Litcius/Paper detail

Rapidly Evolving Controls of Landslides After a Strong Earthquake and Implications for Hazard Assessments

Xuanmei Fan, Ali P. Yunus, Gianvito Scaringi, Filippo Catani, Srikrishnan Siva Subramanian, Qiang Xu, Runqui Huang

2020Geophysical Research Letters123 citationsDOIOpen Access PDF

Abstract

Abstract Strong earthquakes, especially on mountain slopes, can generate large amounts of unconsolidated deposits, prone to remobilization by aftershocks and rainstorms. Assessing the hazard they pose and what drives their movement in the years following the mainshock has not yet been attempted, primarily because multitemporal landslide inventories are lacking. By exploiting a multitemporal inventory (2005–2018) covering the epicentral region of the 2008 Wenchuan Earthquake and a set of conditioning factors (seismic, topographic, and hydrological), we perform statistical tests to understand the temporal evolution of these factors affecting debris remobilizations. Our analyses, supported by a random‐forest susceptibility assessment model, reveal a prediction capability of seismic‐related variables declining with time, as opposed to hydro‐topographic parameters gaining importance and becoming predominant within a decade. These results may have important implications on the way conventional susceptibility/hazard assessment models should be employed in areas where coseismic landslides are the main sediment production mechanism on slopes.

Topics & Concepts

LandslideGeologyHazardSeismologyAftershockNatural hazardSeismic hazardHazard analysisDebrisPhysical geographyGeographyOceanographyOrganic chemistryEngineeringAerospace engineeringChemistryLandslides and related hazardsTree Root and Stability StudiesHydrology and Sediment Transport Processes