Abstract
This study focuses on revisiting the tectostratigraphic framework of the Ulleung Basin and conceptualizing neotectonics around the western East Sea margin. Based on the analysis of 2D and 3D multi-channel seismic reflection data and offshore drill wells, we divided the entire sedimentary successions of the Ulleung Basin into four tectostratigraphic sequences, named TS1 (c. 23–16 Ma), TS2 (c. 16–9 Ma), TS3 (c. 9–4 Ma), and TS4 (c. 4 Ma–present), in ascending order. The results show that each sequence has been deformed once or multiple times in different periods by juxtaposing two major compressional structures named the Dolgorae Thrust-Fold Belt and the Gorae Anticline. Interpretation of the stratal deformation and termination patterns of the syn- and post-deformational sequences of each structures suggests that the thrusting and folding of the Dolgorae Thrust-Fold Belt was active from c. 16 Ma to c. 9 Ma under the NNW–SSE compressional stress regime (Stage-2), whereas the Gorae Anticline was active from 4 Ma to the present under the ENE–WSW compressional stress regime (Stage-4). Between these two compressional events, there was an intervening period of regional slow subsidence driven by thermal contraction of the back-arc lithosphere and isostatic sedimentary loading (Stage-3). Based on the stratigraphic and structural reconstruction, we propose a 4-stage tectonic model: Stage-1) back-arc opening stage associated with the southward drift of the Japanese islands (c. 23–16 Ma), Stage-2) tectonic-inversion stage in association with the reorganization of the Pacific and Philippine Sea plates and clockwise rotation of SW Japan (c. 16–9 Ma), Stage-3) post-inversion stage with regional thermal and isostatic subsidence (c. 9–4 Ma), and Stage-4) neotectonic stage in which embryonic subduction is nucleating on the East Sea margins under the E–W compressional stress regime (c. 4 Ma–present).
Highlights
The East Sea (Japan Sea) is a semi-enclosed marginal sea formed by the Cenozoic back-arc extension behind the Japanese Island Arc (Tamaki, 1988)
We propose a new 4-stage tectostratigraphic model of the Ulleung Basin to better understand the tectonic evolution of the East Sea and obtain a proper conceptualization of the neotectonics around the Korean Peninsula
We investigated tectostratigraphic evolution of the southwestern Ulleung Basin margin based on the 2D and 3D multi-channel seismic reflection data set and offshore drilled wells
Summary
The East Sea (Japan Sea) is a semi-enclosed marginal sea formed by the Cenozoic back-arc extension behind the Japanese Island Arc (Tamaki, 1988). In contrast to the eastern margin of the East Sea, where a new subduction zone is initiating, the western counterpart has long been regarded as a tectonically inactive intraplate setting, despite evidence of active compressional tectonics, such as coastal terraces (Choi et al, 2008), frequent earthquakes (Choi et al, 2012), and Quaternary faults along the onland and offshore regions of the eastern Korean Peninsula (Han-Joon Kim et al, 2016; Cheon et al, 2020). The first stage was initiated in the Early Miocene when the rhombic-shaped Ulleung Basin was constructed via a pull-apart-style back-arc extension that associated two dextral strike-slip principal deformation zones on the western and eastern boundaries (Yoon and Chough, 1995). System under E–W compressional stress since the Early Pliocene
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