Gravity anomaly to identify Walanae fault using second vertical derivative method
Abstract
Research has been conducted to identify the Walanae Fault, coordinates 4–6 S and 118-120 E using anomalous gravity data. This research uses data measurement of Topography and the Free Air Anomaly from the TOPEX/Poseidon satellite. Then the authors processed to obtain the bouguer anomalies and made modeling by using the Surfer 10. The authors used the Second Vertical Derivative (SVD) with filter Elkins of Moving Average then analyze the graph of the SVD. The results shows the value of the residual anomaly in the north of fault is 25.21 mGal, in the middle occur range 17.67 mGal to 24.98 mGal and 30,376 mGal in the south of fault. The authors indicates the existence of a difference between the gravity between the Walanae Fault with surrounding geologic. From these results also show that Walanae Fault has a reverse fault mechanism in the northern part and the normal fault mechanism in the middle to the south, the authors conclude that the Walanae Fault is divided into two segments, that is the northern and the southern segment.
Keywords
Full Text:
PDFReferences
Ismullah, Muhammad Fawzy., Lantu., Aswad, Sabrianto., Massinai, Muhammad Altin. (2014). Tectonics Earthquake Distribution Pattern Analysis Based Focal Mechanisms (Case Study Sulawesi Island, 1993–2012). Proceeding of American Institute of Physics, Bandung.
Mankhemthong N, Doser DI, Baker MR. (2012). Practical Estimation of Near-surface Bulk Density Variations Across the Border Ranges Fault System, Central Kenai Peninsula, Alaska. J Environ Eng Geophys. 17(3):51–158. doi: 10.2113/JEEG17.3.151.
Massinai, Muhammad Altin., Sudrajat, Adjat., Lantu. (2013). The Influence of Seismic Activity in South Sulawesi Area to the Geomorphology of Jeneberang Watershed. Journal of Engineering and Technology, Vol 3, No.10, 945-948.
Elkins Thomas A. (1951). The Second Derivative Method Of Gravity Interpretation. Gulf Research & Development Company, Pittsburgh, Pannsylvania, Vol. 16: Issue. 1, 29-50. Doi.org/10.1190/1.1437468
Parasnis DS. (1951). A study of rock densities in English Midlands. Geophys J Int. 6:252–271. doi: 10.1111/j.1365-246X.1952.tb03013.x.
Reynolds, J. M. (1997). An Introduction to Applied and Environmental Geophysics. John Wiley and Sons Inc. England.
S Hall, R. & Wilson, M. E. J. (2000). Neogene sutures in eastern Indonesia. Journal of Asian Earth Sciences. 18, 781–808.
Sukamto, R., dan Supriatna, S. (1982). Geologi Lembar Pangkajene dan Watampone Bagian Barat Sulawesi. Pusat Penelitian dan Pengembangan Geologi Direktorat Jenderal Pertambangan Umum Depatemen Pertambangan dan Energi. Bandung. Indonesia.
Surono dan Hartono, Udi. (2015). Geologi Sulawesi. LIPI Press. Jakarta.
Sompotan, Armstrong F. (2012). Struktur Geologi Sulawesi. Perpustakaan Sains Kebumian Institut Teknologi Bandung. Bandung.
Refbacks
- There are currently no refbacks.