Situ Cisanti located at Tarumajaya Village, Kertasari District, Bandung Regency, West Java. Situ Cisanti has significant role in supporting the lives of the surrounding community, especially as the central source of clean water. This research was conduct to identify the water quality of Situ Cisanti by mapping the parameters of pH, Electrical Conductivity (EC), and Total Dissolved Solids (TDS). Measurement was take using Combometer Hanna Grocheck HI 9813-6 at 69 points spread over the research area. The result of pH measurement in Situ Cisanti has a range value from 7,7 to 9,7 with an average value of 9. The EC measurement range value is 0,1 mS/cm to 0,9 mS/cm with an average value of 0,13 mS/cm. The TDS measurement range value is 83 mg/L to 141 mg/L, while the average is 100,78 mg/L. Most of the pH values in the study area meet the quality standards for hygiene sanitation water, while the EC and TDS values are below the threshold value, considering it safe for health.

Alzwar, M., Akbar, N., & Bachri, S. (1992). Peta Geologi Lembar Garut dan Pameungpeuk, Jawa, skala 1: 100.000. Puslitbang Geologi, Bandung.

Arlindia, I. & Afdal. Analisis Pencemaran Danau Maninjau dari Nilai TDS dan Konduktivitas Listrik. Jurnal Fisika Unand, 4(4), 326.

Davis, S.N. & De Weist, R.J.M. 1966. Hydrogeology. New York, John Wiley and Sons.

Diana, D., & Pasha, G. K. (2015). Pelestarian dan Peran Masyarakat di Kawasan Sekitar Situ Cisanti. Sosiohumanika, 8(2).

Djuhariningrum, T. (2005). Penentuan Total Zat Padat Terlarut Dalam Memprediksi Kualitas Air Tanah Dari Berbagai Contoh Air. Pusat Pengembangan Geologi Nuklir-Batan.

Fathurrohim. M. F. (2022). Kualitas Lingkungan Perairan Situ Cisanti

Berdasarkan Kelimpahan dan Keanekaragaman Zooplankton. EduBiologia Biological Science and Education Journal, 2(2), 87-88.

Kirana, K. H., Novala, G. C., Fitriani, D., Agustine, E., Rahmaputri, M. D., Fathurrohman, F., Rizkita, N. R., Andrianto, N., Juniarti, N., Zaenudinna, R. A., Nawawi, M. R., Mentari, V. Z., Nugraha, M. G., & Mulyadi, Y. (2019). Identifikasi Kualitas Air Sungai Citarum Hulu Melalui Analisa Parameter Hidrologi dan Kandungan Logam Berat (Studi Kasus: Sungai Citarum Sektor 7). Wahana Fisika, 4(2), 120–128.

Komarawidjaya, W., Riyadi, A., & Titiresmi. (2016). Status Kualitas Perairan Situ Cisanti - Gunung Wayang, Subdas Cirasea Citarum Hulu. Jakarta, Badan Pengkajian dan Penerapan Teknologi.

Largueche, F.Z.B. 2006. Estimating Soil Contamination with Kriging Interpolation Method. American Journal of Applied Sciences, 3(6), 1894-1898.

Menkes RI. (1990). Peraturan Menteri Kesehatan Republik Indonesia Nomor: 416/Menkes/PER/IX/1990 Tentang Syarat-Syarat dan Pengawasan Kualitas Air. Jakarta: Kementerian Kesehatan RI.

Pemerintah Indonesia. Peraturan Pemerintah (PP) Nomor 22 Tahun 2021 tentang Penyelenggaraan Perlindungan dan Pengelolaan Lingkungan Hidup. Lembaga Negara RI Tahun 2021. Sekretariat Negara. Jakarta.

Ramadan, A. Z., Ramadhan, F., Sihombing, F. R., Rahman, J. S., Hutabalian, M. A., Rohman, M. A., Rizki, M. I., Carrisa, R., Hendrayani, R., Hanifah, S. D., Fitriani, D., & Kirana, K. H. (2023). Pemetaan Batimetri Dan Simulasi Kenaikan Muka Air Di Situ Cisanti Menggunakan Dual Beam Sonar. Bulletin of Scientific Contribution: GEOLOGY, 21(2), 56–57.

Ridwan, M., & Pamungkas, D. W. (2015). Keanekaragaman Vegetasi Pohon di Sekitar Sumber Mata Air di Kecamatan Panekan, Kabupaten Magetan, Jawa Timur. Pros Sem Nas Biodiv Indon, 1.

Rusydi, A.F. (2018). Correlation Between Conductivity and Total Dissolved Solid in Various Type of water: A review. In IOP Conference Series: Earth and Environmental Science (Vol. 118, No. 1, p. 012019). IOP Publishing.

Silaban, W. & Silalahi, M. V. (2021). Analisis Kualitas Air di Perairan

Danau Toba Kecamatan Pangururan, Kabupaten Samosir. Jurnal Sains dan Teknologi (JST), 10(2), 302.

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