Abstract
Hydrogeological responses to earthquakes such as changes in groundwater level, temperature, and chemistry, have been observed for several decades. This study examines behavior associated with ML 5.8 and ML 5.1 earthquakes that occurred on 12 September 2016 near Gyeongju, a city located on the southeast coast of the Korean peninsula. The ML 5.8 event stands as the largest recorded earthquake in South Korea since the advent of modern recording systems. There was considerable damage associated with the earthquakes and many aftershocks. Records from monitoring wells located about 135 km west of the epicenter displayed various patterns of change in both water level and temperature. There were transient-type, step-like-type (up and down), and persistent-type (rise and fall) changes in water levels. The water temperature changes were of transient, shift-change, and tendency-change types. Transient changes in the groundwater level and temperature were particularly well developed in monitoring wells installed along a major boundary fault that bisected the study area. These changes were interpreted as representing an aquifer system deformed by seismic waves. The various patterns in groundwater level and temperature, therefore, suggested that seismic waves impacted the fractured units through the reactivation of fractures, joints, and microcracks, which resulted from a pulse in fluid pressure. This study points to the value of long-term monitoring efforts, which in this case were able to provide detailed information needed to manage the groundwater resources in areas potentially affected by further earthquakes.
Highlights
Earthquakes of magnitude ML5.1 and ML5.8 occurred at 19:44:32 (10:44:32 UTC) and 20:32:54 (11:32:54 UTC), respectively, on 12 September 2016 near Gyeongju, a city located on the southeastern coast of the Korean peninsula
The purpose of this study is to describe and analyze various changes in groundwater levels and temperature associated with the ML 5.1 and ML5.8 Gyeongju earthquakes
The overall goal of the study is to provide new insights into the spatiotemporal hydrogeologic and tectonic processes associated with earthquakes, reflecting localized stress changes, especially those related to the seismic waves
Summary
Earthquakes of magnitude ML5.1 and ML5.8 occurred at 19:44:32 (10:44:32 UTC) and 20:32:54 (11:32:54 UTC), respectively, on 12 September 2016 near Gyeongju, a city located on the southeastern coast of the Korean peninsula. It stands as the largest recorded earthquake in South Korea since the advent of modern recording systems, and it caused great damage with a series of aftershocks. The ML5.8 event and more than 500 aftershocks caused extreme damage across the area, with 80 associated injuries and approximately 1,300 people left homeless. A subsurface strike-slip fault with a dip of 65° to the east and a strike of N27°E was a major cause for the earthquakes. The ruptured fault occurred at a depth of 11– 16 km, resulting in a ruptured surface of about 26 km (Hong et al 2017; Kim and Lee 2019)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
