JpGU-AGU Joint Meeting 2020

Presentation information

[E] Poster

S (Solid Earth Sciences ) » S-CG Complex & General

[S-CG59] Evolution and movement of the crustal surface and application of geo- and thermochronology

convener:Noriko Hasebe(Institute of Nature and Environmental Technology, Kanazawa University), Shigeru Sueoka(Japan Atomic Energy Agency), Frederic Herman(University of Lausanne), Takahiro Tagami(Graduate School of Science, Kyoto University)

[SCG59-P05] Analyses of Sag Pond Stratigraphy to Assess the Disaster History along Lembang Fault, West Java, Indonesia

Januar Ridwan2, *Noriko Hasebe1, Eko Yulianto2, Nandang Supriatna2, Amar Amar2 (1.Institute of Nature and Environmental Technology, Kanazawa University, 2.Research Center for Geotechnology, Indonesian Institute of Science)

Keywords:Sag pond, Lembang fault activity

Sag pond stratigraphy studies have a potential for the assessment of Lembang fault activity. Previous results have showen some indication of the earthquake-related process in the sag pond sedimentation record, but the level of confidence is uncertain especially for the events revealed by the recent Paleoseismological studies. This research conducted using the diatom analysis to see the fluctuation of sag pond water level and change in depositional environment, which is controlled by the Lembang fault movement. We analyzed Cihideung sag pond deposit from the playground in Graha Puspa Estate area, Lembang, Indonesia, which also used in the previous sag pond stratigraphy research. The diatom analysis was carried out combined with sediment characterizations, including water content, grain size measurement, organic matter, carbonate concentration, and biogenic silica analysis. We also provide radiocarbon ages to open the correlation with the estimated great earthquakes by present paleoseismology research of Lembang fault. We recognized the stratigraphy of ~5m core and classified into five sedimentary units which represent the sedimentation history of the Cihideung sag pond. We interpret sedimentation changes that could represent the earthquake-related process and classified based on the level of confidence. The event with highest level of confidence include three events that related to the humic sag pond formation and two great earthquake event in 15th Century and 1771-1537 BCE. However, this assessment still need improvement with better resolution and other additional analyses in the future to enhance the confidence in the reconstruction of paleoseismological events.