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Impact of Earthquake on Rainfall Thresholds for Sustainable Geo-Hazard Warnings: A Case Study of Luding Earthquake

Qun Zhang, Junfeng Li (), Shengjie Jin (), Yanhui Liu, Shikang Liu, Zhuo Wang, Lei Zhang and Zeyi Song
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Qun Zhang: Sichuan Institute of Land and Space Ecological Restoration and Geological Hazard Prevention, Chengdu 610036, China
Junfeng Li: Technology Innovation Center for Geohazard Monitoring and Risk Early Warning, Ministry of Natural Resources, Beijing 100081, China
Shengjie Jin: Sichuan Institute of Land and Space Ecological Restoration and Geological Hazard Prevention, Chengdu 610036, China
Yanhui Liu: Technology Innovation Center for Geohazard Monitoring and Risk Early Warning, Ministry of Natural Resources, Beijing 100081, China
Shikang Liu: Sichuan Institute of Land and Space Ecological Restoration and Geological Hazard Prevention, Chengdu 610036, China
Zhuo Wang: Sichuan Institute of Land and Space Ecological Restoration and Geological Hazard Prevention, Chengdu 610036, China
Lei Zhang: Sichuan Institute of Land and Space Ecological Restoration and Geological Hazard Prevention, Chengdu 610036, China
Zeyi Song: Sichuan Institute of Land and Space Ecological Restoration and Geological Hazard Prevention, Chengdu 610036, China

Sustainability, 2025, vol. 17, issue 18, 1-16

Abstract: This study explores the impact of the 2022 Mw 6.8 Luding Earthquake on various geo-hazards and their corresponding rainfall thresholds. Focusing on the seismic intensity VI zone in Sichuan Province, China, we analyzed 1979 geo-hazard records and hourly precipitation data from 475 stations between 2010 and 2024. Empirical ID (intensity–duration) and AC (accumulated rainfall–continuous rainfall duration) rainfall threshold models are established based on these datasets. By comparing pre- and post-earthquake data, this study assesses changes in the spatial distribution and triggering rainfall thresholds of landslides, rockfalls, and debris flows. The results indicate a significant increase in geo-hazard risks post-earthquake, particularly near the Xianshuihe Fault, with rockfall risks exhibiting the most pronounced rise. Statistical analysis reveals that the rainfall thresholds required to trigger geo-hazards decreased notably after the earthquake: ID models indicate a decrease of approximately 20%, while AC models show a reduction of about 20% in the western zone and 10% in the eastern zone. A four-level early warning system is developed using empirical rainfall threshold models, offering tailored hazard alerts for different regions and geo-hazard types. The variation in threshold values between the east and west zones highlights the influence of differing topographic and climatic conditions. These findings provide critical insights for post-seismic hazard assessment and inform more effective, sustainable early warnings, thereby supporting more reliable and sustainable disaster risk management in earthquake-affected regions.

Keywords: rainfall threshold; Luding Earthquake; warning system (search for similar items in EconPapers)
JEL-codes: O13 Q Q0 Q2 Q3 Q5 Q56 (search for similar items in EconPapers)
Date: 2025
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