Abstract The Sichuan-Yunnan area is located at the southeastern margin of the Tibetan
Plateau, where tectonic movement is strong with deep and large faults distributed in a …

In this study, we established an updated coseismic landslide inventory of the 2022 Ms. 6.8
Luding earthquake. This version contains over 16,000 hand-digitized landslides with a total …

An approximate 236‐year interval in major seismic activity near the southern **anshuihe
fault terminated on 5 September 2022 until a destructive M6. 8 Luding earthquake. The …

The seismic hazard of a fault system is controlled by the maximum possible earthquake
magnitude it can host. However, existing methods to estimate maximum magnitudes can …

The Luding M w 6.5 earthquake on September 5, 2022 occurred in the southeast section of
the **anshuihe Fault, filling a seismic gap previously identified by the earthquakes (M> 6.5) …

Abstract The MS 6.8 Luding earthquake in 2022 is located on the NNW-trending Moxi
segment of the **anshuihe fault with left-lateral strike-slip behavior. This area is where the …

Abstract On 5 September 2022, an MS 6.8 earthquake occurred in Luding County, Garzê
Prefecture, Sichuan Province, which broke a" quiet period" of large earthquakes in the …

Seismic arrays constrain local wave propagation that can be used to infer earthquake
source characteristics. Array processing is routinely used to infer detailed earthquake …

Abstract The 2022 MW 6.6 Luding earthquake occurred on the Moxi segment of the
**anshuihe fault at the southeast margin of Tibetan Plateau, China. To assess the seismic …

The accurate determination of earthquake focal depths is crucial, yet notably challenging.
The 2022 M s 6.8 Luding earthquake sequence is a typical example for which focal depths …