STUDI MINERAL MAGNETIK TANAH TPA ANTANG MAKASSAR BERDASARKAN DATA SUSEPTIBILITAS MAGNETIK

Anastacya Boroallo, Vistarani Arini Tiwow, Sulistiawaty Sulistiawaty

Abstract


ABSTRAK

Telah dilakukan penelitian untuk mengetahui nilai suseptibilitas magnetik pada tanah di TPA Antang Makassar berdasarkan sebaran. Suseptibilitas magnetik diukur menggunakanbartington MS2 Magnetic susceptibility meter dengan sensor MS2B yang bekerja pada dua frekuensi. Pengukuran suseptibilitas magnetik dilakukan dengan mengambil  sampel pada 30 titik dengan jarak yang tidak ditentukan atau secara random. Hasil penelitian menunjukkan bahwa nilai suseptibilitas magnetik di TPA Antang  Makassar bervariasi dengan rentang 1,442 m3/kg hingga 33,523  m3/kg dan suseptibilitas magnetik bergantung frekuensi  berada pada rentangan 2,32% hingga 6,51% rentangan nilai suseptibilitas magnetik tersebut mengindikasikan sampel mengandung mineral magnetik yang bersifat antiferomagnetik dan paramagnetik. Dimana domain magnetik pada sampel tanah TPA yaitu superparamagnetik (SP) dan stable single domain (SSD).

 

Kata kunci: tanah; suseptibilitas magnetik; mineral magnetik;TPA.

 

ABSTRACT

Research has been carried out to determine the value of magnetic susceptibility on soil at TPA Antang Makassar based on distribution. Magnetic susceptibility was measured using a bartington MS2 Magnetic susceptibility meter with an MS2B sensor that works on two frequencies. Magnetic susceptibility measurements were carried out by taking samples at 30 points with an undetermined distance or randomly. The results showed that the magnetic susceptibility values in Antang TPA Makassar varied with the range of 1.442m3/kg to 33.523 m3/kg and the frequency-dependent magnetic susceptibility was in the range of 2.32% to 6.51%. The range of magnetic susceptibility values indicated that the sample contained magnetic minerals. which are antiferromagnetic and paramagnetic.The magnetic domains in the soil samples are superparamagnetic (SP) and stable single domain (SSD).

 

Keywords: soil; magnetic susceptibility; magnetic minerals; landfill


Keywords


soil; magnetic susceptibility; magnetic minerals; landfill

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References


Akbar, F., Rahmawati, S., Wacano, D., Studi, P., Lingkungan, T., & Indonesia, U. I. (2016). Analisis Kandungan Logam Berat Di Dalam Tanah Tpa Gunung Tugel Banyumas. International Journal of Pharmaceutical Sciences Review and Research, 10(1), 3

Apriyani, N., & Lesmana, R. Y., (2018). Pengaruh Air Lindi Terhadap pH dan Zat Organik pada Air Tanah di Tempat Penampungan Sementara Kelurahan Pahandut Kota Palangkaraya. J Manusia & Lingkungan, 25(2), 60–65. https://doi.org/10.22146/jml.39489

Arsyad, M., Tiwow, V. A., Rampe, M. J., & Rampe, H. L. (2022). Relationships of Magnetic Properties and Heavy Metals Content of Guano in Bat Cave, South Sulawesi, Indonesia. Karbala International Journal of Modern Science, 8(3), 406–414. https://doi.org/10.33640/2405-609X.3254

Bijaksana, S., Huliselan, E., Safiuddin, L. O., Fitriani, D., Tamuntuan, G., & Agustine, E. (2013). Rock Magnetic Methods in Soil and Environmental Studies: Fundamentals and Case Studies. Procedia Earth and Planetary Science, 6, 8–13. https://doi.org/10.1016/j.proeps.2013.01. 001

Darlan, Y. (2012). Gas Biogenik Dan Unsur Mineral Pada Sedimen Delta Kapuas Kalimantan Barat Biogenic Gas And Elements Of Mineral On Sediment Of The Kapuas Delta West Kalimantan. Jurnal Geologi Kelautan, 10(3), 133–146

Daryanti, N. Y., Zulaikah, S., & Mufti, N. (2020). Suseptibilitas Magnetik dan Kelimpahan Mineral Magnetik pada Tanah Sawah di Lawang dan Soekarno-Hatta, Malang. Journal of Physical Science and Engineering, 3(2), 48–54. https://doi.org/10.17977/um024v3i22018p048

Dearing, J. A., Dann, R. J. L., Hay, K., Lees, J. A., Loveland, P. J., Maher, B. A., & O’Grady, K. (1996). FrequencyDependent Susceptibility Measurements of Environmental Materials. Geophysical Journal International, 124(1), 228–240. https://doi.org/10.1111/j.1365246X.1996.tb06366.x

Dearing, J., & Dearing, J. A. (1999). Environmental Magnetic Susceptibility Using the Bartington MS2 System

Hakim, A. R., Susilo, A., & Maryanto, S. (2014). Indikasi Penyebaran Kontaminan Sampah Bawah Permukaan dengan Menggunakan Metode Magnetik (Studi Kasus: TPA Supit Urang, Malang). Natural B, 2(3), 281–289. https://doi.org/10.21776/ub.naturalb.2014.002.03.13

Iswanto, B. H., & Zulaikah, S. (2019). Selection Method to Identify the Dominant Elements that Contribute to Magnetic Susceptibility in Sediment. Journal of Physics: Conference Series, 1402(4), 044087. https://doi.org/10.1088/17426596/1402/4/044087

Kapicka,A., Jordanova,N., Petrovsky, E., & Podrazsky, V. (2003). Magnetic Study of Weakly Contaminated Forest Soils. Magnetic susceptibility variation of MSW compost- amended soils : In situ method for monitoring heavy metal contamination. Water Air and Soil Pollution, 155–160.https://doi.org/10.1023/A:1025429928763

Kirana, K., Aufa, N., Huliselan, E., & Bijaksana, S. (2011). Magnetic and Electrical Properties of Leachate. ITB Journal of Science, 43 A(3), 165–178. https://doi.org/10.5614/itbj.sci.2011.43.3. 2

Kirana, K. H., Fitriani, D., Supriyana, E., & Agustine, E. (2014). Sifat Magnetik Sedimen Sungai Sebagai Indikator Pencemaran (Studi Kasus : Sungai Citarum Kabupaten Karawang). Jurnal Spektra, 15(2), 99–101

Pinem, J. A., Ginting, M. S., & Peratenta, M. (2014). Pengolahan Air Lindi TPA Muara Fajar dengan Ultrafiltrasi. Jurnal Teknobiologi, V(1), 43–46

Prakoso, A. G., Darmasetiawan, R., Pratiwi, R. A., Widjatmoko, B., Kirana, K. H., & Fitriani, D. (2016). Sifat Magnetik Tanah Dan Daun Sebagai Indikator Pencemaran. Prosiding Seminar Nasional Fisika (E-Journal), V. https://doi.org/10.21009/0305020601

Ramdani, B., & Budiman, A. (2015). Penentuan Nilai Suseptibiltas Magnetik Guano yang Berasal dari Gua Baba Kecamatan Lubuk Kilangan Kota Padang. Jurnal Fisika Unand, 4(1), 97–102. https://doi.org/10.25077/jfu.4.1.%25p.2015

Tiwow, V. A., Subaer, Sulistiawaty, Malago, J. D., Rampe, M. J., & Lapa, M. (2021). Magnetic Susceptibility of Surface Sediment in the Tallo Tributary of Makassar city. Journal of Physics: Conference Series, 1899(1), 012124. https://doi.org/10.1088/17426596/1899/1/012124

Tiwow, V. A., Rampe, M. J., & Sulistiawaty, S. (2022). Suseptibilitas Magnetik dan Konsentrasi Logam Berat Sedimen Sungai Tallo di Makassar. Jurnal Ilmiah Sains, 22(1), 60–66.https://doi.org/10.35799/jis.v22i1.38681

Tiyurma, A., & Budiman, A. (2020). Analisis Nilai Suseptibilitas Magnetik Tanah Permukaan Daerah Potensi Longsor di Bukit Gado-Gado Padang. Jurnal Fisika Unand, 9(2), 209–216.https://doi.org/10.25077/jfu.9.2.209-216.2020

Yoshida, M., Jedidi, N., Hamdi, H., Ayari, F., Hassen, A., & M’Hiri, A. (2003). Magnetic susceptibility variation of MSW compost-amended soils: In-situ method for monitoring heavy metal contamination. Waste Management and Research, 21(2), 155–160. https://doi.org/10.1177/0734242X0302100209




DOI: https://doi.org/10.31764/orbita.v9i1.11663

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