Studi Mekanisme Sedimentasi Formasi Dolokapa, Gorontalo

Tedy Harianto Salama, Sri Maryati, Intan Noviantari Manyoe

Abstract


The Dolokapa Formation is a sedimentary rock formation formed in a deep-sea depositional environment with a fairly complex level of deformation and tectonic arrangement. Analysis of the sedimentation mechanism is carried out to determine how much tectonic influence on the mechanisms that occur in a depositional environment and the variations in the sedimentation mechanism formed. Research on the sedimentation mechanism needs to be carried out to determine the history of the formation of Gorontalo sedimentary rocks, especially in the Dolokapa Formation which was formed during the Miocene. The purpose of this study is to know the mechanisms of deep-marine sedimentation based on the identification of lithological characteristics, layer stacking patterns, and sedimentary structures. The method used was measuring sections using a range of ropes divided into four measurement paths. After that, a correlation was performed based on the genesis of deep marine formation. Based on the results of processing and analysis of the data, obtained units of lithology that insertion silty-clay, and the sandstone graining insertion of silt. In vertical succession, the layering pattern formed generally thickens upwards which describes the energy of the depositional currents. The sedimentary structure consists of rip up-clast, parallel lamination, graded bedding, convolute, slump, and trace fossils of nereites trace fossils of nereites that characterize the sedimentation of traction currents and turbidite currents in the deep-sea environment. The sedimentation mechanism formed is the traction current mechanism which is a further development of turbidite current and high-low concentration turbidity current mechanism that occurs slowly on a suspension-controlled grain. The stratigraphic relationship of the rock units in the research area is aligned based on the genesis formation that is located in the setting of the deep marine.


Keywords


Claystone; Convolute; Nereites; Sandstone; Traction; Turbidite

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References


Amin, A. K. M. A., Sakakibara, M., Arifin, Y. I., & Akase, N. (2020). Facies Study of Lake Deposits Formation (Qpl) To Determine Deposition Environment of Ancient Limboto Lake: a Preliminary Result. In IOP Conference Series: Earth and Environmental Science (Vol. 589, No. 1, p. 012007). IOP Publishing.

Bachri, S. (2006). Stratigrafi lajur volkano-plutonik daerah gorontalo, sulawesi. Jurnal Geologi Dan Sumberdaya Mineral, 16(2), 94-106.

Bouma, A. H. (1962). Sedimentology of some flysch deposits. Agraphic approach to facies interpretation, 168.

Kasim, M., Zainuri, A., & Nurfaika, N. (2016). Petrogenesis of Andesitic Rocks In Sumalata, North Gorontalo. International Journal of Engineering and Science Applications, 1(1), 37-42.

Ma’arif S.G., & Novian M.I. (2015). Mekanisme Dan Dinamika Sedimentasi Formasi Tapak Bagianbawah Di Daerah Kalisalak, Kecamatan Margasari, Kabupaten Tegal, Provinsi Jawa Tengah. In Proceeding, Seminar Nasional Kebumian Ke-8 Academia-Industry Linkage, 291–301.

Miall, A. D. (1992). Hierarchies of architectural units in terrigenous clastic rocks, and their relationship to sedimentation rate.

Nelson, C. H., & Nilsen, T. H. (1984). Modern and ancient deep-sea fan sedimentation: Society of Economic Paleontologists and Mineralogists (now Society for Sedimentary Geology) Short Course 14. Tulsa, Oklahoma.

Pickering, K. T., & Hiscott, R. N. (2015). Deep marine systems: processes, deposits, environments, tectonics and sedimentation. John Wiley & Sons.

Permana, A. P., & Eraku, S. S. (2020). Analisis kedalaman laut purba batu gamping Gorontalo berdasarkan kandungan fosil foraminifera bentonik. Bioeksperimen: Jurnal Penelitian Biologi, 6(1), 17-23.

Pettijohn, F. J. (1975). Sedimentary rocks (Vol. 3). New York: Harper & Row.

Rahman, M. R., Zainuri, A., & Manyoe, I. N. (2019). Analisis Stratigrafi Dan Rumusan Sejarah Geologi Daerah Limbato Dan Sekitarnya, Kabupaten Gorontalo Utara, Provinsi Gorontalo. Jurnal Azimut, 2(1), 65-71.

IAGI. (1996). Sandi Stratigrafi Indonesia. Ikatan Ahli Geologi Indonesia, 14.

Shanmugam, G., & Moiola, R. J. (1994). Deep-water sandstones of the Pennsylvanian Jackfork Group, Ouachita Mountains: a debris-flow-and slump-dominated slope system.

Saputra, M., Abdurrokhim., Haryanto, I. (2017). Litofasies, Asosiasi Fasies Dan Lingkungan Pengendapan Laut Dalam Bagian Slope – Continental Rise Formasi Halang Pada Sebagian Lintasan Sungai Cilutung Dan Cikidang, Daerah Bantarujeg, Majalengka, Jawa Barat. Padjajaran Geoscience Journal, 01(01), 59–66.

Surjono, S, S., & Amijaya, D, H. (2017). Sedimentologi. Gadjah Mada University Press

Tucker, C. J., Newcomb, W. W., Los, S. O., & Prince, S. D. (1991). Mean and inter-year variation of growing-season normalized difference vegetation index for the Sahel 1981-1989. International Journal of Remote Sensing, 12(6), 1133-1135.

Wentworth, C. K. (1922). A scale of grade and class terms for clastic sediments. The journal of geology, 30(5), 377-392.




DOI: https://doi.org/10.34312/jgeosrev.v3i2.8475



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