Author:
Adii Jonathan,Kusumawati Dian,Falevi Cevian,Sahara David P
Abstract
Abstract
Present day Molucca or Maluku sea plate in the eastern of Indonesia possesses a complex tectonic setting. This complex tectonic setting has been formed due to the collision of an actively moving Eurasian plate and Philippine sea plate toward the Maluku sea plate. At the west, Maluku sea plate is subducting beneath Sangihe arc, which began in the early Miocene. While at the east, Maluku sea plate is subducting under Halmahera arc, since in the middle Miocene. These subduction processes take place up to the present. Therefore, it has formed Maluku sea plate into an inverted U-shape slab under a thickening accretionary complex. Seismicity distribution has clearly shown the U-shape slab. Earthquake events take place on the subducting slab, and interestingly on the above accretionary complex as well. Maluku sea plate might pose hazards to surrounding islands: northern Sulawesi, Halmahera island, Sangihe island and Talaud island. The possible hazard, for instance, a thrusting earthquake which may generate tsunami to the nearby islands. Hence, understanding its tectonic and seismicity signature, especially at the shallow part, are indeed important in the Maluku sea region. Faulting regime could be analyzed using focal mechanism ternary diagram analysis, by categorizing the focal mechanisms’ strike, dip and rake values. Thus, in this study we aim to analyze faulting regime and hazard potential in the complex. Maluku setting using ternary diagram analysis.
Reference15 articles.
1. Geodynamic evolution of the northern Maluku Sea area (Eastern Indonesia) constrained by 3-D gravity field inversion;Widiwijayanti;Tectonophysics,2004
2. Plate boundary evolution in the Halmahera region, Indonesia;Hall;Tectonophysics,1987
3. The spatial distribution of earthquakes, focal mechanism solutions, and subducted lithosphere in the Philippine and northeastern Indonesian islands;Cardwell;GMS,1980
4. Crustal structure of the Maluku Sea collision zone, Indonesia in: D. E. Hayes (Editor) The Tectonic and Geologic Evolution of South-East Asian Seas and Islands;McCaffrey;Am. Geophys Union Monogr.,1980