Analysis of Magnetic Susceptibility in Vertical Sediments in the Fish Pond Area of Limboto Lake
DOI:
10.29303/jpm.v19i6.7829Published:
2024-11-30Downloads
Abstract
Limboto Lake is one of the lakes in Indonesia that has been degraded due to sedimentation and waste disposal, which will affect the lake ecosystem and its surroundings. This research aims to analyze the Magnetic Susceptibility in Vertical Sediments in the fish pond area of Limboto Lake. Efforts must be made to trace sediment's contribution, which is controlled by lithogenic and anthropogenic components. Vertical sediment samples from Fish Ponds in Limboto Lake were taken at one point with a depth of 15 meters using an XY-1A Spindle drilling machine. This type of research uses survey techniques and laboratory tests that use rock magnetism methods, especially susceptibility parameter analysis using the Bartington MS2 susceptibility meter instrument at a low frequency of 470 Hz and a high frequency of 4700 Hz to obtain information on the concentration of magnetic minerals. The sediment samples tested did not go through preparation, such as sieving and drying, but the unsifted samples were put into the plastic holder to analyze the susceptibility magnetic parameter. The measurement results show that the low-frequency magnetic susceptibility (XLF) value ranges from 1.11 x 10-8 m3/kg to 9.68 x 10-8 m3/kg. The concentration of magnetic minerals in this sample contains paramagnetic minerals, and based on the XFD % value, which ranges from 0.206% to 4.714% with an average value of 1.170%, the magnetic minerals in the samples tend to be dominated by coarse-grained non-superparamagnetic minerals (>0.03 µm) and tend to occupy stable single-domain (SSD) and multi-domain (MD) domains. Magnetic susceptibility parameters tested using sediment samples without going through a sieving process can be used to determine sediment characteristics in lake areas that tend to be controlled by anthropogenic components.
Keywords:
Fish Pond; Limboto Lake; Magnetic Susceptibility; Vertical SedimentReferences
Ehiemere, V. C., Ihedioha, J. N., Ekere, N. R., Ibeto, C. N., & Abugu, H. O. (2022). Pollution and risk assessment of heavy metals in water, sediment and fish (Clarias gariepinus) in a fish farm cluster in Niger Delta region, Nigeria. Journal of Water and Health, 20(6), 927-945.
Simatupang, K. H., Arlan, A., & Felicia, A. (2022). Urgensi Penyelamatan Danau Prioritas di Indonesia: Studi Kasus Upaya dan Komitmen Penyelamatan Lingkungan Hidup Danau Toba. Journal of Tourism and Creativity, 6(3), 216-223.
Baga, M., Jahja, M., Sakakibara, M., & Kasamatsu, H. (2024). Cultural Fluctuation of Lake Communities by the Shrinkage of Lake Limboto, Indonesia. Sustainability, 16(2), 704.
Yunginger, R., Patuti, I. M., Supu, I., Gafur, N. A., Zulkifli, M., Hasan, E., ... & Tisen, T. (2024). Morphometric characteristics of Lake Limboto as critical lake in Gorontalo Province, Indonesia. Jurnal Natural, 24(2), 99-106.
Trisakti, B. (2013). Kajian Penentuan Luas Permukaan Air Danau Dan Sebaran Vegetasi Air Dengan Metoda Penginderaan Jauh. LIMNOTEK, 20(1), 10-20.
Kimijima, S., Sakakibara, M., Amin, A. K. M. A., Nagai, M., & Indriati Arifin, Y. (2020). Mechanism of the rapid shrinkage of limboto lake in Gorontalo, Indonesia. Sustainability, 12(22), 9598.
Putra, S. S., Hassan, C., & Suryatmojo, H. (2013). Reservoir saboworks solutions in Limboto Lake Sedimentations, Northern Sulawesi, Indonesia. Procedia Environmental Sciences, 17, 230-239.
Sembiring, A. E., Mananoma, T., Halim, F., & Wuisan, E. M. (2014). Analisis Sedimentasi Di Muara Sungai Panasen. Jurnal Sipil Statik, 2(3).
Fitrani, M., Girsang, G. E., & Wijayanti, M. (2022). Karakteristik Fisika Dan Kimia Sedimen Tambak Ikan Bandeng Di Banyuasin Sumatera Selatan. Jurnal Akuakultur Rawa Indonesia, 10(2), 138-149.
Amanina, F. T., Muskananfola, M. R., & Ayuningrum, D. (2023). Isolasi Dan Penapisan Aktinomisetes Yang Berpotensi Menghasilkan Enzim Protease Dari Tambak Ikan Bandeng (Chanos Chanos) Di Kecamatan Tugu, Semarang. Saintek Perikanan: Indonesian Journal of Fisheries Science and Technology, 18(4).
Dearing, J. A. (1999). Environmental Magnetic Susceptibility: Using the Bartington MS2 System.
Nurhidayah, T., Maslukah, L., Wulandari, S. Y., & Kurnia, K. (2020). Distribusi Vertikal Logam Pb, Zn, Cr dan Keterkaitannya Terhadap Karbon Organik Sedimen di Pantai Marunda, Jakarta.
Yunginger, R., Bijaksana, S., Dahrin, D., Zulaikah, S., Hafidz, A., Kirana, K. H., ... & Fajar, S. J. (2018). Lithogenic and anthropogenic components in surface sediments from Lake Limboto as shown by magnetic mineral characteristics, trace metals, and REE geochemistry. Geosciences, 8(4), 116.
Yunginger, R., Supu, I., Zulaikah, S., Wijaya, A., Ramadani, A. I. W. S., & Mariyanto, M. (2022). Investigasi sumber mineral magnetik pada sedimen Sungai Biyonga sebagai inlet Danau Limboto menggunakan parameter suseptibilitas magnetik. POSITRON, 12(1), 18-28.
Dearing, J. A., Dann, R. J. L., Hay, K., Lees, J. A., Loveland, P. J., Maher, B. A., & O'grady, K. (1996). Frequency-dependent susceptibility measurements of environmental materials. Geophysical Journal International, 124(1), 228-240.
Pratiwi, R. A., Prakoso, A. G., Darmasetiawan, R., Agustine, E., Kirana, K. H., & Fitriani, D. (2016, October). Identifikasi sifat magnetik tanah di daerah tanah longsor. In Prosiding Seminar Nasional Fisika (E-Journal) (Vol. 5, pp. SNF2016-EPA).
Daryanti, N. Y., Zulaikah, S., Mufti, N., & Haryati, D. S. (2018). Suseptibilitas Magnetik dan Kelimpahan Mineral Magnetik pada Tanah Sawah di Lawang dan Soekarno-Hatta, Malang. JPSE (Journal of Physical Science and Engineering), 3(1), 48-54.
Yusuf, Y., Lukman, U., & Rahmi, F. (2011). Analisis Sedimen Sekitar Keramba Jaring Apung di Perairan Danau Maninjau Terhadap Kandungan Logam Berat Fe, Cu, Pb dan Cd. Jurnal Riset Kimia, 5(1), 94-94.
Gaikwad, V., Badesab, F., Dewangan, P., & Kotha, M. (2021). Diagenesis of magnetic minerals in active/relict methane seep: Constraints from rock magnetism and mineralogical records from Bay of Bengal. Frontiers in Earth Science, 9, 638594.
Novala, G. C., Kirana, K. H., Fajar, S. J., & Bijaksana, S. (2019, April). Testing the effectiveness of mechanical magnetic extraction in riverine and lacustrine sediments. In Journal of Physics: Conference Series (Vol. 1204, No. 1, p. 012085). IOP Publishing.
Ningsih, R. S., Anda, P., & Irawati, I. (2021). Analiasis Suseptibilitas Magnetik Dan Kandungan Logam Berat Pada Tanah Perkebunan Jambu Mete Di Kecamatan Puriala Kabupaten Konawe. Jurnal Rekayasa Geofisika Indonesia, 3(02), 53.
Bijaksana, S., Yunginger, R., Hafidz, A., & Mariyanto, M. (2019). Magnetic mineral characteristics, trace metals, and REE geochemistry of river sediments that serve as inlets to Lake Limboto, Sulawesi, Indonesia. Data in brief, 26, 104348.
Hunt, C. P., Moskowitz, B. M., & Banerjee, S. K. (1995). Magnetic properties of rocks and minerals. Rock physics and phase relations: A handbook of physical constants, 3, 189-204.
Szczepaniak-Wnuk, I., Górka-Kostrubiec, B., Dytłow, S., Szwarczewski, P., Kwapuliński, P., & Karasiński, J. (2020). Assessment of heavy metal pollution in Vistula river (Poland) sediments by using magnetic methods. Environmental Science and Pollution Research, 27, 24129-24144.
Liu, Q., Deng, C., Yu, Y., Torrent, J., Jackson, M. J., Banerjee, S. K., & Zhu, R. (2005). Temperature dependence of magnetic susceptibility in an argon environment: implications for pedogenesis of Chinese loess/palaeosols. Geophysical Journal International, 161(1), 102-112.
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Copyright (c) 2024 Bunga Tang, Raghel Yunginger, Muhammad Yunus, Indriati Martha Patuti, Nurfitri Abdul Gafur, Mohamad Jahja, Andi Indra Wulan Sari Ramadani, Icha Untari Meidji, Idawati Supu
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