Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore

Lembang Fault is one the major fault in the Western region of Java, Indonesia, located just 10-15 km north of Bandung (capital city of West-Java). Although this fault has little to no significant historical of big earthquake records, the fault shows significant geomorphic evidence of its tectonic ac...

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Main Authors: Hidayat, Dannie, Handayani, Lina, Hanif, Muhammad, Nurfiani, Dini, Hanifa, Nuraini Rahma, Hermawan, Iwan, Amukti, Rian, Arisa, Deasy, Gunawan, Endra, Aulia, Atin Nur, Gunawan, Aang, Suhud, Ridwan, Nur, Wawan Hendriawan, Yulianto, Eko, Riyanto, Agusmen, Sudrajat, Yayat, Arifin, Jauhari
Other Authors: AGU Fall Meeting 2022
Format: Conference or Workshop Item
Language:English
Published: 2023
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Online Access:https://hdl.handle.net/10356/165453
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Institution: Nanyang Technological University
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spelling sg-ntu-dr.10356-1654532023-03-28T07:16:55Z Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore Hidayat, Dannie Handayani, Lina Hanif, Muhammad Nurfiani, Dini Hanifa, Nuraini Rahma Hermawan, Iwan Amukti, Rian Arisa, Deasy Gunawan, Endra Aulia, Atin Nur Gunawan, Aang Suhud, Ridwan Nur, Wawan Hendriawan Yulianto, Eko Riyanto, Agusmen Sudrajat, Yayat Arifin, Jauhari AGU Fall Meeting 2022 Earth Observatory of Singapore Science::Geology::Volcanoes and earthquakes Seismic Velocity Structure Teleseismic Receiver Function Lembang Fault is one the major fault in the Western region of Java, Indonesia, located just 10-15 km north of Bandung (capital city of West-Java). Although this fault has little to no significant historical of big earthquake records, the fault shows significant geomorphic evidence of its tectonic activity. Previous study of this geomorphic markers combine with paleoseismological trenching data and the geodetic study based on GPS campaign method suggest that this 29 km length- fault has a dominantly sinistral sense of movement with relatively very low slip rate. Even if the rate is small, the fault could potentially generate a M6.5 to M7 earthquake, strong and considerably very damaging to nearby Bandung city populous area. Starting April 2022, the National Agency for Research and Innovation (BRIN) of Indonesia and Earth Observatory of Singapore (EOS) collaboratively install four continuous seismo-geodetic stations in the vicinity of Lembang Fault to monitor seismic activity and active fault movement of the Lembang Fault and to get movement information when the Lembang Fault earthquake occurs. The collaboration also aimed to strengthen data-based and geoscience-based Earthquake Disaster Risk Reduction efforts, and become a model observatory that bridges from earth science to local government policies and complete public education from upstream to downstream. In the first several months since the installation, we have collected seismic data from teleseismic earthquakes recorded by our stations as well as a few other seismic stations around Lembang Fault. Waveforms from the earthquakes recorded have been analysed, we performed a joint inversion of teleseismic receiver functions and surface waves (H/V ratio). The preliminary results, based on the forward and the inversion method of receiver function, suggest the crustal thickness underneath the station is about 25-30 km. In addition, there are some variability in back azimuth 90-180 degree which may be caused by waves traveling through the nearby active volcano. 2023-03-28T06:31:09Z 2023-03-28T06:31:09Z 2022 Conference Paper Hidayat, D., Handayani, L., Hanif, M., Nurfiani, D., Hanifa, N. R., Hermawan, I., Amukti, R., Arisa, D., Gunawan, E., Aulia, A. N., Gunawan, A., Suhud, R., Nur, W. H., Yulianto, E., Riyanto, A., Sudrajat, Y. & Arifin, J. (2022). Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore. AGU Fall Meeting 2022, S55C-0129-. https://hdl.handle.net/10356/165453 S55C-0129 en © 2022 American Geophysical Union. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Science::Geology::Volcanoes and earthquakes
Seismic Velocity Structure
Teleseismic Receiver Function
spellingShingle Science::Geology::Volcanoes and earthquakes
Seismic Velocity Structure
Teleseismic Receiver Function
Hidayat, Dannie
Handayani, Lina
Hanif, Muhammad
Nurfiani, Dini
Hanifa, Nuraini Rahma
Hermawan, Iwan
Amukti, Rian
Arisa, Deasy
Gunawan, Endra
Aulia, Atin Nur
Gunawan, Aang
Suhud, Ridwan
Nur, Wawan Hendriawan
Yulianto, Eko
Riyanto, Agusmen
Sudrajat, Yayat
Arifin, Jauhari
Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore
description Lembang Fault is one the major fault in the Western region of Java, Indonesia, located just 10-15 km north of Bandung (capital city of West-Java). Although this fault has little to no significant historical of big earthquake records, the fault shows significant geomorphic evidence of its tectonic activity. Previous study of this geomorphic markers combine with paleoseismological trenching data and the geodetic study based on GPS campaign method suggest that this 29 km length- fault has a dominantly sinistral sense of movement with relatively very low slip rate. Even if the rate is small, the fault could potentially generate a M6.5 to M7 earthquake, strong and considerably very damaging to nearby Bandung city populous area. Starting April 2022, the National Agency for Research and Innovation (BRIN) of Indonesia and Earth Observatory of Singapore (EOS) collaboratively install four continuous seismo-geodetic stations in the vicinity of Lembang Fault to monitor seismic activity and active fault movement of the Lembang Fault and to get movement information when the Lembang Fault earthquake occurs. The collaboration also aimed to strengthen data-based and geoscience-based Earthquake Disaster Risk Reduction efforts, and become a model observatory that bridges from earth science to local government policies and complete public education from upstream to downstream. In the first several months since the installation, we have collected seismic data from teleseismic earthquakes recorded by our stations as well as a few other seismic stations around Lembang Fault. Waveforms from the earthquakes recorded have been analysed, we performed a joint inversion of teleseismic receiver functions and surface waves (H/V ratio). The preliminary results, based on the forward and the inversion method of receiver function, suggest the crustal thickness underneath the station is about 25-30 km. In addition, there are some variability in back azimuth 90-180 degree which may be caused by waves traveling through the nearby active volcano.
author2 AGU Fall Meeting 2022
author_facet AGU Fall Meeting 2022
Hidayat, Dannie
Handayani, Lina
Hanif, Muhammad
Nurfiani, Dini
Hanifa, Nuraini Rahma
Hermawan, Iwan
Amukti, Rian
Arisa, Deasy
Gunawan, Endra
Aulia, Atin Nur
Gunawan, Aang
Suhud, Ridwan
Nur, Wawan Hendriawan
Yulianto, Eko
Riyanto, Agusmen
Sudrajat, Yayat
Arifin, Jauhari
format Conference or Workshop Item
author Hidayat, Dannie
Handayani, Lina
Hanif, Muhammad
Nurfiani, Dini
Hanifa, Nuraini Rahma
Hermawan, Iwan
Amukti, Rian
Arisa, Deasy
Gunawan, Endra
Aulia, Atin Nur
Gunawan, Aang
Suhud, Ridwan
Nur, Wawan Hendriawan
Yulianto, Eko
Riyanto, Agusmen
Sudrajat, Yayat
Arifin, Jauhari
author_sort Hidayat, Dannie
title Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore
title_short Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore
title_full Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore
title_fullStr Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore
title_full_unstemmed Seismic velocity structure under Lembang Fault, West Java, Indonesia: The first result of Lembang fault Integrated gps-seismic observatory Network, a collaborative research between National Agency for Research and Innovation of Indonesia and Earth Observatory of Singapore
title_sort seismic velocity structure under lembang fault, west java, indonesia: the first result of lembang fault integrated gps-seismic observatory network, a collaborative research between national agency for research and innovation of indonesia and earth observatory of singapore
publishDate 2023
url https://hdl.handle.net/10356/165453
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