Abstract
Despite the challenges in identifying earthquake precursors in intraplate (inland) earthquakes, various hydrological and geochemical measurements have been conducted to establish a possible link to seismic activities. Anomalous increases in radon (222Rn) concentration in soil, groundwater, and atmosphere have been reported prior to large earthquakes. Although the radon concentration in the atmosphere is lower than that in groundwater and soils, a recent statistical analysis has suggested that the average atmospheric concentration over a relatively wide area reflects crustal deformation. However, no study has sought to determine the underlying physico-chemical relationships between crustal deformation and anomalous atmospheric radon concentrations. Here, we show a significant decrease in the atmospheric radon concentration temporally linked to the seismic quiescence before the 2018 Northern Osaka earthquake occurring at a hidden fault with complex rupture dynamics. During seismic quiescence, deep-seated sedimentary layers in Osaka Basin, which might be the main sources of radon, become less damaged and fractured. The reduction in damage leads to a decrease in radon exhalation to the atmosphere near the fault, causing the preseismic radon decrease in the atmosphere. Herein, we highlight the necessity of continuous monitoring of the atmospheric radon concentration, combined with statistical anomaly detection method, to evaluate future seismic risks.
Highlights
Large earthquakes are preceded by smaller earthquakes called foreshocks, which are considered to be the most common precursory phenomena to e arthquakes[1,2]
Based on a robust dataset of the atmospheric radon concentration, we report a significant decrease in the concentration of the atmospheric radon (222Rn) associated with seismic quiescence prior to the mainshock of the 2018 Northern Osaka earthquake
We observed a decrease in the atmospheric radon concentration associated with the seismic quiescence, which indicates that variations in atmospheric radon concentration correlates with crustal deformation, similar to previous studies
Summary
Large earthquakes are preceded by smaller earthquakes called foreshocks, which are considered to be the most common precursory phenomena to e arthquakes[1,2]. A wide range of geochemical and hydrological anomalies have been investigated as possible precursory phenomena to interplate or intraplate earthquakes This includes obtaining measurements for anomalous changes in the groundwater level[3,4] and the change in concentrations of various chemical species in the s oil5,6, groundwater[3,7,8,9,10,11], and a tmosphere[12,13,14,15,16,17,18] associated with earthquakes. Recent development in monitoring network of the atmospheric radon concentration, measured by RI institutes across Japan[18,22], enabled us to synchronously monitor anomalies related to crustal deformation in Japan and radon concentration These observations reveal that the atmospheric radon concentration reflects the average values of radon exhalation and is independent of local heterogeneity in geological and hydrological structures. We further propose that the atmospheric radon concentration sensitively reflects the state of crustal mechanical conditions and damage evolution leading to large earthquakes
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