This study aims to determine the Types of Magnetic Minerals in Bone River Sediments in the Mining Area of Tulabolo Village. The XRF test was used to identify Magnetic Mineral elements in Bone River Sediments, and electrical conductivity (EC), pH, and temperature parameters for in situ measurements of Bone River water samples and measures of mineral types was carried out on prepared sediment samples. The results showed that direct measurements on water samples showed that the values of EC, pH, and temperature were (1,620-1,900) µS/cm, (5-7), and (25.0-25.9)oC, respectively. While the results of measurements using XRF elements that have the most significant percentage are elements (Si), especially at the S10 point of 58.84% diamagnetic minerals, elements (Fe), especially at the S7 point of 22.80%, element (Al) at the S10 point of 8, 11%, elements (Ti) at point S1 1.84% which are ferromagnetic minerals. Elements (Ca) at end S2 of (2.67%), elements (K) at point S1 of 1.50% paramagnetic minerals.

Arifin, Muhammad Zainul, & Mh Sh. 2017. "Kewenangan Pemberian Izin Usaha Dalam Bidang Pertambangan Mineral Dan Batubara Berdasarkan Peraturan Menteri Nomor 34 Tahun Artikel"

Bagindo, I, R, Arif. 2019. Analisis Suseptibilitas Magnetik Tanah Lapisan Atas sebagai Parameter Kesuburan Tanah pada Lahan Pertanian. Jurnal Fisika Unand Vol. 8, No. 2.UniversitasA ndalas. Padang.

Beri, Deski, & Hary Sanjaya. 2012 "Analisis Instrumen 2: XRD, XRF, SEM, DTA, TGA, dan DSC"

Dearing, J. 1999. Environmental Magnetic Susceptibility (Second edi). Bartington Instruments.

Devanesan, E., Chandrasekaran, A. , Sivakumar, S., Freny Joy, K. M., Najam, L. A., & Ravisankar, R., 2020. Magnetic Susceptibility as Proxy for Heavy Metal Pollution Detection in Sediment, Iranian Journal of Science and Technology, Transaction A: Science, 44, pp. 875-888.

Gunawan, H., & Budiman, A. 2014. Penentuan Persentase Dan Nilai Suseptibilitas Mineral Magnetik Bijih Besi Yang Berasal Dari Tiga Lokasi Tambang Bijih Besi Di Sumatera Barat. Jurnal Fisika Unand, 3(4), 249–254.

Hakim, Fathul. 2020. Uji Reliabilitas Metode Suseptibilitas Magnetik dalam Memonitoring Logam Berat pada Sedimen Dasar Sungai Krueng Aceh. Diss. UIN Ar-Raniry.

Intanasri, Zahra Rizky. 2018. "Keamanan Pangan Dan Pola Konsumsi Masyarakat Pada Pencemaran Air Di Sungai Bone." Skripsi 1.811413030.

Istarani, Festri Festri, & Ellina S. Pandebesie. 2014. "Studi Dampak Arsen (As) Dan Kadmium (Cd) Terhadap Penurunan Kualitas Lingkungan." Jurnal Teknik Its 3.1 : D53-D58.

Kirana & Kartika Hajar. 2020. "Karakterisasi Mineral Magnetik Sedimen Sungai Citarum Hilir Melalui Analisa Sifat Magnetik, Mineralogi serta Morfologi Magnetik." POSITRON 10.2: 131-139.

Kind, J., Raden, U. J. V., García-Rubio, I., & Gehring, A. U., 2012. Rock magnetic techniques complemented by ferromagnetic resonance spectroscopy to analyse a sediment record, Geophysical Journal International, 191(1), pp. 51-63.

Lukman & Muhammad. 2014. "silikat terlarut di perairan pesisir sulawesi selatan dissolved silicate in coastal water of south sulawesi."

Marandi, A., Poli karpus, M., & Jõeleht, A., 2013. A new approach for describing the relationship between electrical conductivity and major anion concentration in natural waters, Applied Geochemistry, 38, pp. 103-109.

Mahmud, Marike. 2012. Model sebaran spasial temporal konsentrasi merkuri akibat penambangan emas tradisional sebagai dasar monitoring dan evaluasi pencemaran di ekosistem Sungai Tulabolo Provinsi Gorontalo. Diss. Universitas Gadjah Mada.

Nagari, Primasa Minerva, Tatas Ridho Nugroho, & Hari Setiono. 2019. "Pengaruh Corporate Social Responsibility Terhadap Profitabilitas Dan Dampaknya Terhadap Nilai Perusahaan Sektor Pertambangan Di Bursa Efek Indonesia Tahun 2016-2018." PRIVE: Jurnal Riset Akuntansi dan Keuangan 2.2 : 90-105.

Nurpadillah, Sifa. 2019. "Kajian Sebaran Mineral Magnetik Sedimen Sungai Menggunakan Metoda Kemagnetan Batuan." JPF (Jurnal Pendidikan Fisika) Universitas Islam Negeri Alauddin Makassar 7.1 : 36-47.

Pamungkas, Helmi Setia Ritma, Hasroel Thayib, & Inswiasri Inswiasri. 2015. "Potensi Sebaran Limbah Merkuri Pertambangan Emas Rakyat Di Desa Cisungsang, Kabupaten Lebak, Banten." Indonesian Journal of Health Ecology 14.3: 195-205.

Putri, D., & Afdal, A. 2017. Identifikasi Pencemaran Logam Berat dan Hubungannya dengan Suseptibilitas Magnetik pada Sedimen Sungai Batang Ombilin Kota Sawahlunto. Jurnal Fisika Unand, 6(4), 341–347. https://doi.org/10.25077/jfu.6.4.341-347.

Petrovský, E., Kapička, A., Jordanova, N., Knab, M., & Hoffmann, V., Low-field 2000. magnetic susceptibility: A proxy method of estimating increased pollution of different environmental systems, Environmental Geology, 39(3-4), pp. 312-318.

Pantouw, Indah Amanah Poetri Soe dasno Oei, & Ahmad. 2022. "PERLINDUNGAN HUKUM TERHADAP MASYARAKAT AKIBAT PENAMBANGAN EMAS DI SUNGAI TULABOLO YANG TERCEMAR MERKURI." Borneo Law Review 6.2, 187-204.

Rahmawati, Baharuddin Hamzah, & Siti Nuryanti. 2015. "Analisis kadar timbal (Pb) dalam daging kerang bakau (Poly meso daerosa) dan kerang darah (Anadaragranosa) di Perairan Salule Pasang kayu Sulawesi Barat." Jurnal Akademika Kimia 4.2 : 78-83.

Salim, H. S. 2006. "Hukum Pertambangan di Indonesia."

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, Vol. 1899 No. 1, p. 012124.

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., Idawati, S., Siti, Z., Arif, W., Andi, I.W.R., & Mariyanto., 2022. Investigasi Sumber Mineral Sungai Biyonga Sebagai Inlet Danau Limboto Menggunakan Parameter Suseptibilitas Magnetik. Universitas Negeri Gorontalo.