EARTHQUAKE POTENTIAL IN BANDA ARC REGION BASED ON GEODETIC OBSERVATION
Eastern Indonesia is one of the most tectonically complex regions in the world, resulting from the convergence of four active plates: the Australian Plate, the Philippine Sea Plate, the Pacific Plate, and the Sunda Block. The Australian plate subducts in the southern part of Java to Seram Island...
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| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/71606 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Eastern Indonesia is one of the most tectonically complex regions in the world,
resulting from the convergence of four active plates: the Australian Plate, the
Philippine Sea Plate, the Pacific Plate, and the Sunda Block. The Australian plate
subducts in the southern part of Java to Seram Island and produces a subduction
zone which then turns into a collision zone in the south of Timor Island to Seram
Island. This collision zone then forms an earthquake source called the Banda Arc.
This study aims to model the earthquake potential of Banda Arc region based on
the comparion between geodetic seismicity data analysis.
The first stage in this research is GPS data processing. After that, deformation
analysis was carried out which included GPS time-series analysis, the estimation
of GPS velocity, strain rate analysis, and conversion of strain rate to geodetic
moment rate which is divided into several seismogenic zones. The next stage is the
analysis of seismicity parameters and calculation of the seismic moment rate in
each seismogenic zone. Then in the final stage, an analysis of the ratio of geodetic
and seismic moment rates is carried out as well as calculation of the moment rate
deficit and analysis of potential earthquakes.
GPS velocity fields show that the Banda Arc deformation is caused mainly by the
crustal shortening resulting from the interaction of the Australian, Pacific and
Philippine Sea plates. The crustal shortening is also illustrated by the contraction
pattern of geodetic strain that dominates the Banda Arc area, except in the
northeast around the Papuan Bird's Head. Areas with high strain rates have a
significant history of seismicity, such as the Flores-Wetar Back Arc, Ambon-Seram,
and the Bird's Head of New Guinea.
Moreover, the ratio of the geodetic moment rate to the seismic moment rate Banda
arc region range from 0.38 – 7.0; where the four out of five zones show moment
deficit. This moment deficit may be related to the presence of aseismic deformation
or strain accumulation, under-sampling of long-term earthquakes in the used
earthquake catalog, or a combination of these factors. However, the value of the
moment deficit in the seismogenic zone has implications for earthquake hazard in
the Banda Arc area. The convertion results of the moment deficit into moment
magnitude indicate earthquake potential which equivalent to Mw 7.7 – 8.1. These
results are expected to be input into the process of earthquake disaster risk
reduction in the Banda Arc area.
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