion rate of landslides may indicate their coseismic origin

Authors

BAROŇ Ivo JELÉNEK Jan KLIMEŠ Jan DONG Jia-Jyun MELICHAR Rostislav ŠUŤJAK Martin CHEN Yi-Chin YANG Che-Ming ZHANG En-Lun JOANNA Mendéz TSENG Chia-Han HARTVICH Filip BLAHŮT Jan NGUYEN Thanh-Tung KOCIÁNOVÁ Lenka BÁRTA František DUŠEK Václav KYCL Petr

Year of publication 2024
Type Article in Periodical
Magazine / Source Engineering Geology
MU Faculty or unit

Faculty of Science

Citation
web https://www.sciencedirect.com/science/article/pii/S001379522400022X
Doi http://dx.doi.org/10.1016/j.enggeo.2024.107424
Keywords Coseismic landslides; Earthquake; Trigger identification; Landslide morphometry; Depletion rate; Paleoseismicity
Attached files
Description Ancient coseismic landslides indicate prehistoric earthquakes and may also be a measure of their intensity. Their identification in the landscape remains, however, challenging. We used field geologic observations of source areas of recent rainfall-induced and earthquake-induced landslides to define a morphometric index that can distinguish between these two types of triggers. Morphometries of 129 landslides from tropical, subtropical and temperate zones developed in a variety of bedrock types were described by using the following parameters: i) depletion index (Id), i.e. the ratio between the length of the depleted part and the length of the source area; ii) relative slope height (Hrel) and iii) source area angle (S), i.e. the angle between the top of the line connecting the scarp top with the toe of the source area and the horizontal plane. They were obtained using globally available digital elevation models and satellite images. Their combination into an Index of Potential Trigger (IPT) successfully distinguished between the two types of landslide triggers with an overall accuracy of 87%. The rainfall-induced landslides had a significantly lower average IPT value of 0.01 as compared with 0.37 for the coseismic landslides. The index of potential trigger may be a useful and readily implemented morphometric tool for preliminary identification of prehistoric coseismic landslides recorded in the current topography.
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