SEISMIC IMAGING BENEATH SUMATRA ISLAND AND ITS SURROUNDINGS, INDONESIA, FROM LOCAL-REGIONAL P-WAVE EARTHQUAKE TOMOGRAPHY

Sumatra Island and its surroundings, Indonesia, are one of the most active tectonics in the world. The Aceh-Andaman earthquake, one of the most destructive earthquakes in the world, occurred there. It has attracted many earth scientists to apply various methods, including seismic tomography, to unde...

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Published inRudarsko-geološko-naftni zbornik Vol. 38; no. 3; pp. 119 - 132
Main Authors Pranata, Bayu, Ramdhan, Mohamad, Hanif, Muhammad, Sulaiman, Muhammad Iqbal, Maulana, Mufti Putra, Wandono, Wandono, Widiyantoro, Sri, Suhardja, Sandy Kurniawan, Hidayat, Edi, Supendi, Pepen, Kusnandar, Ridwan, Setyonegoro, Wiko
Format Journal Article
LanguageEnglish
Published Zagreb University of Zagreb 01.01.2023
Subjects
Archipelagoes
BMKG, P– wave
Climatology
Earthquakes
fault
Geological faults
Geophysics
Imaging
Magma
Melting
P waves
Seismic activity
Seizing
slab
Slabs
Subduction (geology)
Sumatra
Tectonics
Tomography
Volcanic activity
Volcanoes
Sumatra
Indonesia
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Summary:Sumatra Island and its surroundings, Indonesia, are one of the most active tectonics in the world. The Aceh-Andaman earthquake, one of the most destructive earthquakes in the world, occurred there. It has attracted many earth scientists to apply various methods, including seismic tomography, to understand the island’s subsurface structure and tectonic system. This study is the first to delineate subsurface imaging beneath the island and its surroundings using a local-regional earthquake catalogue from the Indonesian Agency for Meteorology, Climatology, and Geophysics (BMKG) seismicnetwork. The tomographic imaging of P-wave (Vp) conducted in this study has successfully delineated subduction slabs (high Vp), partial melting zones (low Vp), volcanic arcs (low Vp), and Sumatran Fault zones (low Vp). The relationship between the subduction zone and the volcanic arc on the island can be seen on several vertical sections where a partial melting zone occurs at a depth of about 100 km, which functions as magma feeding for some volcanoes on the island. The oceanic slab model also exhibits a more pronounced and steeper slope towards the southern regions of Sumatra Island, possibly attributed to the slab’s aging process in that direction. The results highlight the importance of the BMKG seismic network in imaging local-regional subsurface structures beneath Indonesia’s archipelago, especially for the main islands such as Sumatra.
ISSN:1849-0409
0353-4529
1849-0409
DOI:10.17794/rgn.2023.3.10