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Intensity Reassessment of the 2017 Pohang Earthquake Mw = 5.4 (South Korea) Using ESI-07 Scale (2021)

Naik, Sambit Prasanajit ; Gwon, Ohsang ; Porfido, Sabina ; [et al.]

MDPI

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Publication Date: 2021-05-12

Description: The earthquake environmental effects (EEEs) around the epicentral area of the Pohang earthquake (Mw-5.4) that occurred on 15 November 2017 have been collected and classified using the Environmental Seismic Intensity Scale (ESI-07 scale) proposed by the International Union for Quaternary Research (INQUA) focus group. The shallow-focus 15 November Pohang earthquake did not produce any surface rupture, but caused extensive secondary environmental effects and damage to life-line structures. This earthquake was one of the most damaging earthquakes during the instrumental seismic era of the Korean Peninsula. The EEEs included extensive liquefaction, ground cracks, ground settlement, localized rockfall, and variation of the water table. The main objective of this paper was to carry forward a comparative assessment of the Pohang earthquake’s intensity based on traditional macroseismic scales and the ESI-07 scale. With that objective, this study will also make a substantial contribution to any future revision of the ESI-07 scale, which mostly comprises case studies from Europe and South America. The comparison of the ESI-07 scale with traditional intensity scales similar to the intensity scale used by the Korean Meteorological Administration for the epicentral areas showed 1–2-degree differences in intensity. Moreover, the ESI scale provided a clearer picture of the intensity around the epicentral area, which is mostly agricultural land with a lack of urban units or buildings. This study urges the integration of the traditional and ESI-07 scale for such small magnitude earthquakes in the Korean Peninsula as well as around the world in future. This will predict seismic intensity more precisely and hence provide a more-effective seismic hazard estimation, particularly in areas of low seismic activity. The present study will also provide a useful and reliable tool for the seismic hazard assessment of similar earthquakes around the study area and land-use planning at a local scale considering the secondary effects.

Description: Published

Description: 471

Description: 6T. Studi di pericolosità sismica e da maremoto

Description: JCR Journal

Keywords: earthquake ; earthquake environmental effects ; ESI-07 ; seismic intensity ; seismic hazard assessment ; Korean Peninsula

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Earthquake damage and related factors associated with the 2016 ML = 5.8 Gyeongju earthquake, southeast Korea (2019)

Jin, Kwangmin ; Lee, Jinhyun ; Lee, Keun-Soo ; [et al.]

Springer

In: Geosciences Journal. 2019; 24(2): 141-157. Published 2019 Nov 08. doi: 10.1007/s12303-019-0024-9.

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Publication Date: 2019-11-08

Print ISSN: 1226-4806

Electronic ISSN: 1598-7477

Topics: Geosciences

Published by Springer

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Detection of microearthquakes and identification of their causative structures in the eastern offshore region of South Korea (2019)

Han, Minhui ; Kim, Han-Joon ; Kang, Su Young ; [et al.]

Elsevier

In: Tectonophysics. 2019; 750: 36-44. Published 2019 Jan 01. doi: 10.1016/j.tecto.2018.11.003.

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Publication Date: 2019-01-01

Description: A matched filter has been applied to continuous seismic records from the eastern offshore region of South Korea to identify small earthquakes undetected by routine processing. The resulting density of the regional earthquake catalog has increased by a factor of five relative to the detections reported by the Korea Meteorological Administration. High-precision locations of newly identified microearthquakes and previously located earthquakes cluster into streaks that delineate structures responsible for the seismicity associated with the Hupo Fault offshore of the southern Korean Peninsula. Microearthquakes in the northern and southern segments of the fault zone exhibit different behaviors: earthquakes in the northern segment occur at a regular temporal interval, while those in the southern segment occur in bursts. The identified fault system dips steeply to the west at shallow (〈10 km) depths, with the dip angle becoming shallower at greater depths. A comparison of the microearthquake locations along the previously identified faults in the study area suggests reactivation of the Hupo Fault that formed as a listric normal fault via back-arc rifting associated with separation of the SW Japan Arc during the late Oligocene to early Miocene. The microseismicity data indicate that the fault has the largest fault plane identified to date using seismological techniques in onshore and offshore areas of the Korean Peninsula. Based on empirical relationships between earthquake magnitude and the potential rupture area, the fault system could generate a magnitude 6.5 earthquake if the entire fault plane outlined by the microseismicity ruptured in a single event.

Print ISSN: 0040-1951

Electronic ISSN: 1879-3266

Topics: Geosciences , Physics